Multiplex communications – Duplex – Transmit/receive interaction control
Reexamination Certificate
1999-06-24
2002-08-06
Vincent, David (Department: 2661)
Multiplex communications
Duplex
Transmit/receive interaction control
C379S406010
Reexamination Certificate
active
06430162
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to the selective application of a signal processing function in a telecommunication system. In particular, the invention relates to identifying the information content of a communicated signal within a telecommunication system, and applying a signal processing function to the signal depending upon the type of information contained in the signal.
BACKGROUND OF THE INVENTION
Many types of telecommunication systems have been developed to exchange different kinds of information between specialized terminal devices. For example, separate telecommunication systems are often used for exchanging voice, data or video signals. Rather than provide separate telecommunication systems for each of these services, the use of an Integrated Services Digital Network (ISDN) is gaining popularity among users who need flexible access to different types of communication services. Several standards and recommendations pertaining to ISDN have been developed in order to specify a uniform system for encoding, transmitting, and switching signals in a single network among various kinds of terminal devices. These standards and recommendations include BellCore TR41449, AT&T 5ESS Customer National ISDN PRI Specification, ANSI TI.607, CCITT Q.931, and BellCore Guideline SR-NWT-2343 for National ISDN PRI CRF.
An ISDN interface provides the user with access to a number of full duplex, time-division multiplexed (TDM) channels. One of these channels can be used for call control messages that pertain to the remaining channels. In the T
1
Primary Rate Interface standard, for example, 24 full duplex channels are multiplexed onto a communication link between the customer premises and the ISDN. Twenty-three of the channels, designated B-channels, can be used for communication between terminal devices. Each full duplex channel provides a virtual “4-wire” connection between the terminal equipment using the channel. The 24th channel, designated the D-channel, can be used for call control signals pertaining to the transmission of information on the B-channels and to the status of connections established between terminal devices via the B-channels.
In the transmission of signals involving 2-wire loop devices, such as standard telephones, it is necessary to provide an interface device between the 2-wire loop device and a 4-wire full duplex transmission link. The interface device, or hybrid, separates the inbound and outbound signals, which are combined on the 2-wire loop, into separate send and receive paths on the 4-wire link. Because hybrids cannot provide absolute separation of the send and receive signals, some residual coupling between the send and receive signals remains. This coupling can be perceived by a telephone user as echo.
In order to eliminate echo, devices known as echo cancelers have been developed. Briefly, an echo canceler monitors the received signal, computes an expected echo signal on the basis of the received signal and the impulse response of the local loop, and then subtracts the expected echo signal from the transmitted signal. In digital transmission systems, the function of echo canceling is accomplished using digital signal processors which are programmed to manipulate the data encoded in the transmitted signal that represents an audio signal. Such echo cancelers function acceptably on voice communication calls, but it is undesirable to employ echo cancelers on data communication calls which rely upon unaltered transmission of digital signals.
Because it is desirable to employ echo cancellation on some calls and not on other calls, some users have arranged their ISDN interfaces so that echo cancellation is always applied to certain channels and never applied to other channels. Then, the use of each ISDN channel is restricted to the types of calls that are compatible with the predetermined presence or absence of echo canceling on the channel. This solution is inconvenient because it reduces one of the primary benefits of ISDN, i.e. the user's flexibility of access to ISDN channels. It would be desirable to provide a system in which echo canceling on each ISDN channel is automatically enabled or disabled depending upon the type of call being made on each channel.
SUMMARY OF THE INVENTION
According to one aspect of the present invention, echo cancellation is automatically enabled or disabled on ISDN channels in accordance with the information content of calls being conducted on the ISDN channels. An echo canceler is provided with an activation processor for monitoring call control messages on the D-channel, determining when a call is established on any of the B-channels, and then enabling or disabling echo cancellation on each B-channel depending upon whether the type of call requires echo cancellation.
According to another aspect of the invention, an echo canceler is provided with an activation processor for recognizing call control messages on the D-channel of an ISDN connection. Specifically, the activation processor determines when the D-channel signals indicate that calls are to be requested, initiated, or terminated on any of the associated B-channels. When a call is established on a B-channel, the activation processor signals to the echo canceler whether echo canceling is desired on that B-channel. Preferably, when a call is terminated, echo cancellation is re-enabled on the released channel so that activated echo cancellation is the default channel condition.
The activation processor buffers data received in each D-channel time slot of successive DS
1
frames until a complete D-frame is received. Then, the processor extracts pertinent information from the buffered D-frame in order to determine whether activation or deactivation of echo cancellation on one or more B-channels is required. In order to selectively enable echo cancellation for calls having either a local origin or a remote origin, the activation processor separately monitors inbound and outbound D-channel transmissions.
In accordance with another aspect of the invention, a signal processing function is selectively performed upon a telecommunication signal in dependence upon the type of information being conveyed by the telecommunication signal. A signal processor is provided with a control apparatus for determining whether the telecommunication signal is being used to convey a voice or data signal. Then, a signal processing function is performed upon the signal depending upon whether it is a voice signal or a data signal.
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Bielsker Barry
Reese Charles A.
Berryhill John B.
Dann Dorfman Herrell & Skillman
Sam Phirin
Tellabs Operations Inc.
Vincent David
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