초록 ▼

A decoder having a first decoder providing first decoded data. A deinterleaver is included for deinterleaving the first decoded data. A second decoder provides second decoded data based on the deinterleaved first decoded data. The second decoder provides at least one decode status signal indicative

A decoder having a first decoder providing first decoded data. A deinterleaver is included for deinterleaving the first decoded data. A second decoder provides second decoded data based on the deinterleaved first decoded data. The second decoder provides at least one decode status signal indicative of second decoder operations. A pipeline decoder unit is included that is coupled to the second decoder. The pipeline decoder unit includes an encoder that receives the second decoded data and provides forced decision data, a multiplexer, and a third decoder that provides pipelined decoded data. The multiplexer is responsive to the at least one decode status signal to selectively constrain the pipelined decoded data to be at least partially dependent on the forced decision data.

대표청구항 ▼

A decoder having a first decoder providing first decoded data. A deinterleaver is included for deinterleaving the first decoded data. A second decoder provides second decoded data based on the deinterleaved first decoded data. The second decoder provides at least one decode status signal indicative

A decoder having a first decoder providing first decoded data. A deinterleaver is included for deinterleaving the first decoded data. A second decoder provides second decoded data based on the deinterleaved first decoded data. The second decoder provides at least one decode status signal indicative of second decoder operations. A pipeline decoder unit is included that is coupled to the second decoder. The pipeline decoder unit includes an encoder that receives the second decoded data and provides forced decision data, a multiplexer, and a third decoder that provides pipelined decoded data. The multiplexer is responsive to the at least one decode status signal to selectively constrain the pipelined decoded data to be at least partially dependent on the forced decision data. im 1 wherein said web cookie is wrapped and unwrapped by said secure web server at each service request to link a session with said client through a plurality of discrete client service requests in said session to verify said client to said dispatcher server at each transmission of a service request in said session. 7. The system for securing an enterprise communications network as claimed in claim 6 which further includes a web browser for said client which provides secure socket layer encryption of client identification, authentication and said web cookie at each service request. 8. The system for securing an enterprise communications network as claimed in claim 7 wherein said web cookies provide simultaneous session management for a plurality of system resources. 9. A system for securing an enterprise communications network, said system having client access through the public Internet, said system comprising: (a) a first Internet firewall for accepting service requests from an enterprise client and routing said requests to one or more preselected addresses behind said firewall, said firewall permitting access in compliance with a first set of filtering rules; (b) a plurality of web servers having said preselected addresses for receiving said service requests and managing a plurality of client sessions over the public Internet, a load of said client sessions per each of said web servers is balanced by web balancers, each of said web servers providing session management for said service request, said session management including client identification, validation and a session identifier to link a session with a client, wherein said session identifier is a web cookie generated by a separate server during an entitlements communications, after identification and validation of the client; (c) at least one dispatcher server for communicating with said web servers through a second firewall, said second firewall accepting services requests from said web servers and routing said requests to said dispatcher server in compliance with a second set of filtering rules, said dispatcher server providing system access to said enterprise communications network after client entitlements have been verified; and (d) a plurality of proxy servers linking said dispatcher server to a plurality of application servers within said communications network, said application servers communicating with a plurality of system resources to provide communications network management capabilities for said enterprise clients. 10. The system for securing an enterprise communications network as claimed in claim 9 wherein said web servers are secure servers which encrypt each of said service requests with a first algorithm before transmission to said dispatcher server and a selected one of said proxy and said application servers. 11. The system for securing an enterprise communications network as claimed in claim 9, said communications network further including an authentication server which determines application server entitlements for said client following authentication. 12. The system for securing an enterprise communications network as claimed in claim 9, wherein said system further comprises a load balancing device for managing and distributing a plurality of client sessions across said plurality of web servers. 13. The system for securing an enterprise communications network as claimed in claim 9 wherein said unique web cookie is wrapped and unwrapped by said secure web server at each service request to link a session with said client through a plurality of discrete client service requests in said session to verify said client to said dispatcher server at each transmission of a service request in said session. 14. The system for securing an enterprise communications network as claimed in claim 10 which further includes a web browser for said client which provides secure socket layer (SSL) encryption of client identification, authentication and said we b cookie at each service request. 15. The system for securing an enterprise communications network as claimed in claim 14 wherein said system includes RSA encryption for transmission of all customer data between said plurality of secure web servers and said dispatcher server, and SSL encryption for transmission of all data between said secure web servers and said plurality of enterprise clients. 16. A method of securing an enterprise communications network having public access via the public Internet, said method enabling access by a plurality of enterprise clients, said method comprising: (a) routing all public access requests to one or more first preselected addresses for response via a first set of routing rules; (b) authenticating a secure web server in response to said request for access and initiating a secure session with a client browser over the Internet; (c) encrypting communications between said client browser and said secure server with a first security protocol; (d) routing a request for client authentication and a set of client entitlements from said secure server to a second preselected address at log-on via a second set of routing rules, wherein said client authentication and client and entitlements are provided by an authentication server; (e) encrypting communications within said network with a second security protocol; and (f) creating a session management object at each log-on to authenticate the client's browser to the enterprise network at each communication from the browser during the communications session, said session management object including client identification, validation and a session identifier to link a session with a client, wherein said session identifier is a unique web cookie generated by a separate server during an entitlements communications, after identification and validation of the client. 17. The method of securing an enterprise communications network as claimed in claim 16, said method further comprising the step of providing a plurality of application resources to one of said plurality of enterprise clients within said network in accordance with entitlements determined for said one of said plurality of clients at authentication. 18. The method of securing an enterprise communications network as claimed in claim 16 which further includes the step of balancing a plurality of client requests across a plurality of secure web servers to improve response time for each client session. 19. The method of securing an enterprise communications network as claimed in claim, 17, said method further comprising the steps of packet filtering communications between said client browser and said secure web server. 20. The method of securing an enterprise communications network as claimed in claim 19, said method further comprising the step of creating a proxy to filter communications between said secure web server and an application resource within said network. 21. The method of securing an enterprise communications network as claimed in claim 18, wherein said method further includes public key encryption for encrypting communications between the client browser and the network. 22. The method of securing an enterprise communications network as claimed in claim 18 which uses a negotiated SSL protocol to authenticate the secure web server and encrypt communications between the client browser and the secure web server. 23. The method of securing an enterprise communications network as claimed in claim 18, wherein public key encryption is used for said second security protocol within said network. 24. The method of securing an enterprise communications network as claimed in claim 16, wherein said method further includes the step of embedding calls to Java applets in a logon page presented to a one of said plurality of clients at log on, one of said applets creating said session management object in said one client browser. 25. The method of securing an enterprise communications network as cla