U.S. patent application number 15/088044 was filed with the patent office on 2017-10-05 for method, device and system for calculating weighted deployment rules in an emergency-vehicle-units deployment system for a geographical area.
The applicant listed for this patent is CAE Inc.. Invention is credited to Brian LYPPS, Andrew NEPOGODIN.
Application Number | 20170287339 15/088044 |
Document ID | / |
Family ID | 59928578 |
Filed Date | 2017-10-05 |
United States Patent
Application |
20170287339 |
Kind Code |
A1 |
NEPOGODIN; Andrew ; et
al. |
October 5, 2017 |
METHOD, DEVICE AND SYSTEM FOR CALCULATING WEIGHTED DEPLOYMENT RULES
IN AN EMERGENCY-VEHICLE-UNITS DEPLOYMENT SYSTEM FOR A GEOGRAPHICAL
AREA
Abstract
Method, device and system for deploying emergency vehicle units
in a geographical area. A computer receives, from at least one
external resource, location data and status information for each of
a plurality of emergency vehicle units. The location data and
status information is stored in a memory buffer. The computer
applies a deployment calculation formula for calculating a
deployment recommendation considering a list of weighted deployment
rules, the location data, the status information and a list of
priority indicators. Display the deployment recommendation. An
updated deployment recommendation is received from the user
interface module. Display the updated deployment recommendation.
Calculate an updated list of weighted deployment rules in order for
the deployment calculation formula to provide a new deployment
recommendation. Display the new deployment recommendation.
Inventors: |
NEPOGODIN; Andrew; (Kanata,
CA) ; LYPPS; Brian; (Ottawa, CA) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
CAE Inc. |
Saint-Laurent |
|
CA |
|
|
Family ID: |
59928578 |
Appl. No.: |
15/088044 |
Filed: |
March 31, 2016 |
Current U.S.
Class: |
1/1 |
Current CPC
Class: |
G06Q 50/30 20130101;
G08G 1/202 20130101; G06Q 10/06 20130101 |
International
Class: |
G08G 1/00 20060101
G08G001/00; G08G 1/0969 20060101 G08G001/0969; G08G 1/0968 20060101
G08G001/0968; G01C 21/34 20060101 G01C021/34; G01C 21/36 20060101
G01C021/36 |
Claims
1. A method of calculating weighted deployment rules in an
emergency-vehicle-units deployment system for a geographical area,
the method comprising: receiving, from at least one external
resource, location data and status information for each of a
plurality of emergency vehicle units; storing the location data and
status information for each of the plurality of emergency vehicle
units in a memory buffer; storing a list of priority indicators
associated to each of a plurality of posts in the memory buffer;
storing in the memory buffer a list of weighted deployment rules
for deploying the plurality of emergency vehicle units to the
plurality of posts; applying a deployment calculation formula for
calculating a deployment recommendation considering the list of
weighted deployment rules, the location data, the status
information and the list of priority indicators from the memory
buffer, the deployment recommendation comprising one or more
suggested deployments, each suggested deployment providing a
suggested target post from the plurality of posts for one of the
plurality of emergency vehicle units; at the computer, sending the
deployment recommendation to the user interface module for display;
at the computer, receiving an updated deployment recommendation
from the user interface module; at the computer, sending the
updated deployment recommendation to the user interface module for
display; calculating an updated list of weighted deployment rules
in order for the deployment calculation formula to provide a new
deployment recommendation considering the updated list of weighted
deployment rules, new location data, new status information and a
new list of priority indicators; and at the computer, sending the
new deployment recommendation to the user interface module for
display.
2. The method of claim 1, wherein a first user inputs the updated
deployment recommendation, and a second user views the new
deployment recommendation.
3. The method of claim 1, further comprising, at the computer,
sending a list of steps to implement the updated deployment
recommendation to the user interface module for display.
4. The method of claim 1, further comprising, at the computer,
receiving a user updated list of weighted deployment rules from the
user interface module to provide the new deployment recommendation
considering the user updated list of weighted deployment rules, the
new location data, the new status information and the new list of
priority indicators.
5. The method of claim 1, sending the updated deployment
recommendation to a plurality of mobile computers located at each
of the plurality of emergency vehicle units for display.
6. The method of claim 1, wherein the user interface module
displays the updated deployment recommendation in a textual
form.
7. The method of claim 1, wherein the user interface module
displays the updated deployment recommendation in a graphical
form.
8. The method of claim 7, wherein each of the one or more suggested
deployments is represented as an arrow from one of the plurality of
emergency vehicle units to the suggested target post of the
plurality of posts.
9. The method of claim 7, wherein the graphical form comprises a
polygon for representing a geographical sub-area within the
geographical area that is reachable by the plurality of emergency
vehicle units within a specified time based on the location data
and the status information.
10. A computer for calculating weighted deployment rules in an
emergency-vehicle-units deployment system for a geographical area,
comprising: a storage module for: storing location data and status
information for each of a plurality of emergency vehicle units;
storing a list of priority indicators associated to each of a
plurality of posts; and storing a list of weighted deployment rules
for deploying the plurality of emergency vehicle units to the
plurality of posts; a user interface module for displaying a
deployment recommendation; and a processor module configured to:
receiving, from at least one external resource, location data and
status information for each of a plurality of emergency vehicle
units; storing the location data and status information for each of
the plurality of emergency vehicle units in a memory buffer in the
storage module; applying a deployment calculation formula for
calculating a deployment recommendation considering the list of
weighted deployment rules, the location data, the status
information and the list of priority indicators from the memory
buffer, the deployment recommendation comprising one or more
suggested deployments, each suggested deployment providing a
suggested target post from the plurality of posts for one of the
plurality of emergency vehicle units; sending the deployment
recommendation to the user interface module for display; receiving
an updated deployment recommendation from the user interface
module; sending the updated deployment recommendation to the user
interface module for display; calculating an updated list of
weighted deployment rules in order for the deployment calculation
formula to provide a new deployment recommendation considering the
updated list of weighted deployment rules, new location data, new
status information and a new list of priority indicators; and
sending the new deployment recommendation to the user interface
module for display.
11. The computer of claim 10, wherein a first user inputs the
updated deployment recommendation, and a second user views the new
deployment recommendation.
12. The computer of claim 10, wherein the processor is further for
sending a list of steps to implement the updated deployment
recommendation to the user interface module for display.
13. The computer of claim 10, wherein the processor is further for
receiving a user updated list of weighted deployment rules from the
user interface module to provide the new deployment recommendation
considering the user updated list of weighted deployment rules, the
new location data, the new status information and the new list of
priority indicators.
14. The computer of claim 10, wherein the processor is further for
sending the updated deployment recommendation to a plurality of
mobile computers located at each of the plurality of emergency
vehicle units for display.
15. The computer of claim 10, wherein the user interface module
displays the deployment recommendation in a textual form.
16. The computer of claim 10, wherein the user interface module
displays the deployment recommendation in a graphical form.
17. The computer of claim 16, wherein each of the one or more
suggested deployments is represented as an arrow from one of the
plurality of emergency vehicle units to the suggested target post
of the plurality of posts.
18. The computer of claim 16, wherein the graphical form comprises
a polygon for representing a geographical sub-area within the
geographical area that is reachable by the plurality of emergency
vehicle units within a specified time based on the location data
and the status information.
19. A system for calculating weighted deployment rules in an
emergency-vehicle-units deployment system for a geographical area,
the system comprising: a network comprising a computer and at least
one server; and the computer being configured to: receive location
data and status information for each of a plurality of emergency
vehicle units from the at least one server through the network;
store the location data and status information for each of the
plurality of emergency vehicle units in a memory buffer; store a
list of priority indicators associated to each of a plurality of
posts in the memory buffer; store in the memory buffer a list of
weighted deployment rules for deploying the plurality of emergency
vehicle units to the plurality of posts; apply a deployment
calculation formula for calculating a deployment recommendation
considering the list of weighted deployment rules, the location
data, the status information and the list of priority indicators
from the memory buffer, the deployment recommendation comprising
one or more suggested deployments, each suggested deployment
providing a suggested target post from the plurality of posts for
one of the plurality of emergency vehicle units; send the
deployment recommendation to the user interface module for display;
receive an updated deployment recommendation from the user
interface module; and calculate an updated list of weighted
deployment rules in order for the deployment calculation formula to
provide a new deployment recommendation considering the updated
list of weighted deployment rules, new location data, new status
information and a new list of priority indicators.
20. The system of claim 19, wherein the computer further sends the
updated deployment recommendation or the new deployment
recommendation to a user interface module for display.
21. The system of claim 19, wherein the network further comprises a
plurality of unit computers associated to each of the plurality of
emergency vehicle units, and wherein the at least one server
receives the location data and status information for each of the
plurality of emergency vehicle units from the unit computers
through the network, and wherein the computer sends the updated
deployment recommendation to the plurality of unit computers
through the network for display.
22. The system of claim 19, wherein the at least one server is a
plurality of servers associated to each of the plurality of
emergency vehicle units.
23. The system of claim 19, wherein the network further comprises a
client computer, and wherein the computer sends the updated
deployment recommendation or the new deployment recommendation to
the client computer for display.
24. The system of claim 23, wherein a first user inputs the updated
deployment recommendation, and a second user views the new
deployment recommendation.
25. The system of claim 19, wherein the computer further receives a
user updated list of weighted deployment rules from the user
interface module to provide the new deployment recommendation
considering the user updated list of weighted deployment rules, the
new location data, the new status information and the new list of
priority indicators.
Description
PRIORITY STATEMENT
[0001] This non-provisional patent application claims priority
based upon the PCT patent application entitled "METHOD, DEVICE AND
SYSTEM FOR CALCULATING WEIGHTED DEPLOYMENT RULES IN AN
EMERGENCY-VEHICLE-UNITS DEPLOYMENT SYSTEM FOR A GEOGRAPHICAL AREA",
filed on even date herewith in the name of CAE Inc., herein
incorporated in its entirety.
TECHNICAL FIELD
[0002] The present invention relates to the deployment of emergency
vehicle units within a geographical area, and more particularly, to
calculating weighted deployment rules in an emergency-vehicle-units
deployment system for a geographical area.
BACKGROUND
[0003] Paramedic services deliver emergency medical services to a
city's residents. Paramedic services use communications officers to
dynamically deploy resources (e.g., ambulances) according to a
predetermined deployment strategy. The paramedic services attempt
to deploy resources so as to minimize response times.
Traditionally, the deployment strategies have been sub-optimal
because they are based on best guesses, intuition, and personal
experience. Moreover, the implementation of the deployment strategy
is affected by the communications officers' workload, awareness of
the situation, and experience level.
[0004] The present invention aims at improving the deployment
strategies and the implementation of those strategies.
SUMMARY
[0005] This summary is provided to introduce a selection of
concepts in a simplified form that are further described below in
the Detailed Description. This Summary is not intended to identify
key features or essential features of the claimed subject matter,
nor is it intended to be used as an aid in determining the scope of
the claimed subject matter.
[0006] A first aspect of a first set of embodiments of the
invention is directed to a method for calculating a list of
priority indicators, in an emergency-vehicle-units deployment
system, for each of a plurality of posts in a geographical area.
The method comprises receiving, from at least one external
resource, location data and status information for each of a
plurality of emergency vehicle units. The method further comprises
storing location data and status information for each of the
plurality of emergency vehicle units in a memory buffer, storing a
list of priority indicators associated to each of the plurality of
posts in the memory buffer, storing in the memory buffer a list of
weighted deployment rules for deploying the plurality of emergency
vehicle units to the plurality of posts, storing historical data of
past deployment in the memory buffer, each past deployment
providing a target post from the plurality of posts for one of the
plurality of emergency vehicle units and an associated event, and
storing a list of upcoming events for the geographical area in the
memory buffer. The method also comprises calculating an updated
list of priority indicators for each of the plurality of posts
based at least on the historical data and the list of upcoming
events, and storing the updated list of priority indicators in the
memory buffer. The method then comprises calculating a deployment
recommendation considering the list of weighted deployment rules,
the location data, the status information and the updated list of
priority indicators from the memory buffer, the deployment
recommendation comprising one or more suggested deployments, each
suggested deployment providing a suggested target post from the
plurality of posts for one of the plurality of emergency vehicle
units, and at a computer, sending the deployment recommendation to
a user interface module for display.
[0007] Optionally, the method may further comprise, at the
computer, receiving an acceptance of the deployment recommendation
from the user interface module. As a further option, the method may
comprise, following the acceptance of the deployment
recommendation, sending the deployment recommendation to a
plurality of mobile computers located at each of the plurality of
emergency vehicle units for display.
[0008] Optionally, the method may further comprise, at the
computer, sending a list of steps to implement the deployment
recommendation to the user interface module for display.
[0009] As an option, the method may further comprise, at the
computer, receiving a user updated list of priority indicators for
each of at least one of the plurality of posts from the user
interface module.
[0010] As an option, the user interface module may display the
deployment recommendation in a textual form.
[0011] Optionally, the user interface module may display the
deployment recommendation in a graphical form. As a further option,
each of the one or more suggested deployments may be represented as
an arrow from one of the plurality of emergency vehicle units to
the suggested target post of the plurality of posts. As a further
option, the graphical form may comprise a polygon for representing
a geographical sub-area within the geographical area that is
reachable by the plurality of emergency vehicle units within a
specified time based on the location data, the status information,
the historical data, and the list of upcoming events.
[0012] A second aspect of the first set of embodiments of the
invention is directed to a computer for calculating a list of
priority indicators, in an emergency-vehicle-units deployment
system, for each of a plurality of posts in a geographical area.
The computer comprises a storage module, a user interface module,
and a processor module. The storage module is for storing location
data and status information for each of a plurality of emergency
vehicle units, a list of priority indicators associated to each of
the plurality of posts, a list of weighted deployment rules for
deploying the plurality of emergency vehicle units to the plurality
of posts, historical data of past deployment, each past deployment
providing a target post from the plurality of posts for one of the
plurality of emergency vehicle units and an associated event, and a
list of upcoming events for the geographical area. The user
interface module is for displaying a deployment recommendation. The
processor module is configured to receive, from at least one
external resource, location data and status information for each of
a plurality of emergency vehicle units, and store the location data
and status information for each of the plurality of emergency
vehicle units in a memory buffer in the storage module. The
processor module is also configured to calculate an updated list of
priority indicators for each of the plurality of posts based at
least on the historical data and the list of upcoming events, and
store the updated list of priority indicators in the memory buffer
in the storage module. The processor module is further configured
to calculate a deployment recommendation considering the list of
weighted deployment rules, the location data, the status
information and the updated list of priority indicators in the
storage module, the deployment recommendation comprising one or
more suggested deployments, each suggested deployment providing a
suggested target post from the plurality of posts for one of the
plurality of emergency vehicle units. The processor module is
configured to send the deployment recommendation to the user
interface module for display.
[0013] Optionally, the processor module may further be configured
to receive an acceptance of the deployment recommendation from the
user interface module.
[0014] Optionally, the processor module may further be configured
to send a list of steps to implement the deployment recommendation
to the user interface module for display.
[0015] Optionally, the processor module may further be configured
to receive a user updated list of priority indicators for each of
at least one of the plurality of posts from the user interface
module.
[0016] As an option, the processor module may further be configured
to send the deployment recommendation to a plurality of mobile
computers located at each of the plurality of emergency vehicle
units for display.
[0017] As an option, the user interface module may display the
deployment recommendation in a textual form.
[0018] As an option, the user interface module may display the
deployment recommendation in a graphical form. As a further option
each of the one or more suggested deployments may be represented as
an arrow from one of the plurality of emergency vehicle units to
the suggested target post of the plurality of posts. As another
option, the graphical form may comprise a polygon for representing
a geographical sub-area within the geographical area that is
reachable by the plurality of emergency vehicle units within a
specified time based on the location data, the status information,
the historical data, and the list of upcoming events.
[0019] A third aspect of the first set of embodiments of the
invention is directed to a system for calculating a list of
priority indicators, in an emergency-vehicle-units deployment
system, for each of a plurality of posts in a geographical area.
The system comprises a network, which comprises a computer and at
least one server. The computer is configured to receive location
data and status information for each of a plurality of emergency
vehicle units from the at least one server through the network. The
computer is further configured to store the location data and
status information for each of the plurality of emergency vehicle
units in a memory buffer, store a list of priority indicators
associated to each of the plurality of posts in the memory buffer,
store in the memory buffer a list of weighted deployment rules for
deploying the plurality of emergency vehicle units to the plurality
of posts, store historical data of past deployment in the memory
buffer, each past deployment providing a target post from the
plurality of posts for one of the plurality of emergency vehicle
units and an associated event, and store a list of upcoming events
for the geographical area in the memory buffer. The computer is
further configured to calculate an updated list of priority
indicators for each of the plurality of posts based at least on the
historical data and the list of upcoming events, and store the
updated list of priority indicators in the memory buffer. The
computer is configured to calculate a deployment recommendation
considering the list of weighted deployment rules, the location
data, the status information and the updated list of priority
indicators from the memory buffer, the deployment recommendation
comprising one or more suggested deployments, each suggested
deployment providing a suggested target post from the plurality of
posts for one of the plurality of emergency vehicle units.
[0020] Optionally, the computer may further send the deployment
recommendation to a user interface module for display.
[0021] Optionally, the network may further comprise a plurality of
unit computers associated to each of the plurality of emergency
vehicle units, and wherein the at least one server receives the
location data and status information for each of the plurality of
emergency vehicle units from the unit computers through the
network. As a further option, the computer may send the deployment
recommendation to the plurality of unit computers through the
network for display.
[0022] As an option, the at least one server may be a plurality of
servers associated to each of the plurality of emergency vehicle
units.
[0023] As an option, the network may further comprise a client
computer, and the computer may send the deployment recommendation
to the client computer for display.
[0024] Optionally, the computer may receive a user updated list of
priority indicators for each of at least one of the plurality of
posts from the user interface module.
[0025] A first aspect of a second set of embodiments of the
invention is directed to a method of calculating weighted
deployment rules in an emergency-vehicle-units deployment system
for a geographical area. The method comprises receiving, from at
least one external resource, location data and status information
for each of a plurality of emergency vehicle units. The method
further comprises storing the location data and status information
for each of the plurality of emergency vehicle units in a memory
buffer, storing a list of priority indicators associated to each of
a plurality of posts in the memory buffer, and storing in the
memory buffer a list of weighted deployment rules for deploying the
plurality of emergency vehicle units to the plurality of posts.
[0026] The method also comprises applying a deployment calculation
formula for calculating a deployment recommendation considering the
list of weighted deployment rules, the location data, the status
information and the list of priority indicators from the memory
buffer, the deployment recommendation comprising one or more
suggested deployments, each suggested deployment providing a
suggested target post from the plurality of posts for one of the
plurality of emergency vehicle units, and at the computer, sending
the deployment recommendation to the user interface module for
display. The method then comprises at the computer, receiving an
updated deployment recommendation from the user interface module,
and at the computer, sending the updated deployment recommendation
to the user interface module for display. The method further
comprises calculating an updated list of weighted deployment rules
in order for the deployment calculation formula to provide a new
deployment recommendation considering the updated list of weighted
deployment rules, new location data, new status information and a
new list of priority indicators, and at the computer, sending the
new deployment recommendation to the user interface module for
display.
[0027] Optionally, a first user may input the updated deployment
recommendation, and a second user may view the new deployment
recommendation.
[0028] Optionally, the method may further comprise, at the
computer, sending a list of steps to implement the updated
deployment recommendation to the user interface module for
display.
[0029] Optionally, the method may further comprise, at the
computer, receiving a user updated list of weighted deployment
rules from the user interface module to provide the new deployment
recommendation considering the user updated list of weighted
deployment rules, the new location data, the new status information
and the new list of priority indicators.
[0030] As an option, the method may further comprise sending the
updated deployment recommendation to a plurality of mobile
computers located at each of the plurality of emergency vehicle
units for display.
[0031] As an option, the user interface module may display the
updated deployment recommendation in a textual form.
[0032] As an option, the user interface module displays the updated
deployment recommendation in a graphical form. As a further option,
each of the one or more suggested deployments may be represented as
an arrow from one of the plurality of emergency vehicle units to
the suggested target post of the plurality of posts. As another
option, the graphical form may comprise a polygon for representing
a geographical sub-area within the geographical area that is
reachable by the plurality of emergency vehicle units within a
specified time based on the location data and the status
information.
[0033] A second aspect of the second set of embodiments of the
invention is directed to a computer for calculating weighted
deployment rules in an emergency-vehicle-units deployment system
for a geographical area, the computer comprising a storage module,
a user interface module, and a processor module. The storage module
is for storing location data and status information for each of a
plurality of emergency vehicle units, storing a list of priority
indicators associated to each of a plurality of posts, and storing
a list of weighted deployment rules for deploying the plurality of
emergency vehicle units to the plurality of posts. The user
interface module is for displaying a deployment recommendation. The
processor module is configure to receive, from at least one
external resource, location data and status information for each of
a plurality of emergency vehicle units, and store the location data
and status information for each of the plurality of emergency
vehicle units in a memory buffer in the storage module. The
processor module is further configured to apply a deployment
calculation formula for calculating a deployment recommendation
considering the list of weighted deployment rules, the location
data, the status information and the list of priority indicators
from the memory buffer, the deployment recommendation comprising
one or more suggested deployments, each suggested deployment
providing a suggested target post from the plurality of posts for
one of the plurality of emergency vehicle units. The processor
module is also configured to send the deployment recommendation to
the user interface module for display. The processor module is
configured to receive an updated deployment recommendation from the
user interface module, and send the updated deployment
recommendation to the user interface module for display. The
processor module is also configured to calculate an updated list of
weighted deployment rules in order for the deployment calculation
formula to provide a new deployment recommendation considering the
updated list of weighted deployment rules, new location data, new
status information and a new list of priority indicators. The
processor module is configured to send the new deployment
recommendation to the user interface module for display.
[0034] Optionally, a first user may input the updated deployment
recommendation, and a second user may view the new deployment
recommendation.
[0035] Optionally, the processor module is further configured to
send a list of steps to implement the updated deployment
recommendation to the user interface module for display.
[0036] Optionally, the processor is further configured receive a
user updated list of weighted deployment rules from the user
interface module to provide the new deployment recommendation
considering the user updated list of weighted deployment rules, the
new location data, the new status information and the new list of
priority indicators.
[0037] Optionally, the processor is further configured to send the
updated deployment recommendation to a plurality of mobile
computers located at each of the plurality of emergency vehicle
units for display.
[0038] Optionally, the user interface module may display the
deployment recommendation in a textual form.
[0039] Optionally, the user interface module may display the
deployment recommendation in a graphical form. As a further option,
each of the one or more suggested deployments may be represented as
an arrow from one of the plurality of emergency vehicle units to
the suggested target post of the plurality of posts. As another
option, the graphical form comprises a polygon for representing a
geographical sub-area within the geographical area that is
reachable by the plurality of emergency vehicle units within a
specified time based on the location data and the status
information.
[0040] A third aspect of the second set of embodiments of the
invention is directed to a system for calculating weighted
deployment rules in an emergency-vehicle-units deployment system
for a geographical area. The system comprises a network, which
comprises a computer and at least one server. The computer is
configured to receive location data and status information for each
of a plurality of emergency vehicle units from the at least one
server through the network. The computer is configured to store the
location data and status information for each of the plurality of
emergency vehicle units in a memory buffer, store a list of
priority indicators associated to each of a plurality of posts in
the memory buffer, and store in the memory buffer a list of
weighted deployment rules for deploying the plurality of emergency
vehicle units to the plurality of posts. The computer is configured
to apply a deployment calculation formula for calculating a
deployment recommendation considering the list of weighted
deployment rules, the location data, the status information and the
list of priority indicators from the memory buffer, the deployment
recommendation comprising one or more suggested deployments, each
suggested deployment providing a suggested target post from the
plurality of posts for one of the plurality of emergency vehicle
units. The computer is configured to send the deployment
recommendation to the user interface module for display. The
computer is configured to receive an updated deployment
recommendation from the user interface module. The computer is
configured to calculate an updated list of weighted deployment
rules in order for the deployment calculation formula to provide a
new deployment recommendation considering the updated list of
weighted deployment rules, new location data, new status
information and a new list of priority indicators.
[0041] Optionally, the computer may further send the updated
deployment recommendation to a user interface module for
display.
[0042] Optionally, the computer may further send the new deployment
recommendation to a user interface module for display.
[0043] Optionally, the network may further comprise a plurality of
unit computers associated to each of the plurality of emergency
vehicle units, and wherein the at least one server receives the
location data and status information for each of the plurality of
emergency vehicle units from the unit computers through the
network. As a further option, the computer may send the updated
deployment recommendation to the plurality of unit computers
through the network for display.
[0044] Optionally, the at least one server may be a plurality of
servers associated to each of the plurality of emergency vehicle
units.
[0045] Optionally, the network may further comprise a client
computer, and wherein the computer sends the updated deployment
recommendation to the client computer for display.
[0046] Optionally, the network may further comprise a client
computer, and wherein the computer sends the new deployment
recommendation to the client computer for display.
[0047] Optionally, a first user may input the updated deployment
recommendation, and a second user may view the new deployment
recommendation.
[0048] Optionally, the computer may further receive a user updated
list of weighted deployment rules from the user interface module to
provide the new deployment recommendation considering the user
updated list of weighted deployment rules, the new location data,
the new status information and the new list of priority
indicators.
[0049] A first aspect of a third set of embodiments of the
invention is directed to a method for continuously recommending a
deployment of emergency vehicle units towards one or more of a
plurality of posts in a geographical area. The method comprises
receiving, from at least one external resource, location data and
status information for each of a plurality of emergency vehicle
units. The method further comprises storing the location data and
status information for each of the plurality of emergency vehicle
units in a memory buffer, storing a list of priority indicators
associated to each of the plurality of posts in the memory buffer,
and storing in the memory buffer a list of weighted deployment
rules for deploying the plurality of emergency vehicle units to the
plurality of posts. The method also comprises upon receiving a
trigger, calculating a deployment recommendation based on the list
of weighted deployment rules, the location data, the status
information and the list of priority indicators from the memory
buffer, the deployment recommendation comprising one or more
suggested deployments, each suggested deployment providing a
suggested target post from the plurality of posts for one of the
plurality of emergency vehicle units. The method comprises at a
computer, upon calculating the deployment recommendation, sending
the deployment recommendation to a user interface module of the
computer for display.
[0050] Optionally, the method may further comprise sending the
deployment recommendation to a plurality of mobile computers
located at each of the plurality of emergency vehicle units for
display.
[0051] Optionally, the user interface module may display the
deployment recommendation in a textual form.
[0052] Optionally, the user interface module may display the
deployment recommendation in a graphical form. As a further option,
each of the one or more suggested deployments is represented as an
arrow from one of the plurality of emergency vehicle units to the
suggested target post of the plurality of posts. As another option,
the graphical form may comprise a polygon for representing a
geographical sub-area within the geographical area that is
reachable by the plurality of emergency vehicle units within a
specified time based on the location data and the status
information.
[0053] Optionally, the trigger may be generated periodically with a
frequency. Optionally, the method may further comprise receiving
the frequency from the user interface module.
[0054] Optionally, the trigger may be an external event, including
a change in the location data or status information.
[0055] A second aspect of the third set of embodiments of the
invention is directed to a computer for continuously recommending a
deployment of emergency vehicle units towards one or more of a
plurality of posts. The computer comprises a storage module, a user
interface module, and a processor module. The storage module is for
storing location data and status information for each of a
plurality of emergency vehicle units, storing a list of priority
indicators associated to each of the plurality of posts, and
storing a list of weighted deployment rules for deploying the
plurality of emergency vehicle units to the plurality of posts. The
user interface module is for displaying a deployment
recommendation. The processor module is configured to receive, from
at least one external resource, location data and status
information for each of a plurality of emergency vehicle units, and
to store location data and status information for each of the
plurality of emergency vehicle units in a memory buffer in the
storage module. The processor module is further configured to, upon
receiving a trigger, calculate a deployment recommendation
considering the list of weighted deployment rules, the location
data, the status information and the updated list of priority
indicators in the storage module, the deployment recommendation
comprising one or more suggested deployments, each suggested
deployment providing a suggested target post from the plurality of
posts for one of the plurality of emergency vehicle units. The
processor module is configured to send the deployment
recommendation to the user interface module for display.
[0056] Optionally, the processor module may further be for sending
the deployment recommendation to a plurality of mobile computers
located at each of the plurality of emergency vehicle units for
display.
[0057] Optionally, the user interface module may display the
deployment recommendation in a textual form.
[0058] Optionally, the user interface module may display the
deployment recommendation in a graphical form. Optionally, each of
the one or more suggested deployments is represented as an arrow
from one of the plurality of emergency vehicle units to the
suggested target post of the plurality of posts. Optionally, the
graphical form may comprise a polygon for representing a
geographical sub-area within the geographical area that is
reachable by the plurality of emergency vehicle units within a
specified time based on the location data and the status
information.
[0059] Optionally, the trigger may be generated periodically with a
frequency. Optionally, the frequency may be received from the user
interface module.
[0060] Optionally, the trigger may be an external event, including
a change in the location data or status information.
[0061] A third aspect of the third set of embodiments of the
invention is directed to a system for continuously recommending a
deployment of emergency vehicle units towards one or more of a
plurality of posts. The system comprises a network, which comprises
a computer and at least one server. The computer is configured to
receive location data and status information for each of a
plurality of emergency vehicle units from the at least one server
through the network. The computer is configured to store the
location data and status information for each of the plurality of
emergency vehicle units in a memory buffer, store a list of
priority indicators associated to each of the plurality of posts in
the memory buffer, and store in the memory buffer a list of
weighted deployment rules for deploying the plurality of emergency
vehicle units to the plurality of posts.
[0062] The computer is configured to upon receiving a trigger,
calculate a deployment recommendation considering the list of
weighted deployment rules, the location data, the status
information and the updated list of priority indicators from the
memory buffer, the deployment recommendation comprising one or more
suggested deployments, each suggested deployment providing a
suggested target post from the plurality of posts for one of the
plurality of emergency vehicle units.
[0063] Optionally, the computer may further send the deployment
recommendation to a user interface module for display.
[0064] Optionally, the network may further comprise a plurality of
unit computers associated to each of the plurality of emergency
vehicle units, and wherein the at least one server receives the
location data and status information for each of the plurality of
emergency vehicle units from the unit computers through the
network.
[0065] Optionally, the computer may further send the deployment
recommendation to the plurality of unit computers through the
network for display.
[0066] Optionally, the at least one server may be a plurality of
servers associated to each of the plurality of emergency vehicle
units.
[0067] Optionally, the network may further comprise a client
computer, and wherein the computer sends the deployment
recommendation to the client computer for display.
[0068] Optionally, the trigger may be generated periodically with a
frequency. Optionally, the computer may receive the frequency from
a user interface module.
[0069] Optionally, the trigger may be an external event, including
a change in the location data or status information.
[0070] Optionally, the computer may receive the trigger from the
server through the network.
[0071] Optionally, the computer may receive the trigger from one or
more of the plurality of unit computers through the network.
BRIEF DESCRIPTION OF THE DRAWINGS
[0072] Further features and exemplary advantages of the present
invention will become apparent from the following detailed
description, taken in conjunction with the appended drawings, in
which:
[0073] FIG. 1 is a logical modular representation of an exemplary
system comprising a computing device for deploying emergency
vehicle units;
[0074] FIG. 2 is a flow chart of an exemplary method of a first set
of embodiments for calculating a list of priority indicators, in an
emergency-vehicle-units deployment system, for each of a plurality
of posts in a geographical area;
[0075] FIG. 3 is a flow chart of an exemplary method of a second
set of embodiments for calculating weighted deployment rules in an
emergency-vehicle-units deployment system for a geographical
area;
[0076] FIG. 4 is a flow chart of an exemplary method of a third set
of embodiments for continuously recommending a deployment of
emergency vehicle units towards one or more of a plurality of
posts;
[0077] FIG. 5 is an example of the deployment panel component of a
graphical user interface for an exemplary computing system for
deploying emergency vehicle units; and
[0078] FIG. 6 is an example of the map component of a graphical
user interface for an exemplary computing system for deploying
emergency vehicle units.
DETAILED DESCRIPTION
[0079] In a preferred embodiment of a first set of embodiments of
the present invention, a user uses a Deployment Computing Device
("DCD") to deploy emergency vehicle units (e.g., ambulances, fire
trucks, and police vehicles) to a plurality of posts within a
geographical area. A post is a physical location where one or more
emergency vehicles wait until they are called to an emergency. Each
post has a priority. Emergency vehicle units are deployed to posts
after responding to an emergency. The DCD continuously receives
location data and status information regarding the emergency
vehicle units from a server. The DCD stores the location data and
status information in a memory buffer. When the user clicks the
"Recommend" button, the DCD calculates and displays a deployment
recommendation to the user. A deployment recommendation comprises
one or more suggested deployments, where each suggested deployment
is a suggested post for one of the emergency vehicle units in need
of a post. A deployment recommendation may be displayed to the user
in a textual format (e.g., in a table) or a graphical format (e.g.,
as arrows from emergency vehicle units to the suggested posts on a
map). When calculating the deployment recommendation, the DCD
considers such things as the location data, the status information,
a weighted list of deployment rules, and a list of priority
indicators. The weighted list of deployment rules comprise a number
of rules for assigning emergency vehicle units to posts, such
"total travel time should be minimized". The weight associated with
each rule reflects the importance of satisfying that rule, or the
cost of not satisfying the rule. The list of priority indicators
are the priorities for each of the posts. The DCD calculates the
list of priority indicators based on historical data (e.g.,
historical travel times) and a list of upcoming events (e.g., rush
hour or a sporting event) for the geographical area. Once the
deployment recommendation has been displayed to the user, the user
can accept the deployment recommendation by clicking an "Accept"
button. The DCD then displays a sequence of steps for implementing
the deployment recommendation.
[0080] In a preferred embodiment of a second set of embodiments of
the present invention, a user uses a Deployment Computing Device
("DCD") to deploy emergency vehicle units (e.g., ambulances, fire
trucks, and police vehicles) to a plurality of posts within a
geographical area. A post is a physical location where one or more
emergency vehicles wait until they are called to an emergency. Each
post has a priority. Emergency vehicle units are deployed to posts
after responding to an emergency. The DCD continuously receives
location data and status information regarding the emergency
vehicle units from a server. The DCD stores the location data and
status information in a memory buffer. When the user clicks the
"Recommend" button, the DCD calculates and displays a deployment
recommendation to the user. A deployment recommendation comprises
one or more suggested deployments, where each suggested deployment
is a suggested post for one of the emergency vehicle units in need
of a post. A deployment recommendation may be displayed to the user
in a textual format (e.g., in a table) or a graphical format (e.g.,
as arrows from emergency vehicle units to the suggested posts on a
map). When calculating the deployment recommendation, the DCD
considers such things as the location data, the status information,
a weighted list of deployment rules, and a list of priority
indicators. The weighted list of deployment rules comprise a number
of rules for assigning emergency vehicle units to posts, such
"total travel time should be minimized". The weight associated with
each rule reflects the importance of satisfying that rule, or the
cost of not satisfying the rule. The list of priority indicators
are the priorities for each of the posts. Once the deployment
recommendation has been displayed to the user, the user can accept
the deployment recommendation by clicking an "Accept" button or
make changes to the deployment recommendation, thereby creating an
updated deployment recommendation. Overriding the deployment
recommendation engages the system training mode: The DCD uses the
updated deployment recommendation to train the system by
calculating an updated weighted list of deployment rules based on
the updated deployment recommendation provided by the user. The DCD
will then use the updated weighted list of deployment rules to
calculate deployment recommendations in the future, such that the
future deployment recommendations resemble the deployment
recommendations preferred by the user.
[0081] In a preferred embodiment of a third set of embodiments of
the present invention, a user uses a Deployment Computing Device
("DCD") to deploy emergency vehicle units (e.g., ambulances, fire
trucks, and police vehicles) to a plurality of posts within a
geographical area. A post is a physical location where one or more
emergency vehicles wait until they are called to an emergency. Each
post has a priority. Emergency vehicle units are deployed to posts
after responding to an emergency. The DCD continuously receives
location data and status information regarding the emergency
vehicle units from a server. The DCD stores the location data and
status information in a memory buffer. The DCD calculates and
displays a deployment recommendation to the user whenever a trigger
is received. The trigger may be an external event, such as an
emergency vehicle unit being called to an emergency or changing its
physical location more than a threshold distance. The triggers and
other parameters (e.g., the threshold distance) may be hard coded
or set by the user. A deployment recommendation comprises one or
more suggested deployments, where each suggested deployment is a
suggested post for one of the emergency vehicle units in need of a
post. A deployment recommendation may be displayed to the user in a
textual format (e.g., in a table) or a graphical format (e.g., as
arrows from emergency vehicle units to the suggested posts on a
map). When calculating the deployment recommendation, the DCD
considers such things as the location data, the status information,
a weighted list of deployment rules, and a list of priority
indicators. The weighted list of deployment rules comprise a number
of rules for assigning emergency vehicle units to posts, such
"total travel time should be minimized". The weight associated with
each rule reflects the importance of satisfying that rule, or the
cost of not satisfying the rule. The list of priority indicators
are the priorities for each of the posts. The DCD may display a
sequence of steps for implementing the deployment
recommendation.
[0082] Reference is made to the drawings in which FIG. 1 shows a
logical modular representation of an exemplary system 1000
comprising a DCD 1200 for deploying emergency vehicle units. The
exemplary system 1000 will be used to illustrate the first, second,
and third sets of embodiments. The DCD 1200 comprises a memory
module 1220, a processor module 1230, and a user interface module
1240. The DCD 1200 may further comprise a network interface module
1210. The exemplified system 1000 comprises a display module 1100
(e.g., connected to the DCD 1100B or integrated with the DCD 1100A)
and a network 1300, which may be used to connect to the display
device 1100B. The exemplified system 1000 may comprise a storage
module 1400 (e.g., integrated with the DCD 1400A or connected to
the DCD through the network 1400B). For example, the DCD 1200 could
be a desktop computer, a server, or a mobile computing device
(e.g., smart phone or tablet).
[0083] Reference is now made concurrently to FIG. 1 and FIG. 2,
which shows a flow chart of an exemplary method 2000 of a first set
of embodiments for calculating a list of priority indicators, in an
emergency-vehicle-units deployment system, for each of a plurality
of posts. The method 2000 comprises receiving, from at least one
external resource, location data and status information for each of
a plurality of emergency vehicle units 2010. The location data and
status information are received at the DCD 1200. The external
resource may be a server 1500 connected to the DCD 1200 through the
network 1300, where the DCD 1200 receives the location data and
status information from the server 1500 through the network 1300.
The status information for each of the emergency vehicle units may
include such information as whether the unit is active, shift
schedules (i.e., start of shift and end of shift time), unit
attributes (e.g., regular units, specialized units), unit
assignment to low-density or high-density areas, unit's
availability for deployment, and the post the unit is at or
assigned to. A specialized unit is an emergency vehicle unit where
the crew and/or the vehicle have special attributes. For example,
specialized units may include: an emergency vehicle unit that is in
training mode, an emergency vehicle unit wherein one or more of its
crew are students, an emergency vehicle unit that has a single crew
member, an emergency vehicle unit that is a car, an emergency
vehicle unit that is an ambulance for handling chemical spills. The
status information may also include information about meal periods
(e.g., time window when unit requires a meal period, time when unit
is on meal period, completed meal periods, and missed meal
periods), number of deployments per unit per shift, cumulative
kilometers driven in a shift, idle time at a location, the number
of times a unit has been rerouted before reaching a post, and the
time a unit has been on route to a destination. This information
may also be calculated and/or tracked by the DCD 1200 rather than
received as status information from the server 1500. The DCD 1200
and the server 1500 may communicate using TCP/IP and Ethernet or
ATM SONET/SDNET over air, copper wires, optical fiber, or any other
physical support capable of carrying data. Skilled persons will
readily understand that many different network protocols could be
used without affecting the functioning of the invention. The
network 1300 may be the Internet or other wide area network. The
network 1300 may also be a local area network. The location data
and status information may be in a textual format (e.g., XML or
JSON) or a binary format. The location data and status information
may be manually inputted into the DCD 1200. The DCD 1200 may
receive the location data and status information continuously in
real-time. Alternatively, the DCD 1200 may receive the location
data and status information periodically (e.g., every five
minutes). As a further alternative, the DCD 1200 may receive the
location data and status information only when the user requests a
deployment recommendation.
[0084] The method 2000 comprises storing location data and status
information for each of the plurality of emergency vehicle units in
a memory buffer 2020. For example, the location data and status
information may be stored in the memory module 1220 of the DCD
1200. Alternatively, the location data and status information may
be stored in the storage module 1400.
[0085] The method 2000 comprises storing a list of priority
indicators associated to each of a plurality of posts in the memory
buffer. For instance, the list of priority indicators associated to
each of the plurality of posts may be stored in the memory module
1220 of the DCD 1200, or they may be stored in the storage module
1400. The list of priority indicators comprise a priority for each
of the posts. The priority is used by the DCD 1200 when calculating
a deployment of emergency vehicle units to posts. For example, a
post with a higher priority than another post will, other things
being equal, receive an emergency vehicle unit faster than the post
with the lower priority. The priorities of the posts may be
represented using an ordered ranking. That is, if there are N
posts, each post receives a unique priority number between 1 and N,
where the post with priority N has the highest priority, and the
post with the priority 1 has the lowest priority, or vice versa. A
skilled person will understand that there are many other means for
representing the relative priorities of the posts.
[0086] The method 2000 comprises storing in the memory buffer a
list of weighted deployment rules for deploying the plurality of
emergency vehicle units to the plurality of posts. For example, the
list of weighted deployment rules may be stored in the memory
module 1220 of the DCD 1200 or in the storage module 1400. The list
of weighted deployment rules may comprise the following rules:
[0087] The total travel time should be minimized. The travel time
when emergency vehicle units go to their posts should be as little
as possible; [0088] If an emergency vehicle unit is already at a
post, its redeployment is penalized. The penalty is greatest for
the first 10 minutes (after arrival to the current post); then the
penalty is less if the arrival time is 10-30 minutes ago; and the
penalty is smallest if after 30 minutes; [0089] The drive time to
posts with higher priority should be minimized. The higher the
priority the greater the penalty for the estimate arrival time
duration; [0090] If an emergency vehicle unit is en route to a
post, its rerouting to another post is penalized; and the second
(and following) rerouting is penalized even more; [0091] If an
emergency vehicle unit is at a meal dedicated post (i.e., a post
with a kitchen) and has a meal-in-progress status, its redeployment
is penalized. Penalty depends on the time in the meal break, and
number of meal break (i.e., first or second); [0092] Deploying a
low density unit far from its starting rural post is penalized. The
greater the drive time to the starting post the greater the
penalty; [0093] Deploying a high density unit far from headquarters
within the last 60 minutes of its shift is penalized. The longer
the drive time the greater the penalty; [0094] Deploying a
specialized emergency vehicle unit to a post that is not explicitly
dedicated for specialized units is penalized; [0095] Assigning
emergency vehicle units with greater workload to the higher
priority posts is penalized. That is, units with lower workload
should be given preference to go to the higher priority posts; and
[0096] If an emergency vehicle unit is due for a meal-break, there
is penalty for not deploying the unit to a meal dedicated post.
[0097] The list of weighted deployment rules may also comprise the
following constraints, where a constraint is a rule that must be
satisfied: [0098] An emergency vehicle unit can go to only one post
at a time; [0099] A post can have 0 or 1 emergency vehicle units
associated therewith (where the unit is either deployed or en
route); [0100] A specialized emergency vehicle unit cannot go to a
low density post (i.e., posts in a rural area); [0101] A single
unit (an emergency vehicle unit with one paramedic) cannot go to a
post that is not dedicated for single units; [0102] If an emergency
vehicle unit is at a post, the unit cannot be assigned to an
associated post (two posts are associated posts if they are located
nearby and are interchangeable with one another for the purpose of
calculating deployment recommendations); and [0103] If a post is
occupied by a specialized emergency vehicle unit, another
specialized emergency vehicle unit cannot replace the currently
occupying unit. The weights associated with each of the weighted
deployment rules can, for example, be represented as a real number
between 0 and 1 or as a percentage between 0% and 100%. A weight of
1 or 100%, for instance, could represent that the rule is a
constraint that must be satisfied. A skilled person would
understand that other numeric systems could be used to represent
the weights associated with each of the weighted deployment
rules.
[0104] The method 2000 comprises storing historical data of past
deployment in the memory buffer, each past deployment providing a
target post from the plurality of posts for one of the plurality of
emergency vehicle units and an associated event. The historical
data may, for instance, be stored in the memory module of the DCD
1200 or the storage module 1400. The historical data may, for
example, relate to the number of emergencies that occurred within a
geographical sub-area of the geographical area covered by the
system 1000 during the associated event. The historical data may,
for example, relate to the time for the emergency vehicle units to
reach a target post or to reach the location of an emergency during
the associated event. The associated event may be such things as
rush hour, weekdays, weekends, holidays, sporting events, concerts,
and other large public events. The DCD 1200 may build a bank of
historical data over time by tracking the emergency vehicle units
through the location data and status information received from the
server 1500. The DCD 1200 may alternatively receive the historical
data, as well as updates to the historical data, from an external
resource, such as the server 1500, a CD-ROM, a DVD, an external
hard drive, or some other means for storing and transmitting the
historical data.
[0105] The method 2000 comprises storing a list of upcoming events
for the geographical area in the memory buffer. For example, the
list of upcoming events may be stored in the memory module 1220 of
the DCD 1200 or in the storage module 1400. The list of upcoming
events may include rush hour, weekdays, weekends, holidays,
sporting events, concerts, and other large public events. The list
of upcoming events permits the DCD 1200 to determine which
historical data is relevant based on the event associated with that
historical data.
[0106] The method 2000 comprises calculating an updated list of
priority indicators for each of the plurality of posts based at
least on the historical data and the list of upcoming events 2030.
Calculating an updated list of priority indicators means assigning
different priorities to one or more of the posts. For examples, if
the priorities are represented as a rank ordering of the posts
(i.e., each post is a assigned a number from 1 to N, where there
are N posts), calculating an updated list of priority indicators
involves providing a new rank ordering of the posts. For example,
if the next upcoming event is rush hour, and according to the
historical data associated with the event rush hour, there tend to
be more incidents in the geographical sub-area around a particular
highway, the DCD 1200 will update the list of priority indicators
so that the posts in the geographical area surround the particular
highway receive a higher priority than normal.
[0107] The method 2000 comprises storing the updated list of
priority indicators in the memory buffer. The updated list of
priority indicates may, for example, be stored in the memory module
1220 of the DCD 1200 or in the storage module 1400.
[0108] The method 2000 comprises calculating a deployment
recommendation considering the list of weighted deployment rules,
the location data, the status information and the updated list of
priority indicators from the memory buffer 2040, the deployment
recommendation comprising one or more suggested deployments, each
suggested deployment providing a suggested target post from the
plurality of posts for one of the plurality of emergency vehicle
units. The DCD 1200 may read the list of weighted deployment rules,
the location data, the status information and the updated list of
priority indicators from the memory module 1220 of the DCD 1200 or
from the storage module 1400. The list of weighted deployment rules
define an optimization problem in relation to the location data,
the status information, and the updated list of priority
indicators. For example, the list of weighted deployment rules may
define an optimization problem in which the time to arrive at the
site of an emergency is minimized. The DCD 1200 uses optimization
techniques that would be well-known to a person skilled in the art
to solve the optimization problem defined by the list of weighted
deployment rules using the parameters provided by the location
data, the status information, and the updated list of priority
indicators. Alternatively, the DCD 1200 may use an external system
or software package to solve the optimization problem. The result
of the calculation is a set of pairings between emergency vehicle
units and posts, representing the deployment of a particular
emergency vehicle unit to a particular post.
[0109] The method 2000 comprises, at a computer, sending the
deployment recommendation to a user interface module for display
2050. Once the deployment recommendation has been calculated, the
DCD 1200 displays this deployment recommendation through the user
interface module 1240. The deployment recommendation may be
displayed on a display device 1100A that is integrated with the DCD
1200 or on a display device 1100B that is external to the DCD 1200.
The deployment recommendation may be sent to the display device
1100B over the network 1300 for display. The user interface module
1240 may display the deployment recommendation using text-based
interface or using a graphical user interface (GUI). FIGS. 5 and 6
show an exemplary GUI 5000 for an emergency-vehicle-units
deployment system. The GUI 5000 comprises a deployment panel 5010
and a map 5020.
[0110] As an option, the method 2000, may further comprise, at the
computer, receiving an acceptance of the deployment recommendation
from the user interface module. The user interface module 1240 of
the DCD 1200 may comprise a GUI button 5015, a physical button, or
a touch sensitive surface. The user indicates his or her acceptance
of the deployment recommendation by clicking this button, pushing
the physical button (e.g., a key on a keyboard), or touching the
touch sensitive surface. The deployment recommendation may be
accepted in whole or in part. In the case of a partial acceptance,
the interface module 1240 of the DCD 1200 may display the result of
the partial acceptance for the further review and acceptance of the
user. The user of the DCD 1200 may then assign emergency vehicle
units to posts by communicating with the emergency vehicle units
(e.g., by radio, telephone, or text messaging) in accordance with
the accepted deployment recommendation. A skilled person would
understand that once the deployment recommendation has been
accepted, the recommendation becomes a deployment assignment of
emergency vehicle units to posts.
[0111] As an option, the method 2000 may further comprise, at the
computer, sending a list of steps to implement the deployment
recommendation to the user interface module for display. Based on
the deployment recommendation, the DCD 1200 calculates a number of
steps to be performed by the user to implement the deployment
recommendation. The implementation steps may include, for example,
to communicate with a particular emergency vehicle unit to direct
the unit to a particular post. The implementation steps may be
displayed on the display device 1100A that is integrated with the
DCD 1200 or on the display device 1100B that is external to the DCD
1200. The implementation steps may be sent to the display device
1100B over the network 1300 for display. The user interface module
1240 may display the implementation steps using text-based
interface or using a graphical user interface (GUI). The user of
the DCD 1200 may then assign emergency vehicle units to posts by
communicating with the emergency vehicle units (e.g., by radio,
telephone, or text messaging) in accordance with the implementation
steps.
[0112] As an option, the method 2000 may further comprise, at the
computer, receiving a user updated list of priority indicators for
each of at least one of the plurality of posts from the user
interface module. The user may want to modify the priorities that
the DCD 1200 has assigned to the posts, for example, if there is an
unexpected event that was not in the list of upcoming events. The
user interface module 1240 may provide a means for updating said
priorities. For example, the user interface module 1240 may
comprise a rank order listing of the posts, where the user may drag
and drop the posts into a different order reflecting a different
rank order of priority. Alternatively, the user interface module
may comprise a map of the physical locations of the posts, where
each post on the map has a number representing its priority, which
is editable by the user.
[0113] As an option, the method 2000 may further comprise,
following the acceptance of the deployment recommendation, sending
the deployment recommendation to a plurality of mobile computers
located at each of the plurality of emergency vehicle units for
display. Instead of the user of the DCD 1200 communicating the
deployment recommendation to the emergency vehicle units, the DCD
1200 may send the deployment recommendation directly to mobile
computers located directly in the emergency vehicle units. The
mobile computers may be smart phones, tablets, laptop computers, or
a computer system integrated in the emergency vehicle unit. The
mobile computers may receive the deployment recommendation from the
DCD 1200 through the network 1300. The DCD 1200 may send the entire
deployment recommendation to each mobile computer or only the part
of the deployment recommendation relevant to that particular
emergency vehicle unit. When the mobile computer receives the
deployment recommendation, the deployment recommendation is
displayed. The deployment recommendation may be displayed in a
textual or a graphical format. As an alternative, the deployment
recommendation may be communicated using audio, using
text-to-speech technology.
[0114] Optionally, the user interface module 1240 may display the
deployment recommendation in a textual form. The user interface
module 1240 may, for example, comprise a standard text-based
command-prompt. Alternatively, the interface module may comprise a
GUI 5000, which displays the deployment recommendation in a textual
format in the deployment pane 5010. For example, the GUI 5000 may
comprise a table 5013 where a first column contains identifiers for
the emergency vehicle units and a second column contains
identifiers for target post for each emergency vehicle unit.
[0115] Optionally, the user interface module 1240 displays the
deployment recommendation in a graphical form. As a further option,
each of the one or more suggested deployments is represented as an
arrow from one of the plurality of emergency vehicle units to the
suggested target post of the plurality of posts. For example, the
user interface module 1240 may comprise map 5020 showing the
locations of each of the emergency vehicle units 5021 and the posts
5023. The user interface module 1240 may display the deployment
recommendation with arrows 5022 from each of the emergency vehicle
units 5021 to their target posts 5023. As a further option, the
graphical form may comprise a polygon for representing a
geographical sub-area within the geographical area that is
reachable by the plurality of emergency vehicle units within a
specified time based on the location data, the status information,
the historical data, and the list of upcoming events. There may be
a requirement that emergency vehicle units reach the location of an
emergency within a specified time (e.g., 10 minutes) of being
dispatched. The user of the system 1000 will therefore want to be
able to see at a glance which parts of the map are currently
covered and whether there are any gaps. The DCD 1200 may calculate
the geographical sub-area that is reachable by the emergency
vehicle units within a specified period of time. The user interface
module 1240 may then represent this geographical sub-area using a
polygon. A single polygon may be generated to represent the area
that is covered by all the emergency vehicle units combined.
Alternatively, a separate polygon may be generated for each
emergency vehicle unit. As another alternative, the DCD 1200 may
receive the geographical sub-area that is reachable by the
emergency vehicle units within a specified period of time from an
external resource, such as the server 1500.
[0116] Optionally, the system 1000 wherein the network further
comprises a plurality of unit computers associated to each of the
plurality of emergency vehicle units, and wherein the at least one
server 1500 receives the location data and status information for
each of the plurality of emergency vehicle units from the unit
computers through the network 1300. The unit computers may be
mobile computers (e.g., smart phone, tablet, laptop) located in the
emergency vehicle unit. The unit computer may also be a computer
integrated with the emergency vehicle unit. The unit computers may
automatically determine the location data using a Global
Positioning System. Alternatively, the location data, as well as
the status information, may be manually entered. The server 1500
then receives the location data and status information from the
plurality of unit computers through the network 1300.
[0117] Optionally, the system 1000 wherein the computer 1200 sends
the deployment recommendation to the plurality of unit computers
through the network 1300 for display. Instead of the user of the
DCD 1200 communicating the deployment recommendation to the
emergency vehicle units, the DCD 1200 may send the deployment
recommendation directly to the unit computers located directly in
the emergency vehicle units. The unit computers may receive the
deployment recommendation from the DCD 1200 through the network
1300. The DCD 1200 may send the entire deployment recommendation to
each unit computer or only the part of the deployment
recommendation relevant to that particular emergency vehicle unit.
When the unit computer receives the deployment recommendation, the
deployment recommendation is displayed. The deployment
recommendation may be displayed in a textual or a graphical format.
As an alternative, the deployment recommendation may be
communicated using audio, using text-to-speech technology.
[0118] As an option, the system 1000 wherein the at least one
server 1500 is a plurality of servers 1500 associated to each of
the plurality of emergency vehicle units. Each of the plurality of
servers 1500 may be mobile computers (e.g., smart phone, tablet, or
laptop) located in the emergency vehicle units. The plurality of
servers 1500 may also be a computer integrated with the emergency
vehicle unit. The plurality of servers 1500 may automatically
determine the location data using a Global Positioning System.
Alternatively, the location data, as well as the status
information, may be manually entered. The DCD 1200 receives the
location data and status information from the plurality of servers
1500 through the network 1300.
[0119] As an option, the system 1000 wherein the network 1300
further comprises one or more client computers, and wherein the DCD
1200 sends the deployment recommendation to the one or more client
computers for display. In the preferred embodiment, the one or more
client computers are desktop computers. Alternatively, the one or
more client computers are mobile computers (e.g., smart phone,
tablet, laptop). This permits multiple users to use the DCD 1200
system simultaneously in different physical locations. A user may
request a deployment recommendation from one of the client
computers, and the deployment recommendation may be sent to the DCD
1200 through the network 1300. A user may accept a deployment
recommendation from one of the client computers, and the deployment
recommendation may be sent to the DCD 1200 through the network
1300. The interface module 1240 of the DCD 1200 may graphically
render the deployment recommendation prior to sending the
recommendation to the client computers through the network 1300.
Alternatively, the DCD 1200 may send the deployment recommendation
as data to the client computers through the network 1300, where an
interface module of the client computers graphically renders and
displays the deployment recommendation on a display device of the
client computers.
[0120] Optionally, the system 1000 wherein the system 1000
comprises a plurality of display devices 1100B connected to the DCD
1200 through the network 1300. The DCD 1200 sends the GUI rendered
by the user interface module 1240 for display on the plurality of
display devices 1100B through the network 1300. Each display device
1100B may provide the same or different GUI. Each display device
1100B may display the same GUI with the same data. Alternatively,
each display device 1100B may display the same GUI with different
data. As another alternative, each display device 1100B may display
a different GUI with either the same or different data. This
provides another means for permitting multiple users to
simultaneously use the DCD 1200 in different locations. In
particular, the DCD 1200 may send a deployment recommendation for
display to the display devices 1100B through the network 1300. A
user may request a deployment recommendation from the display
device 1100B and send the request to the DCD 1200 through the
network 1300. A user may accept a deployment recommendation from
the display device 1100B and send the acceptance to the DCD 1200
through the network 1200.
[0121] Optionally, the system 1000 wherein the at least one server
1500 is a plurality of servers 1500. The DCD 1200 may receive the
same types of information from each of the plurality of servers
1500, where having a plurality of servers 1500 is for the purpose,
for instance, of redundancy and efficiency. Alternatively, the DCD
1200 may receive different types of information from each of the
plurality of servers 1500. For example, the plurality of servers
1500 may comprise two servers 1500, wherein the DCD 1200 receives
location data from a first of the two servers 1500, and the DCD
1200 receives status information from a second of the two servers
1500.
[0122] Reference is now made concurrently to FIG. 1 and FIG. 3,
which shows a flow chart of an exemplary method 3000 of a second
set of embodiments for calculating weighted deployment rules in an
emergency-vehicle-units deployment system for a geographical area.
The method 3000 comprises receiving, from at least one external
resource, location data and status information for each of a
plurality of emergency vehicle units 3010. The location data and
status information are received at the DCD 1200. The external
resource may be a server 1500 connected to the DCD 1200 through the
network 1300, where the DCD 1200 receives the location data and
status information from the server 1500 through the network 1300.
The status information for each of the emergency vehicle units may
include such information as whether the unit is active, shift
schedules (i.e., start of shift and end of shift time), unit
attributes (e.g., regular units, specialized units), unit
assignment to low-density or high-density areas, unit's
availability for deployment, and the post the unit is at or
assigned to. A specialized unit is an emergency vehicle unit where
the crew and/or the vehicle have special attributes. For example,
specialized units may include: an emergency vehicle unit that is in
training mode, an emergency vehicle unit wherein one or more of its
crew are students, an emergency vehicle unit that has a single crew
member, an emergency vehicle unit that is a car, an emergency
vehicle unit that is an ambulance for handling chemical spills. The
status information may also include information about meal periods
(e.g., time window when unit requires a meal period, time when unit
is on meal period, completed meal periods, and missed meal
periods), number of deployments per unit per shift, cumulative
kilometers driven in a shift, idle time at a location, the number
of times a unit has been rerouted before reaching a post, and the
time a unit has been on route to a destination. This information
may also be calculated and/or tracked by the DCD 1200 rather than
received as status information from the server 1500. The DCD 1200
and the server 1500 may communicate using TCP/IP and Ethernet or
ATM SONET/SDNET over air, copper wires, optical fiber, or any other
physical support capable of carrying data. Skilled persons will
readily understand that many different network protocols could be
used without affecting the functioning of the invention. The
network 1300 may be the Internet or other wide area network. The
network 1300 may also be a local area network. The location data
and status information may be in a textual format (e.g., XML or
JSON) or a binary format. The location data and status information
may be manually inputted into the DCD 1200. The DCD 1200 may
receive the location data and status information continuously in
real-time. Alternatively, the DCD 1200 may receive the location
data and status information periodically (e.g., every five
minutes). As a further alternative, the DCD 1200 may receive the
location data and status information only when the user requests a
deployment recommendation.
[0123] The method 3000 comprises storing location data and status
information for each of the plurality of emergency vehicle units in
a memory buffer 3020. For example, the location data and status
information may be stored in the memory module 1220 of the DCD
1200. Alternatively, the location data and status information may
be stored in the storage module 1400.
[0124] The method 3000 comprises storing a list of priority
indicators associated to each of a plurality of posts in the memory
buffer. For instance, the list of priority indicators associated to
each of the plurality of posts may be stored in the memory module
1220 of the DCD 1200, or they may be stored in the storage module
1400. The list of priority indicators comprise a priority for each
of the posts. The priority is used by the DCD 1200 when calculating
a deployment of emergency vehicle units to posts. For example, a
post with a higher priority than another post will, other things
being equal, receive an emergency vehicle unit faster than the post
with the lower priority. The priorities of the posts may be
represented using an ordered ranking. That is, if there are N
posts, each post receives a unique priority number between 1 and N,
where the post with priority N has the highest priority, and the
post with the priority 1 has the lowest priority, or vice versa. A
skilled person will understand that there are many other means for
representing the relative priorities of the posts.
[0125] The method 3000 comprises storing in the memory buffer a
list of weighted deployment rules for deploying the plurality of
emergency vehicle units to the plurality of posts. For example, the
list of weighted deployment rules may be stored in the memory
module 1220 of the DCD 1200 or in the storage module 1400. The list
of weighted deployment rules may comprise the following rules:
[0126] The total travel time should be minimized. The travel time
when emergency vehicle units go to their posts should be as little
as possible; [0127] If an emergency vehicle unit is already at a
post, its redeployment is penalized. The penalty is greatest for
the first 10 minutes (after arrival to the current post); then the
penalty is less if the arrival time is 10-30 minutes ago; and the
penalty is smallest if after 30 minutes; [0128] The drive time to
posts with higher priority should be minimized. The higher the
priority the greater the penalty for the estimate arrival time
duration; [0129] If an emergency vehicle unit is en route to a
post, its rerouting to another post is penalized; and the second
(and following) rerouting is penalized even more; [0130] If an
emergency vehicle unit is at a meal dedicated post (i.e., a post
with a kitchen) and has a meal-in-progress status, its redeployment
is penalized. Penalty depends on the time in the meal break, and
number of meal break (i.e., first or second); [0131] Deploying a
low density unit far from its starting rural post is penalized. The
greater the drive time to the starting post the greater the
penalty; [0132] Deploying a high density unit far from headquarters
within the last 60 minutes of its shift is penalized. The longer
the drive time the greater the penalty; [0133] Deploying a
specialized emergency vehicle unit to a post that is not explicitly
dedicated for specialized units is penalized; [0134] Assigning
emergency vehicle units with greater workload to the higher
priority posts is penalized. That is, units with lower workload
should be given preference to go to the higher priority posts; and
[0135] If an emergency vehicle unit is due for a meal-break, there
is penalty for not deploying the unit to a meal dedicated post. The
list of weighted deployment rules may also comprise the following
constraints, where a constraint is a rule that must be satisfied:
[0136] An emergency vehicle unit can go to only one post at a time;
[0137] A post can have 0 or 1 emergency vehicle units associated
therewith (where the unit is either deployed or en route); [0138] A
specialized emergency vehicle unit cannot go to a low density post
(i.e., posts in a rural area); [0139] A single unit (an emergency
vehicle unit with one paramedic) cannot go to a post that is not
dedicated for single units; [0140] If an emergency vehicle unit is
at a post, the unit cannot be assigned to an associated post (two
posts are associated posts if they are located nearby and are
interchangeable with one another for the purpose of calculating
deployment recommendations); and [0141] If a post is occupied by a
specialized emergency vehicle unit, another specialized emergency
vehicle unit cannot replace the currently occupying unit. The
weights associated with each of the weighted deployment rules can,
for example, be represented as a real number between 0 and 1 or as
a percentage between 0% and 100%. A weight of 1 or 100%, for
instance, could represent that the rule is a constraint that must
be satisfied. A skilled person would understand that other numeric
systems could be used to represent the weights associated with each
of the weighted deployment rules.
[0142] The method 3000 comprises applying a deployment calculation
formula for calculating a deployment recommendation considering the
list of weighted deployment rules, the location data, the status
information and the list of priority indicators from the memory
buffer 3030, the deployment recommendation comprising one or more
suggested deployments, each suggested deployment providing a
suggested target post from the plurality of posts for one of the
plurality of emergency vehicle units. The DCD 1200 may read the
list of weighted deployment rules, the location data, the status
information and the list of priority indicators from the memory
module 1220 of the DCD 1200 or from the storage module 1400. The
list of weighted deployment rules define an optimization problem in
relation to the location data, the status information, and the
updated list of priority indicators. For example, the list of
weighted deployment rules may define an optimization problem in
which the time to arrive at the site of an emergency is minimized.
The DCD 1200 uses optimization techniques that would be well-known
to a person skilled in the art to solve the optimization problem
defined by the list of weighted deployment rules using the
parameters provided by the location data, the status information,
and the list of priority indicators. Alternatively, the DCD 1200
may use an external system or software package to solve the
optimization problem. The result of the calculation is a set of
pairings between emergency vehicle units and posts, representing
the deployment of a particular emergency vehicle unit to a
particular post.
[0143] The method 3000 comprises, at the computer, sending the
deployment recommendation to a user interface module for display
3040. Once the DCD 1200 has calculated the deployment
recommendation, the deployment recommendation is displayed through
the user interface module 1240. The deployment recommendation may
be displayed on a display device 1100A that is integrated with the
DCD 1200 or on a display device 1100B that is external to the DCD
1200. The deployment recommendation may be sent to the display
device 1100B over the network 1300 for display. The user interface
module 1240 may display the deployment recommendation using
text-based interface or using a graphical user interface (GUI).
FIGS. 5 and 6 show an exemplary GUI 5000 for an
emergency-vehicle-units deployment system. The GUI 5000 comprises a
deployment panel 5010 and a map 5020.
[0144] The method 3000 comprises, at the computer, receiving an
updated deployment recommendation from the user interface module
3050. The user may use the text-based interface or GUI to modify
the deployment recommendation. At least one of the suggested
deployments of the updated deployment recommendation may be
different from the corresponding suggested deployment of the
deployment recommendation calculated by the DCD 1200. If the
deployment recommendation is displayed in a table (e.g., a first
column indicates the emergency vehicle unit and a second column
indicates the target post), the user may, for example, modify the
deployment recommendation by modifying the target post column.
Alternatively, the GUI may provide a drag-and-drop interface for
modifying the deployment recommendation. For example, if the
deployment recommendation is displayed on a map with arrows between
the emergency vehicle units and the posts, the user may be able to
modify the deployment recommendation by dragging and dropping the
arrows between different emergency vehicle units and posts. The
user may then save the updated deployment recommendation. For
example, there may be a "Save" or "Submit" button. Alternatively,
the updated deployment recommendation may be saved every time the
user makes a change to the deployment. Receipt of the updated
deployment recommendation from the user interface module 1240 may
in itself indicate the user's acceptance of the updated deployment
recommendation. Alternatively, there may be a further step of
acceptance (e.g., the clicking of an "Accept" button). A skilled
person would understand that once the updated deployment
recommendation has been accepted, the recommendation becomes a
deployment assignment.
[0145] The method 3000 comprises, at the computer, sending the
updated deployment recommendation to the user interface module for
display 3060. The deployment recommendation may be displayed on a
display device 1100A that is integrated with the DCD 1200 or on a
display device 1100B that is external to the DCD 1200. The
deployment recommendation may be sent to the display device 1100B
over the network 1300 for display. The user interface module 1240
may display the deployment recommendation using text-based
interface or using a graphical user interface (GUI).
[0146] The method 3000 comprises calculating an updated list of
weighted deployment rules in order for the deployment calculation
formula to provide a new deployment recommendation considering the
updated list of weighted deployment rules, new location data, new
status information and a new list of priority indicators 3070.
Overriding the deployment recommendation engages the system
training mode. The system training mode may be automatically
engaged when the user modifies the deployment recommendation.
Alternatively, the system training mode may be automatically
engaged when the user saves the updated deployment recommendation.
In the system training mode, the DCD 1200 uses the updated
deployment recommendation provided by the user to modify the
weights of the list of weighted deployment rules so that future
deployment recommendations will more closely resemble the
deployment recommendations desired by the user. That is, the DCD
1200 learns how to make better deployment recommendations based on
the updated deployment recommendations entered by the user. The DCD
1200 uses standard methods from the field of artificial
intelligence to train itself that would be familiar to a person
skilled in the art. The updated list of weighted deployment rules
may be used to provide deployment recommendations in the future to
the same user, so that the user is provided with deployment
recommendations that more closely resemble their preferences.
[0147] The method 3000, at the computer, sending the new deployment
recommendation to the user interface module for display. The
deployment recommendation may be displayed on a display device
1100A that is integrated with the DCD 1200 or on a display device
1100B that is external to the DCD 1200. The deployment
recommendation may be sent to the display device 1100B over the
network 1300 for display. The user interface module 1240 may
display the deployment recommendation using text-based interface or
using a graphical user interface (GUI).
[0148] Optionally, the method 3000 wherein a first user inputs the
updated deployment recommendation, and a second user views the new
deployment recommendation. The updated list of weighted deployment
rules may provide deployment recommendations to a different user
from the one that entered the updated deployment recommendation.
For example, the updated list of weighted deployment rules may be
generated from the updated deployment recommendation of an expert
user, and the updated list of weighted deployment rules may be used
to provide deployment recommendations to one or more junior users.
That is, the DCD 1200 may trained using the choices of an expert
user for the benefit of junior users so that the junior users can
learn from the expert users.
[0149] As an option, the method 3000 may further comprise, at the
computer, sending a list of steps to implement the deployment
recommendation to the user interface module for display. Based on
the deployment recommendation, the DCD 1200 calculates a number of
steps to be performed by the user to implement the deployment
recommendation. The implementation steps may include, for example,
to communicate with a particular emergency vehicle unit to direct
the unit to a particular post. The implementation steps may be
displayed on the display device 1100A that is integrated with the
DCD 1200 or on the display device 1100B that is external to the DCD
1200. The implementation step may be sent to the display device
1100B over the network 1300 for display. The user interface module
1240 may display the implementation steps using text-based
interface or using a graphical user interface (GUI).
[0150] As an option, the method 3000 may further comprise, at the
computer, receiving a user updated list of weighted deployment
rules from the user interface module to provide the new deployment
recommendation considering the user updated list of weighted
deployment rules, the new location data, the new status information
and the new list of priority indicators. The user may want to
modify the weights associated with the rules of the list of
weighted deployment rules. For example, the user may believe that
the DCD 1200 may provide better deployment recommendations with a
different set of weights than the ones calculated by the DCD 1200.
The user interface module 1240 may provide a means for updating
said weights. For example, the user interface module 1240 may
comprise table mapping deployment rules to weights that permits the
user update the weights associated to each of the rules. The user
interface module 1240 may also permit the user to add, remove, and
edit the deployment rules.
[0151] As an option, the method 3000 may further comprise, sending
the deployment recommendation to a plurality of mobile computers
located at each of the plurality of emergency vehicle units for
display. Instead of the user of the DCD 1200 communicating the
deployment recommendation to the emergency vehicle units, the DCD
1200 may send the deployment recommendation directly to mobile
computers located directly in the emergency vehicle units. The
mobile computers may be smart phones, tablets, laptop computers, or
a computer system integrated in the emergency vehicle unit. The
mobile computers may receive the deployment recommendation from the
DCD 1200 through the network 1300. The DCD 1200 may send the entire
deployment recommendation to each mobile computer or only the part
of the deployment recommendation relevant to that particular
emergency vehicle unit. When the mobile computer receives the
deployment recommendation, the deployment recommendation is
displayed. The deployment recommendation may be displayed in a
textual or a graphical format. As an alternative, the deployment
recommendation may be communicated using audio, using
text-to-speech technology.
[0152] Optionally, the user interface module 1240 may display the
deployment recommendation in a textual form. The user interface
module 1240 may, for example, comprise a standard text-based
command-prompt. Alternatively, the interface module may comprise a
GUI 5000, which displays the deployment recommendation in a textual
format in the deployment pane 5010. For example, the GUI 5000 may
comprise a table 5013 where a first column contains identifiers for
the emergency vehicle units and a second column contains
identifiers for target post for each emergency vehicle unit.
[0153] Optionally, the user interface module 1240 displays the
deployment recommendation in a graphical form. As a further option,
each of the one or more suggested deployments is represented as an
arrow from one of the plurality of emergency vehicle units to the
suggested target post of the plurality of posts. For example, the
user interface module 1240 may comprise map 5020 showing the
locations of each of the emergency vehicle units 5021 and the posts
5023. The user interface module 1240 may display the deployment
recommendation with arrows 5022 from each of the emergency vehicle
units 5021 to their target posts 5023. As a further option, the
graphical form may comprise a polygon for representing a
geographical sub-area within the geographical area that is
reachable by the plurality of emergency vehicle units within a
specified time based on the location data, the status information,
the historical data, and the list of upcoming events. There may be
a requirement that emergency vehicle units reach the location of an
emergency within a specified time (e.g., 10 minutes) of being
dispatched. The user of the system 1000 will therefore want to be
able to see at a glance which parts of the map are currently
covered and whether there are any gaps. The DCD 1200 may calculate
the geographical sub-area that is reachable by the emergency
vehicle units within a specified period of time. The user interface
module 1240 may then represent this geographical sub-area using a
polygon. A single polygon may be generated to represent the area
that is covered by all the emergency vehicle units combined.
Alternatively, a separate polygon may be generated for each
emergency vehicle unit. As another alternative, the DCD 1200 may
receive the geographical sub-area that is reachable by the
emergency vehicle units within a specified period of time from an
external resource, such as the server 1500.
[0154] Optionally, the system 1000 wherein the network further
comprises a plurality of unit computers associated to each of the
plurality of emergency vehicle units, and wherein the at least one
server 1500 receives the location data and status information for
each of the plurality of emergency vehicle units from the unit
computers through the network 1300. The unit computers may be
mobile computers (e.g., smart phone, tablet, laptop) located in the
emergency vehicle unit. The unit computer may also be a computer
integrated with the emergency vehicle unit. The unit computers may
automatically determine the location data using a Global
Positioning System. Alternatively, the location data, as well as
the status information, may be manually entered. The server 1500
then receives the location data and status information from the
plurality of unit computers through the network 1300.
[0155] Optionally, the system 1000 wherein the computer 1200 sends
the updated deployment recommendation to the plurality of unit
computers through the network 1300 for display. Instead of the user
of the DCD 1200 communicating the deployment recommendation to the
emergency vehicle units, the DCD 1200 may send the updated
deployment recommendation directly to the unit computers located
directly in the emergency vehicle units. The unit computers may
receive the updated deployment recommendation from the DCD 1200
through the network 1300. The DCD 1200 may send the entire updated
deployment recommendation to each unit computer or only the part of
the updated deployment recommendation relevant to that particular
emergency vehicle unit. When the unit computer receives the updated
deployment recommendation, the updated deployment recommendation is
displayed. The updated deployment recommendation may be displayed
in a textual or a graphical format. As an alternative, the updated
deployment recommendation may be communicated using audio, using
text-to-speech technology.
[0156] As an option, the system 1000 wherein the at least one
server 1500 is a plurality of servers 1500 associated to each of
the plurality of emergency vehicle units. Each of the plurality of
servers 1500 may be mobile computers (e.g., smart phone, tablet, or
laptop) located in the emergency vehicle units. The plurality of
servers 1500 may also be a computer integrated with the emergency
vehicle unit. The plurality of servers 1500 may automatically
determine the location data using a Global Positioning System.
Alternatively, the location data, as well as the status
information, may be manually entered. The DCD 1200 receives the
location data and status information from the plurality of servers
1500 through the network 1300.
[0157] As an option, the system 1000 wherein the network 1300
further comprises one or more client computers, and wherein the DCD
1200 sends the updated deployment recommendation to the one or more
client computers for display. In the preferred embodiment, the one
or more client computers are desktop computers. Alternatively, the
one or more client computers are mobile computers (e.g., smart
phone, tablet, laptop). This permits multiple users to use the DCD
1200 system simultaneously in different physical locations. A user
may request a deployment recommendation from one of the client
computers, and the updated deployment recommendation may be sent to
the DCD 1200 through the network 1300. A user may accept a
deployment recommendation from one of the client computers, and the
updated deployment recommendation may be sent to the DCD 1200
through the network 1300. The interface module 1240 of the DCD 1200
may graphically render the updated deployment recommendation prior
to sending the updated recommendation to the client computers
through the network 1300. Alternatively, the DCD 1200 may send the
updated deployment recommendation as data to the client computers
through the network 1300, where an interface module of the client
computers graphically renders and displays the updated deployment
recommendation on a display device of the client computers.
[0158] Optionally, the system 1000 wherein the system 1000
comprises a plurality of display devices 1100B connected to the DCD
1200 through the network 1300. The DCD 1200 send the GUI rendered
by the user interface module 1240 for display on the plurality of
display devices 1100B through the network 1300. Each display device
1100B may provide the same or different GUI. Each display device
1100B may display the same GUI with the same data. Alternatively,
each display device 1100B may display the same GUI with different
data. As another alternative, each display device 1100B may display
a different GUI with either the same or different data. This
provides another means for permitting multiple users to
simultaneously use the DCD 1200 in different locations. In
particular, the DCD 1200 may send an updated deployment
recommendation for display to the display devices 1100B through the
network 1300. A user may request a deployment recommendation from
the display device 1100B and send the request to the DCD 1200
through the network 1300. A user may accept a deployment
recommendation from the display device 1100B and send the
acceptance to the DCD 1200 through the network 1200.
[0159] Optionally, the system 1000 wherein the at least one server
1500 is a plurality of servers 1500. The DCD 1200 may receive the
same types of information from each of the plurality of servers
1500, where having a plurality of servers 1500 is for the purpose,
for instance, of redundancy and efficiency. Alternatively, the DCD
1200 may receive different types of information from each of the
plurality of servers 1500. For example, the plurality of servers
1500 may comprise two servers 1500, wherein the DCD 1200 receives
location data from a first of the two servers 1500, and the DCD
1200 receives status information from a second of the two servers
1500.
[0160] Reference is now made concurrently to FIG. 1 and FIG. 4,
which shows a flow chart of an exemplary method 4000 of a third set
of embodiments for continuously recommending a deployment of
emergency vehicle units towards one or more of a plurality of
posts. The method 4000 comprises receiving, from at least one
external resource, location data and status information for each of
a plurality of emergency vehicle units 4010. The location data and
status information are received at the DCD 1200. The external
resource may be a server 1500 connected to the DCD 1200 through the
network 1300, where the DCD 1200 receives the location data and
status information from the server 1500 through the network 1300.
The status information for each of the emergency vehicle units may
include such information as whether the unit is active, shift
schedules (i.e., start of shift and end of shift time), unit
attributes (e.g., regular units, specialized units), unit
assignment to low-density or high-density areas, unit's
availability for deployment, and the post the unit is at or
assigned to. A specialized unit is an emergency vehicle unit where
the crew and/or the vehicle have special attributes. For example,
specialized units may include: an emergency vehicle unit that is in
training mode, an emergency vehicle unit wherein one or more of its
crew are students, an emergency vehicle unit that has a single crew
member, an emergency vehicle unit that is a car, an emergency
vehicle unit that is an ambulance for handling chemical spills. The
status information may also include information about meal periods
(e.g., time window when unit requires a meal period, time when unit
is on meal period, completed meal periods, and missed meal
periods), number of deployments per unit per shift, cumulative
kilometers driven in a shift, idle time at a location, the number
of times a unit has been rerouted before reaching a post, and the
time a unit has been on route to a destination. This information
may also be calculated and/or tracked by the DCD 1200 rather than
received as status information from the server 1500. The DCD 1200
and the server 1500 may communicate using TCP/IP and Ethernet or
ATM SONET/SDNET over air, copper wires, optical fiber, or any other
physical support capable of carrying data. Skilled persons will
readily understand that many different network protocols could be
used without affecting the functioning of the invention. The
network 1300 may be the Internet or other wide area network. The
network 1300 may also be a local area network. The location data
and status information may be in a textual format (e.g., XML or
JSON) or a binary format. The location data and status information
may be manually inputted into the DCD 1200. The DCD 1200 may
receive the location data and status information continuously in
real-time. Alternatively, the DCD 1200 may receive the location
data and status information periodically (e.g., every five
minutes). As a further alternative, the DCD 1200 may receive the
location data and status information only when the user requests a
deployment recommendation.
[0161] The method 4000 comprises storing location data and status
information for each of the plurality of emergency vehicle units in
a memory buffer 4020. For example, the location data and status
information may be stored in the memory module 1220 of the DCD
1200. Alternatively, the location data and status information may
be stored in the storage module 1400.
[0162] The method 4000 comprises storing a list of priority
indicators associated to each of a plurality of posts in the memory
buffer. For instance, the list of priority indicators associated to
each of the plurality of posts may be stored in the memory module
1220 of the DCD 1200, or they may be stored in the storage module
1400. The list of priority indicators comprise a priority for each
of the posts. The priority is used by the DCD 1200 when calculating
a deployment of emergency vehicle units to posts. For example, a
post with a higher priority than another post will, other things
being equal, receive an emergency vehicle unit faster than the post
with the lower priority. The priorities of the posts may be
represented using an ordered ranking. That is, if there are N
posts, each post receives a unique priority number between 1 and N,
where the post with priority N has the highest priority, and the
post with the priority 1 has the lowest priority, or vice versa. A
skilled person will understand that there are many other means for
representing the relative priorities of the posts.
[0163] and end of shift time), unit attributes (e.g., regular
units, specialized units), unit deployment rules for deploying the
plurality of emergency vehicle units to the plurality of posts. For
example, the list of weighted deployment rules may be stored in the
memory module 1220 of the DCD 1200 or in the storage module 1400.
The list of weighted deployment rules may comprise the following
rules: [0164] The total travel time should be minimized. The travel
time when emergency vehicle units go to their posts should be as
little as possible; [0165] If an emergency vehicle unit is already
at a post, its redeployment is penalized. The penalty is greatest
for the first 10 minutes (after arrival to the current post); then
the penalty is less if the arrival time is 10-30 minutes ago; and
the penalty is smallest if after 30 minutes; [0166] The drive time
to posts with higher priority should be minimized. The higher the
priority the greater the penalty for the estimate arrival time
duration; [0167] If an emergency vehicle unit is en route to a
post, its rerouting to another post is penalized; and the second
(and following) rerouting is penalized even more; [0168] If an
emergency vehicle unit is at a meal dedicated post (i.e., a post
with a kitchen) and has a meal-in-progress status, its redeployment
is penalized. Penalty depends on the time in the meal break, and
number of meal break (i.e., first or second); [0169] Deploying a
low density unit far from its starting rural post is penalized. The
greater the drive time to the starting post the greater the
penalty; [0170] Deploying a high density unit far from headquarters
within the last 60 minutes of its shift is penalized. The longer
the drive time the greater the penalty; [0171] Deploying a
specialized emergency vehicle unit to a post that is not explicitly
dedicated for specialized units is penalized; [0172] Assigning
emergency vehicle units with greater workload to the higher
priority posts is penalized. That is, units with lower workload
should be given preference to go to the higher priority posts; and
[0173] If an emergency vehicle unit is due for a meal-break, there
is penalty for not deploying the unit to a meal dedicated post. The
list of weighted deployment rules may also comprise the following
constraints, where a constraint is a rule that must be satisfied:
[0174] An emergency vehicle unit can go to only one post at a time;
[0175] A post can have 0 or 1 emergency vehicle units associated
therewith (where the unit is either deployed or en route); [0176] A
specialized emergency vehicle unit cannot go to a low density post
(i.e., posts in a rural area); [0177] A single unit (an emergency
vehicle unit with one paramedic) cannot go to a post that is not
dedicated for single units; [0178] If an emergency vehicle unit is
at a post, the unit cannot be assigned to an associated post (two
posts are associated posts if they are located nearby and are
interchangeable with one another for the purpose of calculating
deployment recommendations); and [0179] If a post is occupied by a
specialized emergency vehicle unit, another specialized emergency
vehicle unit cannot replace the currently occupying unit. The
weights associated with each of the weighted deployment rules can,
for example, be represented as a real number between 0 and 1 or as
a percentage between 0% and 100%. A weight of 1 or 100%, for
instance, could represent that the rule is a constraint that must
be satisfied. A skilled person would understand that other numeric
systems could be used to represent the weights associated with each
of the weighted deployment rules.
[0180] The method 4000 comprises, upon receiving a trigger,
calculating a deployment recommendation considering the list of
weighted deployment rules, the location data, the status
information and the list of priority indicators from the memory
buffer 4030, the deployment recommendation comprising one or more
suggested deployments, each suggested deployment providing a
suggested target post from the plurality of posts for one of the
plurality of emergency vehicle units. The DCD 1200 may read the
list of weighted deployment rules, the location data, the status
information and the list of priority indicators from the memory
module 1220 of the DCD 1200 or from the storage module 1400. The
list of weighted deployment rules define an optimization problem in
relation to the location data, the status information, and the list
of priority indicators. For example, the list of weighted
deployment rules may define an optimization problem in which the
time to arrive at the site of an emergency is minimized. The DCD
1200 uses optimization techniques that would be well-known to a
person skilled in the art to solve the optimization problem defined
by the list of weighted deployment rules using the parameters
provided by the location data, the status information, and the list
of priority indicators. Alternatively, the DCD 1200 may use an
external system or software package to solve the optimization
problem. The result of the calculation is a set of pairings between
emergency vehicle units and posts, representing the deployment of a
particular emergency vehicle unit to a particular post.
[0181] The method 4000 comprises, at a computer, sending the
deployment recommendation to a user interface module for display
4040. Once the DCD 1200 has calculated the deployment
recommendation, the deployment recommendation is displayed through
the user interface module 1240. The deployment recommendation may
be displayed on a display device 1100A that is integrated with the
DCD 1200 or on a display device 1100B that is external to the DCD
1200. The deployment recommendation may be sent to the display
device 1100B over the network 1300 for display. The user interface
module 1240 may display the deployment recommendation using
text-based interface or using a graphical user interface (GUI).
FIGS. 5 and 6 show an exemplary GUI 5000 for an
emergency-vehicle-units deployment system. The GUI 5000 comprises a
deployment panel 5010 and a map 5020. The user of the DCD 1200 may
then assign emergency vehicle units to posts by communicating with
the emergency vehicle units (e.g., by radio, telephone, or text
messaging). As the user assigns emergency vehicle units to posts,
the user sequentially accepts the deployment recommendation. The
sequential acceptance of the deployment recommendation may be
entered in the user interface module 1240 of the DCD 1200.
Alternatively, the sequential acceptance of the deployment
recommendation may be entered in a separate computer system that is
connected to the DCD 1200 through the network 1300. A skilled
person would understand that as the user sequentially accepts the
deployment recommendation, each accepted recommendation becomes a
deployment assignment.
[0182] As an option, the method 4000 may further comprise sending
the deployment recommendation to a plurality of mobile computers
located at each of the plurality of emergency vehicle units for
display. Instead of the user of the DCD 1200 communicating the
deployment recommendation to the emergency vehicle units, after the
user accepts the deployment recommendation (e.g., by clicking an
"Accept" button), the DCD 1200 may send the deployment
recommendation directly to mobile computers located directly in the
emergency vehicle units. The mobile computers may be smart phones,
tablets, laptop computers, or a computer system integrated in the
emergency vehicle unit. The mobile computers may receive the
deployment recommendation from the DCD 1200 through the network
1300. The DCD 1200 may send the entire deployment recommendation to
each mobile computer or only the part of the deployment
recommendation relevant to that particular emergency vehicle unit.
When the mobile computer receives the deployment recommendation,
the deployment recommendation is displayed. The deployment
recommendation may be displayed in a textual or a graphical format.
As an alternative, the deployment recommendation may be
communicated using audio, using text-to-speech technology.
[0183] Optionally, the user interface module 1240 may display the
deployment recommendation in a textual form. The user interface
module 1240 may, for example, comprise a standard text-based
command-prompt. Alternatively, the interface module may comprise a
GUI 5000, which displays the deployment recommendation in a textual
format in the deployment pane 5010. For example, the GUI 5000 may
comprise a table 5013 where a first column contains identifiers for
the emergency vehicle units and a second column contains
identifiers for target post for each emergency vehicle unit.
[0184] Optionally, the user interface module 1240 displays the
deployment recommendation in a graphical form. As a further option,
each of the one or more suggested deployments is represented as an
arrow from one of the plurality of emergency vehicle units to the
suggested target post of the plurality of posts. For example, the
user interface module 1240 may comprise map 5020 showing the
locations of each of the emergency vehicle units 5021 and the posts
5023. The user interface module 1240 may display the deployment
recommendation with arrows 5022 from each of the emergency vehicle
units 5021 to their target posts 5023. As a further option, the
graphical form may comprise a polygon for representing a
geographical sub-area within the geographical area that is
reachable by the plurality of emergency vehicle units within a
specified time based on the location data, the status information,
the historical data, and the list of upcoming events. There may be
a requirement that emergency vehicle units reach the location of an
emergency within a specified time (e.g., 10 minutes) of being
dispatched. The user of the system 1000 will therefore want to be
able to see at a glance which parts of the map are currently
covered and whether there are any gaps. The DCD 1200 may calculate
the geographical sub-area that is reachable by the emergency
vehicle units within a specified period of time. The user interface
module 1240 may then represent this geographical sub-area using a
polygon. A single polygon may be generated to represent the area
that is covered by all the emergency vehicle units combined.
Alternatively, a separate polygon may be generated for each
emergency vehicle unit. As another alternative, the DCD 1200 may
receive the geographical sub-area that is reachable by the
emergency vehicle units within a specified period of time from an
external resource, such as the server 1500.
[0185] Optionally, the method 4000 wherein the trigger is generated
periodically with a frequency. As a further option, the method 4000
further comprising receiving the frequency from the user interface
module 1240. The trigger may be generated by a clock within or
attached to the DCD 1200. When a certain period of time (e.g., 1
minute) elapses on the clock, the clock or the DCD 1200 may
generate an event or trigger. This trigger causes the DCD 1200 to
calculate a new deployment recommendation. This provides continuous
deployment of the emergency vehicle units. The frequency with which
the clock generates the triggers may be modified by the user of the
DCD 1200 using the user interface module 1240. As an alternative
option, the method 4000 wherein the trigger is an external event,
including a change in the location data or status information. For
example, the DCD 1200 may continuously receive the location data
and status information from the server 1500. Whenever an emergency
vehicle unit moves a distance greater than some threshold (e.g.,
200 m), the DCD 1200 generates the trigger. Alternatively, the
trigger may be generated by the server 1500, wherein the DCD 1200
receives the trigger from the server 1500 through the network 1300.
The trigger may also be an internal event. For example, the trigger
may be generated whenever list of weighted deployment rules or the
list of priority indicators is changed. This provides for
continuous deployment of the emergency vehicle units, which may
ensure that the current deployment recommendation is always based
on the latest location data, status information, list of weighted
deployment rules, and list of priority indicators. The trigger may
also be generated by the user interface module 1240. For example,
the trigger may comprise a user clicking a button in the user
interface module 1240.
[0186] Optionally, the system 1000 wherein the network further
comprises a plurality of unit computers associated to each of the
plurality of emergency vehicle units, and wherein the at least one
server 1500 receives the location data and status information for
each of the plurality of emergency vehicle units from the unit
computers through the network 1300. The unit computers may be
mobile computers (e.g., smart phone, tablet, laptop) located in the
emergency vehicle unit. The unit computer may also be a computer
integrated with the emergency vehicle unit. The unit computers may
automatically determine the location data using a Global
Positioning System. Alternatively, the location data, as well as
the status information, may be manually entered. The server 1500
then receives the location data and status information from the
plurality of unit computers through the network 1300. As a further
option, the plurality of unit computers may generate the trigger
for calculating the deployment recommendation. The DCD 1200 may
receive the trigger from the plurality of unit computers through
the network 1300. For example, one of the unit computers may
generate a trigger when its associated emergency vehicle unit has
moved more than some threshold distance (e.g., 1 km), or when the
status of its associated emergency vehicle unit has changed.
[0187] Optionally, the system 1000 wherein the computer 1200 sends
the deployment recommendation to the plurality of unit computers
through the network 1300 for display. Instead of the user of the
DCD 1200 communicating the deployment recommendation to the
emergency vehicle units, after the user accepts the deployment
recommendation (e.g., by clicking an "Accept" button), the DCD 1200
may send the deployment recommendation directly to the unit
computers located directly in the emergency vehicle units. The unit
computers may receive the deployment recommendation from the DCD
1200 through the network 1300. The DCD 1200 may send the entire
deployment recommendation to each unit computer or only the part of
the deployment recommendation relevant to that particular emergency
vehicle unit. When the unit computer receives the deployment
recommendation, the deployment recommendation is displayed. The
deployment recommendation may be displayed in a textual or a
graphical format. As an alternative, the deployment recommendation
may be communicated using audio, using text-to-speech
technology.
[0188] As an option, the system 1000 wherein the at least one
server 1500 is a plurality of servers 1500 associated to each of
the plurality of emergency vehicle units. Each of the plurality of
servers 1500 may be mobile computers (e.g., smart phone, tablet, or
laptop) located in the emergency vehicle units. The plurality of
servers 1500 may also be a computer integrated with the emergency
vehicle unit. The plurality of servers 1500 may automatically
determine the location data using a Global Positioning System.
Alternatively, the location data, as well as the status
information, may be manually entered. The DCD 1200 receives the
location data and status information from the plurality of servers
1500 through the network 1300.
[0189] As an option, the system 1000 wherein the network 1300
further comprises one or more client computers, and wherein the DCD
1200 sends the deployment recommendation to the one or more client
computers for display. In the preferred embodiment, the one or more
client computers are desktop computers. Alternatively, the one or
more client computers are mobile computers (e.g., smart phone,
tablet, laptop). This permits multiple users to use the DCD 1200
system simultaneously in different physical locations. The
interface module 1240 of the DCD 1200 may graphically render the
deployment recommendation prior to sending the recommendation to
the client computers through the network 1300. Alternatively, the
DCD 1200 may send the deployment recommendation as data to the
client computers through the network 1300, where an interface
module of the client computers graphically renders and displays the
deployment recommendation on a display device of the client
computers.
[0190] Optionally, the system 1000 wherein the system 1000
comprises a plurality of display devices 1100B connected to the DCD
1200 through the network 1300. The DCD 1200 send the GUI rendered
by the user interface module 1240 for display on the plurality of
display devices 1100B through the network 1300. Each display device
1100B may provide the same or different GUI. Each display device
1100B may display the same GUI with the same data. Alternatively,
each display device 1100B may display the same GUI with different
data. As another alternative, each display device 1100B may display
a different GUI with either the same or different data. This
provides another means for permitting multiple users to
simultaneously use the DCD 1200 in different physical locations. In
particular, the DCD 1200 may send a deployment recommendation for
display to the display devices 1100B through the network 1300.
[0191] Optionally, the system 1000 wherein the at least one server
1500 is a plurality of servers 1500. The DCD 1200 may receive the
same types of information from each of the plurality of servers
1500, where having a plurality of servers 1500 is for the purpose,
for instance, of redundancy and efficiency. Alternatively, the DCD
1200 may receive different types of information from each of the
plurality of servers 1500. For example, the plurality of servers
1500 may comprise two servers 1500, wherein the DCD 1200 receives
location data from a first of the two servers 1500, and the DCD
1200 receives status information from a second of the two servers
1500.
[0192] The processor module 1230 may represent a single processor
with one or more processor cores or an array of processors, each
comprising one or more processor cores. The memory module 1220 may
comprise various types of memory (different standardized or kinds
of Random Access Memory (RAM) modules, memory cards, Read-Only
Memory (ROM) modules, programmable ROM, etc.). The storage module
1400 may represent one or more logical or physical as well as local
or remote hard disk drives (HDD) (or an array thereof). The storage
module 1400 may further represent a local or remote database made
accessible to the network node 1200 by a standardized or
proprietary interface. The network interface module 1210 represents
at least one physical interface that can be used to communicate
with other network nodes. For the sake of simplicity, the following
example related to the network node 1200 will refer to a repository
to represent the various means that can be used to store records.
The network interface module 1210 may be made visible to the other
modules of the network node 1200 through one or more logical
interfaces. The actual stacks of protocols used by the physical
network interface(s) and/or logical network interface(s) of the
network interface module 1210 do not affect the teachings of the
present invention. The variants of processor module 1230, memory
module 1220, network interface module 1210 and storage module 1400
usable in the context of the present invention will be readily
apparent to persons skilled in the art. Likewise, even though
explicit mentions of the memory module 1220 and/or the processor
module 1230 are not made throughout the description of the present
examples, persons skilled in the art will readily recognize that
such modules are used in conjunction with other modules of the
network node 1200 to perform routine as well as innovative steps
related to the present invention.
[0193] Various network links may be implicitly or explicitly used
in the context of the present invention. While a link may be
depicted as a wireless link, the link could also be embodied as a
wired link using a coaxial cable, an optical fiber, a category 5
cable, and the like. A wired or wireless access point (not shown)
may be present on the link between. Likewise, any number of routers
(not shown) may be present and part of the link, which may further
pass through the Internet.
[0194] The present invention is not affected by the way the
different modules exchange information between them. For instance,
the memory module 1220 and the processor module 1230 could be
connected by a parallel bus, but could also be connected by a
serial connection or involve an intermediate module (not shown)
without affecting the teachings of the present invention.
[0195] A method is generally conceived to be a self-consistent
sequence of steps leading to a desired result. These steps require
physical manipulations of physical quantities. Usually, though not
necessarily, these quantities take the form of electrical or
magnetic signals capable of being stored, transferred, combined,
compared, and otherwise manipulated. Principally for reasons of
common usage, these signals are at times referred to as bits,
values, parameters, items, elements, objects, symbols, characters,
terms, numbers, or the like. All of these terms and similar terms
are to be associated with the appropriate physical quantities and
are merely convenient labels applied to these quantities. The
description of the present invention has been presented for
purposes of illustration but is not intended to be exhaustive or
limited to the disclosed embodiments. Many modifications and
variations will be apparent to those of ordinary skill in the art.
The embodiments were chosen to explain the principles of the
invention and its practical applications and to enable others of
ordinary skill in the art to understand the invention in order to
implement various embodiments with various modifications as might
be suited to other contemplated uses.
* * * * *