Abstract: Apparatus and method for generating user warning signal during data transmission suspension or degradation, that allows an user to identify that parallel operation of plain old telephone system (POTS) and digital data communications equipment is either occurring or being attempted. More particularly, the user signal warning indicates the impact to the operation of a multiple channel data communications device as a result of the parallel operation with the POTS equipment. A multiple variable signal alerts the user to the parallel operation, the amount of degradation, the elapsed time of the degradation to data communications, and which user site is causing the degradation by the direction of the data traffic being impacted.

Abstract: The present invention relates to methods and arrangements pertaining to mobile telephone modems. According to the invention, the mobile telephone modem includes memory means in which one or more ranking orders of data bearer services is/are stored. In response to a call request, one of the stored ranking orders is selected. If only one ranking order is stored, this ranking order will, of course, be selected. Calling is first carried out with the highest ranked data bearer service in the selected ranking order. If a call connection is not made, it is determined on the basis of an error message from the mobile telephone network whether or not the highest ranked data bearer service is supported by the mobile telephone network.

Abstract: The invention is directed to multi-line data exchange systems. The invention comprises one or more telephony devices, each coupled to one or more telephone communication lines, such as a standard telephone line, T1 line, T3 line, coaxial cable, or fiber optic line. The telephony devices are equipped with data communication interfaces. These interfaces allow the telephony devices to operate on more than one telephone communication line. The telephone communication lines operate on several bandwidths, including an audio bandwidth. The telephony devices can communicate among themselves apart from the audio bandwidth of the telephone communication lines. When another telephony device is activated or ceases use on one of the telephone communication lines, the telephony devices detect this event and communicate information on the usage of the telephone communication line on the telephone communication lines at a bandwidth other than the audio bandwidth used in voice communications.

Abstract: A variable voice compression device and method in a voice messaging system is provided. The device includes a call related information/coding table or database which contains associations between call related information regarding desired calling parties, and selected coding techniques and effective data rates resulting in varying voice compression ratios. Upon receipt of an incoming call, call related information sent from the central office is compared to entries in the call related information/coding table or database. If a match is found, the subsequent voice message is encoded with a coding technique and effective data rate determined from the matching entry in the call related information/coding table or database. Otherwise, the voice message is encoded with a default coding technique and effective data rate.

Abstract: Apparatus and method for simultaneously providing multiple telephone-type services to any/all POTS-type devices on a single wire pair at a user premises. The present invention provides for the ability to add separately addressable POTS devices on a single service loop. This can be accomplished in at least two ways: first by the use of a multipoint protocol or second by Frequency Division Multiplexing.

Abstract: Adjunct apparatus for increasing network transmission capacity provides a low-cost, efficient solution for increasing the network transmission capacity of the existing telephone circuit switched network, while keeping the current network equipment unchanged. A Local Switch Network (LSN) Adjunct (LSNA) and a Tandem/Toll Switch Network (TSN) Adjunct (TSNA) interface with standard network elements, such as switches and cross connect equipment. These network adjuncts, comprising a set of low-bit rate speech coders, a dynamic timeslot manager and other supporting functions, advantageously transmit to and receive from a T1/T3/0C3/E1 trunk. More than one channel of voice is carried on one 64 Kbps DSO timeslot, while still maintaining the voice at toll quality. A sub-timeslot and sub-timeslot bundling are introduced in the standard T1 or E1 frame where each sub-timeslot is analogous to a single bit of the typical eight bit word to provide more than 24 or 30 voice channels respectively.

Abstract: A communication server (58) includes a plurality of pairs of frequency agile modulators (638) and demodulators (640) each set to operate at a unique frequency and associated with a twisted pair data line (54). The communication server (58) also includes a plurality of pairs of demodulators (644) and modulators (646) that each have a designatable operation frequency and are associated with one of a plurality of XDSL modems (648). A mixer (642) operates to combine signals from the frequency agile modulators (638) and provide the combined signal to the demodulators (644). The mixer (642) further operates to combine signals from the modulators (646) and provide the combined signal to the frequency agile demodulators (640). A detector (634) operates to detect a need for data service on a selected twisted pair data line (54).

Abstract: A communication system according to the present invention includes a first communication device having a first digital signal processor and a first codec and a second communication device having a second digital signal processor and a second codec. The second communication device is communicatively coupled with the first communication device via a communication channel. The first digital signal processor enables frequency division multiplexed sampling of signals from the first codec, and the second digital signal processor enables receipt of the division multiplexed sampling of signals from the first digital signal processor such that the sampling of signals is transmitted to the second codec in a manner so as not to interfere with other communications of the first communication device.

Abstract: For modem connections via telephone lines, modems that respectively correspond to the modems of the terminal equipment side are arranged in the subscriber line circuits of the telephone switching centers as close as possible to the entry point of the subscriber line circuits. Modem communication only respectively between these pairs.

Abstract: A method and arrangement for transmitting audio signals from one communication terminal equipment (KES) via a communication network to another communication terminal equipment (KEE) using the facsimile transmission protocol of ITU-T.T4 and ITU-T.T.30, has the following method steps: a digital input audio signal is compressed in the sending communication terminal equipment (KES); the compressed audio signal is divided into data frames according to ITU-T.T.4 Annex A and ITU-T.T.30 Annex A; every data frame is identified as an audio information data frame (ACD, SCD); the audio information data frames (ACD, SCD) are transmitted from the sending communication terminal equipment (KES) to the receiving communication terminal equipment (KEE) using the facsimile transmission protocol and are stored in the latter; and the stored audio information data frames are output as digital audio signal after application of a decompression method or are further-processed.

Abstract: A system and method are disclosed for implementing support for increased communication speed between data communication devices, including one or more high speed analog modems, connected to a digital communication network. The high speed analog modems communicate with the digital communication network via analog signaling pathways that also support voice communication across the digital communication network. Following the initiation of communication between an originating communication device and a terminating communication device connected to the digital communication network, determination is made as to whether the communication devices include at least one high speed analog modem and another data communication device capable of communicating at the increased data communication speed.

Abstract: A method and an apparatus for implementing the method, which allow a transmitter (100) of a digital telecommunication system transmitting speech to transmit predetermined messages to a receiver (102) over a speech channel (108). Messages (114) are transmitted from the transmitter (100) to the receiver (102) on the speech channel (108) in such a way that they are encoded in some of the speech coding bits, whereby the speech coding bits selected for message transmission have been selected in such a way that they affect the quality of speech as little as possible. Most preferably, the speech coding bits used for transmitting messages are protected by channel coding (702, 704). Speech coding bits are “stolen” for message transmission only for very short periods at a time and only for exactly the time it takes to transmit the messages (114); at other times, the entire speech channel (108) is used normally for speech transmission.

Abstract: The present apparatus integrates a user interactive display with multiple functional telecommunications capabilities such as scanning, facsimile and telephonic capabilities. The display includes a touch sensitive screen overlay on an electrophoretic display and a handwriting controller for recognizing handwritten impressions on the touch sensitive screen overlay. The scanning, facsimile and telephonic capabilities are manipulated by the user through the interactive display. The apparatus also includes additional interface capabilities to compatible printers and remote computers as well as networking capabilities to remote faxes, cellular communications and pagers. Operations through the additional capabilities are also manipulated by the user interactive display.

Abstract: A bi-directional data communication system using inverse multiplexers for transmitting and receiving data at high-speeds using regular analog channels. The inverse multiplexer splits a high-speed digital signal into low-speed digital signals that are input to analog modems. The analog modems modulate the low-speed digital signals into low-speed analog signals for transmission over the analog channels to the public switched telephone network. At the remote end, the data carried by the analog channels is reverse inverse multiplexed into a high-speed digital signal by an inverse multiplexer operating in a reverse inverse multiplexing mode.

Abstract: A system for sending and receiving full motion, live, full duplex video of broadcast quality over existing telephone lines comprises apparatus for converting audio/video data recorded at a first location into a stream of packets, apparatus for reconverting the stream of packets into audio/video data to be presented at a second location, and apparatus for bypassing telephone company voice switches at central offices, thereby allowing the packets to travel directly from the local telephone lines to the long distance telephone network. The packets are created at the first location and are received at the second location and, in addition to encoded audio/video data, each packet contains a start flag, an end flag, and at least data specifying the encoding algorithm by which the encoded audio/video data was encoded.