Advanced priority statistical multiplexer

Multiplex communications – Communication techniques for information carried in plural... – Adaptive

Reexamination Certificate

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Details

C370S477000, C370S537000, C370S471000

Reexamination Certificate

active

06275502

ABSTRACT:

MICROFICHE APPENDIX
A microfiche appendix having 2 total number of microfiche and 91 number of frames is included in this specification.
FIELD OF THE INVENTION
The present invention relates to data communication multiplexers and in particular to automatic data bandwidth allocation in communication multiplexers which multiplex data, facsimile and compressed voice over a single composite link.
BACKGROUND OF THE INVENTION
Data multiplexers in the telecommunications field are used to combine several asynchronous and synchronous data communication signals from individual data terminal equipment (DTE) sources such as computer terminals or personal computers (PC's) onto a single composite link. The individual asynchronous and synchronous signals from the PC's are connected to the multiplexer channel inputs and converted into a single signal called the composite signal which is then sent over a single analog or digital link called the composite link. Of course, the composite link may be a dedicated telephone line, a leased line, or a single private wire.
The data multiplexer combines the channel signals from individual PC's into a composite signal by using one of a variety of techniques such as frequency division multiplexing, time division multiplexing and statistical time division multiplexing. Frequency division multiplexers assign separate frequencies to each signal and combine the frequencies onto the single composite link. Time division multiplexers assign a time slice of a single carrier to each of the channels being combined. Statistical time division multiplexers are an adaptation of time division multiplexers in which only those channels actually sending data get a slice of time. This results in a more efficient use of the composite link.
Typically, a data multiplexer is used as an efficient alternative to traditional data communications in which a single channel uses a single telephone line link. By combining a plurality of asynchronous channels into a composite link, fewer telephone lines or leased lines and less equipment is used to transfer the data. This is especially cost effective when a four wire “leased” line is used to connect a pair of synchronous modems. This type of private line offers a degree of security that public dial-up telephone lines cannot match. In addition, the superior error correction of a synchronous multiplexer network is preferred over the single telephone line asynchronous connections. Better yet, the use of a digital line with a DSU (Digital Service Unit) connection is more reliable and error free than analog.
FIG. 1
shows a typical arrangement for a prior art connection of a plurality of PC's at building A
101
and a computer system at building B
102
. The computer system at building B may be personal computers (PC's)
103
such as those shown in building A or any variety of computer equipment devices. Traditional dial-up telephone links
105
a,
105
b,
105
c
through
105
n
are used between the plurality of PC's in building A
101
and the plurality of data terminal equipment (DTE) devices of building B such as a VAX computer
106
. Each asynchronous link, therefore, requires its own dial-up link
105
a,
105
b,
105
c
through
105
n,
which is in many cases not cost effective. The connections may be between two sites, or multiple sites may be connected.
FIG. 2
shows a prior art data multiplexer scheme in which a plurality of PC's
203
at building “A”
201
are multiplexed using a data multiplexer and synchronous modem
207
to transmit the information over a single telephone link
205
to building “B”
202
. The signals are then demultiplexed by a similar multiplexor/modem
208
and transmitted to the DTE of building “B”
202
, which for illustrative purposes is shown as a VAX computer
206
.
In general,
FIG. 2
describes a data multiplexer
207
and, in particular, a device manufactured by the assignee of the present invention called the MultiMux (model 900, 1600 or 3200) product from Multi-Tech Systems, Inc. of Mounds View, Minn. The product allows for up to n-RS232 connections to local PC's
203
, dumb terminals, host computers such as a DEC VAX 206, or other devices which communicate via asynchronous connection. In one product environment, n equals eight where eight PC's or other asynchronous devices can be attached to eight RS232 ports. The composite link is typically handled through an proprietary protocol with data rates up to 64 kilobytes per second. Not shown is a command port for menu driven control of the operational settings of the data multiplexer.
Connections from one site to another site over a composite link using a dedicated line is an efficient use of the line resources, however additional line connections are still typically needed between the two sites or more sites for traditional telephone voice or facsimile connections between the sites. There is a need in the art, therefore, to combine compressed voice grade telephone signals with data signals and facsimile signals and transmit all over a composite link to further increase the efficient use of a single telephone line connection. There is yet a further need in the art to combine voice grade telephone signals with both synchronous and asynchronous data signals for transmission over a composite link for enhanced efficiency of a single telephone line connection.
SUMMARY OF THE INVENTION
The present invention solves the aforementioned deficiencies of the prior art and solves other problems that will be understood and appreciated by those skilled in the art upon reading and understanding the present specification. The present invention describes a data multiplexing network which combines a plurality of asynchronous and synchronous data channels with an asynchronous data stream representing compressed voice signals and/or facsimile signals onto a single synchronous data packet stream. The single synchronous data packet stream is then transmitted by a high speed statistical multiplexer over a composite link to a second site using a modified high-level synchronous data link control protocol with an overlay of an advanced priority statistical multiplexing algorithm. The asynchronous/synchronous data channels and the compressed voice channel and/or facsimile signals are demultiplexed and reconstructed at the second site for sending to other asynchronous and synchronous data terminal equipment and to a standard telephone or facsimile analog port or PBX interface, respectively. Communication between the first site by voice or facsimile and the second site is transparent to the users.
The total bandwidth of the composite link communicating between sites may be instantaneously allocated to high priority data (time sensitive) and low priority data (non-time-sensitive) based on instantaneous system demands. In voice over data communications it is possible to greatly reduce bandwidth allocated to the high priority voice packet information by eliminating transmissions of repeated silent packets. The voice detection algorithm tells the data processor that the packet is empty which is representative of silence. The data processor then does not send the packet, but instead sends a flag to the other side of the composite link to indicate no voice is being sent. In the event of silence, the maximum low priority data (asynchronous or synchronous data) packet size is dynamically changed based on the use of the voice channel. If there is a lot of silence, or the voice channel is not active at all, then the maximum low priority data packet size can grow to be quite large providing a larger asynchronous and synchronous data channel throughput. An advanced priority statistical multiplexer ensures maximum data throughput quality and efficiency while simultaneously reducing multiplexer processing overhead.


REFERENCES:
patent: Re. 34034 (1992-08-01), O'Sullivan
patent: 3304372 (1967-02-01), Filipowsky et al.
patent: 3781818 (1973-12-01), Pardoe et al.
patent: 3789165 (1974-01-01), Campanella
patent: 3904830 (1975-09-01), Every, Sr. et al.

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