최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0482961 (2012-05-29) |
등록번호 | US-8787246 (2014-07-22) |
발명자 / 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 | 피인용 횟수 : 10 인용 특허 : 683 |
A wireless network system may include a source node having a first source wireless interface and a second source wireless interface, wherein the source node initiates a data transmission via the first source wireless interface. The wireless network system may also include a repeater node having a fi
A wireless network system may include a source node having a first source wireless interface and a second source wireless interface, wherein the source node initiates a data transmission via the first source wireless interface. The wireless network system may also include a repeater node having a first and second repeater wireless interfaces, wherein the repeater node is configured to receive the data transmission on the first or second repeater wireless interface and to repeat the data transmission on the other of the first or second repeater wireless interface. The wireless network system also includes a destination node having first and second destination wireless interfaces, wherein the destination node is configured to receive the data transmission on the first or second destination wireless interface. A wireless network system may also include a satellite-based, wireless network system, including an earth station server, a satellite client, and a terrestrial client.
1. A satellite-based, wireless network system comprising: an earth-station server configured to transmit data packets to a secondary network;a first satellite client of a plurality of satellite clients;a terrestrial client configured to maintain a table of known satellites, wherein the table is oper
1. A satellite-based, wireless network system comprising: an earth-station server configured to transmit data packets to a secondary network;a first satellite client of a plurality of satellite clients;a terrestrial client configured to maintain a table of known satellites, wherein the table is operable to store an address for each satellite client known to the terrestrial client;at least one processor associated with at least one of the earth-station server, the first satellite client, and the terrestrial client, wherein the at least one processor is configured to:establish a temporary route between the terrestrial client and the earth-station server via the first satellite client;ping a second satellite client; measure a response latency of the second satellite client;determine, based on the measured response latency, whether the second satellite client has a reliable time-to-live,wherein, if the second satellite client is determined to have the reliable time-to-live, initiate a normal-mode handoff to the second satellite client; andwherein, if the second satellite client is determined not to have the reliable time-to-live, initiate a survival-mode handoff. 2. The system of claim 1, wherein the plurality of satellite clients comprises a constellation of low-earth orbit satellites. 3. The system of claim 1, wherein the secondary network comprises a computer network. 4. The system of claim 1, wherein the data packets conform to TCP/IP protocol. 5. The system of claim 1, wherein the at least one processor is configured to update a routing table on the terrestrial client, such that a default gateway associated with the terrestrial client contains an address of the second satellite client between the terrestrial client and the earth station server. 6. The system of claim 1, wherein the table of known satellites is configured to store a time-stamp field and a response latency field. 7. The system of claim 1, wherein the response latency is a round-trip-response time defined by the equation TRTRT=2D/c, wherein TRTRT represents round-trip-response time, D represents a distance between the first satellite and the terrestrial client, and c represents the speed of light. 8. The system of claim 1, wherein the at least one processor is configured to determine a first alternative route via the plurality of satellite clients by exchanging in-memory routing tree link information. 9. The system of claim 8, wherein the at least one processor is configured to maintain a table of alternate routes comprising at least one newly discovered route. 10. The system of claim 8, wherein the at least one processor is configured to analyze at least one of the data packets to determine if the at least one data packet has been sent on a second alternative route unknown to the terrestrial client. 11. The system of claim 10, wherein the analyzing comprises counting a number of hops between a source node associated with the at least one data packet and the terrestrial client. 12. The system of claim 11, wherein the at least one processor is configured to sort the table of alternate routes and replace the first alternative route with the second alternative route when the terrestrial client loses the first alternative route. 13. A method for routing data packets in a satellite-based, wireless network, the method comprising: maintaining at a terrestrial client a table of known satellites, wherein the table is operable to store an address for each known satellite client in the table;establishing a temporary route between the terrestrial client and an earth-station server configured to transmit data packets to a secondary network through a first satellite client in a plurality of satellite clients;pinging a second satellite client;measuring a response latency of the first satellite client;determining, based on the measured response latency, whether the second satellite client has a predetermined reliable time-to-live;wherein, if the satellite client is determined to have the reliable time-to-live, initiating a normal handoff to the second satellite client; andwherein, if the first satellite client is determined not to have the reliable time-to-live, initiating a survival-mode handoff. 14. The method of claim 13, wherein the plurality of satellite clients comprises a constellation of low-earth orbit satellites. 15. The method of claim 13, wherein the secondary network comprises a computer network. 16. The method of claim 13, wherein the data packets conform to TCP/IP protocol. 17. The method of claim 13, further comprising updating a routing table on the terrestrial client, such that a default gateway associated with the terrestrial client contains the address of the second satellite client between the terrestrial client and the earth station server. 18. The method of claim 13, wherein the table of known satellites is configured to store a time-stamp field and a response latency field. 19. The method of claim 13, wherein the response latency is a round-trip-response time defined by the equation TRTRT=2D/c, wherein TRTRT represents round-trip-response time, D represents a distance between the first satellite and the terrestrial client, and c represents the speed of light. 20. The method of claim 13, further comprising determining a first alternative route via the plurality of satellite clients by exchanging in-memory routing tree link information. 21. The method of claim 20, further comprising maintaining a table of alternate routes comprising at least one newly discovered route. 22. The method of claim 20, further comprising analyzing at least one of the data packets to determine if the at least one data packet has been sent on a second alternative route unknown to the terrestrial client. 23. The method of claim 22, wherein the analyzing comprises counting a number of hops between a source node associated with the at least one data packet and the terrestrial client. 24. The method of claim 20, further comprising sorting the table of alternate routes and replacing the first alternative route with the second alternative route when the terrestrial client loses the first alternative route.
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