IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0377949
(2003-02-27)
|
발명자
/ 주소 |
- Won,Chan Yeon
- Park,Seong Young
- Kang,Ki B.
|
출원인 / 주소 |
- Air Broadband Communications, Inc.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
20 인용 특허 :
15 |
초록
▼
The present invention provides systems and methods that allow mobile devices, such as PDAs, mobile telephones, and laptops to roam seamlessly between subnets of a mobile wireless network and communicate through the network with local mobile devices and/or Internet sites without having to acquire a n
The present invention provides systems and methods that allow mobile devices, such as PDAs, mobile telephones, and laptops to roam seamlessly between subnets of a mobile wireless network and communicate through the network with local mobile devices and/or Internet sites without having to acquire a new or temporary Internet Protocol (IP) address. The network enables a wireline IP router to support wireless mobile devices. The network performs real-time soft-roaming to enable instantaneous connectivity of a visiting mobile device. Specifically, the network relies on the subnets to share IP addresses of the mobile devices.
대표청구항
▼
What is claimed is: 1. A mobile wireless network, comprising: a plurality of subnetworks, at least one subnetwork coupled to a network router, each subnetwork including at least one access point, wherein each neighboring subnetwork shares user information, including an internet protocol (IP) addres
What is claimed is: 1. A mobile wireless network, comprising: a plurality of subnetworks, at least one subnetwork coupled to a network router, each subnetwork including at least one access point, wherein each neighboring subnetwork shares user information, including an internet protocol (IP) address for each mobile device in the subnetwork and media access control (MAC) address, with a plurality of neighboring subnetworks to allow a mobile device to remain coupled to the wireless network. 2. The mobile wireless network of claim 1, wherein the subnetworks are mobile access routers. 3. The mobile wireless network of claim 2, wherein the mobile access routers comprise a plurality of subnetwork tables for tracking the mobile devices located in each of its access points and in neighboring access routers. 4. The mobile wireless network of claim 3, wherein the subnetwork tables are updated when the mobile devices move from one subnet to another. 5. The mobile wireless network of claim 3, wherein the subnetwork tables comprise the mobile device's Internet Protocol (IP) address, media access control (MAC) address, and current location corresponding to the access point and the subnetwork. 6. The mobile wireless network of claim 1, wherein the access point is a radio antennae. 7. The mobile wireless network of claim 5, wherein the current location is either an inbound or outbound location. 8. A method of allowing a mobile device to remain coupled to a mobile wireless network, wherein the mobile device accesses the wireless network through an access point, and the access point is coupled to a subnetwork, the wireless network comprising a plurality of subnetworks, the method comprising: assigning each mobile device an Internet Protocol (IP) address, media access control (MAC) address, and current location corresponding to the access point and the subnetwork; embedding the IP address and the MAC address as user information in a packet; broadcasting the user information to a plurality of neighboring subnetworks; and forwarding incoming packets to the mobile device's current location. 9. The method of claim 8, wherein the user information includes the IP address, the MAC address, and the current location. 10. The method of claim 8, wherein the subnetworks are mobile access routers. 11. The method of claim 10, wherein the mobile access routers comprise a plurality of subnetwork tables for tracking the mobile devices located in neighboring mobile access routers. 12. The method of claim 11, wherein the subnetwork tables are updated when the mobile devices move from one subnetwork to another. 13. The method of claim 11, wherein the subnetwork tables comprise the mobile device's Internet Protocol (IP) address, media access control (MAC) address, and current location corresponding to the access point and the subnetwork. 14. The method of claim 8, wherein the access point is a radio antennae. 15. The method of claim 13, wherein the current location is either an inbound or outbound location. 16. The method of claim 15, wherein the inbound or outbound location corresponds to an access point and subnetwork. 17. A mobile wireless network, comprising: a plurality of subnetworks arranged in an array of subnetworks, such that each of the subnetworks has a plurality of neighboring subnetworks and a plurality of non-neighboring subnetworks, at least one subnetwork coupled to a network router, each subnetwork including at least one access point, wherein each neighboring subnetwork shares user information, including an internet protocol (IP) address for each mobile device in the sub network and media access control (MAC) address, with a plurality of neighboring subnetworks to allow a mobile device to remain coupled to the wireless network. 18. The mobile wireless network of claim 17, wherein the subnetworks are mobile access routers. 19. The mobile wireless network of claim 18, wherein the mobile access routers comprise a plurality of subnetwork tables for tracking the mobile devices located in neighboring mobile access routers. 20. The mobile wireless network of claim 19, wherein the subnetwork tables are updated when the mobile devices move from one subnet to another. 21. The mobile wireless network of claim 19, wherein the subnetwork tables comprise the mobile device's Internet Protocol (IP) address, media access control (MAC) address, and current location corresponding to the access point and the subnetwork. 22. The mobile wireless network of claim 17, wherein the access point is a radio antennae. 23. The mobile wireless network of claim 21, wherein the current location is either an inbound or outbound location. 24. The mobile wireless network of claim 23, wherein the inbound or outbound location corresponds to an access point and subnetwork. 25. A mobile wireless network, comprising: a plurality of subnetworks coupled to master subnetwork, the master subnetwork coupled to a network router, each subnetwork including at least one access point, wherein each neighboring subnetwork shares user information, including an internet protocol (IP) address for each mobile device in the subnetwork and media access control (MAC) address, with a plurality of neighboring subnetworks to allow a mobile device to remain coupled to the wireless network. 26. The mobile wireless network of claim 25, wherein the subnetworks are mobile access routers. 27. The mobile wireless network of claim 26, wherein the mobile access routers comprise a plurality of subnetwork tables for tracking the mobile devices located in neighboring mobile access routers. 28. The mobile wireless network of claim 27, wherein the subnetwork tables are updated when the mobile devices move from one subnet to another. 29. The mobile wireless network of claim 27, wherein the subnetwork tables comprise the mobile device's Internet Protocol (IP) address, media access control (MAC) address, and current location corresponding to the access point and the subnetwork. 30. The mobile wireless network of claim 25, wherein the access point is a radio antennae. 31. The mobile wireless network of claim 29, wherein the current location is either an inbound or outbound location. 32. The mobile wireless network of claim 31, wherein the inbound or outbound location corresponds to an access point and subnetwork. 33. The mobile wireless network of claim 25, wherein the master subnetwork comprises a master subnetwork table for tracking all mobile devices among the subnetworks. 34. The mobile wireless network of claim 33, wherein the master subnetwork table is updated when the mobile devices move from one subnet to another. 35. The mobile wireless network of claim 33, wherein the master subnetwork table comprises Internet Protocol (IP) addresses, media access control (MAC) addresses, and current location information of all mobile devices among the subnetworks. 36. The mobile wireless network of claim 35, wherein the current location is either an inbound or outbound location. 37. The mobile wireless network of claim 36, wherein the inbound or outbound location corresponds to an access point and subnetwork. 38. A mobile wireless network, comprising: a plurality of subnetworks, at least one subnetwork coupled to a network router, each subnetwork including at least one access point, wherein each neighboring subnetwork shares user information, including an internet protocol (IP) address for each mobile device in the subnetwork and media access control (MAC) address, with a plurality of neighboring subnetworks to allow a mobile device to remain coupled to the wireless network at any location within the wireless network without obtaining a new IP address when roaming among the neighboring subnetworks. 39. The mobile wireless network of claim 38, wherein the subnetworks are mobile access routers. 40. The mobile wireless network of claim 39, wherein the mobile access routers comprise a plurality of subnetwork tables for tracking the mobile devices located in its access point(s) and in neighboring mobile access routers. 41. The mobile wireless network of claim 40, wherein the subnetwork tables are updated when the mobile devices move from one subnet to another. 42. The mobile wireless network of claim 40, wherein the subnetwork tables comprise the mobile device's Internet Protocol (IP) address, media access control (MAC) address, and current location corresponding to the access point and the subnetwork. 43. The mobile wireless network of claim 38, wherein the access point is a radio antennae. 44. The mobile wireless network of claim 42, wherein the current location is either an inbound or outbound location. 45. The mobile wireless network of claim 44, wherein the inbound or outbound location corresponds to an access point and subnetwork.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.