Systems and methods for location aware access control management
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06F-007/04
G06F-015/16
G06F-017/30
H04L-029/06
출원번호
US-0986096
(2011-01-06)
등록번호
US-8707414
(2014-04-22)
우선권정보
AU-2010900052 (2010-01-07)
발명자
/ 주소
Roy, Sanjay
Gali, Muneswar Rao
Bhandari, Neelendra
Chappidi, Gopi
Reddy, Chandrakantha
출원인 / 주소
Honeywell International Inc.
대리인 / 주소
Seager Tufte & Wickhem LLC.
인용정보
피인용 횟수 :
1인용 특허 :
167
초록▼
Described herein are systems and methods for access control management, these generally being directed towards location aware access control management. Embodiments of the invention have been particularly developed for providing additional functionalities in access control systems having disconnecte
Described herein are systems and methods for access control management, these generally being directed towards location aware access control management. Embodiments of the invention have been particularly developed for providing additional functionalities in access control systems having disconnected devices, and the present disclosure is primarily focused accordingly. For example, embodiments include access control devices configured to operate in conjunction with a GPS receiver or other source of geographical positional information, and methods associated with the use of such devices.
대표청구항▼
1. An access control device for operation in an access control system including a central server, one or more disconnected access control devices, and one or more connected access control devices, the device including: an interface for interacting with an access control token for the purposes of an
1. An access control device for operation in an access control system including a central server, one or more disconnected access control devices, and one or more connected access control devices, the device including: an interface for interacting with an access control token for the purposes of an access transaction;a processor and associated memory configured for processing data received from the access control token in relation to the access transaction thereby to selectively allow or deny access;a receiver for determining geographical positional information for the access transaction;wherein when the access control device is operating as a disconnected access control device, the access control device is configured to: in respect of a first access transaction initiated by a first access control token at a first location, write to the first access control token a first set of data indicative of geographical positional information representing the first location;in respect of a second access transaction initiated by the first access control token at a second location, write to the first access control token a second set of data indicative of geographical positional information representing the second location; andwherein the first set of data and second set of data are configured to subsequently be read from the access control token by a connected access control device, thereby to facilitate propagation of the first set of data and second set of data to the central server, such that the central server calculates transportation information for a user associated with the first access control token based upon the geographical positional information representing the first location and geographical positional information representing the second location. 2. A device according to claim 1 including a wireless network interface that is selectively actuated responsive to geographical positional information determined by the receiver. 3. A device according to claim 1 including a wireless network interface for connecting to an access control network thereby to allow the device to function as a connected access control device, wherein the memory of the device maintains geographical positional information indicative of one or more connectivity zones, and wherein the device is configured to actuate the wireless network device when the receiver indicates that the device is within one or more of the connectivity zones. 4. A device according to claim 1 including a telecommunications interface, wherein the device is configured for providing a signal via the telecommunications interface responsive to an access transaction when predefined conditions are met by reference to geographical positional data. 5. A device according to claim 1 wherein the device is located on a vehicle. 6. A method for operating an access control device, wherein the access control device is part of an access control system including a central server, one or more disconnected access control devices, and one or more connected access control devices, the method including: interacting with an access control token for the purposes of an access transaction;processing data received from the access control token in relation to the access transaction thereby to selectively allow or deny access;determining, based on data derived by a receiver, geographical positional information for the access transaction;wherein when the access control device is operating as a disconnected access control device, the access control device is configured to: in respect of a first access transaction initiated by a first access control token at a first location, write to the first access control token a first set of data indicative of geographical positional information representing the first location;in respect of a second access transaction initiated by the first access control token at a second location, write to the first access control token a second set of data indicative of geographical positional information representing the second location; andwherein the first set of data and second set of data are configured to subsequently be read from the access control token by a connected access control device, thereby to facilitate propagation of the first set of data and second set of data to the central server, such that the central server calculates transportation information for a user associated with the first access control token based upon the geographical positional information representing the first location and geographical positional information representing the second location. 7. A method according to claim 6 including a step of selectively actuating a wireless network interface that is responsive to geographical positional information determined by the receiver. 8. A method according to claim 6, wherein the device includes a wireless network interface for connecting to an access control network thereby to allow the device to function as a connected access control device, wherein the memory of the device maintains geographical positional information indicative of one or more connectivity zones, and wherein the method includes actuating the wireless network device when the receiver indicates that the device is within one or more of the connectivity zones. 9. A method according to claim 6 wherein the device includes a telecommunications interface, wherein the method includes providing a signal via the telecommunications interface responsive to an access transaction when predefined conditions are met by reference to geographical positional data. 10. A method according to claim 6 wherein the device is located on a vehicle. 11. An access control system including: a central server;one or more connected access control devices that are in communication with the central server via a network;one or more disconnected access control devices that are not in communication with the central server via the network, wherein the disconnected devices are configured to propagate information back to the central server by writing data to access control tokens presented by users;wherein at least one disconnected access control device includes a receiver for determining geographical positional information and is configured for writing to an access control token data indicative of the geographical positional information associated with an access transaction;wherein at least one of the disconnected access control devices is configured to: in respect of a first access transaction initiated by a first access control token at a first location, write to the first access control token a first set of data indicative of geographical positional information representing the first location;in respect of a second access transaction initiated by the first access control token at a second location, write to the first access control token a second set of data indicative of geographical positional information representing the second location; andwherein the first set of data and second set of data are configured to subsequently be read from the access control token by a connected access control device, thereby to facilitate propagation of the first set of data and second set of data to the central server, such that the central server calculates transportation information for a user associated with the first access control token based upon the geographical positional information representing the first location and geographical positional information representing the second location.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (167)
Ryan Joseph L. (Tuscon AZ) Safdie Elias (Chelmsford MA) Watkins Richard R. (Chelmsford MA) Kobs Frederick E. (East Pepperell MA), Access control logic for video terminal display memory.
Michael J. Tracy ; Robert L. Hinze, Apparatus and method for collecting and transmitting utility meter data and other information via a wireless network.
Rossi, Todd M.; Rossi, Dale; Douglas, Jonathan D.; Stockman, Timothy P., Apparatus and method for detecting faults and providing diagnostics in vapor compression cycle equipment.
Koegel Robert J. (Glendale AZ) Rabins Leonard (Scottsdale AZ), Apparatus for controlling system accesses having multiple command level conditional rotational multiple port servicing p.
Jesper Vasell SE; Tom Idermark SE; Malte Lilliestrale SE; Hans Thorsen SE; Staffan Truve SE; Carlo Pompili SE; Johan Ljungberg SE; Jorgen Andersson SE, Application and communication platform for connectivity based services.
Drees Kirk H. ; Gloudeman Jeffrey J. ; Gottschalk Donald A. ; Rasmussen David E., Asynchronous distributed-object building automation system with support for synchronous object execution.
Kshirsagar, Sachin R.; Subbaiah, Ramesh; Subbiah, Siva, Automatic guidance of visitor in new facility through access control system integration with LCD display.
Gloudeman Jeffrey J. ; Gottschalk Donald A. ; Kraemer C. Richard ; Rasmussen David E., Common object architecture supporting application-centric building automation systems.
Reis Robert Steven (Palo Alto CA) Verma Vikram (Palo Alto CA) Mihovilovic Domingo Antonio (Mountain View CA) Bertrand Peter Scott (Palo Alto CA) Stevens Richard Kenneth (Cupertino CA), Communication system for communicating with tags.
Cebasek Gregory B. ; Gloudeman Jeffrey J. ; Gottschalk Donald A. ; Rasmussen David E., Communication system for distributed-object building automation system.
Crooks Gerry ; Arnhold Ed ; Battista John ; Boni Ken ; Bowers Dan ; Feichtner Mark ; French Blaine ; Genzberger Janna ; Holmes David D. ; Kippenhan Larry ; Miller Dave ; Nanto Shawn ; Orr Teri ; Schl, Computerized resource accounting methods and systems, computerized utility management methods and systems, multi-user u.
Korklan Harris J. (Granger IN) Greany John K. (S. Bend IN), Conditioned colloidal silica post impregnant to prevent binder migration in the production of insulation articles compri.
Scarola Kenneth (Windsor CT) Jamison David S. (Windsor CT) Manazir Richard M. (North Canton CT) Rescorl Robert L. (Vernon CT) Harmon Daryl L. (Enfield CT), Display device for indicating the value of a parameter in a process plant.
Gloudeman Jeffrey J. ; Gottschalk Donald A. ; Rasmussen David E. ; Wagner Michael E., Distributed object-oriented building automation system with reliable asynchronous communication.
Krocker,Robert E.; Baier,Terence D.; Renaud,Merle A.; Rentmeester,Paul C.; Swanson,Robert M.; Wilson,Patrick J.; Johnson,Kirk W., HVAC service tool with internet capability.
Chene, George; French, Lee A.; Kramer, Dennis A.; Lawruk, Gerald D.; Mueller, Brian Jeffrey; Ramsey, Reno V.; Shintaku, Wayne; Worrall, Jack R., Individualized vehicle settings.
Steger, Perry C.; Foote, Garritt W.; Potter, David L.; Truchard, James J., Measurement system with modular measurement modules that convey interface information.
Barlow George J. (Tewksbury MA) Bradley John W. (Peabody MA) Getson ; Jr. Edward F. (Peabody MA), Method and apparatus for limiting the utilization of an asynchronous bus with distributed controlled access.
Richard A. Howes ; Edward C. Kersey ; Bruce F. Wong ; James A. Jordan ; William M. Leblanc ; Andrew L. Foss, Method and apparatus for maintaining connection state between a connection manager and a failover device.
Heitman Lynn B. (4711 Sycamore La. Parker TX 75002) Ezell George D. (3733 Pebble Beach Farmers Branch TX 75234), Method and apparatus for monitoring and controlling air handling systems.
Campbell, Bruce S.; Strauss, III, Burton M.; Dolecki, Myron C., Method and system for partitioned service-enablement gateway with utility and consumer services.
van Weele Leonardus A. (Terneuzen NLX) de Bruijn Ronny P. (Jansteen NLX) Vermeire Roger R. (Terneuzen NLX) Zemering Christo (Midland MI) Lenting Ben (Auckland NZX), Operator station for manufacturing process control system.
Balasubramanian, Meenakshi; Ganesh, Arul; Chaturvedi, Namit; Chowdhury, Atish Datta, Policy language and state machine model for dynamic authorization in physical access control.
Aalto Erkki (Kausala FIX) Mattila Timo (Kausala FIX) Niemel Mertsi (Lahti FIX) Rantanen Pertti (Jaala FIX), Procedure for controlling and maintaining air currents or equivalent in an air-conditioning installation, and an air-con.
Kline James R. ; Costick Matthew L., Process and apparatus for individual adjustment of an operating parameter of a plurality of environmental control devices through a global computer network.
Musser Marshall R. (6793 Trafford Ct. Middletown OH 45044) Brunermann ; Jr. George A. (5456 Red Oak Dr. Cincinnati OH 45238), Quick connect diagnostic apparatus and method for a vehicle cooling system.
Di Luoffo,Vincenzo Valentino; Fellenstein,Craig William; Reilly,Dylan Maxwell, Smart card data transaction system and methods for providing high levels of storage and transmission security.
Gloudeman Jeffrey J. ; Gottschalk Donald A. ; Rasmussen David E. ; Wainscott ; Jr. Barrett G., Software components for a building automation system based on a standard object superclass.
Webster Marvin K. (Glendale AZ) Flynn Richard T. (Peoria AZ) Porter Marion G. (Phoenix AZ) Seminsky George M. (Phoenix AZ), Split-cycle cache system with SCU controlled cache clearing during cache store access period.
Getson ; Jr. Edward F. (Lynn MA) Kelley John H. (Nashua NH) Rathbun Donald J. (Andover MA) McLaughlin Albert T. (Hudson NH), Synchronization control system for firmware access of high data rate transfer bus.
Anne, Gowtham; Desai, Yeshwant Sabaji; Alexander, Bobby Varghese, System and method for accessing and presenting health information for field devices in a process control system.
Hayes,Patrick H.; Conway, Jr.,James N.; Lilleness,Robert P.; Arling,Paul D., System and method for automatically setting up a universal remote control.
Andarawis,Emad Andarawis; Berkcan,Ertugrul; Delgado,Eladio Clemente; Rao,Samantha, System to monitor the health of a structure, sensor nodes, program product, and related methods.
Stoutenburg, Earney; Mollett, Cassandra J.; Price, James; Fillinger, Charles A.; Nelson, Eric M.; Seifert, Dean A.; Singleton, Jeffrey, Systems and methods for deploying a point-of sale device.
Barker Charles E. (Holland MI) Cairo Anthony C. (Holland MI) Bauer Frederick T. (Holland MI) Jackson ; Jr. Auzville (Richmond VA), Wall thermostat and the like.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.