Multiplex communications – Channel assignment techniques – Polling
Reexamination Certificate
2000-05-25
2002-03-12
Vu, Huy D. (Department: 2664)
Multiplex communications
Channel assignment techniques
Polling
C370S353000, C370S468000
Reexamination Certificate
active
06356559
ABSTRACT:
BACKGROUND OF THE INVENTION
Packet switching systems transmit data by breaking the data into relatively small manageable pieces called packets. Packet switching can be used to transmit data in both computer networks and in telephone voice networks. Telephone packet switching networks transmit a series of packets over the same route in the network. Such systems in effect establish a virtual circuit from the point where a series of packets enters the network to the point where the packets are delivered. Packet switching networks establish virtual circuits through the network in order to transmit voice without delay and distortion.
Protocols such as the Internet ITPC protocol can transmit voice without establishing a virtual circuit connection, however, voice transmission using this type of protocol generally has less quality than voice transmitted using protocols which establish virtual circuits between the input point and the output point in the network.
Today, some voice transmissions are being made over packet protocols (such as the Internet) which do not establish virtual circuits. Voice connections over such circuits are of relatively low quality. The packet protocols which are used in the public telephone network are packet protocols which establish virtual circuits and which transmit all the packets that constitute a conversation over the same route through the network. Thus they provide high quality connections.
Data communication protocols can be characterized as either synchronous or asynchronous. Examples of widely used synchronous protocols are the X.25 protocol, and the frame relay protocol. Examples of widely used asynchronous protocols are the Ethernet, FDDI and ATM protocols. The X.25 protocol, the frame relay protocol and the ATM protocol are widely used in telephone systems. The Ethernet protocol and the FDDI ring protocol are widely used in local area networks (LANS) and wide area networks (WANS) that are used to interconnect computer systems.
There are various well known techniques for controlling asynchronous networks. One technique termed “carrier sense, multiple access with collision detection (CSMA/CD) is used in Ethernet networks. Another technique called token passing is used in FDDI ring networks.
Explanations of various synchronous and asynchronous protocols, and an explanation of CSMA/CD and FDDI ring networks is for example given in a book entitled “Voice and Data Communications Handbook” by Regis J. Bates and Donald Gregory which is published by McGraw Hill.
SUMMARY OF THE INVENTION
The present invention provides a ring protocol and system that combines synchronous and asynchronous transmission techniques. The ring can interconnect a number of modules and be utilized to transmit both fixed and variable packets between the modules. Communication time is broken into a sequence of fixed length windows. At the beginning of each window the modules communicate using a synchronous protocol. That is, at the beginning of each window, if any unit has synchronous traffic, such traffic is transmitted using a synchronous ring protocol and fixed length packets. Virtual circuits can be established between the modules using the synchronous fixed length packets communicated at the beginning of each window. When it is desired to establish a virtual circuit between any of the modules in the ring, each module is assured that at the beginning of each window, space will be allocated to transmit a synchronous fixed length packet to another module in the ring. The windows occur frequently enough that a virtual voice grade circuit can be established between the modules. After all synchronous packets required during any window have been transmitted, asynchronous variable length data packets are transmitted around the ring. Limits are provided relative to the number of asynchronous packets any one module can transmit, thereby avoiding monopolization of the ring by any one module. The modules are synchronized by a periodically circulating a timing control character around the ring.
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Bryden Thomas J.
Byron Todd
Doucette John
At Comm Corporation
Galbi Elmer
Harper Kevin C.
Vu Huy D.
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