Pad and CODEC detection

Pulse or digital communications – Transceivers – Modems

Reexamination Certificate

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Details

C375S220000, C375S224000

Reexamination Certificate

active

06724814

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates generally to an improved technique for generating and using a learning sequence for a modem. In particular, the present invention is directed towards an improved digital impairment learning sequence which accommodates detection of Robbed-Bit Signaling (RBS), Digital Pad and Line CODEC type particularly for use with V.90 modems or the like.
BACKGROUND OF THE INVENTION
The necessity of digital communication over existing communications networks, such as telephone companies, has necessitated the use of increasingly complex and efficient modulators/demodulators (modems). Because most communication systems were originally designed as analog systems, conventional modems have always been limited by the necessity of analog capabilities. Consequently, such modems operate as if the entire communications network, such as a public switch telephone network (PSTN), is an analog system, even though much of the communication throughout the PSTN is digital in nature.
FIG. 3
is a block diagram of a communications system, which includes a digital public switch telephone network (PSTN)
40
. Remote or client modem
10
communicates with a server modem installation
20
through digital PSTN
40
. In order to communicate with the digital portion
40
of the PSTN, it may be necessary to communicate over an analog link
50
. Accordingly, digital information at client modem
10
is converted to analog signals, transmitted over analog link
50
(generally designated as a local loop), and transmitted to PSTN circuitry
33
, which is a hybrid that converts the 2 wire bi-directional local loop signal to 4 wire transmit and receive pair of signals and
30
, which is a network interface that does the conversion from the analog loop signals to digital trunk signals using ADC
31
, and also does the PCM encoding in case a mu-law or A-law CODEC interface is used and transmitted into digital portion
40
of PSTN
40
.
Such systems are characterized by the use of an analog-to-digital converter (ADC)
31
, which is used to digitize analog signals for transmission to a digital portion of the PSTN
40
. Two types of quantization systems may be used in such systems, mu-law and A-law. Both systems encompass signal compression algorithms to maximize the dynamic range of an analog signal that could be represented by 8 bits. Both of these systems are used to optimize the PSTN for traditional voice communications.
Unfortunately, the wide dynamic range of normal speech does not lend itself well to efficient linear digital encoding. Digitizing is done in both systems by limiting the Signal to Quantization noise of the signals thus reducing the bandwidth required for each call. These encoding systems impose significant limitations on data communications.
Client modem
10
may typically transmit data using a digital-to-analog converter (DAC)
15
to convert digital signals into analog signals. Eventually, the analog signal is received and converted back to digital form by an analog-to-digital converter (ADC)
31
somewhere in the PSTN
40
. When the analog signal levels transmitted by DAC
15
in client modem
10
do not accurately correspond to the quantization intervals used by receiving ADC
31
, the data transmitted may not be properly converted back into the exact digital form originally sent. If receiving ADC
31
incorrectly converts an analog signal transmitted, receiving modem (e.g., server modem
20
) may not receive the same data which was transmitted. The same is true in the downstream direction of server digital modem
20
to client analog modem
10
.
In order to avoid such communications errors, certain error-checking protocols may be used. However, such protocols may require retransmission of corrected data, thereby reducing the rate at which data can be transmitted. The result is greatly reduced digital efficiency for the PSTN constituting the digital communications system.
Under the V.90 standard, a modem at a client computer may request that a server modem transmit a learning sequence in order to characterize the data channel. The V.90 specification does not specify a particular learning sequence and thus each manufacturer or communications system operator may use an unique learning sequence to characterize the data channel.
In some T1 lines, a telephone company (Telco) may use one of a number of time-division multiplexed channels for transmission of control data. However, in other instances, a technique of “robbed bits” (RBS) may be used to transmit control data for use by the Telco. In the robbed bit signaling technique, a least significant bit of one or more slots is used during initial connection to transmit control data from one portion of the Telco to another indicating numbered dialed, hang up, and the like. During data transmission, this same least significant bit may be set to a predetermined value (e.g., 0 or 1), or may be toggled.
In traditional voice communications signalling, Robbed Bit techniques produced few problems, as arbitrarily changing the least significant bit of a digitized audio signal does not produce any noticeable audio artifacts in the resultant analog audio signal. However, in a digital signalling environment, such legacy techniques as Robbed Bit Signalling create problems for digital data transmission. Arbitrarily changing the least significant bit in a data stream may produce a digital data transmission error.
The wide variety of digital system characteristics means digital impairments such as RBS and pad variations, as well as CODEC types which would modify the digital information the server outputs before it is converted to analog information that the client receives. Apart from these there could be analog impairments such as line distortion, noise and Inter-Modulation Distortion (IMD) which could create conditions for greater communications errors. Consequently, additional techniques are necessary to properly measure the pad and accommodate any RBS such that received signals can be properly adjusted to reflect the reality of those signals as sent, rather than theoretical values, which may prove to be incorrect.
SUMMARY OF THE INVENTION
In the present invention, a novel learning sequence is used which compensates for different types of digital data channels used by telephone companies, as well as digital impairments.
A unique Digital Impairment Learning (DIL) sequence may be transmitted during the digital hand shake procedure, or in other predetermined time slots, based upon certain signaling protocols requested by a client or user modem. The DIL sequence is designed such that the net sum of all the elements in the pattern over a specific period comes to zero. A net sum of zero is required since a telephone system may not readily transmit a signal with a DC offset. In the DIL sequence of the present invention, this zero sum occurs every twenty frames and the pattern is generated in such a way that the zero sum will be achieved regardless of whether RBS is used or which type of RBS is used.
The objects and goals of the present invention are achieved by a communication system with digital and analog sections. The communication system includes at least one client modem and at least one server modem separated by at least one of the digital sections. The client and server modem are arranged to exchange a Digital Impairment Learning (DIL) sequence between them. The client modem includes an apparatus for sending first parameter signals to the server modem. The server modem includes an apparatus for sending training symbols to the client modem based upon the first parameter signals.
The second aspect of the present invention is directed to a method of operating a client modem in a communication system. The client modem is configured to receive training signals provided in a DIL sequence from a server modem. The method includes the steps of sending first parameter signals from the client modem to the server modem, and receiving training symbols in a DIL sequence at the client modem. The server modem sends the training symbols co

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