JP2004520725A5 - - Google Patents

Claims (36)

A communications device for transmitting packetized information over a satellite link in a telecommunications system, said information comprising a plurality of packets each including data and a header, wherein said system comprises a plurality of potential clients. A client selected from among them, a server selected from a plurality of potential servers, a first gateway connected to the server by a first telecommunication link, and a server connected to the server by a second telecommunication link. A second gateway, and a third telecommunications link connecting the first gateway to the second gateway,
A network interface for linking the first gateway with the client;
Satellite gateway interface,
System memory;
A bus interconnecting the network interface, the satellite gateway interface, the system memory with a processor, the processor comprising:
The communication is initiated by the client, intercepting a connection with the server;
Establishing a connection between the first gateway and the second gateway via the telecommunications link;
The connection between the first gateway and the second gateway is used to provide a two-way flow of information from the client to the server and from the server to the client, and to be transparent to the client and server. And a bus operably configured to perform the operations. The processor converts, at the first gateway, the information from a first protocol to a second protocol for transmission over the telecommunications link, and, at the second gateway, converts the second protocol to the first processor. The apparatus of claim 1, further configured to convert to: The apparatus of claim 2, wherein the first protocol comprises TCP and the second protocol comprises XTP. 3. The apparatus of claim 2, wherein the second protocol is more suitable for transmission over a satellite link than using a TCP protocol. A TCP interface,
Satellite gateway interface,
System memory;
A communication device including the TCP interface, the satellite gateway interface, and a bus interconnecting the system memory with a processor, wherein the processor comprises:
Intercept the first communication connection between the client and the server,
Forming a second communication connection between the first satellite gateway and the second satellite gateway via a satellite link;
Transmitting information describing the first connection to the second satellite gateway;
Operable to perform, using the information describing the first connection, forming a third communication connection between the second satellite gateway and a destination server; Forming the third connection and forming the third connection is a processor that is transparent to the user and the server. The apparatus of claim 5, wherein the information includes a client address and a destination server address. The processor is further operable to transmit a response from the second satellite gateway to the first satellite gateway when the third communication connection is made with the destination server. An apparatus according to claim 5. The apparatus of claim 5, wherein the processor is further operable to transmit a response from the first satellite gateway to the client when the third communication connection is lost. The apparatus of claim 5, wherein the processor is further operable to transmit a failure response from the first satellite gateway to the client when the third communication connection is lost. In a communication system for transporting packetized information in a TCP protocol between a client and a server, a method for converting the communication system to a system for transporting packetized information in a satellite protocol And
Installing a first gateway, wherein the first gateway is operatively configured to intercept a connection from the client to the server, the first gateway further comprising: Operably configured to convert from a TCP protocol to a satellite protocol;
Installing a second gateway, wherein the second gateway is configured to establish a connection with the server, the second gateway further comprising: transmitting the packetized information from a satellite protocol to a TCP Operably configured to convert to a protocol, wherein the first gateway and the second gateway are operatively configured to establish a connection via a common telecommunications link. A communication system,
Code for intercepting a first communication connection between the client and the server;
Code for establishing a second communication connection between the first satellite gateway and the second satellite gateway via a satellite link;
Code for transmitting information describing the first connection to the second satellite gateway;
Code for forming a third communication connection between the second satellite gateway and a destination server using the information describing the first connection, the code for forming the second connection. Code, and code for forming the third connection, the code being executed transparently to the user and the server;
A computer readable storage medium for holding the code. A communication method for transmitting information in a system, the information comprising a plurality of packets each including data and a header, a client selected from a plurality of potential clients in the system,
A server selected from a plurality of potential servers;
A first gateway connected to the client by a first telecommunication link;
A second gateway connected to the server by a second telecommunication link;
A third telecommunications link connecting the first gateway to the second gateway, the communication method comprising:
Intercepting an attempt to connect to the server initiated by the client;
Establishing a connection between the first gateway and the second gateway via the third telecommunications link;
Providing a bi-directional flow of information from the client to the server or from the server to the client using the connection between the first gateway and the second gateway, the bi-directional flow Providing is transparent to the client and server. Converting the information at the first gateway from a first protocol to a second protocol for transmission over the third telecommunications link;
Converting said second protocol to said first protocol at said second gateway. 14. The method of claim 13, wherein the first protocol comprises TCP and the second protocol comprises XTP. 14. The method of claim 13, wherein the second protocol is more suitable for transmission over a satellite link than using a TCP protocol. 14. The method of claim 13, wherein the converting comprises removing the header and leaving the data substantially intact. 14. The method of claim 13, wherein the converting comprises removing the header and leaving the data substantially intact, and encapsulating the data using a satellite protocol header. the method of. Intercepting a first communication connection between the client and the server;
Forming a second communication connection between the first satellite gateway and the second satellite gateway via a satellite link;
Transmitting information describing the first connection to the second satellite gateway;
Forming a third communication connection between the second satellite gateway and a destination server using the information describing the first connection, wherein the forming the second connection comprises: 3. A method of communication comprising: forming a connection transparently to said user and server. 19. The method of claim 18, wherein the information includes a client address and a destination server address. 19. The method of claim 18, further comprising transmitting a response from the second satellite gateway to the first satellite gateway when the third communication connection is made with the destination server. 19. The method of claim 18, further comprising transmitting a response from the first satellite gateway to the client when the third communication connection is made with the destination server. 19. The method of claim 18, further comprising transmitting a failure response from the first satellite gateway to the client when the third communication connection is lost. A method for managing a memory for buffering information including a plurality of packets each including data and a header in a system, the system comprising:
A client selected from a plurality of potential clients;
A server selected from a plurality of potential servers;
A first gateway, including a first buffer and a second buffer, connected to the client by a first telecommunication link;
A second gateway connected to the server by a second telecommunication link;
A third telecommunications link connecting the first gateway to the second gateway, the method comprising:
Intercepting an attempt to establish a connection with the server initiated by the client capable of establishing a connection at a first characteristic data rate;
Establishing a connection between the first gateway and the second gateway via the third telecommunications link, wherein the connection has a second characteristic data rate and the first buffer is 3. storing information received over the telecommunications link, and wherein the second buffer stores information for the client;
Determining a state in the first buffer, wherein the state is such that the second characteristic data rate in the third telecommunication link is higher than the first characteristic data rate for the client. Indicating that
Setting a receive window size for the client at the first gateway to limit the amount of data received over the third telecommunication link for the client. 24. The method of claim 23, wherein the condition comprises a buffer full condition. The method of claim 23, wherein the condition comprises that a threshold for buffer capacity has been reached. A method for controlling a flow of information including a plurality of packets each including data and a header in a system, the system comprising:
A client selected from a plurality of potential clients;
A server selected from a plurality of potential servers;
A first gateway connected to the client by a first telecommunication link;
A second gateway connected to the server by a second telecommunication link;
A third telecommunications link connecting the first gateway to the second gateway, the method comprising:
Intercepting a connection initiated by the client with the server;
Establishing a connection between the first gateway and the second gateway via the third telecommunications link;
Determining a round trip time for data to travel from the first gateway to the second gateway over the connection;
Determining a data communication speed for the connection;
Determining a bandwidth delay product from the round trip time and the data communication speed;
Determining a flow control restriction on the connection from the bandwidth delay product;
Restricting data transfer over said connection based on said flow control restrictions. 27. The method of claim 26, wherein the connection uses a satellite protocol. The method of claim 26, wherein determining the round trip time for the connection further comprises obtaining the round trip time from a user. 27. The method of claim 26, wherein determining the data rate for the connection further comprises obtaining the round trip time from a user. 27. The method of claim 26, wherein determining a bandwidth delay product for the connection further comprises multiplying the round trip time by the data rate. 27. The method of claim 26, wherein determining a flow control limit for the connection further comprises multiplying the bandwidth delay product by a factor and dividing it by the number of connections for the link. 32. The method of claim 31, wherein said magnification is eight. 27. The method of claim 26, further comprising determining at least one of a plurality of connections at the first gateway that can utilize flow control. 34. The method of claim 33, wherein the determining comprises selecting a connection that is not being initialized from the plurality of connections. 34. The method of claim 33, wherein the determining comprises selecting from the plurality of connections buffering data above a threshold. A method for controlling the flow of information over a satellite data link, wherein the satellite data link has at least one of a plurality of connections, the method comprising:
Determining a round trip time for data to travel through the connection from a first node on the satellite data link to a second node on the satellite data link;
Determining a data communication speed for the connection;
Determining a bandwidth delay product from the round trip time and the data communication speed;
Determining a flow control restriction on the connection from the bandwidth delay product;
Restricting data transfer over said connection based on said flow control restrictions.