U.S. patent application number 13/172774 was filed with the patent office on 2012-05-24 for method of processing a transaction for a parking session.
This patent application is currently assigned to Parkmobile USA. Invention is credited to Albert Bogaard, Jacek Sadkowski.
Application Number | 20120130891 13/172774 |
Document ID | / |
Family ID | 47424545 |
Filed Date | 2012-05-24 |
United States Patent
Application |
20120130891 |
Kind Code |
A1 |
Bogaard; Albert ; et
al. |
May 24, 2012 |
METHOD OF PROCESSING A TRANSACTION FOR A PARKING SESSION
Abstract
Methods of processing payment transactions associated with
parking sessions and at least one parking related service. The
payment transactions are between the parking supplier, for example,
the owner or manager of a parking lot, and a payment provider, for
example, a credit card company, on behalf of a user. The methods
involve retrieving parking supplier information stored in a memory
based on an identifier that defines the location of the parking
session, and retrieving payment provider information stored in the
memory based on an identifier that defines the user, and processing
the transaction, where the amount or cost associated with the
transaction is based on the duration of the parking session and
whether the user opted to use the at least one parking related
services.
Inventors: |
Bogaard; Albert; (Atlanta,
GA) ; Sadkowski; Jacek; (Duluth, GA) |
Assignee: |
Parkmobile USA
Atlanta
GA
|
Family ID: |
47424545 |
Appl. No.: |
13/172774 |
Filed: |
June 29, 2011 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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12949647 |
Nov 18, 2010 |
|
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13172774 |
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Current U.S.
Class: |
705/40 |
Current CPC
Class: |
G07B 15/02 20130101;
G06Q 20/102 20130101 |
Class at
Publication: |
705/40 |
International
Class: |
G06Q 40/00 20060101
G06Q040/00 |
Claims
1. A method of processing a payment transaction associated with a
parking session and one or more parking related services, the
payment transaction being between a parking supplier and a payment
provider on behalf of a user, said method comprising: receiving a
first signal over a wireless network from a mobile computing
device, the first signal conveying a user identifier and a parking
identifier; retrieving parking supplier information stored in a
memory based on the parking identifier; retrieving payment provider
information stored in the memory based on the user identifier; and
processing the transaction between the payment provider and the
parking supplier, wherein an amount associated with the transaction
is based on a parking duration associated with the parking session
and a selected one of the one or more parking related services.
2. The method of claim 1, wherein the parking supplier information
stored in memory includes the one or more parking related services
offered by the parking supplier, said method further comprising:
transmitting a signal to the mobile computing device over the
wireless network, the signal conveying the one or more parking
related services offered by the parking supplier.
3. The method of claim 2 further comprising: receiving a second
signal from the mobile computing device over the wireless network,
the second signal conveying the selected one of the one or more
parking related services.
4. The method of claim 1, wherein the selected one of the one or
more parking related services is an electric vehicle charging
service.
5. The method of claim 4 further comprising: transmitting a signal
to the mobile computing device over the wireless network, the
transmitted signal conveying an electric vehicle charging equipment
activation code.
6. The method of claim 4 further comprising: transmitting a signal
to electric vehicle charging equipment over the wireless network,
wherein the transmitted signal conveys an activation instruction
for the electric vehicle charging equipment.
7. The method of claim 4, wherein the amount of the transaction is
based on the utilization of electric vehicle charging equipment at
a parking location corresponding to the parking identifier.
8. The method of claim 4 further comprising: transmitting a signal
to the mobile computing device over the wireless network, the
transmitted signal conveying a cost associated with an electric
charge duration; and receiving a second signal from the mobile
computing device over the wireless network, the second signal
conveying a selected number of electric charge durations.
9. The method of claim 8, wherein the amount of the transaction is
based on the utilization of electric vehicle charging equipment at
a parking location corresponding to the parking identifier, and
wherein the utilization of electric vehicle charging equipment is
based on the selected number of electric charge durations.
10. The method of claim 1 further comprising: receiving an input
that includes the parking identifier and the user identifier; and
transmitting the first signal that conveys the parking identifier
and the user identifier to a server over the wireless network.
11. The method of claim 10 further comprising: receiving at the
mobile computing device, a signal transmitted by the server over
the wireless network, wherein the signal transmitted by the server
conveys the one or more parking related services offered by the
parking supplier; receiving an input that identifies the selected
one of the one or more parking related services; and transmitting a
second signal to the server over the wireless network, the second
signal conveying the selected one of the one or more parking
related services.
12. A method of processing a payment transaction associated with a
parking space reservation services, the payment transaction being
between a parking supplier and a payment provider on behalf of a
user, said method comprising: receiving a first signal over a
wireless network from a mobile computing device, the first received
signal conveying location information associated with the mobile
computing device; accessing information stored in memory, wherein
the stored information identifies a number of available parking
locations that are within a set distance from the location of the
mobile computing device; transmitting a first signal over the
wireless network to the mobile computing device, the first
transmitted signal conveying the available parking locations that
are within a set distance from the location of the mobile computing
device; receiving a second signal over the wireless network from
the mobile computing device, the second received signal conveying a
reservation request for a selected one of the available parking
locations; and processing the payment transaction between the
payment provider and the parking supplier, wherein a cost
associated with the transaction is based on a parking session
duration at the selected one of the available parking
locations.
13. The method of claim 12 further comprising: transmitting a
second signal to the parking supplier over the wireless network,
the second transmitted signal conveying reservation information
associated with the selected one of the available parking
locations.
14. The method of claim 12 further comprising: receiving from the
mobile computing device, over the wireless network, a signal that
conveys parking preference criteria, and wherein the information
that identifies a number of available parking locations within a
set distance from the location of the mobile computing device meets
the parking preference criteria.
15. The method of claim 14, wherein the signal received by the
mobile computing device that conveys the parking preference
criteria is the first signal.
16. The method of claim 12 further comprising: receiving a third
signal over the wireless network from the mobile computing device,
the third received signal conveying the selected one of the
available parking locations; accessing from memory parking duration
options associated with the selected one of the available parking
locations; transmitting a second signal over the wireless network
to the mobile computing device, the second transmitted signal
conveying the parking duration options associated with the selected
one of the available parking locations; and receiving from the
mobile computing device over the wireless network a signal that
conveys a selected parking duration option.
17. The method of claim 16, wherein the received signal that
conveys the selected parking duration option is the second received
signal conveying the reservation request for the selected one of
the available parking locations.
18. The method of claim 12 further comprising: receiving a third
signal over the wireless network from the mobile computing device,
the third received signal conveying a request for directions; and
transmitting a second signal over the wireless network to the
mobile computing device, the second transmitted signal conveying
directions from the mobile computing device location to the
location of the selected one of the available parking
locations.
19. The method of claim 12, wherein the cost associated with the
transaction includes a cost associated with reserving an available
parking location.
Description
CO-PENDING APPLICATIONS
[0001] This application is a continuation-in-part application of
and claims priority to co-pending U.S. application Ser. No.
12/949,647, filed Nov. 18, 2010, the entire contents of which are
incorporated by reference herein.
FIELD OF THE INVENTION
[0002] This invention relates generally to the mobile parking
payment field, and more specifically to an improved and useful
method of processing a transaction for a parking session and/or
parking related services.
BACKGROUND OF THE INVENTION
[0003] In conventional systems of on-street parking, off-street
parking (nongated and gated), and controlled zoned parking, user
payment for the use of parking spaces is required. Examples include
street meters, parking lots and garages. Typically, these payments
are limited to cash or coin payments. Unfortunately, many users
oftentimes don't have the correct denomination of cash to pay for
the parking session, or may consider the payment process too
time-consuming (e.g. too much time waiting in line or looking for
change), leading to noncompliance wherein the user simply does not
pay for the use of the parking space. This noncompliance causes the
parking suppliers to pay for more parking enforcement to cite the
noncompliant users, which can be costly for the parking suppliers
and inconvenient for the users. Additionally, because users must
pay for the parking beforehand, users may pay for more parking than
necessary, which is not cost efficient for the user. The
conventional parking payment system is inefficient for the parking
providers as well, as they need to pay for personnel to enforce
parking payment. Additionally, keeping the parking payments "on
street" (e.g. in pay boxes or meters) often leads to shrinkage and
loss of revenue.
[0004] Conventional systems have tried to address these issues by
offering prepay services, wherein the user pays in advance for an
account from which parking payments are deducted as the user
utilizes the parking spots. However, such prepay systems have
several drawbacks. For example, these systems may be inconvenient
because the user periodically needs to remember to refill the
prepaid account, which may be a burdensome process. Additionally,
the user may need to carry additional equipment, such as a card or
device that allows them to pay for the parking.
[0005] Other conventional systems have attempted to address these
issues by incorporating parking space identifiers in lieu of the
parking meter, wherein users may remotely pay for the parking spot
by using their mobile phone. For example, as described in U.S. Pub.
No. 2006/0116892, which is hereby incorporated in its entirety by
this reference, a placard or sign may be placed on the meter near
the parking space with a phone number that the user may call. After
the call is placed, the user may then enter a parking identifier
into their phone and proceed to pay for the parking spot. These
parking payment systems are time-consuming, as the user must take
the time to place a call, wait for the call to be connected, then
enter the parking information. Additionally, these systems may be
costly for the user, as users may pay for each minute they are
connected to a call; with these systems, not only does the user
need to pay for the parking, but they must also pay for the minutes
used during the call (and hope that they remain connected for the
entirety of the phone call). Such parking payment systems may also
require the refitting of the parking meters or payment kiosks to
accept the payment, adding inconvenient capital equipment costs to
the parking provider.
[0006] Thus, there is a need in the parking payment field to create
an improved and useful method of processing a transaction for a
parking session.
SUMMARY OF THE INVENTION
[0007] The present invention provides for the processing of a
parking session and ancillary, parking related services. In
accordance with one aspect of the invention, the aforementioned
problems associated with the prior art are overcome by a method of
processing a payment transaction associated with a parking session
and one or more parking related services, where the payment
transaction is between a parking supplier and a payment provider on
behalf of a user. The method involves receiving a first signal over
a wireless network from a mobile computing device, where the first
signal conveys a user identifier and a parking identifier. The
method then involves retrieving parking supplier information stored
in a memory based on the parking identifier, retrieving payment
provider information stored in the memory based on the user
identifier, and processing the transaction between the payment
provider and the parking supplier. The cost of the transaction is
based on a parking session duration and a selected one of the one
or more parking related services.
[0008] In accordance with another aspect of the invention, the
aforementioned problems associated with the prior art are overcome
by a method of processing a payment transaction associated with a
parking space reservation services. The payment transaction is
between a parking supplier and a payment provider on behalf of a
user. The method comprises, among other things, receiving a first
signal over a wireless network from a mobile computing device,
where the first received signal conveys location information
associated with the mobile computing device. The method then
involves accessing information stored in memory, where the stored
information identifies a number of available parking locations that
are within a set distance from the location of the mobile computing
device. Next, the method involves transmitting a first signal over
the wireless network to the mobile computing device, where the
first transmitted signal conveys the available parking locations
that are within a set distance from the location of the mobile
computing device, and receiving a second signal over the wireless
network from the mobile computing device, where the second received
signal conveys a reservation request for a selected one of the
available parking locations. Thereafter, the method involves
processing the payment transaction between the payment provider and
the parking supplier, where the cost associated with the
transaction is based on a parking session duration at the selected
one of the available parking locations.
BRIEF DESCRIPTION OF THE DRAWINGS
[0009] Several figures are provided herein to further the
explanation of the present invention. More specifically:
[0010] FIG. 1 is a schematic representation of the parking payment
method;
[0011] FIG. 2 is a schematic representation of the functions of the
mobile computing device;
[0012] FIG. 3 is a schematic representation of the functions of the
server;
[0013] FIG. 4 is a schematic representation of the step of storing
user information on the mobile computing device;
[0014] FIG. 5 is a schematic representation of the mobile computing
device receiving a parking identifier;
[0015] FIG. 6 is a schematic representation of the mobile computing
device sending information to the server and the server receiving
the information;
[0016] FIG. 7 is a schematic representation of the server
retrieving parking information and retrieving user information;
[0017] FIG. 8 is a schematic representation of meeting a start
condition and meeting an end condition;
[0018] FIG. 9 is a schematic representation of processing a
transaction between a payment provider and a parking supplier;
[0019] FIG. 10 is a schematic representation of receiving a vehicle
identifier;
[0020] FIG. 11 is a schematic representation of receiving a parking
location selection;
[0021] FIG. 12 is a schematic representation of receiving a parking
duration selection;
[0022] FIG. 13 is a schematic representation of displaying an
expiration notification on the mobile computing device;
[0023] FIG. 14 is a schematic representation of a first embodiment
of the parking payment method;
[0024] FIG. 15 is a schematic representation of a second embodiment
of the parking payment method;
[0025] FIG. 16 illustrates the functions associated with a server,
including the function of processing a transaction associated with
a parking related service, such as electric vehicle charging, in
accordance with exemplary embodiments of the present invention;
[0026] FIG. 17 is a flowchart that illustrates the processing of a
payment transaction associated with an electric vehicle charging
session, in accordance with exemplary embodiments of the present
invention;
[0027] FIG. 18 is a flowchart of a method for initiating a method
that involves the processing of transactions for parking, parking
space reservations and other parking related services, in
accordance with exemplary embodiments of the present invention;
[0028] FIG. 19 is a flowchart of a method of processing a
transaction for Parking Plus services, in accordance exemplary
embodiments of the present invention; and
[0029] FIG. 20 is a flowchart of a method of processing a
transaction for parking space search and reservation services.
DETAILED DESCRIPTION
[0030] The following description of the preferred embodiments of
the invention is not intended to limit the invention to these
preferred embodiments, but rather to enable any person skilled in
the art to make and use this invention.
[0031] As shown in FIG. 1, the preferred embodiments of the
invention include a method S100 of processing a transaction for a
parking session between a parking supplier and a payment provider
on behalf of a user 10, wherein the user 10 facilitates the
transaction through a mobile computing device 20 connected to a
remote server 30. The method S100 includes, on the mobile computing
device 20 of the user 10, the steps of: storing a user identifier
S200; first receiving a parking identifier S300, then sending the
user identifier and the parking identifier to the server S320. The
method S100 also includes, on the remote server 30, the steps of:
receiving the user identifier and the parking identifier S325;
retrieving parking information based on the parking identifier
S400; retrieving user information based on the user identifier
S500; and processing a transaction between the payment provider and
parking supplier S800.
[0032] This method S100 is faster and more convenient than
conventional methods for several reasons. First, this method S100
allows the parking transaction to be accomplished without an actual
phone call, eliminating the costs and inconveniences associated
with making a phone call. Second, most of the user-specific
information 14 necessary for the user 10 to obtain parking (e.g.
the user identifier 11 and/or vehicle identifier 13) may be stored
on the mobile computing device 20, so the user 10 does not have to
spend time re-entering the information each time they pay for
parking. Third, because the majority of parking-relevant
information (e.g. the user identifier 11 and/or parking identifier
41) is gathered before the mobile computing device 20 connects to
the server 30, multiple pieces of information may be sent to the
server 30 in substantially one step instead of sending single
pieces of information in a series of substantially temporally
distinct steps. Because multiple pieces of information may be sent
in a set of data packets, this method S100 may additionally connect
to the server 30 faster than prior art systems if the connection
prioritizes data transfer over voice calls, which may be
particularly pertinent if in an area with a lot of mobile device
traffic (e.g. in San Francisco or a sold-out concert). Furthermore,
because this method S100 only requires the mobile computing device
20 of the user, this method S100 may be less expensive for the user
10, as the user 10 needs only to pay for several packets of data
instead of several minutes of a phone call, and does not need to
purchase any additional equipment. This method S100 may be less
expensive for parking suppliers 40 as well, because minimal parking
infrastructure changes need to be implemented--instead of having to
refit the parking areas with new parking equipment (e.g. parking
meters or kiosks, as in conventional systems), the parking
suppliers 40 may only need to add a parking identifier 41 to the
existing equipment. Additionally, with this method S100, more users
10 may pay for parking because it is more convenient to do so. For
example, this method S100 allows mass transit users to park, get on
the train, bus, ferry, etc., then complete their parking
transaction from their seat, allowing the users to successfully
board the mass transit vehicle and still pay for parking. This
method S100 also reduces the need for parking providers to pay for
parking reinforcement and towing services. This method also allows
parking providers to retain revenue and prevent shrinkage, as the
payments are no longer kept "on-street." The method S100 may also
reduce transactional costs by lumping together transactions for
multiple parking sessions, such that one authentication and
transaction may be performed for several parking sessions at once
instead of performing them for every parking session.
[0033] The entities that may be involved with the method include
the users, the parking providers, and the payment providers. The
users 10 are people who desire to leave a vehicle 12 in a parking
space for a period of time. The vehicle 12 is preferably a car, but
may alternatively be a bicycle, a motorcycle, a boat, or any
suitable conveyance that is steered or operated by a person and
transports items. The parking providers of this method S100 are
preferably municipalities, but may alternatively be private
operators, stadiums, event venues, universities, hospitals,
airports, Mass Transit Authorities or any other entity that
requests payment for parking. The payment providers 50 of this
method S100 function to pay the parking fee on behalf of the user
10, and are preferably credit card companies, but may alternatively
be a bank, an e-commerce payment service (e.g. PayPal), a mutual
fund, or any other source of liquid assets with whom the user 10
has an account. The payment provider 50 may alternatively be a
business entity affiliated with the user 10. The account the user
10 has with the payment provider 50 is preferably a credit account,
but may alternatively be a debit account, a stored value account,
or an online account.
[0034] The method is preferably used by the user 10 to pay for one
or more parking sessions. The parking session is the duration of
time that a user 10 leaves a vehicle 12 in a parking spot, and is
characterized by a start time 72 and an end time 74, wherein the
parking duration 70 is the amount of time elapsed between the start
time 72 and the end time 74. The parking duration is preferably
calculated as the difference between the start time and the end
time, but may alternately be directly measured by a timer started
at the start time and ended at the end time. The parking session
(and therefore, the start and end times) is preferably recorded on
the server 30, but may alternately be recorded on the mobile
computing device 20. The start time 72 of the parking session is
preferably determined from the time a start condition is met, and
the end time 74 is preferably determined from the time an end
condition is met. The start and end times are preferably time
stamps, and preferably include the date, hour and minute of the
start and end times. The parking session is preferably a start
duration parking session, wherein the parking duration 70 of the
parking session is preferably defined by the user 10 at the start
time 72 (e.g. for metered parking or pre-paid street parking). A
start duration parking session is analogous to metered parking,
wherein the parking duration 70 in a specific parking spot is
determined at the start of the parking session, and the user 10
pays for the desired parking duration at the onset of the parking
action. The parking duration 70 of the start duration parking
session may additionally be extended by additional time blocks up
to a maximum parking duration (preferably set by the parking
supplier 40). The parking session may alternatively be a start-stop
parking session, wherein the parking duration is preferably
undefined until the user 10 ends the parking session (e.g. airport
parking, private parking lots). The start-stop parking session may
also be subject to parking restrictions (e.g. the maximum parking
duration is 3 hours), preferably set by the parking supplier,
wherein the meeting of the parking restriction ends the parking
session. A start-stop session parking session is analogous to
airport parking, wherein there is no maximum parking duration (the
user 10 may park as long as they wish), and the user 10 pays for
the parking duration 70 after the parking session has been
explicitly ended by the user 10, or a maximum parking time allowed
set by supplier 40 is reached. The user 10 and parking supplier 40
are preferably allowed access to information about current and past
parking sessions that they are affiliated with. For example, the
user may check the parking duration on any of their current or past
parking sessions, or the parking supplier may access the vehicle
identifiers associated with their current parking sessions during
parking enforcement.
[0035] As shown in FIG. 2, the mobile computing device 20 functions
to provide an interface between the user 10 and the server 30 and,
more specifically, to receive data from the user 10 and send the
data to the server 30. The mobile computing device 20 may
additionally function to store user information 14 received from
the user 10 as well to gather user and location information. The
mobile computing device 20 is preferably a smart phone (e.g.
iPhone, Android, Blackberry, Windows Mobile or any other mobile
computing technology platforms), but may alternately be a laptop, a
tablet, or any suitable mobile computing device 20 that is capable
of saving data, accessing data, and connecting to the server 30.
The mobile computing device 20 may additionally include a camera, a
barcode scanner, or a RF receiver. The mobile computing device 20
is preferably connected to the server 30 through telecommunication,
more preferably through mobile wireless communication such as the
services provided by Verizon, AT&T or Sprint (e.g. GSM or
CMDA), but may alternately be any mobile wireless communication.
The mobile computing device 20 may also connect to the server 30
through an internet service such as broadband, Wi-Fi, WiMax, LTE or
any other internet computing technology, wherein the mobile
computing device 20 preferably connects to the server 30
wirelessly, but may alternately be wired to the server 30. The
mobile computing device 20 may also connect to the server 30
through a satellite connection, radio connection or any other
connection that permits data transfer. The mobile computing device
20 may include multiple methods of connecting to the server, and
may choose a preferred data transfer channel based on availability
and actual signal strength and/or bandwidth availability. The
interface provided by the mobile device is preferably a graphical
user interface (GUI) with an application programming interface
(API), but may alternatively be a web browser, a text box, or a
button. User information 14 stored on the mobile computing device
20 may include the user identifier 11, a user password, vehicle
identifiers 13 for the user's vehicles, payment provider
information 52, or any other information that is associated with
the user 10. Other information that may be stored on the mobile
computing device 20 include parking information 42, wherein
frequented parking identifiers 41 are stored, or the user's parking
session history. The mobile computing device may additionally
gather and store location information, wherein the location
information is gathered by a global positioning system (GPS), a
WiFi or WLAN positioning system (e.g. SkyHook technology) or a
cellular tower positioning system, location images received from
the user 10, or a location identifier (e.g. an address) received
from the user 10.
[0036] As shown in FIG. 3, the server 30 functions to receive data
sent by the mobile computing device 20, to store user 10 and
parking information 42, to validate received data against stored
data, and to process transactions between the parking supplier 40
and payment provider 50. The server 30 may additionally function to
store parking session data including the start time 72, the end
time 74, the cost of the parking session, an identifier for the
parking provider, and an identifier for the user 11 utilizing the
parking session. The server 30 may additionally send data such as
notifications or a list of options to the mobile computing device
20, or send data to the parking supplier 40 or payment provider 50.
The server 30 may additionally be accessible by the user 10,
parking supplier 40 or payment provider 50, wherein the
aforementioned entities may access and edit the data within their
respective accounts. The user information 14 stored by the server
30 includes the user identifier 11, the user's password, the user's
payment provider account(s), one or more vehicle identifiers 13
associated with vehicle information, and a history of the user's
prior parking sessions. The parking information 42 stored by the
server 30 includes the parking supplier 40 identifier, a parking
location, a parking space identifier (the parking identifier 41),
parking options (type of parking, time tables and rates, such as,
but not limited to: maximum parking time, parking duration options
45 available), pricing information, and a history of prior parking
sessions associated with the parking space. The vehicle information
stored by the server 30 may include the license plate number, the
vehicle identification number (VIN), the registration number, a
barcode, images of the vehicle identifier 13, a text description of
the vehicle 12, or any other pieces of information that may
uniquely identify the vehicle 12. Validation of data on the server
30 includes successfully retrieving associated user 10 or parking
information 42 based on a provided user 10 or parking identifier
41. Validation may additionally include verifying the authenticity
of the user 10 based on a received password or verifying the
proximity of the user 10 to the identified parking space based on
received location information.
[0037] As shown in FIG. 4, the step of storing a user identifier on
the mobile computing device S200 functions to allow the mobile
computing device 20 to access the user identifier 11 without the
user 10 having to enter the user identifier 11 each time the method
S100 is used. The user identifier 11 is preferably electronically
stored in the memory located in the mobile computing device 20, and
is preferably stored when the user 10 registers to use the system.
The user identifier 11 functions to identify a user 10 of the
system, and is associated with the user information 14 on the
server 30. The user identifier 11 is unique to the user 10, and is
preferably a username such as an email address or a user-generated
alphanumeric code, but may an identifier unique to the mobile
computing device 20 (e.g. the mobile computing device's MAC
address, IMEI identifier, or serial number), the user's telephone
number, a physiological biometric (e.g. an image of a fingerprint
or an eye), or a vehicle identifier 13 identifier associated with
the user 10. The user identifier 11 is preferably associated with a
user-defined password, but may alternatively have no associated
password.
[0038] As shown in FIG. 5, the step of first receiving a parking
identifier by the mobile computing device S300 functions to provide
an identifier for the parking space in which the user 10 wishes to
park to the system. The parking identifier 41 is preferably
received by the mobile computing device 20 from user 10 input, but
may alternatively be received through a wireless signal, such as a
RF or Bluetooth. The user 10 preferably inputs the parking
identifier 41 by typing it into the mobile computing device 20, but
may alternately input the parking identifier 41 by taking a photo,
scanning an image, prompting the mobile computing device 20 to
gather location data, or speaking near the mobile computing device
20. The parking identifier 41 may alternately not be received from
the user 10, but instead be generated by the mobile computing
device 20 in response to a user action, for example in the case of
pulling the user location with the API. The parking identifier 41
functions to identify the associated parking information 42 stored
on the server 30, and is preferably received by the mobile
computing device 20 from the user 10. The parking identifier 41 is
preferably unique to the parking space, but may alternately be
non-unique, wherein multiple parking spaces share the same parking
identifier 41. In the latter case, the parking spaces are
preferably located in different zones (e.g. one is in California
while the other is in Arizona). The parking spaces are preferably
parking spots large enough to fit substantially one vehicle 12
(e.g. a parking spot in metered parking), but may comprise of a
zone containing multiple parking spots and capable of accommodating
many vehicles 12 (e.g. a parking lot). The parking identifier 41 is
preferably an alphanumeric code, but may alternatively be an image
(e.g. a barcode or a QR code), data encoded in a wireless signal
(e.g. RF signal, Bluetooth signal), or a location pulled by the
API. The parking identifier 41 is preferably displayed on or near a
parking space in the form of a sticker or a sign, but may
alternatively be a signal transmitter located on or near the
parking space or be the determined location of the parking
space.
[0039] As shown in FIG. 6, the steps of then sending the user
identifier and the parking identifier to the server by the mobile
computing device S320 (and the corresponding step of receiving the
user identifier and the parking identifier by the server S325)
functions to provide user 10 and parking space-identifiers 41 to
the server 30. This step occurs after the step of receiving the
parking identifier by the mobile computing device S300. This step
is preferably automatic, wherein reception of the parking
identifier 41 by the mobile computing device 20 automatically
prompts the mobile computing device 20 to send the user 10 and
parking identifier 41 to the server 30. The identifiers are
preferably sent via a data channel provided through a mobile
communication network, but may alternately be sent through an
internet provider, a radio channel, satellite or any other channel
that allows for data transfer.
[0040] As shown in FIG. 7, the steps of retrieving parking
information based on the parking identifier S400 and retrieving
user information based on the user identifier S500, function to
provide the necessary information for the processing of the
transaction for the parking session. The user information 14 is
preferably retrieved first to ensure that the method S100 is being
performed for a registered user 10 of the system, but the parking
information 42 may alternately be retrieved first. Successful
retrieval of the information qualifies as verification of the
identifiers. Both the user 10 and parking information 42 are
preferably retrieved from the server 30 by searching the server 30
database for the user 10 and parking identifier 41s, then
retrieving the information associated with the identifiers. User
information 14 that is preferably retrieved includes vehicle
information and the payment provider information 52, but other
user-related information may additionally be retrieved, such as the
type of user account (e.g. business vs. individual). The vehicle
information is preferably retrieved because it is preferably
associated with the parking session, such that parking enforcement
may identify the user's vehicle 12. The payment provider
information 52 is preferably retrieved because it is used to pay
for the parking session. Parking information 42 that is preferably
retrieved includes the parking duration options 45, pricing
information, and parking supplier information 47, but may
additionally include the location of the parking space, the demand
for the parking space, or any other information associated with the
parking space. Parking duration options preferably include the time
blocks available for the user to pre-purchase (e.g. 15 min, 30 min,
1 hr), but may alternately or additionally include the time
interval/unit increments that may be paid for (e.g. user must pay
for every 15 minute increment) or any parking restrictions that may
be set by the parking supplier (e.g. maximum parking time, times
and days when parking is not allowable). Parking duration options
45 are preferably retrieved because different use cases of the
method S100 may have different parking durations 70 available. For
example, in a start duration session, the user 10 may park in the
parking space for a limited time, and multiple time blocks (e.g. 15
minutes) up to a maximum session duration (e.g. 2 hours) are
typically available to the user 10, wherein the parking duration 70
is the sum of time blocks selected by the user 10. In contrast, in
a start-stop session (e.g. parking in an airport parking lot)
wherein the user 10 may park in the parking space for as long as
they wish, the parking duration 70 is determined from start time 72
and the end time 74 of the parking session.
[0041] As shown in FIG. 8, the step of meeting a start condition
S600 functions to notify the system that a parking session has
commenced. The start condition is preferably the receipt of a start
notification by the system from the user 10, wherein the start
notification may be the selection of an option (e.g. selection of a
"start parking" option or selection of a parking duration 70), the
opening of an application, the receipt of a password, or any other
notification indicating that a user 10 intends to start paying for
parking. Alternately, the start condition may be the successful
verification of the user identifier 11 and the parking identifier
41 by the server 30, wherein user information 14 is successfully
retrieved using the user identifier 11, and unique parking
information 42 is successfully retrieved using the parking
identifier 41. The start condition is preferably the receipt of a
start notification by the server 30, but may alternatively be the
receipt of a start notification by the mobile computing device
20.
[0042] As shown in FIG. 8, the step of meeting an end condition
S700 functions to notify the system that a parking session has
ended. The end condition is preferably the receipt of an end
notification by the server 30, wherein the end notification may be
the selection of an option (e.g. selection of an "end parking"
option), the closing of an application, the receipt of a password,
or any other notification indicating that a user 10 intends to end
payment for parking. In this case, the end notification is
preferably first received by the mobile computing device 20 and
sent to the server 30, wherein the end condition is the receipt of
the end notification by the server 30. Alternately, the end
condition may be the meeting of a predetermined time or timestamp
(e.g. the time recorded by the timer matches a predetermined
parking duration 70, or the current time matches the predetermined
end time). In this case, the end condition may automatically met by
the server 30, wherein the server 30 is recording and tracking the
parking session, or an end notification may be automatically sent
to the server 30 by the mobile computing device 20. Pricing
information is preferably retrieved using the parking identifier 41
in order to calculate the transaction amount (the amount owed to
the parking supplier 40). The parking supplier information 47 is
preferably retrieved in order to record a parking session
associated with the parking supplier 40 as well as to know whom to
pay for the use of the parking space. The parking information 42 is
preferably set by the parking supplier 40, but may alternately be
dynamically computed by the server 30 based on time of day, demand,
or any other factor.
[0043] As shown in FIG. 9, the step of processing a transaction
between the payment provider and the parking supplier, wherein the
transaction amount is based on the duration of the parking session
S800, functions to pay the parking supplier 40 for the use of the
parking space on behalf of the user 10. The payment provider 50 and
parking supplier information 47 are preferably retrieved by the
server 30 based on the user identifier 11 and parking identifier
41, respectively. The payment is preferably determined from the
parking duration 70 of the parking session, but may alternatively
be a flat fee. The payment transaction is preferably processed at
the end of the parking session, but may alternatively be processed
at the beginning of the parking session or periodically during the
parking session (e.g. in the start duration or the start-stop
parking sessions, where the parking durations 70 may be extended).
Alternately, the payment amounts owed to different parking
providers may be accrued on the server 30 until a specified time
(e.g. the end of the day or the 15th of the month), at which point
one transaction with the total owed payment amount is processed,
and a lump-sum payment is made by the payment provider 50 to the
respective parking providers. The payment transaction is preferably
processed by the server 30, but may alternately be processed by the
mobile computing device 20.
[0044] As shown in FIG. 10, the method S100 may additionally
include the steps of receiving a vehicle identifier by the server
S340. This step functions to allow the system to associate a
vehicle identifier 13 with the parking session, and allows the
parking supplier 40 to identify the vehicle identifier 13 as
associated with a user 10 that has paid for parking. This step is
preferably used when the user 10 has more than one vehicle 12
associated with the user identifier 11, but may alternately be used
when the user has only one vehicle 12 associated with the user
identifier 11. The vehicle identifier 13 is preferably used by the
server 30 to retrieve and verify the vehicle information after the
user information 14 is retrieved. Alternately, the vehicle
identifier 13 may be used to retrieve the user information 14,
especially if the vehicle identifier 13 is only associated with one
user identifier 11. The vehicle identifier 13 is preferably unique
to each vehicle 12, and is preferably associated with one user 10,
but may also be associated with two users 10, three users 10, or
any number of users 10. The vehicle identifier 13 is preferably an
alphanumeric code, such as a license plate number, but may
alternatively be the VIN number, the registration number, an image
(e.g. of the license plate, or a unique scratch on the vehicle 12),
a barcode, or any unique identifier of the vehicle 12. The vehicle
identifier 13 is preferably located on the vehicle 12 during the
parking session. The vehicle identifier 13 is preferably visible,
but may alternately be invisible but still be detectable (e.g. the
vehicle identifier 13 is a wireless signal transmitted by the
vehicle 12).
[0045] As shown in FIG. 2, the method S100 may additionally include
the step of receiving location data by the server from the mobile
computing device S360, which functions to identify the parking
space. This step is preferably accomplished by the mobile computing
device 20 gathering location data and sending the location data to
the server 30. The location data is preferably gathered by a global
positioning system (GPS) of the mobile computing device 20, but may
alternately be gathered by a WiFi or WLAN positioning system (e.g.
SkyHook technology) or a cellular tower positioning system. The
server 30 preferably uses the location data to identify the parking
space, wherein the location data is the parking identifier 41, but
may alternately use the location data to verify the parking space,
as in the case of non-unique parking identifiers 41 or just to
verify that the user 10 has entered the parking identifier 41 of
the parking space they are parked in. This step preferably occurs
with the step of receiving the user and parking identifiers by the
server 30.
[0046] As shown in FIG. 11, the method S100 may additionally
include the step of receiving a parking location selection by the
server S360. This step is preferably used when the parking
identifier 41 is non-unique to the parking space, and occurs when
the server 30 is retrieving a unique set of parking information 42
based on the parking identifier 41. Due to the non-unique parking
identifier 41, the server 30 will initially retrieve more than one
set of parking information 42 associated with the parking
identifier 41 after the parking identifier 41 is received by the
server 30. In order to determine which unique parking space is
being referenced (and subsequently, who to pay), the server 30
generates a set of possible locations by retrieving the location
information from each of the parking information 42 sets and
sending the set of possible locations to the mobile computing
device 20, which displays the possible locations. The possible
locations are preferably displayed as a list, but may be displayed
as icons, a map, or any type of display that allows for a location
selection 44. The possible locations are preferably substantially
spatially separated, such as different countries, states, cities,
or districts, but may be located substantially close to each other,
such as two parking spots in the same parking lot. Upon the receipt
of a location selection 44 from the user 10, the mobile computing
device 20 sends the location selection 44 to the server 30, which
retrieves a unique set of parking information 42 based on the
parking identifier 41 and the location selection 44.
[0047] As shown in FIG. 12, the method S100 may additionally
include the step of receiving a parking duration selection by the
server S440. This step preferably occurs after the user 10 and
parking identifiers are verified, but before the parking session is
begun. This step is preferably used when the parking session is a
start duration session, (e.g. metered parking, pre-paid off-street
parking) wherein a user selection of a parking duration 70 option
(i.e. a time block, e.g. 15 minutes) is needed because the parking
provider requires pre-payment for the parking duration 70. This
step preferably comprises the steps of the server 30 retrieving the
parking duration options 45 from the stored parking information 42
and sending the parking duration options 45 to the mobile computing
device 20, wherein the mobile computing device 20: receives the
parking duration options 45, displays the options, receives a
parking duration selection 46, and sends the parking duration
selection 46 to the server 30. The parking duration options 45 are
preferably displayed as a list by the mobile computing device 20,
but may alternately be icons, a timeline, or any type of display
that allows for a parking duration selection 46. The parking
duration options may alternately not be displayed, but be received
from displayed entry fields that allow the user 10 to enter a
desired amount of parking time (e.g. 5 min, 23 min, or one hour),
wherein the entered parking time is less than the maximum parking
time allowed for the parking identifier 41. The server 30 then sets
an end time for the parking session based on the start time 72 and
the parking duration selection 46, wherein the meeting of the end
time is the end condition.
[0048] As shown in FIG. 13, the method S100 may additionally
include the step of displaying an expiration notification on the
mobile computing device S720, which functions to notify the user 10
of the imminent end of the parking session. The expiration
notification is preferably sent near but before the end of the
parking session, but may alternately be sent near the start of the
parking session or anytime during the parking session. The
expiration notification is preferably sent by the server 30 and
received by the mobile computing device 20, but may alternately be
generated by the mobile computing device 20. The expiration
notification is preferably an SMS, but may alternately be a push
notification, a MMS, email, or any type of notification that may be
displayed on a mobile computing device 20. The expiration
notification preferably informs the user 10 of the amount of time
left to the parking session, but may alternately simply notify the
user 10 that the parking session has almost or already ended. The
expiration notification may additionally include parking duration
extension options 45, wherein the user 10 may select a parking
duration 70 extension to extend their parking duration 70. In this
case, the mobile computing device 20 receives the parking duration
extension selection 46 and the parking duration 70 is extended by
the parking duration extension selection 46, either by the server
30 or the mobile computing device 20. This step is preferably used
when the step of displaying the parking duration options 45 on the
mobile computing device 20 is used.
[0049] FIG. 14 shows a first exemplary implementation of the method
S100, wherein the user 10 has multiple vehicles, the parking
identifier 41 is a non-unique alphanumeric or numeric code posted
on a meter, and the parking duration options 45 for the parking
space is that of the start duration session, including any number
of pre-paid time blocks (e.g. 15 min) up to a maximum parking time
(e.g. 2 hours). Additionally, the start condition is the receipt of
a parking duration selection 46 by the server 30, the end condition
is the expiration of the parking duration 70, and the payment
transaction is processed as soon as the parking duration selection
46 is made. Due to the multiple vehicles associated with the user
10, the step of receiving a vehicle identifier by the server S340
is used, wherein the vehicle identifier 13 is the license plate
number. Due to the non-unique parking identifier 41, the step of
receiving a parking location selection by the server S360 is used,
wherein the parking spaces are located in two different cities, so
the parking location options are those two cities. Due to the
multiple parking duration options 45 available for the parking
space, the step of receiving a parking duration selection by the
server S440 is used, wherein the mobile computing device 20
displays the parking duration options 45 as a list. Upon the
receipt of the parking duration selection 46, the start condition
is met and the parking session is started, wherein the server 30
records a start time 72 and an end time 74, wherein the end time 74
is determined from the start time 72 and the parking duration
selection 46. Because the parking duration 70 is known, the server
30 processes the payment transaction after the start of the parking
session. In a variation of this exemplary implementation, the
method S100 incorporates the step of displaying an expiration
notification on the mobile computing device S720. The expiration
notification is a notification generated by the mobile computing
device 20, and includes parking duration options 45 available to
the user 10 to extend their parking session.
[0050] FIG. 15 shows a second exemplary implementation of the
payment method S100, wherein the parking identifier 41 is a QR code
painted near the parking space, and the parking duration 70 is that
of a start-stop session, wherein the parking option allows the user
10 to park for any amount of time up to the maximum parking
duration set by the parking supplier 40. Additionally, the start
condition is the verification of the user 10 and parking
information 42, the end condition is the receipt of an end
notification, generated from the user 10. The payment transaction
is processed after the end notification is received. In this
exemplary implementation, the mobile computing device 20 includes a
camera, which is used by the user 10 to take a photo of the QR
code, and a barcode/QR code decoder, which decodes the QR code
image and extracts the embedded information. The information
contained in the QR code prompts the mobile computing device 20 to
send a unique parking identifier 41, contained in the QR code
information, along with the saved user identifier 11 to the server
30. Upon receiving the user and parking identifiers (11 and 41,
respectively), the server 30 verifies the identifiers and starts a
parking session by recording a start timestamp. Throughout the
duration of the parking session (before the end condition is met),
the mobile computing device 20 is capable of displaying an "end
session" option, wherein the "end session" option presents the user
10 with the option of ending the parking session. Upon receipt of
the selection of the "end session" option, the mobile computing
device 20 sends an end notification to the server 30, wherein, upon
receipt of the end notification, the server 30 ends the parking
session, computes the parking duration 70 from the start time 72
and the time the end notification was received, and processes a
transaction between the payment provider 50 and parking supplier 40
based on the calculated parking duration 70 and pricing
information.
[0051] In accordance with another aspect of the present invention,
transactions associated with parking related services may be
processed in conjunction with the transaction associated with a
corresponding parking session, in the same or like manner as
described above. For example, a parking supplier 40 may offer a
variety of ancillary, parking related services. Such services may
include, but are not limited to electric vehicle charging services,
valet parking services, vehicle cleaning and maintenance services,
and the like. As these services would, more likely than not, be
offered in conjunction with a parking session, herein below, we
refer to the system and method of processing a parking related
service transaction together with a parking session transaction as
"Parking Plus".
[0052] Another example of a parking related service is a parking
space search and reservation service. Unlike the aforementioned
parking related services, the parking space search and reservation
service would, more likely than not, be employed prior to a parking
session. However, it will be understood that making a reservation
using this service, in accordance with exemplary embodiments of the
present invention, may result in a parking session and the
utilization of one or more ancillary parking related services in
conjunction with the parking session, assuming the parking provider
40 offers any such ancillary parking related services at the
parking facility where the user has made a reservation.
[0053] As stated above, one example of an ancillary parking related
service that might be provided in conjunction with a parking
session is an electric vehicle charging service. Thus, if user 10
is operating an electric vehicle, and wants to charge the vehicles
battery while the vehicle is parked, this aspect of the present
invention provides for the processing of the transaction associated
with the parking session and the transaction associated with the
charging of the electric vehicle.
[0054] FIG. 16 illustrates the functions associated with server 30
including the function of processing a transaction associated with
the parking related service of electric vehicle charging. FIG. 16
is similar to FIG. 3, which was discussed above in detail. As
indicated in FIG. 16, the mobile computing device 20 will transmit
one or more signals to server 30, where the one or more signals may
convey the following information: a parking identifier 41, a user
identifier 11 and an electric charging station identifier 51. As
explained above, the parking identifier 41 uniquely defines the
specific location, i.e., the specific parking lot or parking space
within that lot, where user 10 has parked the electric vehicle. The
parking identifier 41 is, of course, associated with a given
parking supplier 40. The user identifier 41, as explained above,
uniquely defines user 10.
[0055] The electric charging station identifier 51, which was not
previously described, defines the specific electric charging
station that is being employed to charge the user's electric
vehicle. Thus, for example, parking supplier 40 may operate a
parking facility that has 100 parking spaces, each of which has a
corresponding, unique parking identifier 41. Again, the parking
identifier 41 may define the entire parking lot or a corresponding
one of the 100 parking spaces associated with that parking lot. In
any event, of the 100 parking spaces, maybe 25 spaces have electric
vehicle charging equipment, and in accordance with one exemplary
embodiment of the present invention, the parking supplier 40 would
provide a unique electric charging station identifier 51 for the
electric charging equipment associated with each of these 25
parking spaces. In accordance with other exemplary embodiments, the
electric charging station identifier 51 may be inferred from the
parking identifier 41, as will be explained in greater detail
below.
[0056] In order for the mobile computing device 20 to transmit a
signal that conveys an electric charging station identifier 51, the
electric charging station identifier 51 must be uploaded into the
mobile computing device 20. This may be accomplished in a number of
ways. For example, the user 10 may enter the electric charging
station identifier 51 which is provided at the electric charging
station. Alternatively, the mobile computing device 20 may have the
ability to scan a number or code that reflects the electric
charging station identifier 51. Still further, the parking provider
40 or the electric vehicle charging equipment may have the
capability to upload the electric charging station identifier 51
into the mobile computing device 20 automatically, through a
wireless WIFI or cellular network connection. One skilled in the
art will readily understand that other methods for uploading the
electric charging station identifier 51 into the mobile computing
device 20 are possible.
[0057] Referring back to FIG. 16, server 30 receives the
aforementioned signals from mobile computing device 20. The server
30 is then able to access parking information 42 corresponding to
parking identifier 41 and user information 14 corresponding to user
identifier 11, where the parking information 42 and the user
information 14 is stored in memory. In general, the server 30 uses
the parking information 42 to provide the user 10 with, among other
things, parking duration options. The user 10 will at some point
select, through his or her mobile computing device 20, one or more
parking duration options in order to process the payment
transaction necessary to initiate the parking session.
[0058] In the event the signal transmitted from the mobile
computing device 20 to the server 30 includes an electric charge
station identifier 51, server 30 may use the electric charge
station identifier 51 to access electric charging information 52,
as shown in FIG. 16, in much the same manner that server 30
accesses the parking information 42 based on the parking identifier
41. The electric charging information 52, stored in memory at or
accessible to server 30, may include various information such as
the electric charge duration options and other information (e.g.,
type of electric charging available, time tables, rates, maximum
charging time) that are specifically associated with the parking
location defined by parking identifier 41. The user 10 would of
course have access to the electric charging information 52 through
his or her mobile computing device 20. The user 10 will at some
point select one or more electric charge duration options, through
his/her mobile computing device 20, in order to process the payment
transaction necessary to activate the electric vehicle charging
station.
[0059] As stated above, depending on the parking supplier 40 and
the given parking identifier 41, the signal transmitted from the
mobile computing device 20 to the server 30 may or may not include
an electric charging station identifier 51. In the event the signal
does not include an electric charging station identifier 51, the
electric charging information 52 stored in memory that is at or
accessible to the server 30 may be inferred from or mapped in
memory to the parking identifier 41.
[0060] The duration of the electric vehicle charging session 80
(herein "the electric charge duration"), like the parking session
duration described above, would be defined by a start time 82 and
an end time 84, as shown in FIG. 16, in accordance with exemplary
embodiments of the present invention. The start time 82 would
correspond to a start condition having a given time stamp (e.g., a
date, hour and minute) and, likewise, the end time 84 would
correspond to an end condition having a given time stamp (e.g., a
date, hour and minute). The electric charge duration 80 would then
be the time elapsed between the occurrence of the start condition
(i.e., start time 82) and the occurrence of the end condition
(i.e., end time 84). The cost associated with using the electric
vehicle charging equipment would be proportional to the electric
charge duration 80. Preferably, the amount of elapsed time between
the start time 82 and the end time 84 could be measured or
calculated at server 30, and thereafter recorded, although it would
be within the scope of the present invention for the mobile
computing device 20, or any other device, to perform the same
function in addition to or in lieu of the server 30 performing this
function.
[0061] As explained, the electric charging information 52 may
include electric charging duration options. The user 10 would then
be able to select a preferred electric charging duration option. A
first option may be a "start duration" electric charging session.
In accordance with this option, the user 10 initiates the electric
charging session by selecting and thereby authorizing the server 30
to process a payment transaction for one or more electric charging
time intervals. Thus, for example, if user 10 selects two electric
charging time intervals, the user's mobile computing device 20
would transmit a signal back to server 30, requesting or
instructing server 30 to process a payment transaction to cover the
cost associated with using the electric vehicle charging equipment
for two electric charging time intervals. Assuming the transaction
is approved, the server 30 may transmit a signal that would cause
the activation of the electric charging equipment at the parking
location defined by parking identifier 41. In this example, the
start condition may be the transmission of the signal from server
30 that activates the electric vehicle charging equipment. If the
server 30 is measuring or calculating the electric charging
duration 80, the server 30 may, at the expiration of the electric
charging duration 80 transmit a second signal that causes the
deactivation of the electric charging equipment at the parking
location defined by parking identifier 41. Thus, the transmission
of this second signal might serve as the end condition. It will be
understood that the present invention contemplates the ability of
the user 10 to extend the electric charging duration 80 by paying
for additional electric charging time intervals.
[0062] In the example described above, the electric vehicle
charging equipment is automatically activated by the signal
transmitted by server 30. In an alternative embodiment, the server
30 may transmit a signal to the mobile computing device 20, wherein
the signal transmitted to the mobile computing device 20 contains
an electric vehicle charging equipment start code. The user might
then be required to enter the code at the electric charging station
in order to activate the charging equipment. In this alternative
embodiment, the start condition would be the user entering the
electric vehicle charging equipment start code.
[0063] The first option was referred to as a "start duration"
electric charging session. A second option may be a "start-stop"
electric charging session. In accordance with this exemplary
option, the total electric charge duration 80 is initially
undefined. The server 30, the mobile computing device 20, or other
equipment, would then track, for example, through the use of a
timer, the amount of time that elapses between a start time 82 and
an end time 84. The end time, in this case, would be associated
with one of a number of possible end conditions, such as, the end
of a corresponding and simultaneous parking session, the exhaustion
of an amount of money in the user's account, a maximum amount of
time set by the parking supplier 40, or an indication from the
electric vehicle that the battery therein is fully charge. It will
be appreciated that these particular end conditions are exemplary,
and other end conditions are possible. When the end condition
occurs and the total electric charge duration 80 is known, the
server 30 can then process the transaction.
[0064] FIG. 17 illustrates the relationship between a mobile
computing device 20, server 30 and other equipment necessary for
implementing the parking space search and reservation service. As
shown, mobile computing device 20 receives signals from GPS
satellite and/or a WiFi/WLAN positioning system. Those signals are
used to determine the location of the mobile computing device 20.
The server 30 will use the location of the mobile computing device
20 to determine which available parking spaces are in proximity to
the mobile computing device 20 (e.g. within a set distance from the
mobile computing device). The server. More specifically, server 30
may compare the location of the mobile computing device 20 to the
location of several parking facilities that currently have
available spaces. The server 30 can then identify those that are
closest to the mobile computing device 20, i.e., those within the
set distance from the mobile computing device. A list of the
closest available parking spaces may then be presented to the
mobile computing device 20 so that the user can view the list and
select and reserve a desired space. The parking space search and
reservation service and the method of processing a payment
transaction associated with this service are described in greater
detail below.
[0065] FIG. 18 is a flowchart that illustrates a method by which
user 10 may begin to employ various parking and parking related
services, in accordance with exemplary embodiments of the present
invention. In this example, the user 10 may begin by running an
application on his or her mobile computing device 20. As shown in
step 1805, the user 10 may first be presented with a list of basic
features or services provided by the application. In this example,
the list may be presented on the display of the user's mobile
computing device 20. In FIG. 18, the display lists two exemplary
services: the Parking Plus and Parking Space Search and Reservation
services. It will be understood that other parking related services
may be included.
[0066] Continuing on with the method presented in FIG. 18, it would
then be necessary to determine if the user 10 selected either of
the two exemplary services presented on the display the mobile
computing device 20. For example, the method may first involve
determining whether user 10 selected the Parking Plus service
option, in accordance with decision step 1810. If the user 10 did
select the Parking Plus service option, processing of the Parking
Plus service may proceed as indicated by the YES path out of
decision step 1810, and as described in detail below with respect
to FIG. 19. If, on the other hand, the user 10 did not select the
Parking Plus service option, as shown by the NO path out of
decision step 1810, it should be determined next whether the user
10 selected the parking space search and reservation service, in
accordance with decision step 1815. If it is determined that user
10 selected the parking space search and reservation service,
processing of the parking space search and reservation service may
proceed, as illustrated by the YES path out of decision step 1815,
and as described in detail below with respect to FIG. 20. If the
user 10 did not select the parking space search and reservation
service, in accordance with the NO path out of decision step 1815,
the application may be terminated.
[0067] FIG. 19 illustrates a method of implementing the Parking
Plus service, if the user 10 selected the Parking Plus service
option, as explained above, FIG. 18. It is assumed, for purposes of
illustration, that the user has already arrived at the parking
facility, as such, the method may first require the user 10 to
upload certain information into his or her mobile computing device
20, as shown by step 1905. This information may include a parking
identifier 41, which would be provided or made available to the
user 10 at the parking facility. As explained above, the parking
identifier 41 uniquely defines the parking location, such as the
parking lot or a specific parking space at the parking lot. The
information may also include a user identifier 11. As shown by step
1910, the mobile computing device 20 may then transmit a signal via
one or more network connections, possibly including a WIFI/WLAN
and/or the Internet, to server 30, where the transmitted signal
conveys to server 30, the uploaded information.
[0068] Server 30 may then determine, as shown by step 1915, whether
parking supplier 40 offers any ancillary, parking related services
in conjunction with a parking session at the location defined by
parking identifier 11. As explained above, such ancillary, parking
related services may include, but are not limited to electric
vehicle charging services, valet parking services, cleaning
services, specialty kiosks, and the like. Server 30 may then
transmit one or more signals to the mobile computing device 20 such
that user 10 may view the ancillary, parking related services
offered at the parking facility, if any. Assuming there are
ancillary, parking related services available, the user would then
be given an opportunity to select one or more of these services.
Server 30 would then determine which, if any of the services, were
selected by the user, in accordance with decision step 1920.
[0069] If user 10 chooses not to select any of the ancillary
parking related services available at the parking facility, in
accordance with the NO path out of decision step 1920, processing
of the parking session only may proceed as described in great
detail above with respect to FIGS. 1-15. If, however, user 10 does
choose one or more of the ancillary parking related services, it is
necessary to determine which of the services he or she selected.
For ease of discussion, the flowchart of FIG. 19 illustrates the
method as it relates to the user selecting the electric vehicle
charging service, in accordance with the YES path out of decision
step 1920.
[0070] At this point, server 30 may require that the user enter or
upload onto his or her mobile computing device 20, an electric
charging station identifier 51, as shown by step 1925. A signal
would then be transmitted from the mobile computing device 20 to
server 30 conveying the electric charging station identifier 51.
The server 30 may require the identifier in order to activate the
particular electric vehicle charging equipment that will be used to
charge the user's vehicle. It will be noted, however, that the
electric charging station identifier 51 may be part of the electric
charging information 52 that is already stored in a memory at or
accessible to server 30, wherein the electric charging station
identifier 51 is mapped to parking identifier 41. Thus, the server
30 would be able to automatically determine the electric charging
station identifier 51 once it knows the parking identifier 41.
[0071] As explained above, the electric charging information 52 may
include a variety of information, including electric charging
duration options associated with the specific electric vehicle
charging equipment that will be used to charge the user's vehicle.
As shown by step 1930, the user 10 may display on his or her mobile
computing device 20, the electric charging duration options that
are available. From the display, the user 10 may then select one of
the electric charging duration options, as shown by step 1935.
Above, two examples of electric charging duration options were
described, although it will be understood that other options are
possible. The first exemplary electric charging duration option was
referred to as a "Start Duration" (S-D) option, and the second
exemplary electric charging duration option was referred to a
"Start-Stop Duration" (S-S-D)option.
[0072] In decision step 1940, a determination is made as to whether
user 10 selected the Start Duration or the Start-Stop Duration
option. In accordance with the "S-S-D" path out of decision step
1940, server 30 may first determine whether the user 10 is eligible
to use the electric vehicle charging equipment. The server might do
so by determining whether there is sufficient credit associated
with the user's credit card, or whether there is a sufficient
balance associated with the user's account that is maintained by
server 30. If the server 30 determines there is insufficient credit
or that the account balance is insufficient, server 30 may not
approve the transaction, as shown by the NO path out of decision
step 1941, in which case, the method may be terminated.
[0073] If, on the other hand, server 30 approves the transaction,
as shown by the YES path out of decision step 1941, server 30 may
transmit a signal to the electric vehicle charging station
authorizing the corresponding electric charging equipment to
automatically start the electric vehicle charging session, in
accordance with step 1945. Alternatively, and as explained above,
the server 30 may instead transmit an authorization or electric
vehicle charging equipment start code to the mobile computing
device 20. After which, the user 10 must then download or otherwise
provide the code to the electric vehicle charging equipment in
order to activate the electric vehicle charging equipment. In
either event, the time stamp associated with the server 30
transmitting and the electric vehicle charging equipment receiving
the signal serves as the start time for purposes of computing, by
measuring or calculating, the electric charging duration 80, as
shown in step 1950. It should be noted that transaction approval
may not be accomplished prior to the electric vehicle charging
session, but accomplished later, as indicated by decision step
1965.
[0074] The electric vehicle charging session will continue until
the server 30 determines that an end condition has occurred, as
shown by decision step 1955. Until that time, in accordance with
the NO path out of decision step 1955, the server 30, the mobile
computing device 20, or other equipment, will continue to compute
the amount of time that has elapsed since the start time.
Eventually, the server 30 will determine that an end condition has
occurred, as indicated by the YES path out of decision step 1955.
As explained above, the end condition may be met by any one of a
number of conditions, including but not limited to the end of a
corresponding and simultaneous parking session, the exhaustion of
an amount of money in the user's account maintained by server 30,
the total amount of electric vehicle charging time has reached a
maximum amount of time set by the parking supplier 40, an
indication from the electric vehicle that the battery therein is
fully charged.
[0075] Once it has been determined that an end condition has
occurred, the server 30, the mobile computing device 20, or other
equipment, will be able to compute the electric charge duration 80
based on the total elapsed time according to a timer or by
calculating the difference between the time stamp associated with
the occurrence of the end condition and the time stamp associated
with the occurrence of the start condition. The server 30 can then
process the payment transaction, in accordance with step 1960, as
the total cost can now be determined based on the electric charge
duration 80. The server 30 must then determine if the transaction
was approved, as illustrated by decision step 1965. This may
involve, for example, determining if the user's credit card has
sufficient credit to pay for the use of the electric vehicle
charging equipment or determining if the user's account maintained
by server 30 has sufficient funds to pay for the use of the
electric vehicle charging equipment. If the server 30 determines
that the transaction is not approved, in accordance with the NO
path out of decision step 1965, the server 30 may freeze the user's
account. Alternatively, server 30 may attempt to re-approve the
transaction a set number of times, for example three times, as
illustrated by step 1970. If after the set number of times, it is
determined that the transaction is not approved, the server 30 may
freeze the user's account. On the other hand, if server 30
determines that the transaction is approved and the user 10 was
authorized to use the electric vehicle charging equipment, the
transaction is completed. The server 30 will process the
transaction in the same or like manner that it processes the
transaction associated with the parking sessions. Alternatively,
the transaction associated with the parking session and the
transaction associated with the use of the electric vehicle
charging equipment may be processed together as one
transaction.
[0076] Referring back to decision step 1940, the user 10 may
alternatively select the Start Duration option, in accordance with
the S-D path out of decision step 1940, using his or her mobile
computing device 20. Using the electric charging duration option
displayed on the mobile computing device 20, the user 10 would then
select the desired number of electric charging time intervals, as
indicated by step 1942. For example, the user may determine that he
or she would like to use the electric vehicle charging equipment
for 2 hours. If the electric charging duration options indicate
that the user may select any number of electric charging time
intervals of 30 minutes each, up to a maximum electric charging
time, user 10 would select four electric charging time intervals.
The server 30 would then process the payment transaction, according
to step 1947. Processing may first involve determining whether the
user is approved to use the electric vehicle charging equipment for
the desired amount of time, in accordance with decision step 1952.
The server 30 may do this, for example, by determining whether the
user's credit card has sufficient credit available to cover the
cost of money using the electric vehicle charging equipment for
four charging time intervals or alternatively, whether the user 10
has sufficient funds in his or her account maintained by server 30
to cover the cost associated with the four electric charging time
intervals. Similar to the discussion above regarding the Start-Stop
Duration option, if server 30 determines there is insufficient
credit associated with the user's credit card or there are
insufficient funds available in the user's account maintained by
server 30, the server 30 will determine that the user is not
eligible, the transaction will not be approved, and the server 30
will not authorize the activation of the electric vehicle charging
equipment. In the exemplary method illustrated in FIG. 19, and in
accordance with the NO path out of decision step 1952, the server
30 may then terminate the process. Alternatively, and as
illustrated by step 1957, server 30 may back transmit a signal to
the mobile computing device 20 prompting the user to try selecting
fewer electric charging time intervals. If the server 30 again
determines the transaction is disapproved, the server 30 may
repeatedly give the user the option to select fewer electric
charging time intervals unless and until it is determined that the
user has insufficient credit or insufficient funds to cover even
one electric charging time interval. Another way the server 30 may
reprocess the transaction is to resubmit the payment transaction as
is, and after a set number of attempts, the server 30 may terminate
the transaction, and it will not activate the electric vehicle
charging equipment.
[0077] If, however, server 30 determines that user 10 is eligible
and, therefore, the transaction is approved, in accordance with the
YES path out of decision step 1952, the server 30 will complete the
payment transaction whereby user 10 will be charged for using the
electric vehicle charging equipment for the selected number of
electric charging time intervals (e.g., four electric charging time
intervals). Again, the server 30 may process the transaction in the
same or like manner that it processes the transaction associated
with the parking session, or the server 30 may process the parking
session and electric vehicle charging session transactions
together.
[0078] Once the transaction is approved, the server 30 may transmit
a signal to the electric vehicle charging station authorizing the
corresponding electric charging equipment to automatically start
the electric vehicle charging session, in accordance with step
1962. Alternatively, and as explained above, the server 30 may
instead transmit an authorization or electric charge start code to
the mobile computing device 20. After which, the user 10 must then
download or otherwise provide the code to the electric charging
equipment to start the electric vehicle charging session. In either
event, the time stamp associated with the server 30 transmitting
and the electric charging equipment receiving the signal that
automatically starts the electric vehicle charging session or the
user downloading the electric charge start code serves as the start
time for purposes of computing, by measuring or calculating, the
electric charging duration 80, as shown in step 1967.
[0079] The electric charging equipment would then continue to
charge the user's vehicle, in accordance with the NO path out of
decision step 1972, until it is determined that the total amount of
time the user's vehicle has been charging is equal to the total
time associated with the selected number electric charging time
intervals. If and when it is determined that the total amount of
time the user's vehicle has been charging is equal to the total
time associated with the selected number electric charging time
intervals, the server 30 may, according to the YES path out of
decision step 1972, terminate the process. Again, it should be
pointed out that computing the time, according to step 1967 may be
accomplished by the server 30, the mobile computing device 20, or
other equipment.
[0080] FIG. 20 is a flowchart that illustrates an exemplary method
of implementing the parking space search and reservation service,
if the user 10 selected the parking space search and reservation
service option, as explained above, with respect to FIG. 18. As
shown by step 2005, the method would obtain the location of the
mobile computing device 20. This may involve the mobile computing
device 20 determining its GPS coordinates and then transmitting a
signal to server 30 that conveys those coordinates. As shown in
FIG. 17, the mobile computing device 20 may, alternatively,
determine its location using a WiFi/WLAN positioning system.
[0081] In addition, user 10 might be prompted to input, through his
or her mobile computing device 20, any parking preferences they may
have, as shown by step 2010. For example, user 10 may prefer to
locate a parking space that provides handicap access, indoor versus
outdoor parking, or electric vehicle charging services. It will be
understood that these preferences are exemplary, and many other
parking preferences are possible. Again, the mobile computing
device 20 would transmit a signal conveying the user's parking
preferences to server 30. It will also be understood that the
parking preference information may be conveyed to server 30 in the
same signal that is used to transmit the mobile computing device
location information. It should be further understood that user 10
parking preferences may be stored in memory under the user's
account, or be accessible to server 30 through the user account
profile associated and retrieved with the user information 14.
[0082] Server 30 would maintain and currently update a list of
available parking spaces in memory, preferably mapped to a
corresponding parking facility and parking provider. Server 30
would then search that list for available parking spaces that meet
the user's parking preferences and are proximate to the mobile
computing device location. The user 10, through the display on his
or her mobile computing device 20, in accordance with step 2015,
may view a listing of the closest available parking spaces or,
alternatively, the user may view the closest available parking
spaces on an interactive map service, such as Google Maps. It
[0083] The method would then involve determining whether the user
10 has selected one of the available parking spaces, in accordance
with decision step 2020. If it is determined that the user 10 did
not select any of the available parking spaces, the method may be
terminated, according to the NO path out of decision step 2020.
However, if it is determined that the user 10 did select one of the
available parking spaces, server 30 would obtain from memory the
parking identifier 41 associated with the selected parking space,
as shown by step 2025.
[0084] Using the parking identifier 41, server 30, as shown by step
2030, may then access various parking information 42, stored in
memory, corresponding to parking identifier 41. This information
may include, but is not limited to pricing information (e.g., cost
per parking time interval), maximum allowed parking time, and
parking space availability, in the event another has reserved the
same parking space starting at a later time. Again, user 10 would
be able to view this information through the display of his or her
mobile computing device 20. Thereafter, the user 10 might be
prompted to confirm whether they want to reserve the selected
parking space and, if so, for what duration of time.
[0085] Optionally, the server 30 might invoke the functionality
provided by the Parking Plus service, as described above, whereby
server 30 might determine whether any ancillary, parking related
services are offered by the parking provider 40 at the parking
space selected by user 10. As explained above, user 10 would have
an opportunity to review the ancillary, parking related services,
if any, and select one or more of the services if desired. If the
user 10 does select one or more of the ancillary, parking related
services (e.g. electric vehicle charging service), server 30 would
then take this into consideration in processing the payment
transaction, as there would likely be a value added cost associated
with these ancillary, parking related services.
[0086] The method would then have to determine if the user 10 did
confirm a reservation, in accordance with decision step 2035. If it
is determined that the user 10 did not confirm the reservation, in
accordance with the NO path out of decision step 2035, the method
may be terminated. If, however, it is determined that the user 10
did confirm the reservation, in accordance with the YES path out of
decision step 2035, server 30 will process the corresponding
payment transaction, as illustrated by step 2040, and determine
whether the transaction is approved as illustrated by decision step
2045. If the transaction is not approved (e.g., there are
insufficient funds in the user's account to cover the reservation),
the method may attempt to re-process the transaction a set number
of times, after which, the method may be terminated, in accordance
with the NO path out of decision step 2045. On the other hand, if
the transaction is approved, in accordance with the YES path out of
decision step 2045, the server 30 may transmit a signal to the
parking supplier 40, as indicated by step 2047, the signal
conveying the reservation information for the selected parking
space to complete the reservation.
[0087] Optionally, as shown in FIG. 20, the user 10 may be
presented with the option of receiving directions from the present
location of the mobile computing device 20 to the reserved parking
space. The method would then have to determine if the user 10 has
selected this option, in accordance with decision step 2050. If it
is determined that the user 10 did not opt to receive directions,
in accordance with the NO path out of decision step 2050, the
server 30 may, once again, proceed with the completion of the
reservation. If the user 10 does opt to receive directions, in
accordance with the YES path out decision step 2050, server 30
would still complete the reservation and it may, through the use of
an existing service, such as Google Maps, provide directions, as
shown in step 2055, which the user will be able to view through the
display on his or her mobile computing device 20.
[0088] As a person skilled in the art will recognize from the
previous detailed description and from the figures and claims,
modifications and changes can be made to the preferred embodiments
of the invention without departing from the scope of this invention
defined in the following claims.
* * * * *