초록 ▼

A distributed spread-spectrum network, comprising remote stations and nodes. One or more hub node(s) connect(s) to a central telephone office. A node's spread-spectrum transceiver communicates, using packets having spread-spectrum modulation, over radio waves, with the remote stations. Each packet h

A distributed spread-spectrum network, comprising remote stations and nodes. One or more hub node(s) connect(s) to a central telephone office. A node's spread-spectrum transceiver communicates, using packets having spread-spectrum modulation, over radio waves, with the remote stations. Each packet has a source address and a destination address, and may have other information such as a header, start of message, end of message, flow-control information, forward error correction, and message data. A store-and-forward subsystem stores and forwards one or more packets to and from the remote station. The store-and-forward subsystem stores and forwards the one or more packets to and from another node. A flow-control subsystem controls the store-and-forward subsystem, to store each packet arriving at the spread-spectrum transceiver. The flow-control subsystem communicates traffic information between each of the nodes. The flow-control subsystem routes the packet through appropriate nodes to the hub node from a remote station. Based on the traffic at each node, the flow-control subsystem transmits the packet from the hub node to an appropriate node, and routes the packet to a recipient remote station. The flow-control subsystem routes the plurality of packets through a path in the plurality of nodes to ensure that the plurality of packets arrive sequentially for voice or video packets.

대표청구항 ▼

We claim: 1. A distributed network, spread-spectrum system, comprising: a plurality of remote stations; a plurality of nodes for covering a geographic area, each node in the plurality of nodes for communicating, with one or more remote stations of the plurality of remote stations, using packets hav

We claim: 1. A distributed network, spread-spectrum system, comprising: a plurality of remote stations; a plurality of nodes for covering a geographic area, each node in the plurality of nodes for communicating, with one or more remote stations of the plurality of remote stations, using packets having a destination address and modulated with spread-spectrum modulation, with each packet transmitted using radio waves; and a first node within the plurality of nodes for receiving the plurality of packets from the remote station, with the first node capable of communicating a packet to a second node within the plurality of nodes, with the second node selected from two or more nodes capable of communicating with the first node. 2. The distributed network as set forth in claim 1, with the first node using traffic information available at the first node, for selecting the second node. 3. The distributed network, as set forth in claim 1, with said second node for routing the particular packet to a third node in the plurality of nodes. 4. The distributed network as set forth in claim 3, with the second node using traffic information available at the second node, for selecting the third node. 5. The distributed network, as set forth in claim 3, with said third node for routing the particular packet to a fourth node in the plurality of nodes. 6. The distributed network as set forth in claim 5, with the third node using traffic information available at the third node, for selecting the fourth node. 7. The distributed network, as set forth in claim 5, with said fourth node for routing the particular packet to a fifth node in the plurality of nodes. 8. The distributed network as set forth in claim 7, with the fourth node using traffic information available at the fourth node, for selecting the fifth node. 9. The distributed network, as set forth in claim 7, with said fifth node for routing the particular packet to a sixth node in the plurality of nodes. 10. The distributed network as set forth in claim 9, with the fifth node using traffic information available at the fifth node, for selecting the sixth node. 11. The distributed network, as set forth in claim 1, with a first node for routing a particular packet to a second node in the plurality of nodes. 12. The distributed network as set forth in claim 11, with the first node using traffic information, for selecting the second node. 13. The distributed network, as set forth in claim 11, with said second node for routing the particular packet to a third node in the plurality of nodes. 14. The distributed network as set forth in claim 13, with the second node using traffic information for selecting the third node. 15. A distributed network, spread-spectrum system, comprising: a plurality of remote stations; a plurality of nodes for covering a geographic area, each node in the plurality of nodes for communicating, with one or more remote stations of the plurality of remote stations, using packets having a destination address and modulated with spread-spectrum modulation, with each packet transmitted between a first node and remote station using radio waves; and a flow-control system, responsive to the traffic information and to a particular packet, from the first node, with the first node capable of communicating a packet to a second node within the plurality of nodes, with the second node selected from two or more nodes capable of communicating with the first node, the particular packet having a particular destination address of a respective destination node of the plurality of nodes, for selecting a path, including the second node, of a multiplicity of nodes through the plurality of nodes to the destination node, said flow-control system for routing, responsive to the traffic information, the particular packet through the path of the multiplicity of nodes to the respective destination node. 16. The distributed network as set for in claim 15, with said flow-control system including means for communicating with radio waves. 17. The distributed network as set for in claim 15, with said flow-control system including means for communicating with spread-spectrum modulation using radio waves. 18. A distributed network, spread-spectrum method, having a plurality of nodes, comprising the steps of: communicating, to a first node of the plurality of nodes, with one or more remote stations of a plurality of remote stations, using packets having a destination address and modulated with spread-spectrum modulation, with each packet transmitted between the first node and remote station using radio waves; communicating traffic information between the plurality of nodes; selecting, responsive to the traffic information and to a particular packet, from the first node, having a particular destination address of a respective destination node of the plurality of nodes, a path, including a second node, within the plurality of nodes, with the second node selected from two or more nodes capable of communicating with the first node, of a multiplicity of nodes through the plurality of nodes to the destination node; and routing, responsive to the traffic information, the particular packet through the path of the multiplicity of nodes to the respective destination node. 19. The method as set forth in claim 18, further including the step of using traffic information available at the first node, for selecting the second node. 20. The method as set forth in claim 18, further including the step of routing, from the second node, the particular packet to a third node in the plurality of nodes. 21. The method as set forth in claim 20, further including the step of routing, from the third node, the particular packet to a fourth node in the plurality of nodes. 22. The method as set forth in claim 20, further including the step of using traffic information available at the second node, for selecting the third node. 23. The method as set forth in claim 22, further including the step of using traffic information available at the third node, for selecting the fourth node. 24. The method as set forth in claim 22, further including the step of routing, from the fourth node, the particular packet to a fifth node in the plurality of nodes. 25. The method as set forth in claim 24, further including the step of using traffic information available at the fourth node, for selecting the fifth node. 26. The method as set forth in claim 24, further including the step of routing the particular packet to a sixth node in the plurality of nodes. 27. The method as set forth in claim 26, further including the step of using traffic information available at the fifth node, for selecting the sixth node. 28. The distributed-network, spread-spectrum method as set forth in claim 18, with the routing step including the step of modulating the packet with spread-spectrum modulation. 29. The distributed-network, spread-spectrum method as set forth in claim 18, with the routing step including the step of transmitting, using radio waves, the packet with spread-spectrum modulation. 30. A distributed network, spread-spectrum system, comprising: a plurality of remote stations; a plurality of nodes for covering a geographic area, each node in the plurality of nodes for communicating, with one or more remote stations of the plurality of remote stations, using packets having a destination address and modulated with spread-spectrum modulation, with each packet transmitted between a first node and remote station using radio waves; and a central flow-control management system, responsive to the traffic information and to a particular packet, from the first node, having a respective destination address of a respective destination node of the plurality of nodes, for selecting a path, including a second node, within the plurality of nodes, with the second node selected from two or more nodes capable of communicating with the first node, of a multiplicity of nodes through the plurality of nodes to the destination node, said central flow-control management system for routing, responsive to the traffic information, the particular packet through the path of the multiplicity of nodes to the respective destination node. 31. The distributed network as set for in claim 30, with said central flow-control management system including means for communicating with radio waves. 32. The distributed network as set for in claim 30, with said central flow-control management system including means for communicating with spread-spectrum modulation using radio waves.