Method and system for configuring wireless routers and networks
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04W-028/18
H04W-088/14
H04L-012/751
H04W-008/22
H04W-008/24
H04W-076/02
H04W-052/02
출원번호
US-0908373
(2010-10-20)
등록번호
US-8958428
(2015-02-17)
발명자
/ 주소
Patel, Pulin R.
Choksi, Ojas T.
Davidson, Kenneth W.
Dantu, Ramanamurthy
출원인 / 주소
Cisco Technology, Inc.
대리인 / 주소
Baker Botts L.L.P.
인용정보
피인용 횟수 :
0인용 특허 :
67
초록▼
A method and system for configuring a wireless router and a wireless communications network includes establishing connectivity between a wireless router and at least one wireline router. Connectivity between the wireless router and a plurality of neighboring wireless routers is established through t
A method and system for configuring a wireless router and a wireless communications network includes establishing connectivity between a wireless router and at least one wireline router. Connectivity between the wireless router and a plurality of neighboring wireless routers is established through the wireline router. The wireless router is configured based on information exchanged with the neighboring wireless routers through the wireline router.
대표청구항▼
1. A method for providing connectivity between mobile devices and an Internet protocol (IP) network, comprising: providing a set of neighboring wireless routers, each operable to receive data packets from a mobile device and to route the data packets to the IP network;providing connectivity between
1. A method for providing connectivity between mobile devices and an Internet protocol (IP) network, comprising: providing a set of neighboring wireless routers, each operable to receive data packets from a mobile device and to route the data packets to the IP network;providing connectivity between the set of neighboring wireless routers through a set of wireline routers in the IP network;exchanging impact information between the neighboring wireless routers to adjust operating parameters of the wireless routers in response to variations in the wireless network;wherein the impact information comprises traffic engineering parameters for the wireless router;wherein the traffic engineering parameters comprise at least one of a class-of-service algorithm and a class-of-service resource allocation or a quality-of-service algorithm and a quality-of-service resource allocation; andwherein adjusting operating parameters of the wireless routers comprises determining, based on the exchanged impact information, operating parameters such that traffic engineering parameters are negotiated among the set of neighboring routers. 2. The method of claim 1, wherein the impact information further comprises interference impact information. 3. The method of claim 1, wherein the impact information further comprises site impact information. 4. The method of claim 3, wherein the site impact information comprises a plurality of geographic parameters, network configuration parameters, service configuration parameters, and antenna parameters. 5. The method of claim 3, wherein the site impact information for the wireless router comprises a plurality of coverage, spectrum, channel, interference, control, and threshold parameters for the wireless router. 6. The method of claim 1, further comprising in response to one of the set of neighboring wireless routers being deactivated, exchanging impact information between the remaining wireless routers in the set and adjusting operating parameters in the remaining wireless routers to account for the absence of the deactivated wireless router. 7. The method of claim 1, further comprising in response to activation of a new neighboring wireless router, exchanging impact information between the neighboring wireless routers and adjusting operating parameters in the neighboring wireless routers to account for addition of the new neighboring wireless router. 8. The method of claim 1, further comprising exchanging impact information and adjusting operating parameters between the neighboring wireless routers in response to a configuration change in the set of neighboring wireless routers. 9. A method for providing connectivity between mobile devices and an Internet protocol (IP) network, comprising: receiving at a wireless router data packets from a mobile device;routing the data packets to the IP network;connecting to at least one neighboring wireless router of a set of neighboring wireless routers through at least one wireline router of a set of wireline routers in the IP network;exchanging impact information with the at least one neighboring wireless router to adjust operating parameters of the wireless router in response to variations in the wireless network;wherein the impact information comprises traffic engineering parameters for the wireless router;wherein the traffic engineering parameters comprise at least one of a class-of-service algorithm and a class-of-service resource allocation or a quality-of-service algorithm and a quality-of-service resource allocation; andwherein adjusting operating parameters of the wireless routers comprises determining, based on the exchanged impact information, operating parameters such that traffic engineering parameters are negotiated among the set of neighboring routers. 10. The method of claim 9, wherein the impact information further comprises interference impact information. 11. The method of claim 9, wherein the impact information further comprises site impact information. 12. The method of claim 11, wherein the site impact information comprises a plurality of geographic parameters, network configuration parameters, service configuration parameters, and antenna parameters. 13. The method of claim 11, wherein the site impact information for the wireless router comprises a plurality of coverage, spectrum, channel, interference, control, and threshold parameters for the wireless router. 14. The method of claim 9, further comprising in response to the at least one neighboring wireless router being deactivated, exchanging impact information between the remaining wireless routers in the set and adjusting operating parameters of the wireless router to account for the absence of the deactivated at least one wireless router. 15. The method of claim 9, further comprising in response to activation of a new neighboring wireless router, exchanging impact information with the at least one neighboring wireless router and adjusting operating parameters of the wireless router to account for addition of the new neighboring wireless router. 16. The method of claim 9, further comprising exchanging impact information with the at least one neighboring wireless router and adjusting operating parameters of the wireless router in response to a configuration change in the set of neighboring wireless routers. 17. A wireless node for a wireless communications network, comprising: computer implementable instructions encoded in at least one computer processable non-transitory medium;the instructions operable upon processing to receive at a wireless router data packets from a mobile device, to route the data packets to the IP network, to connect to at least one neighboring wireless router of a set of neighboring wireless routers through at least one wireline router of a set of wireline routers in the IP network;the instructions operable upon processing to exchange impact information with the at least one neighboring wireless router to adjust operating parameters of the wireless router in response to variations in the wireless network;wherein the impact information comprises traffic engineering parameters for the wireless router;wherein the traffic engineering parameters comprise at least one of a class-of-service algorithm and a class-of-service resource allocation or a quality-of-service algorithm and a quality-of-service resource allocation; andwherein adjusting operating parameters of the wireless routers comprises determining, based on the exchanged impact information, operating parameters such that traffic engineering parameters are negotiated among the set of neighboring routers. 18. The node of claim 17, wherein the impact information further comprises interference impact information. 19. The node of claim 17, wherein the impact information further comprises site impact information. 20. The node of claim 19, wherein the site impact information comprises a plurality of geographic parameters, network configuration parameters, service configuration parameters, and antenna parameters. 21. The node of claim 19, wherein the site impact information for the wireless node comprises a plurality of coverage, spectrum, channel, interference, control, and threshold parameters for the wireless node. 22. The node of claim 17, wherein the instructions are further operable upon processing to, in response to the at least one neighboring wireless router being deactivated, exchange impact information between the remaining wireless routers in the set and adjust operating parameters of the wireless router to account for the absence of the deactivated at least one wireless router. 23. The node of claim 17, wherein the instructions are further operable upon processing to, in response to activation of a new neighboring wireless router, exchange impact information with the at least one neighboring wireless router and adjust operating parameters of the wireless router to account for addition of the new neighboring wireless router. 24. The node of claim 17, wherein the instructions are further operable upon processing to exchange impact information with the at least one neighboring wireless router and adjust operating parameters of the wireless router in response to a configuration change in the set of neighboring wireless routers.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (67)
Ahmadi Hamid ; Bantz David ; Bauchot Frederic,FRX ; Harrison Colin ; Krishna Arvind ; Martinez Jose Louis,FRX ; Natarajan Kadathur ; Wetterwald Michelle,FRX, Allocation method and apparatus for reusing network resources in a wireless communication system.
Van den Heuvel Anthony P. (Parkland FL) Comroe Richard A. (Dundee IL) Sobti Arun (Wheaton IL) Sarli ; Jr. Anthony J. (Palatine IL), Bulletin board resource for communication system access.
Mahany, Ronald L.; West, Guy J.; Bunte, Alan G.; Danielson, Arvin D.; Morris, Michael D.; Meier, Robert C., Hierarchical communication system providing intelligent data, program and processing migration.
Linneweh ; Jr. Louis H. ; Houghton Matthew A., Method and apparatus for allocating communication resources to support priority communications in a communication syste.
Fleming Philip Joseph (Glen Ellyn IL) Stolyar Aleksandr (Buffalo Grove IL), Method and apparatus for controlling calls in a code division multiple access system.
Osterberg Anette (Stockholm SEX) Rosenlund Henrik (Farsta SEX) Arinell Fredrik (Stockholm SEX), Method and arrangement in mobile telecommunications networks to provide for improved cell planning.
Jacobus C. Haartsen NL, Method and system for autonomously allocating frequencies to a radio system sharing frequencies with an overlapping macro radio system.
Olofsson H.ang.kan Gunnar,SEX ; Frodigh Carl Magnus,SEX ; Johansson Johan Christer,SEX, Method for selecting a link protocol for a transparent data service in a digital communications system.
John Sabat, Jr. ; Timothy R. Locascio ; Clifford M. Lo Verme ; Glenn T. Flebotte, Monitoring and command system for transceivers used to inter-connect wireless telephones to a broadband network.
Gilhousen Klein S. (San Diego CA) Padovani Roberto (San Diego CA) Wheatley ; III Charles E. (Del Mar CA), Spread spectrum transmitter power control method and system.
Olvera-Hernandez Ulises,SEX ; Segura Louis,CAX, System and method of mobile station presence verification in a multiple-hyperband cellular telecommunications network.
Brewer Jason M. ; Linn John C. ; Perrin Keith L. ; Tonsing Robert E., System with program for automating protocol assignments when newly connected to varing computer network configurations.
Maison Thierry ; Haberkorn Ronald A. ; Carrick John C. ; Snyder Robert E. ; Ralston William T. ; Wolf Michael A., Wideband bus for wireless base station.
Shaheen Kamel M. ; Huang Chenhong, Wireless communication system that supports selection of operation from multiple frequency bands and multiple protocols and method of operation therefor.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.