U.S. patent application number 11/491317 was filed with the patent office on 2006-11-30 for intelligent locking system using biometrics.
Invention is credited to Mark Adams, Jordan Cayne, Robert Laidlaw, Colin MacAlpine, Laurence Thomas.
Application Number | 20060267727 11/491317 |
Document ID | / |
Family ID | 26909826 |
Filed Date | 2006-11-30 |
United States Patent
Application |
20060267727 |
Kind Code |
A1 |
Cayne; Jordan ; et
al. |
November 30, 2006 |
Intelligent locking system using biometrics
Abstract
An electronic locking system comprising a plurality of lockers,
a controller in communication with the plurality of lockers for
electronically controlling locking and unlocking of the plurality
of lockers, and a biometric sensor in communication with the
controller for recording a biometric characteristic of a user when
the user is located at the plurality of lockers. The controller
associates the recorded biometric characteristic of the user with
one of the plurality of lockers thereby permitting only the user to
open the one locker.
Inventors: |
Cayne; Jordan; (Marlboro,
NJ) ; Adams; Mark; (Ecclesmachan, GB) ;
MacAlpine; Colin; (Kinross, GB) ; Laidlaw;
Robert; (Edinburgh, GB) ; Thomas; Laurence;
(Livingston, GB) |
Correspondence
Address: |
LERNER, DAVID, LITTENBERG,;KRUMHOLZ & MENTLIK
600 SOUTH AVENUE WEST
WESTFIELD
NJ
07090
US
|
Family ID: |
26909826 |
Appl. No.: |
11/491317 |
Filed: |
July 21, 2006 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
|
10959339 |
Oct 5, 2004 |
7113071 |
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11491317 |
Jul 21, 2006 |
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|
09896595 |
Jun 29, 2001 |
6806807 |
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10959339 |
Oct 5, 2004 |
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60215218 |
Jun 30, 2000 |
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Current U.S.
Class: |
340/5.22 |
Current CPC
Class: |
G07C 9/27 20200101; G07C
2011/02 20130101; G07C 9/257 20200101; Y10T 70/5031 20150401 |
Class at
Publication: |
340/005.22 |
International
Class: |
H04L 9/32 20060101
H04L009/32 |
Claims
1. An electronic locking system comprising: a plurality of lockers;
a controller in communication with said lockers for electronically
controlling locking and unlocking of said lockers; a biometric
sensor in communication with said controller for recording a
biometric characteristic of a user when said user is located at
said plurality of lockers, wherein said controller associates said
recorded biometric characteristic of said user with one of said
lockers thereby permitting only said user to open the one of said
lockers.
2. The system as claimed in claim 1, wherein said controller
authorizes unlocking the one of said lockers if said user newly
records a biometric characteristic that matches said previously
recorded biometric characteristic.
3. The system as claimed in claim 2, wherein said user must be
located at said plurality of lockers when initially recording and
newly recording said biometric characteristic.
4. The system as claimed in claim 1, further comprising a memory
device for storing biometric characteristics recorded by said
biometric sensor.
5. The system as claimed in claim 1, wherein said controller
includes a program for comparing a newly recorded biometric
characteristic with a previously recorded biometric characteristic
and unlocking said one of a plurality of lockers associated with
said previously recorded biometric characteristic.
6. The system as claimed in claim 1, wherein said biometric
characteristic comprises at least one fingerprint.
7. The system as claimed in claim 6, wherein said at least one
fingerprint comprises a fingerprint pattern.
8. The system as claimed in claim 6, wherein said at least one
fingerprint comprises information related to the electrical
capacitance of ridges and valleys of said at least one
fingerprint.
9. The system as claimed in claim 1, further comprising a user
interface for selecting a language.
10. The system as claimed in claim 1, further comprising a user
interface for making a monetary payment.
11. The system as claimed in claim 10, wherein said user interface
accepts a monetary instrument selected from the group consisting of
coins, bills, credit cards and magnetic cards.
12. The system as claimed in claim 1, further comprising a user
interface for selecting a length of time for using one of said
lockers and receiving a monetary payment having an amount that is
related to the selected length of time.
13. The system as claimed in claim 1, wherein said system is
reprogrammable by recording a biometric characteristic of a second
user when said second user is located at said plurality of lockers,
wherein said controller associates said recorded biometric
characteristic of said second user with the one of said lockers
thereby permitting only said second user to open the one of said
lockers and said first user is no longer authorized to access said
one of a plurality of lockers.
14. An electronic locking system using biometrics comprising: a
plurality of lockers; a controller in communication with said
plurality of lockers for electronically controlling locking and
unlocking of said plurality of lockers; a biometric sensor in
communication with said controller for initially recording a
biometric characteristic of a user when said user is located at
said plurality of lockers, wherein said controller associates said
initially recorded biometric characteristic of said user with one
of said lockers and permits said user to access the one of said
lockers only if a subsequently recorded biometric characteristic
matches said initially recorded biometric characteristic.
15. The system as claimed in claim 14, wherein said user is located
at said plurality of lockers when initially recording and
subsequently recording said biometric characteristic.
16. The system as claimed in claim 14, wherein said biometric
characteristic comprises a fingerprint.
17. The system as claimed in claim 16, wherein said fingerprint
comprises a fingerprint pattern.
18. The system as claimed in claim 16, wherein said fingerprint
comprises information related to the electrical capacitance of
ridges and valleys of said fingerprint.
19. The system as claimed in claim 14, further comprising an
interface for selecting a language, selecting a length of time for
using one of said lockers and making a monetary payment.
20. The system as claimed in claim 14, wherein said system is
reprogrammable using a biometric characteristic of a second user
when said second user is located at said plurality of lockers,
wherein said controller associates said biometric characteristic of
said second user with the one of said lockers thereby permitting
only said second user to open the one of said lockers and said
first user is no longer authorized to access the one of said
lockers.
21. An electronic locking system comprising: a plurality of
lockers; a controller in communication with said plurality of
lockers for electronically controlling locking and unlocking of
said plurality of lockers; a user interface in communication with
said controller; a biometric sensor in communication with said
controller for recording a biometric characteristic of a user when
said user is located at said plurality of lockers, wherein said
controller associates said recorded biometric characteristic of
said user with one of said lockers thereby permitting only said
user to open the one of said lockers upon newly recording a
biometric characteristic that matches said recorded biometric
characteristic.
22. The system as claimed in claim 21, wherein said user must be
located at said plurality of lockers when initially recording and
newly recording said biometric characteristic.
23. The system as claimed in claim 21, wherein said user interface
includes an opening for receiving a monetary payment.
24. The system as claimed in claim 21, wherein said controller has
a routine that enables said user to select a length of time for
using one of said lockers and make a monetary payment having an
amount related to the selected length of time.
25. The system as claimed in claim 24, wherein said controller
authorizes said user to repeatedly lock and unlock the one of said
lockers during the selected length of time.
26. The system as claimed in claim 21, wherein said system is
reprogrammable using a biometric characteristic of a second user
that is recorded when said second user is located at said plurality
of lockers, wherein said controller associates said recorded
biometric characteristic of said second user with the one of said
lockers thereby permitting only said second user to access the one
of said lockers and said first user is no longer authorized to
access the one of said lockers.
27. The system as claimed in claim 21, wherein said biometric
characteristic comprises at least one fingerprint.
28. The system as claimed in claim 27, wherein said at least one
fingerprint comprises a fingerprint pattern.
29. The system as claimed in claim 27, wherein said at least one
fingerprint comprises information related to the electrical
capacitance of ridges and valleys of said at least one fingerprint.
Description
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] The present application is a continuation of U.S.
application Ser. No. 10/959,339, filed Oct. 5, 2004, now allowed,
which is a continuation of U.S. application Ser. No. 09/896,595,
filed Jun. 29, 2001, now U.S. Pat. No. 6,806,807, which claims
benefit of U.S. Provisional Application No. 60/215,218 filed Jun.
30, 2000, the disclosures of which are hereby incorporated by
reference herein.
FIELD OF THE INVENTION
[0002] The present invention is directed to a locking system for
securing articles in lockable storage containers and is more
particularly is directed to an electronic locking system that uses
one or more microprocessors for identifying authorized users of the
system, and for granting access to the one or more storage
containers associated with each authorized user.
BRIEF DESCRIPTION OF THE PRIOR ART
[0003] Mechanical lockers are used in both concessional and
non-concessional venues. In concessional venues, such as airports,
bus and train stations, malls, theme parks and ski resorts, users
must often pay to use the lockers. In non-concessional venues, such
as schools and fitness centers, users are typically not required to
pay to use the lockers. There are a number of problems associated
with mechanical locking systems that require a user to pay to use
the system. These problems include the fact that each locker may
only accept a limited number of coins, and those coins are the only
acceptable method of payment. As a result, a third party must
collect the coins from the system and the vendor/owner cannot
always account for the correct amount of cash. Another problem with
mechanical lockers is that keys must be used to operate them. These
keys are commonly lost or stolen, thereby creating maintenance and
security problems.
[0004] There are a number of companies that currently supply
products and services in the electronic locker industry. MORS
Industries built the first electronic locker system in the 1970's
for use in the French railway system. In the early 1990's, MORS
Industries experienced problems and sold the electronic locker
division to a Dutch company operating under the name Logibag SA.
Logibag SA has had some success in both the United States and
Europe, placing approximately 35,000 lockers worldwide. Although
Logibag SA has a large number of lockers in place, its electronic
lockers use out-dated technology, and each locker has a relatively
high selling price of approximately $1,000-$1,200 per locker.
[0005] Another electronic locker system, called Loksafe, was
originally designed by RAANND Systems of Scotland UK. Initially,
Loksafe was a direct competitor of Logibag SA and together Loksafe
and Logibag dominated the global market for over a decade. Because
it proved to be a more reliable and better-engineered product,
Loksafe won a number of major state railway contracts over Logibag.
Although there are currently about 12,000 Loksafe lockers installed
worldwide, Loksafe uses 1980's DOS-based programming and therefore
has a limited ability to accept upgrades. Like Logibag, Loksafe has
a high per unit cost and requires special maintenance and support.
The average selling price of each Loksafe locker is approximately
$900-$1,200.
[0006] KW Muller, one of the original coin-operated locker
manufacturers, recently introduced an electronic locker system in
an attempt to maintain a market share being taken by competitors
Logibag and Loksafe. Although KW Muller uses PC based technology,
its system has proven to be unreliable and difficult to use. KW
Muller has a price of approximately $2,000-$2,500 per locker.
[0007] Another entrant in the electronic locker market is
Eurolocker. The Eurolocker system has an unreliable electronic
system. As a result, Eurolocker has enjoyed only limited success.
The Eurolocker was revamped and relaunched by its new owner (Smarte
Carte), and has achieved success in a number shopping malls and
theme parks in the United States. This success is due almost
entirely to the fact that Eurolocker's electronic units are not
sold to third parties, but instead are placed on concession through
Eurolocker's parent organization, Smarte Carte. In fact, there have
been many negative responses to the quality of Eurolocker, and the
system is unlikely to be used in any major terminals or similar
locations. The estimated cost for each Eurolocker opening in the
United States is approximately $2,00-$3,000 per locker.
[0008] Another competitor, American Locker Security Systems, is a
global leader in the non-electronic locker industry. This United
States-based company has dominated the market in the United States
and in many overseas countries with its Statesman system. American
Locker Security Systems realized that the locker market was moving
to electronics and originally tried to modify its document storage
system, Compulok, to meet this demand. However, this attempt
failed. American Locker Security Systems then obtained the United
States dealership for Loksafe, but achieved only marginal success
due to the high price of the Loksafe units in the United States.
Since then, American Locker Security Systems has attempted to
develop its own electronic system, but has been unsuccessful.
[0009] Thus, there is a tremendous need for an electronic locker
system that is reliable, easy to use and cost effective for
operators and users alike.
SUMMARY OF THE INVENTION
[0010] In accordance with certain preferred embodiments of the
present invention, an electronic locking system includes a
plurality of lockable storage enclosures, and a controller, such as
a microprocessor-based controller, in communication with the
plurality of lockable storage enclosures for controlling locking
and unlocking of the storage enclosures. The electronic locking
system may also include a biometric sensor in communication with
the controller for sensing one or more identifying characteristics
for multiple users. The controller is adapted to store the one or
more identifying characteristics for each user in a memory device.
For each user, the controller creates a link between the stored
identifying characteristics for the user and one of the lockable
storage enclosures. In certain preferred embodiments, the biometric
sensor preferably measures the electrical capacitance of ridges and
valleys comprising the fingerprint of a user. The electrical
capacitance of the ridges and valleys of the fingerprint is then
used to generate a unique biometric key that may be associated with
the user. The unique key associated with each user is then stored
in the memory device. The system may also use other forms of
authentication such as an eye scan, magnetic cards, smart cards,
PIN codes, bar codes and chips embedded in the human body.
[0011] In other preferred embodiments of the present invention, a
method of assigning biometric markers to a plurality of lockable
storage enclosures includes providing a controller, such as a
microprocessor-based controller, in communication with a plurality
of lockable storage enclosures, the controller being associated
with a memory device for storing information. The method includes
sensing one or more biometric markers for one or more users,
storing the sensed one or more biometric markers for each of the
users in the memory device and linking the sensed one or more
biometric markers for each of the users with one of the storage
enclosures.
[0012] Although the present invention is not limited by any
particular theory of operation, in certain preferred embodiments,
the present invention is directed to an electronic system that
enables individuals to open and close locks, such as electronic
locks on storage lockers or doors, using fingerprints or other
authenticating data. In an electronic locker system, an
individual's fingerprints are associated with one of the lockers in
the system and can only be opened at a later time with the correct
fingerprints. Thus, the system ensures that the depositor of an
item in a locker is also the recipient. Instead of relying on the
pattern of a fingerprint, the present invention utilizes a
technology that records the capacitance of the ridges and valleys
of an individual's fingertip. These measurements are as unique as
the fingerprint itself and change when a person dies, or if their
finger has been cut off. Thus, the present invention is an
improvement over systems that utilize keys, magnetic cards or PIN
codes that can be passed between the depositor and the
receiver.
[0013] As a result, users of the present invention may not be
required to use a key insertible into a lock, as is required with
prior art systems. Depositors may still have to deposit a coin or
other form of money; however, depositors may lay claim to a
locker's contents by merely placing their fingertip on a sensor.
The sensor notes the pattern of the individual's fingerprint and
records it in a memory device or storage medium that notes the date
and time. This information may be stored in a central electronic
archive. The system will not unlock the locker until it once again
"sees" that fingerprint. When the depositor returns to the locker
to collect his or her belongings, they apply their finger to the
sensor for scanning and the door will only open if the fingerprint
stored in the memory device matches the sensed fingerprint. As
noted above, the present invention does not look at the fingerprint
pattern as is done in prior art systems, but instead measures the
electrical capacitance of the ridges and valleys that make up the
pattern of an individual's fingertip. This allows the system to
identify whether the person laying claim to the articles stored in
a locker really is the person who put the articles there in the
first place.
[0014] Another advantage of the present invention is that it
enables a user to identify the location of his or her stored
articles when the user has forgotten his or her locker number. In
accordance with certain preferred embodiments of the present
invention, users will be able to walk up to a terminal and apply a
fingertip. A central computer, which will have recorded the details
of all recent users, will note the details of the fingertip,
compare the fingertip with its records and then tell the user which
locker is theirs. This feature will avoid the time-wasting and
demeaning process of trying to open hundreds of lockers in order to
identify the right one.
[0015] In certain preferred embodiments, the present invention
utilizes an intelligent locking device, referred to by the assignee
as a SmartLok, having a credit card sized printed circuit board.
The intelligent locking device may be substituted wherever keys,
barrels and non-intelligent electronic locks have traditionally
been used. Unlike other electromechanical or electronic locks, the
intelligent locking device of the present invention utilizes a
printed circuit board that incorporates a powerful on-board
microprocessor. The microprocessor is programmable so that it may
be modified to satisfy an operator's particular locking and opening
requirements. For example, an operator of a locking system in an
airport or train station may have different operating requirements
than an operator in a school environment (e.g. the airport operator
may want to change money while the school operator may want the
system to be free). In certain embodiments, the locking system
includes a plurality of intelligent locking devices, the printed
circuit board of each intelligent locking device being able to
communicate with the printed circuit boards of the other
intelligent locking devices and with a central controller, referred
to by the assignee as a Customer Service Station (CSS), such as a
Microsoft Windows NT supervisory systems. It is contemplated that
the present invention may be distributed over a wide geographic
area and may be managed locally or remotely. Industry standard
communications are supported ranging from UTP interconnect for
local infrastructure to high-speed modem and Internet protocols for
remote access.
[0016] The printed circuit board of each intelligent locking device
is preferably a credit card size printed circuit board containing
the software necessary to offer the world's first true
self-intelligent lock controller. Contained within the printed
circuit board of each intelligent locking device is a
multi-function processor chip, having both RAM and Flash memory as
well as processing power. The chip is programmed to operate a
number of onboard devices concerned with the control and monitoring
of a motor driven lock mechanism. Specifically, each intelligent
locking device preferably includes a solid state motor driver chip,
a voltage regulator chip, two sets of gear drive status sensors and
a pair of two color LED indicator lamps. The printed circuit board
of each intelligent locking device may be programmed to communicate
via an onboard network chip down a standard UTP network, back to a
controller, such as a personal computer PC based operating on a
Windows Operating Platform. Operational data may be downloaded to
the printed circuit board of the intelligent locking device which
will allow it to operate with the chosen environment independently
of all other intelligent locking devices on the same network and
independently of the controller. During initial setup, the
intelligent locking device is given instructions from the central
controller. After initial setup, the intelligent locking device
runs independently. The intelligent locking device then
communicates with the central controller for additional information
and/or authorization as required. The PCB-based intelligent locking
device is capable of independent security and monitors the
mechanical lock assemblies associated therewith. An unauthorized
change of status will cause the printed circuit board of the
intelligent locking device to broadcast an alarm state to the
controller for further action. Meanwhile, the intelligent locking
device will take preventive preset action to protect its one or
more secured enclosures.
[0017] In other preferred embodiments, the present invention
includes an intelligent locking device for selectively locking and
unlocking one or more enclosed areas including a housing having a
microprocessor for operating the intelligent locking device, at
least one bolt slidably mounted to the housing and movable between
a retracted position and an extended position, and a mechanical
driving mechanism in contact with the slidable bolt for moving the
bolt between the retracted and extended positions, the driving
mechanism being in communication with the microprocessor for
receiving signals for retracting and extending the bolt.
[0018] The system may use a Distributed Lock Protocol (SDLP), which
is a proprietary protocol designed to operate a Controller Area
Network (CAN) merging to 2.0a and 2.0b environment. The protocol is
used to communicate locking and programmatic control states and
acts between intelligent locking device processes and intelligent
locker Customer Service Station (CSS) software processes. The state
and act model is embedded within the intelligent locker controller
software and CSS CAN DLL routines. The protocol is implemented by
these same routines.
[0019] SDLP is preferably a message-based protocol with fixed field
definitions conforming to the CAN 2.0a specification. The protocol
relies on the persistence and model of CAN to provide a reliable
transport. The protocol embraces many functions, including setting
controller specific parameters, controller state checking functions
and an acknowledgment model for operational locking functions.
[0020] Controllers and CSS systems are unique arbitration IDS
within messages to identify targets for messages. Collisions are
detected and a retry model is used to resolve the collision
traffic. A message ID is used to indicate the act that needs to be
affected. A data component is used to carry controller specific
parameters to a controller, such that the controller software may
use them to reprogram behaviors in real time. At arbitration ID of
zero, a general broadcast is generated that is heard by all active
components.
[0021] In certain preferred embodiments, up to 2,047 active
components or more may cooperate using SDLP. Moreover, up to 64 CSS
systems or more and up to 1,983 controllers or more may be active
in any one configuration.
[0022] These and other preferred embodiments of the present
invention will be described in more detail below.
BRIEF DESCRIPTION OF THE DRAWINGS
[0023] FIG. 1 shows a perspective view of an intelligent locker
system, in accordance with certain preferred embodiments of the
present invention.
[0024] FIG. 2 shows a Customer Service Station used with the
intelligent locker system of FIG. 1.
[0025] FIG. 3 shows a top view of the intelligent locker system of
FIG. 1 including a pair of doors that open in opposite
directions.
[0026] FIG. 4 shows a front fragmentary view of the intelligent
locker system of FIG. 1.
[0027] FIG. 5 shows a top cross-sectional view of an intelligent
locking device, in accordance with certain preferred embodiments of
the present invention.
[0028] FIG. 6 shows the intelligent locking device of FIG. 5 with a
first set of locking bolts in an open position and a second set of
locking bolts in a closed position.
[0029] FIG. 7 shows a front view of the intelligent locking device
of FIGS. 5 and 6.
[0030] FIG. 8 shows a schematic view of a local area network
wherein a plurality of intelligent locking devices are in
communication with a central controller.
[0031] FIG. 9 shows a fragmentary view of the intelligent locker
system of FIG. 1 with a door in an open position.
[0032] FIG. 10 shows the intelligent locker system of FIG. 9 after
the door has been closed, but with the locking bolt still in an
open position.
[0033] FIG. 11 shows the intelligent locker system of FIG. 10 with
the bolt in the closed position for locking the door in the closed
position.
DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS
[0034] FIG. 1 shows a perspective view of an intelligent locker
system, in accordance with certain preferred embodiments of the
present invention. The intelligent locker system 20 includes a
cabinet 22 having a plurality of locker openings 24. Each opening
24 is covered by a door 26 hingedly connected to the cabinet. The
intelligent locker system also includes a central controller,
commonly referred to by the assignee as a Customer Service Station
(CSS) 28. In the particular embodiment shown in FIG. 1, the
intelligent locker system includes two vertically-extending columns
of locker openings, each column having a series of vertically
aligned openings. In the particular embodiment shown, the locker
system has a first column of four locker openings, and a second
column of three locker openings and one Customer Service Station.
The capacity of the locker system may be increased by adding
another locker cabinet 22 to the left or right of that shown in
FIG. 1. Thus, additional locker cabinets 22 may be added to the
system for increasing overall capacity.
[0035] FIG. 2 shows a front view of the Customer Service Station 28
shown in FIG. 1. The Customer Service Station 28 includes a video
monitor 30, a speaker 32, and a series of keypads 34 for inputting
information into the Customer Service Station 28. The Customer
Service Station 28 also includes an opening 36 for receiving money,
such as coins or dollar bills. The opening 36 may also be adapted
to receive magnetic cards, credit cards, smart cards or any other
mode of making payment to the system. The Customer Service Station
28 also preferably includes a biometric scanning device 38 used to
scan one or more biometric characteristics of a user. In the
particular preferred embodiments shown in FIG. 2, the biometric
scanner 38 is used to scan the fingerprint of a user. In other
embodiments, the scanner 38 may record other physical
characteristics of a user, such as a user's iris. The system may
also identify the user by using a PIN code, a smart card, a
magnetic card, a bar code or an embedded chip.
[0036] FIG. 3 shows a top view of the intelligent locker system
shown in FIG. 1. At each level of the locker cabinet 22, a set of
doors 40A and 40B are hingedly attached to cabinet 22. The doors
desirably open away from one another, and preferably selectively
cover the cabinet openings 24A and 24B. A central wall 42 extends
between each locker opening so as to define distinct locker areas
44A and 44B. Each locker area is defined by central wall 42, a
portion of rear wall 46 and a sidewall 48.
[0037] As mentioned above, the pair of hingedly connected doors 40A
and 40B are designed to open away from one another. First door 40A
is hingedly connected to cabinet 22 by hinge 50A. Similarly, second
door 40B is hingedly connected to cabinet 22 by hinge 50B. Each
door 40A, 40B also may include a resilient or spring element that
normally maintains the door in a slightly open position. Thus, a
potential user of the intelligent locker system can visually
discern whether a particular locker opening is available for
use.
[0038] A depressible button 52A, 52B is located adjacent each
locker opening 24A, 24B. As will be explained in more detail below,
when button 52 is depressed, the Customer Service Station 28 is
alerted that a user is holding one of the locker doors 40 in a
closed position.
[0039] The intelligent locker system also includes an intelligent
locking device 54 having a printed circuit board 56 with a
microprocessor secured therein. The intelligent locking device 54
includes two sets of retractable bolts. The first set of
retractable bolts unlocks and locks the door 40A closable over the
first locker area 44A and the second set of retractable bolts
unlocks and locks the door 40B closable over the second locker area
44B.
[0040] FIG. 4 shows a fragmentary front view of the intelligent
locker system of the present invention. In particular, FIG. 4 shows
one level of the locker cabinet 22 including first locker opening
24A and second locker opening 24B. Adjacent central wall 42, each
locker opening has a flange 58A, 58B for supporting depressible
buttons 52A and 52B. The intelligent locker system includes
intelligent locking device 54 secured inside central wall 42. The
intelligent locking device includes a light emitting element 60
that is preferably exposed at the front surface of the locker
cabinet 22. In certain preferred embodiments, the light emitting
element 60 is a two-color LED that informs users of the intelligent
locker system whether a locker is unlocked, locked, or in the
process of being unlocked or locked. In one particular preferred
embodiment, when locker space 24 is available for use, the light
emitting element 60 emits green light. However, when a user places
articles within the space 24 and closes the door (not shown), the
light emitting element 60 will emit a red light that flashes on and
off. The red light will continue to flash until the user has
deposited money into the Customer Service Station 28 and entered
the required authenticating information (e.g., biometric, PIN code)
into the system. Once the user has entered the necessary
information at the Customer Service Station 28, the intelligent
locking device 54 will lock the door and the light emitting element
60 will emit a solid red light, indicating that the door covering
the locker space 24 is locked. The LED 60 will continue to emit a
solid red light until the authorized user interacts with the
Customer Service Station 28 to unlock the door. At that time, the
light emitting element 60 will emit green light.
[0041] FIG. 5 shows a top, cross-sectional view of an intelligent
locking device 54, in accordance with certain preferred embodiments
of the present invention. The intelligent locking device includes a
smart card 56 with a microprocessor that controls operation of the
device. The smart card 56 has at least one communication line 62
attached thereto for sending and receiving information related to
opening and closing locker doors. The smart card 56 preferably has
a program stored therein for operating the intelligent locking
device. The intelligent locking device includes a first set of
retractable bolts 64, including forward bolt 64A and rear bolt 64B,
and a second set of retractable bolts 66, including forward bolt
66A and rear bolt 66B. A front wall 68 of the intelligent locking
device 54 includes the light emitting element 60. As mentioned
above, light emitting element 60 is capable of emitting various
colors of light, such as green, amber and red for indicating the
locked/unlocked status of the locker. The light emitting element
may provide a solid stream of light or may blink on and off. The
intelligent locking device 54 also preferably includes a first
motor and associated driver 70A for opening and closing the first
set of retractable bolts 64, and a second motor 70B and associated
driver for opening and closing the second set of retractable bolts
66. The light emitting element 60, and the first and second motor
70A and 70B are preferably in communication with smart card 56.
[0042] The first and second sets of bolts 64, 66 are preferably
independent from one another. In other words, one set of bolts may
be in the retracted or unlocked position while the other set of
bolts may be in the extended or locked position. Moreover, both
sets of bolts may simultaneously be in the unlocked position or the
locked position. In the particular embodiment shown in FIG. 6, the
first set of bolts 64 are retracted in the unlocked position, while
the second set of bolts 66 are in the extended, locked position.
The unlocked/locked status of the bolts 64, 66, is at all times
relayed to smart card 56 which in turn relays the information to
the Customer Service Station (not shown) via communication line 62.
As a result, the Customer Service Station is able to monitor the
status of each locker opening. This information may be compiled by
the Customer Service Station and transmitted to a central location
via a wide variety of communication channels, such as telephone
lines. As a result, the operation of a plurality of intelligent
locker systems at a plurality of different locations may be
monitored at one central location.
[0043] FIG. 7 shows a front view of intelligent locking device 54,
including a first light emitting element 60A linked with the
position of the first set of retractable bolts 64 and a second
light emitting element 60B linked with the position of the second
set of retractable bolts 66. Thus, the first LED 60A shows the
lock/unlock status of the first set of bolts 64 while the second
LED 60B shows the lock/unlock status of the second set of bolts
66.
[0044] FIG. 8 shows a local area network (LAN) 72 used to
interconnect the plurality of intelligent locking devices 54 with
the central controller or Customer Service Station 28. The
intelligent locking devices 54 may be connected in series with one
another and with the Customer Service Station 28 via a first
network line 72. The intelligent locking devices 54 may also be
connected in parallel with the Customer Service Station 28 via
communication lines 72'. In other preferred embodiments, fiber
optic cables may replace the communications lines 72, 72'. In still
other embodiments, the intelligent locking devices 54 may
communicate with the Customer Service Station 28 via radio
waves.
[0045] Using the local area network shown in FIG. 8, the Customer
Service Station 28 for each intelligent locker system is able to
monitor the status of each intelligent locking device 54. The
particular status for each intelligent locking device 54 is
preferably compiled by the printed circuit board 56 disposed
therein. This information is then periodically sent via
communication lines 72 to the Customer Service Station 28. The
Customer Service Station 28 preferably stores this information in a
memory device (not shown). The information may be sent to a central
location that compiles information from many different locations.
The information may be transmitted via an uplink 84. The
transmitted information may include the amount of money collected,
the percentage of lockers in use, and whether any of the lockers
require maintenance.
[0046] Referring to FIGS. 1-11, in operation a user will approach a
particular locker opening 24B in order to store one or more
articles in locker space 44B. As mentioned above, in its normal
position, door 40B is preferably slightly ajar. Door 40B includes
one or more openings or recesses 74 adapted to receive one of the
retractable bolts 64, 66 when the retractable bolts are
extended.
[0047] The intelligent locking device 54 shown in FIG. 9 is a
simplified view of the system does not show the printed circuit
board and the motor and driving mechanism for opening and closing
retractable bolt 66. Adjacent locker opening 24B, depressible
button 52B is held by flange 76. Depressible button 52 is movable
between an extended position and a depressed position. When door
40B is closed, inner surface 78 of door 40B abuts against
depressible button 52B so as to depress the button. Upon being
depressed, a signal is sent to the printed circuit board of the
intelligent locking device 54, thereby informing the printed
circuit board that the door 40B of locker opening 24b has been
closed.
[0048] FIG. 10 shows a fragmentary view of the locker immediately
after door 40B has been closed and button 52 has been depressed,
but before retractable bolt 66 has move into the extended position
for locking the door 40B. When door 40B is initially closed, inner
surface 78 of door 40B depresses button 52B, thereby sending a
signal to the printed circuit board of the intelligent locking
device 54, the signal indicating that door 40B has been closed.
After a predetermined period of time, such as approximately 2-10
seconds, the printed circuit board will send a signal to the motor
70B to move the bolt 66 into the extended, locking position.
[0049] Referring to FIG. 11, as motor 70B moves bolt 66 into the
extended, locking position, bolt 66 slides into recess 74 formed in
the edge of door 40B. Once the bolt 66 extends completely into the
locked position, light emitting element 60 emits a solid red light,
thereby providing a visual indicator that door 40B has been
locked.
[0050] Referring to FIGS. 1-11, in other preferred embodiments of
the present invention, a user of the intelligent locker system 20
will approach cabinet 22. The user will observe whether one of the
locker openings 24 is available for use. The user will then open
the door 40 of the locker opening 24 and place articles for storage
within the locker area 44. A user may also confirm that a locker is
open and available for use by referring to one of the light
emitting elements of the intelligent locking device 54. If the
light emitting element is a particular color, such as green, the
color provides a visual indication that the locker is available.
Each locker opening 24 preferably has its own light emitting
element 60 assigned thereto. In other preferred embodiments, each
locker has two or more light emitting elements 60.
[0051] After the user places the articles within the locker opening
24, the user will close the door 40 so as to depress depressible
button 52. Upon being depressed, a signal will be sent to the
printed circuit board 56 of the intelligent locking device 54 that
the locker door 40 is being held in a closed position. After
approximately 2-10 seconds, the printed circuit board 56 will send
a signal to motor 70 to move retractable bolts 64 into the
extended, locking position. As the retractable bolts move into the
locking position, the bolts will slide into the recess 74 formed at
the edge of door 40. At the same time, light emitting element 60
will change from emitting a solid green light to a flashing amber
or red light. The printed circuit board 56 will then send a
communication to the Customer Service Station 28 that the
particular door has been closed.
[0052] The user will then proceed to the Customer Service Station
28 shown in FIG. 2. The Customer Service Station will ask the user
which language the user prefers. The user will then touch the video
screen 30 or enter information into the system using keys 34.
During the initial transaction, the Customer Service Station may
ask the user how long he or she desires to use the locker space.
The Customer Service Station will then calculate how much the user
owes. This amount may be deposited in the form of coins or bills
through slot 36. Slot 36 may also be adapted to receive credit
cards, magnetic cards, smart cards or any other form of payment.
The user will then submit biometric data or other authenticating
data to the system. In one particular preferred embodiment, the
user places a fingerprint over the biometric sensor 38. The sensor
38 will then scan the fingertip pattern and record it within a
memory device. Once the initial transaction is complete, the
extendable bolt of the intelligent locking device will remain in
the locked position and the light emitting element 60 will
transform from emitting a blinking red light to a solid red
color.
[0053] Later, when the user desires to remove the stored articles
from the locker, the user will approach the Customer Service
Station 28. The user will place his or her fingerprint over the
biometric scanner 38 so that the scanner may obtain a copy of the
user's fingerprint. In highly preferred embodiments, the
fingerprint data includes information related to the electrical
capacitance of the ridges and valleys of the fingerprint. The
scanned fingerprint will then be compared with the fingerprint
stored in the memory of the Customer Service Station. The processor
of the Customer Service Station will associate the retrieved
fingerprint with a particular locker number for that fingerprint.
Once a link or association has been made between the retrieved
fingerprint and the locker associated therewith, the bolts of the
intelligent locking device for that particular locker will retract,
thereby unlocking the locker door 40. At that time, the light
emitting element 60 will change from emitting a solid red light to
a solid green light. Once the bolt(s) retract, the locker door 40
will return to its normally partially ajar orientation. The user
may than proceed to the locker opening to remove the articles
stored in the locker.
[0054] Although the above described embodiment utilizes a biometric
scanner to obtain fingerprints, it is contemplated that other forms
of identification may be used for opening and closing the lockers.
For example, the biometric sensor 38 may scan another
characteristic of a user's body, such as scanning a user's eye or
other distinguishing feature of the body. The Customer Service
Station may also utilize PIN codes, magnetic cards, embedded chips
or other means for authenticating users.
[0055] Shown below are tables that detail message type and
exchanges that form the implementation of the protocol.
TABLE-US-00001 TABLE 1 Broadcast ArbID Message ID Data Comment 0
SET_ID (15) New Controller Controller will use as ID Arbitration ID
after receipt of message. 0 WAKE_UP (14)
[0056] TABLE-US-00002 TABLE 2 Programmatic ArbID Message ID Data
Comment 64-2046 HARD_RESET (6) -- 64-2046 SOFT_RESET (8) -- 64-2046
ENABLE (7) State* 64-2046 SET-STATE (10) State* 64-2046 DISABLE
(11) -- 64-2046 SET_PARK_OPEN (15) Ticks Set motor parking time in
1/50 sec 64-2046 SET_PARK_CLOSE (16) Ticks Set motor parking time
in 1/50 sec 64-2046 SET_DOOR_TICKS (18) Ticks Set switch
sensitivity in 1/50 sec *Locker States (0) LOCKER_OPEN_AVAILABLE
(1) LOCKER_CLOSED (2) LOCKER_SETUP (3) LOCKER_SETUP_REQ_ID (4)
LOCKER_LOCKED (5) LOCKER_OPEN_FAIL (6) LOCKER_CLOSE_FAIL (7)
LOCKER_RESET (8) LOCKER_GET_STATE (9) LOCKER_REQ_STATE (11)
LOCKER_WAITFOR_SET
[0057] TABLE-US-00003 TABLE 3 Locking ArbID Message ID Data Comment
64-2046 CONFIRM_LOCK (2) -- 64-2046 OPEN (5) --
[0058] TABLE-US-00004 TABLE 4 Operational ArbID Message ID Data
Comment 64-2046 CLOSED (1) -- Door has been closed and locks
driven. 64-2046 CLOSED_FAIL (2) -- Failure to complete a lock drive
after door closed. 64-2046 OPEN-FAIL (3) -- Failure to complete a
lock drive after open message rcvd. 64-2046 REQ-STATE (4) -- Sent
after wake-up rcvd if Controller has ID. 64-2046 LOCKER_OPENED (10)
-- Sent after successful open. 64-2046 LOCKER_LOCKED (11) -- Sent
as confirmed receipt of CONFIRM_LOCK msg.
[0059] TABLE-US-00005 TABLE 5 Security ArbID Message ID Data
Comment 64-2046 TAMPER_DOOR (5) -- Door switch is open and should
be closed. 64-2046 TAMPER_LOCK (7) -- Lock open when should be
closed.
[0060] TABLE-US-00006 TABLE 6 Acknowledgement ArbID Message ID Data
Comment 64-2046 CLOSED_FAIL (2) -- Failure to complete a lock drive
after door closed. 64-2046 OPEN_FAIL (3) -- Failure to complete a
lock drive after open message rcvd. 64-2046 LOCKER_OPENED (10) --
Sent after successful open. 64-2046 LOCKER_LOCKED (11) -- Sent as
confirmed receipt of CONFIRM_LOCK msg.
[0061] TABLE-US-00007 TABLE 7 Diagnostic ArbID Message ID Data
Comment 64-2046 PING (17) -- Check if controller exists 64-2046
PONG (8) State* Response to PING msg. *Locker States (0)
LOCKER_OPEN_AVAILABLE (1) LOCKER_CLOSED (2) LOCKER_SETUP (3)
LOCKER_SETUP_REQ_ID (4) LOCKER_LOCKED (5) LOCKER_OPEN_FAIL (6)
LOCKER_CLOSE_FAIL (7) LOCKER_RESET (8) LOCKER_GET_STATE (9)
LOCKER_REQ_STATE (11) LOCKER_WAITFOR_SET
[0062] Although the present invention has been described with
reference to particular preferred embodiments, it is to
* * * * *