JPH09500766A - ISDN Audiovisual Remote Service Interface Subsystem - Google Patents

Abstract

(57) SUMMARY The technical field of the invention generally relates to systems for audiovisual remote services using digital telecommunications services such as integrated services digital network ("ISDN") communications. In the preferred embodiment, the interface subsystem (100) includes an ISDN interface circuit (130) that simultaneously exchanges ISDN access and audiovisual information. The interface subsystem (100) also includes a host computer interface circuit (144) for exchanging video, audio, high speed and low speed data with a host digital computer. The computer program executed by the digital signal processing circuit (122) is H.264 for CCITT audiovisual remote service. 221, and H.221. Providing a computer program in the application layer (44) of the OSI model executed by the host digital computer and interface to exchange video, audio, high speed and low speed data with other compatible terminals that implement the H.242 recommendation and use digital telecommunications. To do.

Description

Detailed Description of the Invention           ISDN Audiovisual Remote Service Interface Subsystem Technical field   The present invention relates generally to the technical field of digital telecommunications, and more particularly to integrated services. For digital telecommunications services such as digital network (“ISDN”) communications Related to the communication of audiovisual information. Background technology   The complexity of current communication systems and the need to make different systems compatible with each other The International Organization for Standards (“ISO”) A specific model was developed. Called the Open Systems Interconnection (“OSI”) model Using this model, communication systems are classified into hierarchical structures and Ensure that criteria are defined at each level. The OSI model happened in communication systems It provides a hierarchy of seven different layers to obtain. Each layer in OSI is a communication system Identify the different functions performed.   The lowest layer of the OSI model called the physical layer is a specific communication system or network. (Work) specifies the physical structure of the interface. That is, one communication system The criteria for the physical layer are the number of wires, their electrical characteristics, transmitted through the wires Signal characteristics-A connector used to join two sets of wires into a single, longer set of wires. Specify the Kuta etc.   The next higher layer in the OSI model, called the data link (transmission), is the data Specify the way that is transmitted through the communication system without error. Therefore, in the OSI model The criterion for the second layer in the is the detection of errors in transmissions made through the physical layer. Identify how to exit and how to correct any errors that may occur during transmission.   The next highest layer in the OSI model called the network layer is the various fields in the communication system. Identify how to make connections between locations and transfer data between them . Therefore, the standard for the third layer in the OSI model is that the communication system has two locations on the network. It specifies the signal to be transmitted through the data link layer that causes the data to be transmitted between them.   International Telegraph and Telephone Advisory Committee (“CCITT”) ISDN communication channel The recommendations for that specify three lowest levels in the OSI model. CCIT's Under the recommendation, the basic ISDN access is channel B1 and channel B. Two full-duplex 64 kilobits per second (“kbps”) digital devices, called Other full-duplex 16 kbps digitizers called data channel and D channel It consists of Le Channel. Under CCIT's recommendation to use time division multiplexing, this All three digital data channels, such as a pair of twisted wires or Are transmitted over two pairs of strands. I, as specified by CCITT SDN basic rate access is suitable for home or small business use by individuals It was intended to provide basic digital data transmission capabilities.   When the ISDN basic rate access is specified for the first time, the B channel is down. Intended to convey any of the notes.   1 Digital data such as data from a PC or computer terminal   2 Digital voice communication coded by pulse code modulation (“PCM”)   3 Digit coded with a small fraction of the total 64 kbps capability of each B channel Mixture of low data rate communication information including digital data and digitized voice Under the ISDN recommendation, the D channel serves two purposes. First, D The channel controls the data transmission that takes place over the two B channels. Give the news. In addition, the D channel is packet switched when not carrying signaling information. Or used to transmit low speed telemetry data. ISDN for basic rate access Combination data, in which digital data is transmitted through twisted wire pairs in accordance with the recommendations The rate is 144 kbps. That is, 1 for the combination channel of B1 and B2. 16 kbps for the D channel is added to 28 kbps.   In addition to the basic rate access of ISDN specified by CCITT, The facility also identifies a high-performance ISDN communication channel called primary rate access. I have. ISDN primary rate access is time division multiplexed depending on the specific geographical area of the world. With a 24-hour time slot or a 32-hour time slot, each of which Carries a single ISDNB channel information. Has a 24-hour time slot ISDN primary rate access is called T1 connection. Has a 32-hour time slot ISDN primary rate access is called E1 connection. ISDN primary rate access Thus, in one method using these 24 or 32 hour time slots, 2 Each 3 or 30 hour time slot carries independent B channel information, the rest Time slots carry D channel control data.   Furthermore, 23 or 30 hours time slot group in 1ISDN primary rate access Are also used collectively to convey high data rate digital information. For example, with HO Using the identified connection, the six time slots of ISDN primary rate access, 6 B channel information can be transmitted at the same time. Thus, ISDN H The O-connection carries 384 kbps digital information. In addition to HO and connection, C CITT is also a service called H11 connection, which consists of 24 B channels. Are identified. H11 / connection is through E1 / connection or alternatively T 1. Can be set through connection plus independent D channel of control data. Obedience Thus, the H11 / connection simultaneously transmits 24 B channel information. CCITT Similarly, identify a service called H12-connection, where E1-connection-3 2-hour time slot controls D channel in addition to 30 B channel information Transmit data at the same time.   Based on CCITT's ISDN recommendations, the institution will also use 56 to 1920k. For transmitting audiovisual remote services through a channel with a bandwidth of bps Specify the data structure used for H.264. 221 has been set. C C. H. of CITT. 221 Recommendations are 1 to 6 B channels, 1 to 5 HO connections Alternatively, a data structure for transmitting audiovisual information through the H11 or H12 connection is specified. Set. By using B channels 1 to 6 for transmitting audiovisual information , 64 to 384 kbps data transmission rate (speed) can be obtained in 64 kbps increments. It is. By using 1 to 5 HO connections, 38 in 384 kbps increments Data transmission rates of 4 to 1,920 kbps are obtained. H11, connection is 1,5 Provides data rates of 36 kbps, while H12 connections are 1,920 kbp s data transmission rate.   H. In addition to the 221 recommendation, CCITT will also set up audiovisual remote services. Specify a protocol for H.264. It has set a recommendation called 242. H. 221 Recommendation sets procedures so that before and during the exchange of audiovisual information Each of the two audiovisual terminals communicates with each other to transmit and receive audiovisual information. Make sure the forces are matched. Each of these functions for mutual communication between two terminals Own audio function, video function, transmission speed function, data function, encryption function and A bit rate allocation signal (“BAS”) function is included.   FIG. 1 shows B channel 22 and D channel of three ISDN basic rate access 26. 24 and CCITT's H.N. 221 Recommendations that exist between the layer 28 and A person in charge is illustrated. B channel 22 and D channel 24 are CCITT recommended I.D. 4 00 belongs to layer 30. In the example of FIG. 1, arrow 32 indicates audiovisual telecommunications. It shows the time elapsed from the beginning to the end. Figure 1 also shows CCITT Recommendation Q. 921 implementing layer 921 and CCITT recommendations Q. Layer 3 implementing 931 6 shows the superimposition of 6 on each D channel. Layers 34 and 36 are ISDEN basic Independent call setup (setup) and removal (test) for each access 26. Teardown). Each of the B channel 22 and H.264. Between the 221 layer 28 A plurality of sets of double-headed arrows 38 that extend extend in two directions of audiovisual information between the two layers 30 and 28. It shows the exchange.   In addition to the exchange of audiovisual information between layers 30 and 28, a set of double-headed arrows 42 is provided by H.264. 221 layer 28 and the received video data to produce a visible image, A two-way exchange of video data with the application layer 44 is shown. You. In order to provide video data to the application layer 44, H.264. 221 layer 28 is B Such data is extracted from the audiovisual information received from the channel. Similarly, H. 221 layer 28 receives the video data it receives from use layer 44, which It is embedded in the audiovisual information transmitted to the channel 22. One pair of arrowheads 46 is H . 221 layer and application layer where audio data is used to generate audible sound 44 illustrates a two-way exchange of audio data with 44. H. 221 layer Similar to the processing of audiovisual information and video data by layer 28, layer 28 provides audio data. Audio from the audiovisual information it receives from B-channel 22 Send data to application layer 44. H. 221 layer 28 also receives from application layer 44. Embedded audio data in the audiovisual information it sends to B-channel 22. Inset. Each pair of double-headed arrows 48 and the arrow 52 are based on the H.264 standard. 221 layer 28 and application layer 44 Two-way exchanges of high speed data and low speed data between are shown respectively. H. 221 Layer 28 provides audiovisual information for receiving high and low speed data from B channel 22. Extract from information, transmit such data to application layer 44, and receive from application layer 44 Embed high speed and data into the audiovisual information it sends to the B channel.   FIG. 221 layer 28 and the 24 time intervals of the primary rate access 62 of ISDN. 23 B-channels and 22 D-channels, each conveyed by ImSlot It shows the relationship that exists with 24. ISDN primary rate access 62 B-cha The channel 22 and the D channel are I.D. 400 layers 30 are provided. The odor in Figure 2 Q. of CCITT. 921 layer 34 and Q.I. The 931 layer 36 carries the D channel. The ISDN primary rate access 62 is superimposed on the time slot. With Figure 1 Similarly, various B channels 22 and H.264. 221 layers 28 with each pair of double-headed arrows extending The mark 38 indicates a bidirectional exchange of audiovisual information between the two layers 30 and 28. . Two sets of six arrows 38 in FIG. 2 represent two HOs and connections 64, respectively. You. In the illustration of FIG. 2, one of the HO and connections 64 has six directly adjacent time It consists of 6 B-channels, each transmitted in the Imslot. Figure 2 Also, 6 randomized transmissions of the 6 B channels that make up the other HO / connection 64. Shows the time slot assigned to the. Multiple heads in Figure 1 A plurality of sets of double-headed arrows 42 in FIG. 2, equivalent to arrows 42, 46, 48 and 52, As shown by 46, 48 and 52, the primary rate of ISDN except for the data transmission rate. Exchange audiovisual information with one or more HOs / connections 64 provided by access 62 H. The 221 layer 28 exchanges audiovisual information with the three ISDN basic rate accesses 26. The H.264 shown in FIG. Like 221 layers, video, audio, high speed and Presenting the same interface to the application layer 44 for exchanging low speed data Can be.   FIG. 221 layer 28 and B channel, indicated by general reference numeral 72 2 illustrates the relationship between 22 and the D channel 24. H11 and connection 72 is IS It consists of DN primary access and ISDN basic access. Examples of Figures 1 and 2 As shown, ISDN combined with ISDN basic rate access 26 shown in FIG. The primary rate access 62 is the I.11 of the H11 / connection 72. 400 layers 30 are provided. H11 I. connection 72. According to the 400 recommendation, ISDN basic rate access 26D Channel 24 is a CCITT Q. 921 layer 34 and Q.I. With 931 layer 36 Conveys control information that is used. Thus, in H11 and connection 72, IS All of the 24 time timeslots of the DN primary rate access 62 are multiple sets of double-headed arrows. As indicated by mark 38, H.264. For exchanging audiovisual information with the 221 layer 28 It is used as the B channel 22. Multiple sets of double-headed arrows 42 in FIGS. , 46, 48 and 52, the same set of double-headed arrows 42, 46, 4 in FIG. As shown at 8 and 52, except by the H11 connection 72, except for data rates. H.264 that exchanges audiovisual information with 24 B channels 22 provided by 221 layer 28 To exchange video, audio, high speed and low speed data, FIG. H. 2 respectively shown in FIG. 221, the same interface as the application layer 44 Present.   If two terminals have H11 connection 72, H12 connection or a single HO connection If the audiovisual information is exchanged by using the ISDN operation, the H.264 signal of the transmission terminal is used. 221 layer 28 to the H.V. Inherently the mutual B channel phase relationship to the 221 layer 28 Hold. CCITT H. Other ISDN transmissions allowed under 221 Recommendation There is no guarantee that the phase relationship between the B channels will be preserved, even for different formats. Was Even if the receiving terminal is connected to the ISDN primary rate access, the transmitting terminal is ISD When connecting to two or more B channels 22 of N basic access 26, or vice versa. If the data is received on different B-channels 22, the distortion (skew) will occur. Can happen. That is, two or more H0s / connections 64 on the ISDN basic rate access 26 Or two or more B channels 22 are used for transmitting or receiving remote audiovisual services. Data sent in phase does not need to reach the receiving terminal in phase if . Such distortions in the received data can cause remote audiovisual services to make different phone calls. Placed by transmission through B channel 22 set by placing It can happen at any time. CCITT's ISDN recommendation is for two HOs and connections Mutual B between 64 or two B channels 22 of ISDN basic rate access 26. Allows channel distortion up to 1200 msec. Different HO · Different on the B channel 22 of the connection 64 or the ISDN basic rate access 26 The reason for this distortion between transmitted information on B channel 22 is HO / connection. 64 or ISDN basic rate access B channel 22 is terminated through a different route. It is to be transmitted between children.   CCITT H. 221 Recommendations are available through a variety of different ISDN access or connections. The structure for digital audiovisual information transmitted by Digital circuits, computer hardware, computers that enable communication It does not disclose or suggest any software. Furthermore, H of CCITT . 221 Recommendation is an interface, that is, H.264. 221 layer and host computer Video, audio, high-speed and low-speed data between application programs executed on the data It does not suggest any data structures and protocols for exchanging data. Disclosure of the invention   An object of the present invention is to make a CCITT H.264 standard. 221 Recommendations for digital telecommunications To provide an interface subsystem for exchanging audiovisual information through And there.   Another object of the present invention is CCITT H.264. 221 Recommendations for exchanging audiovisual information To provide a cost-effective interface subsystem that can be replaced is there.   Another object of the present invention is CCITT H.264. 221 Recommendations for exchanging audiovisual information Provides a modular interface subsystem that can be programmed to switch It is in.   Another object of the present invention is to provide audiovisual remote support programmable from a host computer. Service to provide an interface subsystem.   Another object of the invention is to employ an industry standard architecture (“ISA”) bus. CCITT H.264 between computers. Audiovisual information can be exchanged according to 221 recommendations It is to provide a modular interface subsystem.   Another object of the present invention is to provide audiovisual applications implemented within a computer and CCI. H.T. of TT 221 and other interface services via digital telecommunications. Interface with the subsystem that exchanges audiovisual information with the subsystem. Provides data structures and protocols for exchanging sage and data To do.   Another object of the invention is to provide C by means of several independent digital telecommunications accesses. C. H. of CITT. An interface that allows simultaneous exchange of audiovisual information in accordance with Recommendation 221 It is to provide a subsystem.   In a preferred embodiment, the interface subsystem according to the present invention comprises: IS for exchanging digital audiovisual information through ISDN basic rate access of 1 It includes a DN basic rate interface circuit. Interface subsystem according to the present invention Similarly, at least a second ISDN access is used to obtain digital audiovisual information. It includes a second ISDN interface circuit for replacement. In one embodiment of the invention, this The second ISDN access may be configured with one or more basic rate accesses. Of the present invention In an alternative embodiment, this second ISDN access may be a primary rate access. I The interface subsystem is similar to the host digital computer and digital And a host computer interface circuit for exchanging audiovisual information. Departure In one embodiment, the host computer interface circuit employs an ISA bus. In order to exchange digital audiovisual information with the digital computer used Modify the interface subsystem. The interface subsystem is Store digital audiovisual information received by any of the interface circuits Therefore, it includes random access memory (“RAM”).   The interface subsystem controls the operation of the interface circuit. , A digital signal processing circuit connected to all interface circuits and RAM Is further included. Digital signal processing circuit, interface circuit and digital viewing To exchange information and process such data received from the interface circuit . In processing the received digital audiovisual information, the digital signal processing circuit Interface through a single ISDN basic rate access or a single ISDN NI secondary rate access. Synchronize digital audiovisual information received by the face subsystem. De In processing digital audiovisual information, digital signal processing circuits similarly Digitized video, audio exchanged over one ISDN access And the data signal is multiplexed. Similarly, the digital signal processing circuit has an ISDN Required by the host digital computer in response to the start of the hearing remote service. When required, it controls the operation of the interface circuit to initiate such services. Control. In the preferred embodiment, the digital signal processing circuit is an integrated circuit digitizer. In the digital signal processor, a series of signals is received after reception by the ISDN interface circuit. In order to receive each word of audiovisual information and transmit it to several ISDN access, Each word of the audiovisual information is transmitted to the ISDN interface circuit.   The RAM included in the interface subsystem is a frame of multiple audiovisual information. Includes a plurality of receive circular buffers that receive the frames. RAM has multiple sort buffers Each addressable location received from an individual B channel 22 Tet also holds 8-bit audiovisual information. Stored in sort buffer The octets are scanned and CCITT H.264. Flavors identified by 221 Recommendation Locate the Mua alignment signal (“FAS”). After FAS is located Thus, the sort buffer stores a continuous frame of audiovisual information from each B channel 22. To receive the game. FAS is the 8th bit from the 1st octet in the sort buffer. It is located in the 8th bit of the 8th octet. Video, audio, fast and slow data Data is then extracted from successive frames of audiovisual information in the sort buffer, It is stored in individual data buffers in the interface RAM. Then a set of The host computer interface receive buffer contains video, audio and high Such data is received by the host computer, which receives and stores fast and slow data. Data is removed from the buffer. The interface subsystem also has a set of Includes host computer interface transmit buffer. The buffer is video Receive audio, high speed and low speed data from a host digital computer , Is transmitted from the ISDN interface circuit as audiovisual information. Host computer Data interface receive buffer and send buffer are Located in a shared RAM located in the interface circuit.   Under certain operating conditions, the interface subsystem may have several HOs. Can receive a single stream of audiovisual information from multiple ISDN connections, such as connection 64 . Under these circumstances, all video, audio, High speed and low speed data are sent to a single set of host computer interface receive buffers. Stored in the memory. Under other operating conditions, the interface subsystem The individual streams of information are routed to multiple ISDN connections, again such as several HO connections 64. Receive from sequel. If this second situation occurs, the video extracted from the audiovisual information Audio, audio, high-speed and low-speed data, several sets of host computer interface Source receive buffer. The second operation mode of this interface subsystem CCITT's H.C. Of the conference audiovisual remote service that is fully compatible with 221 recommendations Allow settings.   To effectively and efficiently use various operating characteristics of the interface subsystem. For this purpose, the interface subsystem is Of the host computer, report the status to the host digital computer, and It receives control information from the digital computer. For example, the interface The source subsystem sends data to a set of host computer interface receivers. Stored in the buffer or transmitted as audiovisual information from the ISDN interface circuit. To choose between video, audio, high speed and low speed data. The sage is adapted to receive from the host computer. Furthermore, youth If the host computer interface receive buffer is filled with data, then The interface subsystem sends the message to the host digital computer. send. Similarly, if the host computer interface transmit buffer has data If not, the interface subsystem will be installed in the host digital computer. Send a sage.   An advantage of the present invention is that a digital computer using an ISA bus is modified to C. H. of CITT. Suitable for sending and receiving digital audiovisual information in accordance with 221 Recommendation. To do so.   These and other features, objects and advantages are preferred as illustrated in the various views. Those skilled in the art will appreciate the following detailed description of the preferred embodiments. Brief description of the drawings   FIG. 1 shows three ISDN basic rate access B and D channels, CCITT H. H. 221 Recommendations and H.221. Between layer 221 and application layer 2 is a schematic diagram illustrating the data transmission relationship in FIG.   FIG. 2 shows the B channel and D channel of ISDN primary rate access, and CCI. H.T. of TT H. 221 Recommendations and H.221. Day between layer 221 and application layer It is the schematic which illustrates the data transmission relationship.   Figure 3 shows H1 consisting of ISDN primary rate access and ISDN basic rate access. 1-connection B channel and D channel, and CCITT H.264. 221 shows recommendation Between layers and H. Schematic diagram illustrating the data transmission relationship between layer 221 and application layer It is.   FIG. 4 is a schematic functional block diagram depicting an interface subsystem according to the present invention. In schematic diagram, ISDN basic rate interface circuit, second interface circuit, host It includes a computer interface circuit, a RAM and a digital signal processing circuit.   FIG. 5 is a schematic diagram depicting the interrelationship between FIGS. 5a, 5b and 5c, combined. The figure shows the RAM of the interface subsystem and the host computer interface. 2 is a diagram showing a data structure existing in the memory of the source circuit. See through 400 layers Audible remote service data exchange and video, audio, high speed and low speed data exchange. Data to the application layer. BEST MODE FOR CARRYING OUT THE INVENTION   The block schematic diagram of FIG. I am drawing a bus system. The interface subsystem 100 is based on ISDN. A first ISDN basic rate access connector 10 including a rate interface circuit 102. 4 through the ISDN basic rate access 26 (not shown in FIG. 4). Exchange remote service signals. The two pairs of wires 106 are the first ISDN basic rate accessor. The electrical connection is coupled to the isolation transformer circuit 108. The isolation transformer circuit 108 is Am79C32 ISDN data controller which exchanges audiovisual remote service signals (“IDC”) integrated circuit 112 to ISDN basic rate access 26 (not shown in FIG. 4). Electrically isolated from). Sunny Bell, CA (94088-345 3), Advance Microdevices, Inc. at Thompson Place 901 ("AM The IDC 112 marketed by D ") is entitled" Summary of Communication Products ". AMD publications (copyright 1991, AMD publication no. 15513A) Is fully described. IDC112 is a 4-wire S / T ISDN basic rate access Data transmission and reception on the two B channels 22 and D channels 24 Provide power. The IDC also uses the Am82525 high-level serial communication control expansion device (" HSCX]) Interchanges audiovisual remote service signals with integrated circuit 114. AMD HSCX on the market by AMD is also described in AMD's "Communications Product Overview" Fully described. Audiovisual remote service via ISDN basic rate access 26 In order to receive or transmit the IDC 112, the IDC 112 exchanges information exchanged through the D channel. Information, while HSCX 114 exchanges information exchanged through two B channels. To process. Both the IDC112 and HSCX114 are interface subsystems. The audiovisual information is mutually exchanged with the digital signal processing circuit 122 via the system bus 124. Replace. The digital signal processing circuit 122 is used in Dallas, Texas (75380-9). 066) by Texas Instruments Incorporated (“TI”) of PO Box 809066 It is composed by the TMS320C25 digital signal processor marketed as Preferably. TMS320C25 is "TMS320C2x User's Guide (Copyright 1990, TI Publishing No. 164907-9721 Revision B, 199 It is more fully described in the TI publication entitled Dec. 0). Interface The source subsystem bus 124 also stores the digital signal processor 122 in the memory 126. A programmable array logic (“PAL”) integrated circuit 128 and a second I Connect to the SDN interface circuit 130. ISDN access control and status reporting The No. bus 132 connects the PAL128 to the IDC112, the HSCX114 and the second ISD. It is coupled to the N interface circuit 130. PAL128 is a digital signal processing circuit The various control signals transmitted by path 122 are modified to provide IDC 112, HSC X114 and the second ISDN interface circuit 130 are controlled. In addition, the IDC 112, the HSCX 114, or the second interface circuit 130 Of the various status signals transmitted by the digital signal processing circuit 122. To receive it. Memory 126 is preferably 320 kilobytes of static R Includes AM and 64 kilobyte read-only memory (“ROM”). memory The ROM 126 is a computer executed by the digital signal processing circuit 122. Data from the host digital computer to the memory 126. Only store enough "boot routine" to load into RAM.   The second ISDN interface circuit 130 includes an interface subsystem. Modifies and exchanges audiovisual teleservice signals for additional ISDN access. Preferred In one embodiment, the second ISDN interface circuit 130 uses two additional ISDN circuits. DN basic rate access 26 or a single ISDN1 as illustrated in FIG. Interface sub to exchange audiovisual remote service signals with secondary access 62 The system 100 can be selected to suit. ISDN primary rate control Interface 62 to exchange audiovisual remote service signals with each other. To adapt the stem 100, the lead wire 134 is connected to a second ISDN interface. Interface circuit 130 to the primary rate access connector 136 to provide a second ISDN interface. The face circuit 130 is located in South Bed, Dallas, Texas (75244-3292). Marketed by Dallas Semiconductor, Inc. of Rutwood Parkway 4401 One of the different types of line card sticks (“LCS”) currently used It is. A format of 1,536 kbp used in many countries around the world such as the United States and Japan To exchange sISDN primary rate access 62 and audiovisual remote service signals To adapt the interface subsystem 100, a second ISDN interface The case circuit 130 preferably comprises a DC2283 enhanced TI-LSC. Many 2,048kbps ISDN primary rate access and viewing adopted in many European countries The interface subsystem 100 to exchange the tactile and remote service signals. To accommodate, the second ISDN interface circuit 130 is preferably a DS 2281 CEPTLCS. DS2283-LCS and DD228 1-LCS is more fully described in the Dallas Semiconductor Product Data Book ing. Two additional ISDN base rate access 26 and audiovisual remote service signals To adapt the interface subsystem 100 to interchange with each other, a second ISDN interface circuit 130 includes one HSCX 114 and two IDCs. 112, two isolation transformer circuits 108, two pairs of lead wires 106, and in Interface subsystem 124 and PAL as depicted in FIG. 4 and substantially as described above. It incorporates two ISDN basic rate access connectors 104 that are also interconnected.   The above-mentioned interface subsystem 100 is H12, connection and audiovisual remote service. When exchanging audio signals, combine audiovisual information with ISDN primary rate access 62. It can be exchanged at the passed data rate of 1,920 kbps. Such interface The H.F. 221 layer 28 also provides audiovisual information to ISDEN. Only 6 B channels out of 30 or 24 provided by primary rate access 62 Can be exchanged with the HO-connection provided by RU 22 at a data rate of 384 kbps . Similarly, H.264 of such interface subsystem 100. Layer 221 has 6 increments At a data rate of 64 kbps to 384 kbps at 4 kbps, the ISDN primary rate 1 to 6 of the 30 or 24 B-channels 22 provided by Audiovisual information can be exchanged with the B channel 22. The above interface subsystem The stem 100 has an H11 connection as depicted in FIG. 3, rather than an H12 connection. And the audiovisual remote service are mutually exchanged, the interface subsystem H1 2. The only operational difference from the above for connections is H.264. 221 layer 28 is audiovisual information The maximum rate at which the ISDN primary rate access 62 can be exchanged is from 1,920 kbps to 1 , 536 kbps. This decrease in maximum data rate is H11 Sequential 72 ISDN primary rate access 62 provided by H12 connection 30 By providing 24 B-channels instead of 24 B-channels.   If the interface subsystem 100 sends an audiovisual remote service signal to ISDN When exchanging only with the primary rate access 62, such interface subsystem 1 H.00. The 221 layer 28 is ISDN primary at a data rate of audiovisual information of 384 kbps. Of the 30 or 24 B channels 22 provided by rate access 62 Can replace the HO connections provided by only 6 B-channels 22 it can. Alternatively, the H.264 of the interface subsystem 100 may be used. 221 layer 28 ISD at a data rate of 64 kbps to 384 kbps in 64 kbps increments 30 or 24 B channels 22 provided by N primary rate access 62 Among them, 1 to 6 B channels 22 and audiovisual information can be mutually exchanged. Inter The face subsystem 100 can access one to three ISDN basic rate accesses 26. When exchanging audiovisual remote service signals through the H. of system 100. 221 layer 28 has a data rate of 64 kbps to 128 kbps One provided only by a single ISDN base rate access at Provided by two B-channels 22 and two ISDN basic rate access 26 64 kbps in 64 kbps increments using 1 to 4 B channels 22 s to 256 kbps data rate and 3 ISDN basic rate access 64k in 64kbps increments with 1 to 6 B channels 22 provided Audiovisual information can be exchanged at a data rate of bps to 384 kbps.   Many of them are stored in the memory 126 and executed by the digital signal processing circuit 122. Heavy Tasking Computer Program is ISDN Basic Rate Interface Circuit 1 02 and the second ISDN interface circuit 130 to supervise the overall operation and Exchange of audiovisual information between ISDN access and interface subsystems 100 of Exchange. Thus, the code executed by the digital signal processing circuit 122 is The computer program is CCITT's Q. 921 Recommendation, Q.I. 931 Recommendation, H.H. 242 Recommendation and H.264. Properly follow the protocol set by The data received from or sent to these ISDN accesses. Process digital data.   The interface subsystem bus 124 also includes a digital signal processing circuit 122. And the memory 126 as an interface included in the host computer interface circuit. Connect to the face subsystem transceiver 142. Interface subsystem System transceiver 142 has a shared RAM 146 that stores 32 kiloword data. Are combined. The shared RAM 146 also connects to an ISA bus (not shown in FIG. 4). Coupled to ISA bus transceiver 148 coupled to lug connector 152 I have. The arbitration circuit 154 uses the interface subsystem transceiver 142, IS It connects to the A bus transceiver 148 and the ISA connector 152. interface sub-system. Transceiver 142, ISA bus transceiver 148 and ISA In response to the request signal received from the connector 152, the arbitration circuit 154 causes the shared RAM 1 46 through the digital signal processing circuit 122 or ISA bus (see FIG. 4). Specify control to the host computer that controls the operation of (not shown). Host computer The computer interface circuit 144 is provided by the digital signal processing circuit 122. The computer program executed and the code executed by the host computer. The computer programs interact and the host computer interacts. The interface subsystem controls the overall operation of the face subsystem 100. System 100 exchanges audiovisual information with several ISDN access and video, audio Exchange of high-speed data and low-speed data with the host computer is executed.   By combining FIGS. 5a, 5b and 5c in the manner illustrated in FIG. The formed diagram is a RAM and an interface included in the memory 126. Depicts several different data structures that reside in the shared RAM of the source subsystem 100. ing. The combined data structures depicted in Figures 5a, 5b and 5c are I . 400 layer 30 and audiovisual remote service data are mutually exchanged, and such data is transmitted by H.264. 221 layer 28 processing and video, audio, high speed and low speed data Are supplied to the use layer 44. Regarding the realization of such audiovisual remote services The user is well detailed here to provide a comprehensive background to all the information As described by CCITT I.S. 400, Q.I. 921, Q.I. 931, H.M. 242 and H.H. 221 Recommendation is inserted.   As described in TI's TMS320C2x User's Guide, A more preferable digital signal processing circuit 122 has two memory mapped 16 bits. Includes serial port with word register to send data out serial port Receive data on the column port. These registers are illustrated in Fig. 5a, respectively. , A data transmission register (“DXR”) 202 and a data reception register (“DRR”). )) 204. The DXR 202 includes the digital signal processing circuit 122. Holds data that is automatically sent from the serial port. DRR is a digital signal Through the operation of the processing circuit 122, the data automatically received by the serial port Hold. The interface subsystem 100 transfers the data to the ISDN primary rate access Digital signal processing circuit 12 every 8 to 10 microseconds when replacing 2 requests the serial port interrupt handling routine, and the digital signal processing circuit 12 Interrupts included in a multitasking computer program executed by The 16-bit word into the DXR202 for digital signal processing. The serial port of the digital signal processing circuit 122 transmits from the serial port of the circuit 122. The 16-bit word from the DRR received by the   8 to 10 microseconds, as indicated by the solid arrow 206 in FIG. 5a. Each time the next 16-bit word is supplied to the DXR 202, RA of memory 126 M includes a pair of linear buffers called TXA208A and TXB208B, respectively. No. 8 to 10 microseconds, as indicated by the solid arrow 212 in FIG. Each time the next 16-bit word is received from the DRR 204, the R in memory 126 AM has a pair of linear buffers called RXA214A and RXB214B, respectively. Including. If the ISDN Primary Rate Access 62 has 24 time positions, the buffer TX A208A, TXB208B, RXA214A and RXB214B have 960 Store 16-bit word data. When ISDN primary rate access 62 is 30 Buffers TXA208A, TXB208B, RXA214A when there is an inter-position And RXB 214B stores 1280 16-bit words of data.   As the serial port interrupt handling routine responds to continuing interrupts , It is a linear buffer TXA208A or TX from where to continue the data word B208B fetches the word data into the linear buffer RXA214A or RXB It is stored in the corresponding one continuous position of 214B. Serial port interrupt handling The routine is a linear buffer TXA208A and RXA214A or TXB208B. And when the end of RXB214B is reached, it directs its operation to the other pair of linear buffers. Move to the beginning of. The pair of dashed arrows 216 and 218 in FIG. The buffers TXB208B and RXB214B need the current processing data in the DXR202. Not used to receive wanted data from the DRX 204, but they are linear Used as soon as buffers TXA208A and RXA214A are exhausted It is shown that it is possible. In this way, the serial port interrupt handling routine Is an I pair of linear buffers TXA208A and RXA214A and another pair of linear buffers. Ping-pong continuously between FA TXB708B and RXB214B. series Port interrupt handling routines such as I-pair TXA208A and RXA214A Each time the switching between the I pair of TXB208B and RXB214B is switched, Multitasking computer implemented by digital signal processing circuit 122 An interrupt that activates the foreground routine included in the program Is generated. Interrupts generated by the serial port interrupt handling routine When each foreground routine is started by Handles serial port interrupts received by the digital signal processing circuit 122. The routine processes the audiovisual information stored in the RXA 214A or RXB 214B. Then load the new audiovisual information into TXA208A or TXB208B, which To prepare the digital signal processing circuit 122 for subsequent transmission. .   RXA214A when serial port interrupt handling routine generates an interrupt Or, the audiovisual information in RXB214B is CCITT H.264. 221 and H.221. 242 Must process video, audio, high speed and low speed data processed as per encouragement Must. In particular, the audiovisual information in RXA214A or RXB214B is H . Collect FAS and BAS that are processed in 221 layer 28 and buried in audiovisual information Must. H. of the receiving terminal. 221 layer 28 is RXA 214A or RX Process audiovisual information in B214B to properly video, audio, fast and slow Find FAS and BAS before data can be extracted from the received audiovisual information , Must be extracted.   CCITT H. Minimum level, as fully stated in the 221 Recommendation Then, the audiovisual information is an octet containing 8-bit digital information. Formed into a group called. 80 octets stacked vertically with a width of 8 bits and height Form a frame of 80 octets. Over ISDN B channel 22 When the exchanged audiovisual information is formed in this way, it follows the right edge of the frame. 8th bit in each octet forming a vertical column that is 80 bits high Is called a service channel (“SC”). FAS is the first octet Frame from the 8th bit to the 8th bit of the 8th octet. It consists of 8 consecutive bits in the SC in the upper right corner of the frame. Even flavor FAS has a bit pattern “x00110111”. Odd number For a frame, FAS has the bit pattern "x1xxxxxxx". FA The value 0 or 1 assigned to the first bit of S is a multi-frame value which is described in detail below. Used to identify ram structure. FAS number 3 in odd frames The values assigned to bits 8 through 8 represent control, warning and error checking information. You.   Similar to FAS, BAS has 8th bit to 16th octet of 9th octet. It consists of 8 bits located immediately below the FAS in the SC at the 8th bit. Each Laem's BAS specifies a protocol for exchanging audiovisual information, namely Terminal capabilities for transmitting and receiving auditory information and video, audio, high speed and Identify how slow data is multiplexed into audiovisual information through ISDN access Represents a codeword.   For H12 / connection, H11 / connection and HO / connection, called I channel Only the B channel 22 of FAS, BAS, and CCITT of H.264. Special in 221 Recommendation Includes any other control data defined. H. 221 Recommendations for audiovisual information When exchanging, all of the remaining B channel 22 of such ISDN service is audiovisual. Represents information only.   In addition to octets and frames, CCITT H.264. 221 Recommendation Directly Continuous High-level structure called multiframe consisting of 16 frames of audiovisual information To identify. Furthermore, CCITT H. The 221 Recommendation recommends that each multi-frame contains eight 2-frames. Divide into multiple frames under the frame. The first bit of FAS in each frame is Represents frame information.   As illustrated in FIG. 5a, the serial port interrupt handling routine has an arrow Responds to serial port interrupts, as illustrated in 222A through 222AD. Therefore, a pair of linear buffers TXA208A and RXA214A are used. The ground routine uses the 16-bit data previously stored in RXB214B. One of the circular buffers 224A to 224D in the RAM of the memory 126. Move to more than one. The interface subsystem 100 sends the audiovisual information to the ISDN. When exchanging with the primary rate access 62, each of the circular buffers 224 contains four frames. Store audiovisual information. The broken line surrounds the circular buffers 224B to 224AD. It is used. Circular buffers 224B through 224AD are RXB214B and Interface subsystem 1 to store data from RXA 214A. 00 is necessary or not depending on the ISDN format for exchanging data Or Each of the circular buffers 224A to 224AD has an ISDN access Store audiovisual information received through one of the B channels 22. Thus, 30 if the interface subsystem 100 exchanges information with the H12-connection. All of the circular buffers 224A through 224AD pass through their ISDN access. Required to store the received audiovisual information. Interface subsystem If the 100 is exchanging audiovisual information with the H11-connection 72, then 24 circulating buffers Only the FAs 224A to 224X received that ISDN access. It is needed to store visual information. Interface subsystem has a single H If you are exchanging audiovisual information through O / Connection 64, remember the audiovisual information. Therefore, six circular buffers 224A to 224F are required. Interface service The system 100 can access the audiovisual information from one to three ISDN basic rate access 26. When exchanging through, only 1 to 6 circular buffers 224A to 224F Are required to store audiovisual information.   Associated with each of the circular buffers 224A through 224AD is memory 126. 232 of 15-word length located in the B channel directory in RAM A to 232 AD. The following table shows the 30 records of the B channel directory 23 Describes the data and its location stored in various words from 2A to 232AD doing. word   No.   Name description   1 position (SLOT) This B channel 22 is assigned and ISDN primary                           The number of specific time positions in the rate access 62 is specified. Rank                           Position (SLOT) is from 0 to H11 / connection 72                           Up to 3 and from 0 to 29 for H12 and connections                           Has a value.   2 Start address This record in the B channel directory 234                           The second in the circular buffer 224x associated with 232x                           Specify the address of the 1 word.   3 End address This record in the B channel directory 234                           Last in circular buffer 224x associated with 232x                           Specifies the address of the word.   4 The next word of the write address RXA214A or RXB214B is                           This is in the B channel directory 234 written                           Circular buffer 224x associated with record 232x                           Specify the address of the inside position.   5 Address B channel delay when audiovisual information frame starts                           The cycle associated with this record 232x in the tree 234                           Specify the address of the byte position in the buffer 224x                           I do.   6 Bus start Store the numerical value that describes the current status of this B channel.   7 FRAM CNT Used to count frames and monitor frame alignment                           Remember the number you can enter.   8 BAD FRM Recording of bad frame alignment and frame alignment                           Memorize the numerical value used for recovery.   9 MF SYNC Activity record of 1st bit in SC of odd frame, immediately                           8th bit in 1st octet of odd frame                           Memorize the activity record of.   10 MF NUMBER Record the activity of the 1st bit in the SC of an even frame, immediately                           8th bit in 1st octet of even frame                           Memorize the activity record of.                           MF NUMBER is the current frame in multiple frames.                           Specify the number of   11 MF CNT Used to count sub-multiplexed frames in multiplex frames                           Memorize the numerical value that is stored.   12 BAD MF Multiple frames are not aligned                           Memorize the stated value.   13 RX BAS The BAS code sent from this terminal to this terminal                           Remember.   14 TX FAS Write the bit rate allocation signal transmitted from this terminal.                           Remember   The arrow 242A in FIG. 5a indicates the position of the first word in the circular buffer 224A. START ADDR of the first record 232A in the B channel directory 234 The details are shown in ESS words. The arrow 244A is in the circular buffer 224A Of the position of the first record 232A in the B channel directory 234 of the last word of It shows a specification by END ADDRESS. The arrow 246A indicates RXA21. 4A or in circular buffer 224A where the next word from RXB 214B is stored In the first record 232A of the B channel directory 234 at the position The details are shown in the ADDRESS word. Arrow 248A is a circular buffer Of the audiovisual information for this B channel 22 in each of 224A to 224D. B channel at position in circular buffer 224A of byte 1 in frame 252 Represents the specification by the ADDRESSO word in the first record of directory 234 I have. 5a and 5b are the same for the thirteenth circular buffer 224AD. Arrow 2 representing details by 232AD in the B channel directory 234 of the relationship 32AD, 234AD, 236AD and 238AD.   Each of the circular buffers 224A to 224AD has four or more consecutive frames. Stores audiovisual information from the TV, that is, 160 16-bit words of audiovisual information You. Dashed line 254 indicates consecutive frames in circular buffers 224A through 224AD. Indicates the boundaries between the size memory planes. However, circular buffers 224A through 22 The audiovisual information of consecutive frames 252 stored in 4AD is not always Generally, no adjustment is made to the boundaries indicated by dashed line 254. From circular buffer 224A The first and last words in each of the 224AD are on a decimal 40-word boundary, respectively. Has been adjusted. Circular buffers 224A through 224AD start and end words Adjusting on a 40-word boundary will cycle from RXA214A or RXB214B respectively. Circular buffer only once at the end of each sequence from ring buffer 224A to 224AD. Test the address wrap from the end of fa 224A to 224AD to its beginning .   Circular buffers 224A through 224AD depicted in FIG. 5a are independent B channels. While illustrating possible distortion between audiovisual information transmitted over Strictly speaking, the schematic is from H12 / connection, H11 / connection 72, Single B channel 22 from one HO / connection 64 or ISDN basic rate access 26 From the H.264 in the interface subsystem 100 of the audiovisual information from 221 layers It does not accurately describe the reception by. As mentioned above, CCITT's ISDN recommendations For H12 / connection, for H11 / connection 72 and for HO / connection 64 Uniquely preserve the mutual B-channel phase relationship. That is, H12 / 30 connected 24 B channels in ISDN primary rate access over B channel 22 Over the 22 channels or over the six B channels 22 in the HO-connection 64 During the frame 252 of the exchanged audiovisual information, the deviation as illustrated in FIG. Not at all. However, as mentioned above, the distortion of the type illustrated in FIG. More than one HO / connection 64 B channel 22 or more than one ISDN basic rate access It may occur during the several B channels of process 26. These latter forms Interface subsystem 100 of the present invention when using the ISDN service of Is embedded in the audiovisual information stored in the circular buffers 224A to 224AD. Only by finding FAS, it is possible to properly adjust the audiovisual information to several B channels 22. Wear.   Embedded in the audiovisual information stored in the circular buffers 224A to 224AD To locate FAS, as indicated by arrows 262A-262AD, The digital signal processing circuit 122 first stores 40 word fragments into audiovisual information. From the respective circular buffers 224A to 224AD in the RAM of the memory 126. Go to the sort buffers 264A-264AD depicted in Figure 5b. Better The better digital signal processing circuit 122 is concerned with providing addresses to all the words in the memory. First, to facilitate FAS finding and subsequent processing of audiovisual information, sorting Eighty addressable addressable data can be placed in each of the buffers 264A to 264AD. DO holds only one octet of audiovisual information. Computer program watched If the sense information is moved to the sort buffers 264A to 264AD, it must be present there. These sortbacks that contain I-channel audiovisual information looking for FAS that must not Only fas 264A-264AD are scanned. In the digital signal processing circuit 122 Therefore, the computer program executed executes FAS in the sort buffer 264A. Open frame 252 in the I channel by finding ~ 264 AD. When the start position is set, an appropriate record 232A in the B channel directory 234 is set. A value for ADDRESSO is assigned during ~ 232 AD, O specifies the start position of the frame in the appropriate circular / buffer 224A-224AD I do.   Suitable for all circular buffers 224A-224AD that hold audiovisual information Is assigned to ADDRESSO, the digital signal processing circuit 122 The frame 252 of the audiovisual information is stored in the circular buffer 224A to store the audiovisual information. From 224AD, the software with the octet data set as previously described. Transfer to the buffer buffers 264A to 264AD. Frame of all audiovisual data Thus, when properly sorted in the sort buffers 264A to 264AD, the digit The computer program executed by the digital signal processing circuit 122 It is extracted from the audiovisual information of the I channel. Here, the digital signal processing circuit 1 The computer program executed by 22 also CCITTs audiovisual information. H. 221 recommendations for processing video, audio, high speed and low speed data. Extract and extract the video data as indicated by arrows 272A-272AD. Are appropriately stored in the receive video data buffer 274, and the arrows 276A-276AD are stored. Receives audio data as shown by the audio data buffer 278 properly stored, as indicated by arrows 282A-282AD. Properly store the high speed data in the receive high speed data buffer 284, and As shown by 286A-286AD, the slow data is received and the slow data is received. Data in the data buffer 288 as appropriate. Receive video data buffer 274, receive audio Audio data buffer 278, high-speed reception data buffer 284 and low-speed reception data buffer All data buffers 288 are in the RAM of memory 126.   In order to supply audiovisual information to TXA208A and TXB208B, Process the received audiovisual information stored in RXA 214A and RXB 214B. Data storage in RAM of memory 126 equivalent to that described above for Adopt structure. The exception is that the circular buffers 224A to 224AD are omitted. It is. Thus, transfer to TXA208A and TXB208B via the serial port. The task of creating video, audio, fast and slow data to transfer is received Low-speed data buffer 288, reception high-speed data buffer 284, reception audio data Data buffer 278, received video data buffer 274 and sort buffer 26 The same as 4A to 264AD is used.   5b and 5c, the host computer interface circuit 14 The shared RAM 146 included in No. 4 is the interface subsystem 100 and the host. Various messages and videos between digital computers (not shown), audio For various data structures used to exchange Dio, fast and slow data To provide storage means. Thus, the shared RAM 146 is for storing messages and data. A pointer structure 30 holding the address of another structure used to perform the exchange Remember 2. Stored in pointer structure 302 to avoid confusion of the complexity of FIG. Details of the addresses to be provided are omitted in the figure. Stored in pointer structure 302 Information is stored in each of the B channel directory 234 records 232A to 232AD. START ADDRESS, END ADDRESS, WRIT stored in E Functions similarly to ADDRESS and ADDRESS0. Pointer structure 3 02 is stored in the digital signal processing circuit 122 and the host digital. Computer program messages and data executed by the computer Access structures residing in shared RAM 146 that are used to exchange And allow. Digital signal processing circuit 122 and host digital computer The computer program executed by the computer also monitors the status of these structures. The information stored in the pointer structure 302 is used to do this.   The information stored in the pointer structure 302 is stored in the digital signal processing circuit 122. The computer program executed by the host digital computer. To put a message to the host computer wait line in RAM 146 for use Tolerate. The host computer message waiting line 304 is indicated by arrow 306. Messages that are executed by the digital signal processing circuit 122 as described above. Received by the host digital computer and then executed by the host digital computer. The computer program captures them as indicated by arrow 306. No. The information stored in the pointer structure 302 is also used by the digital signal processing circuit 122. The computer program executed by the computer is stored in the shared RAM 146. Face subsystem message waiting line 312 Allow access. Interface subsystem message waiting line 312 is a host digital computer, as indicated by arrow 314. From the digital signal processing circuit 122. The computer programs that are executed, as indicated by arrows 316, take in.   Host computer message waiting line 304 and interface subsystem In addition to the system message wait line 312, the pointer structure 302 also has a digit Performed by both the signal processing circuit 122 and the host digital computer. One or more sessions in which the computer program to be stored is in the shared RAM 146. Exchange video, audio, fast and slow data stored in block 318 To allow One session block 318 can be used for individual HO-connection 64 or Interface across individual ISDN connections such as individual B-channels 22 Each set of video, audio, fast and slow data exchanged by subsystem 100. Required for data. Included in each session block 318 is each session. Session ID3 that uniquely identifies the session and its associated ISDN connection 22.   Each session block 318 also includes a receive video circular buffer 324. De The computer program executed by the digital signal processing circuit 122 is The video data is fetched from the reception video data buffer 274 and is stored in the arrow 326. Store in the receive video circular buffer as indicated by. Host digital computer The computer program executed by the computer sends the video data to the arrow 3 From the receive video circular buffer 324, as shown at 28. Set The option block 318 also includes a receive audio circular buffer 332. Dizzy The computer program executed by the digital signal processing circuit 122 is an audio program. Audio data from the received audio data buffer 278, Store in receive audio circular buffer 332, as shown at 34. You. Computer program executed by host digital computer The audio data, as shown by arrow 336, in the received audio cycle Capture from buffer 332. Session block 318 also receives high speed data It includes a circular buffer 342. Performed by the digital signal processing circuit 122 The computer program fetches the high speed data from the receive high speed data buffer, It is received high speed data circular buffer 342, as indicated by arrow 344. Remember. A computer program executed by a host digital computer. The high speed data is received by the program as indicated by arrow 346. The ring buffer 342 is fetched. Session block 318 also receives slow data It includes a circular buffer 352. Performed by the digital signal processing circuit 122 The computer program retrieves the slow data from the receive slow data buffer 288. The receive slow data circulation buffer, as indicated by arrow 354. 352. A computer executed by a host digital computer. The computer program is responsible for receiving slow data as indicated by arrow 356. Low-speed data is fetched from the circulation buffer 352.   Each session block 318 also includes a transmit video circular buffer 362. E Computer programs executed by a digital computer are The video data to be transmitted from the interface subsystem 100 is displayed by the arrow 36. Store in transmit video circular buffer 362, as shown at 4. Digital The computer program executed by the signal processing circuit 122 is a transmission video The video data stored in the circular buffer 362 is fetched, and the data is stored in the arrow 36 Store in a transmit video data buffer (not shown), as shown at 6. Session block 318 also includes a transmit audio circular buffer 372. E Computer programs executed by a digital computer are The audio data to be transmitted from the interface subsystem 100. Store in transmit audio circular buffer 372, as indicated at 374. The computer program executed by the digital signal processing circuit 122 is Capture the audio data stored in the transmission audio circulation buffer 372, Transfer it to the transmit audio data buffer, as indicated by arrow 376. (Not shown). The session block 318 is also used for transmission high speed data circulation. It includes a buffer 382. A computer implemented by the host digital computer. The computer program should be transmitted from the interface subsystem 100. The high speed data is transmitted through the high speed data circulating buffer as indicated by arrow 384. 382. The computer executed by the digital signal processing circuit 122. The data program collects the transmission high-speed data stored in the transmission high-speed circular buffer. And transfer it to the high-speed data buffer (see arrow 386). (Not shown). Session block is also a transmission slow data circular buffer Including 392. Computer implemented by host digital computer The program is a low-speed device that should be transmitted from the interface subsystem 100. Data to the transmit slow data circular buffer, as indicated by arrow 394. Store in 392. The computer executed by the digital signal processing circuit 122. The data program is the low-speed data stored in the transmission low-speed data circulation buffer 392. Data, and transfer it to the low speed data transmission unit, as indicated by arrow 396. Store in a buffer (not shown).   Since the shared RAM 146 has the multi-session block 318, the interface The subsystem 100 can adapt to different communication environments efficiently and flexibly. example For example, the interface subsystem 100 has a data transmission rate of 765 kbps. To obtain, a single audiovisual stream can be exchanged with two HO-connections 64. Or Under the circumstance, the two HO-connections function as a single connection, and the shared RAM 146 , A set of circular buffers for sending all video, audio, fast and slow data 3 24, 332, 342, 352, 362, 372, 382 and 392. It is only necessary to provide one session block 318.   Instead, the interface subsystem 100 uses two audiovisual information streams. It may be exchanged for two HO connections. In this second operating environment, two HOs The connection acts as an individual ISDN connection and the shared RAM 146 is a separate stream Two independent sets of circular buffers for video, audio, high speed and low speed data 3 24, 332, 342, 352, 362, 372, 382 and 392. At least two session blocks 318 must be provided. This second mode of operation for the interface subsystem 100 is The face subsystem 100 receives two different communications, and H.264. 221 layer 28 In video, audio, high speed and low speed data that it exchanges with the use layer 44 Engage in a conference audiovisual remote service that preserves the identity of these two communications. Inn Data exchange between the interface subsystem 100 and the host digital computer By holding the identities of these two communications in The system 100 is a computer executed by a host digital computer. The program will display a 1/2 display screen from each of the individual audiovisual remote services. Permitting to compose a composite display that probably presents 1/2 of the data. Instead A computer program executed by a host digital computer Uses all screens for one audiovisual remote service while It may be possible to present remote services in a small window within a large display. Yes.   Two or more interface subsystems 100 exchange individual ISDN connections Of the digital signal processing circuit 122 when operating while identifying separate communications of The computer program executed by the sorting program 264 sorts audiovisual information. Audiovisual information from the circular buffers 224A to 224AD stored in A to 264AD. Set the identification of the communication to be transferred. Interface subsystem 100 Is performed in this manner by the digital signal processing circuit 122. Computer programs sort audiovisual information for each separate communication A distinction is made between the identifiable groups in buffers 264A-264AD.   As outlined above, the host digital computer and video, audio, Operation of the interface subsystem 100 to exchange high speed and low speed data To control the digital signal processing circuit 122 and the host digital computer. The computer program executed by the computer hosts various messages. Computer message waiting line 304 and interface subsystem messages Exchange through sage wait line 312. The following list is for digital signal processing The computer program executed by the circuit 122 is a host computer memory. Species specifically associated with audiovisual teleservice communications that may be placed on sage wait line 304 Various messages. NEW RX BAS         This message is sent to the host digital computer for digital signal processing. The computer program executed by the logic circuit 122 is updated to the received audiovisual information. Notify that a meaningful BAS has been identified. NEW TX BAS         This message is sent to the host digital computer for digital signal processing. How the logic circuit 122 differs from the interface subsystem 100 in a new sense Notify that the preparation of the audiovisual information for transmission is started. RX FRAMING LOST         This message is sent to the host digital computer The terminal that receives the audiovisual information transmitted from the audio system 100 is missing a frame. Or notifies that multiple frame synchronization has been reported. H221 SYNC         This message is sent to the host digital computer and sent to the H.264. 221 frame System synchronization with the interface subsystem 100 for receiving audiovisual information. A terminal for receiving the audiovisual information transmitted from the interface subsystem 100, Notify you have been achieved by both. NEW CAPABILITY         This message is sent to the host digital computer by CCITT H.264. Notify that a new capability statement was received in the audiovisual information in accordance with 242 Recommendation I do. RX QUE FULL         This message is sent to the host digital computer to the incoming video circulation bar. Buffer 324, receiving audio circulating buffer 332, receiving high speed data circulating buffer 342 or the reception low-speed data circulation buffer 352 is full, and digital signal processing is performed. Circuit 122 has started discarding received video, audio, high speed, low speed data To notify. TX QUE EMPTY         This message is sent to the host digital computer for transmission video circulation. Buffer 362, transmission audio circulation buffer 372, transmission high-speed data circulation buffer. The buffer 382, the transmit low speed data circular buffer 392 is empty, and the digitizer The computer program executed by the signal processing circuit 122 is a host computer. A message from the digital computer should ensure that this condition occurs properly. If it is not provided, the interface subsystem starts transmitting 0 as audiovisual information. Notify that   The items listed below are the codes executed by the digital signal processing circuit 122. The computer program uses the interface subsystem message waiting line 31 Various messages specifically related to audiovisual remote service communications that can be retrieved from You. SET CAPABILITIES         This message is a command executed by the digital signal processing circuit 122. Interfacing the computer program with details of new capabilities in accordance with CCITT The subsystem 100 is instructed to transmit the audiovisual information to the terminal for receiving the audiovisual information. GET CAPABILITIES         This message is a command executed by the digital signal processing circuit 122. Host the NEW CAPABITITIES message to the computer program. Ordered to send it back to the computer and convey it to other present abilities. IMMEDIATE BAS         This message is a command executed by the digital signal processing circuit 122. Interface subsystem 1 with specific BAS code in computer program 00 to the terminal that receives the audiovisual information, and the audiovisual information after that is specified Order to transmit according to BAS code. FRAME CHANNEL         This message is a command executed by the digital signal processing circuit 122. C for the session audiovisual remote service specified in the computer program CITT Recommendation H. Order to start framing according to 221. IMMEDIATE BAS SWITCH         This message is a command executed by the digital signal processing circuit 122. In the computer program, the specified BAS code becomes the specified BAS code Therefore, the audiovisual information is transmitted from the interface subsystem 100 to the terminal for receiving the audiovisual information. And video, audio, fast and slow data different session blocks 318 Command to start with the circular buffer. EMPTY BAS SWITCH         This message is a command executed by the digital signal processing circuit 122. The specified BAS code is added to the interface subsystem in the computer program. The audio video information is transmitted from the video system 100 to the terminal for receiving the audiovisual information, and is transmitted to the transmission video circulating buffer 36. 2, transmission audio circulation buffer 372, transmission high-speed data circulation buffer 382 or Follows a specific BAS code when the transmission low speed data circulation buffer 392 becomes empty. Then, it is ordered to start the transmission of the audiovisual information thereafter. MEMORY CONTROL         This message is a command executed by the digital signal processing circuit 122. Computer program, receive video circulation buffer 324, receive audio circulation The buffer 332, the reception high-speed data circulation buffer 342, or the reception low-speed data circulation buffer Buffer 352 data storage or transmission video cycle specified in the data message. Ring buffer 362, transmission audio circulation buffer 372, transmission high speed data circulation buffer Start from the buffer 382 or the transmission low-speed data circulation buffer 392, or Order to finish. By transmitting this message, the host digit Computer programs executed by digital computer are video, audio Circular buffers 324, 332, 342 and 352 for high speed and low speed data. To the digital signal processing circuit 122 Computer program. This message also returns the host digit Computer program executed by a computer Circular buffers 362, 372, 382, and 392 by subsystem 100 Being transmitted from, you can choose between video, audio, high speed and low speed data .   In addition to the various messages mentioned above, especially related to audiovisual remote service communications, Executed by the digital signal processing circuit 122 and the host digital computer. The computer program stored in the computer program also makes or receives telephone calls, Responsive to telephone system control signals such as Altone Multiple Frequency (“DTMF”) Various audio / visual remote services related to setting and terminating remote services. Replace sage. Industrial adaptability   The audiovisual information of 120 frames 252 is simply stored in the RAM of the memory 126. Interface subsystem 10 having circular buffers 224A-224AD 0 is between independent B / connections 22 that collectively provide a single audiovisual remote service. Allows only slight deviations. For example, the combined data of 768 kbps Audiovisual information is exchanged across the two HO-connections 64 to obtain the transmission rate. Interface subsystem 100 has a 140 millisecond deviation in between. Can be accepted. Under such circumstances, the storage of 24 frames 252 is the slowest It is assigned to the six arriving B channels 22. 96 frame 252 The remaining memory is a circular buffer for the 6 fastest arriving B channels 22. 224A to 224F. This disconnection between HO and connection 64 If the maximum allowed value is exceeded, one of the two connections will be terminated and an acceptable disconnection will occur. The telephone call must be replaced until a quantity of two connections is obtained. Independent If it is necessary to accommodate a larger offset between B-channels 22, it is simply Increase the amount of memory 126 in RAM that can be used for the ring buffer 224 Can be achieved only by   Receive video circular buffer 324, receive audio circular buffer 332, receive high The high speed data circulation buffer 342 and the reception low speed data circulation buffer are the host controller. The computer interface receive buffer, after it is extracted from the audiovisual information, Provides for receiving video, audio, high speed and low speed data. Similarly, send video Circulation buffer, transmission audio circulation buffer 372, transmission high-speed data circulation buffer 382 and the transmission low-speed data circulation buffer 392 are connected to the host computer interface. Interface send buffer to supply video, audio, high speed and low speed data, It is transmitted from the interface subsystem 100 as audiovisual information. Interface The preferred embodiment of the source subsystem 100 is a circular buffer 324, 332, 342 and 352, but with circular buffers 324, 332, 342 and 352 Other structures are known that function equivalently. Especially First Inn, Firth To-Out structure (“FIFOs”) combined receive video data buffer 2 74 and receive video circular buffer 324, combined receive audio data Buffer 278 and receive audio circular buffer 332, combined receive height High-speed data buffer 284, reception high-speed data circulation buffer 342, and combination Received low-speed data buffer 288 and received low-speed data circulation buffer 352 Is equivalent and is used instead of these. Similarly, FIFOs are combined Transmit video circular buffer 362 and transmit video data buffer, combined Transmit audio circular buffer 372 and transmit audio data buffer The combined transmit high-speed data circular buffer 382 and transmit high-speed data buffer, Combined transmission low speed data circulation buffer 392 and transmission low speed data buffer It is equivalent to FA and is used instead of these.   Viewing the structure and operation of interface subsystem 100 using ISDN communication Interface subsystem 1 as described in the context of exchanging visual-remote services. 00 is another that complies with CCITT's H / 221 recommendation, such as the T1 switch 56. Can accommodate digital telecommunications services. Interface subsystem 100 Easily send and receive digital data of any format using ISDN communication. Used for belief. Such use of interface subsystem 100 is digital Multitasking computer program executed by signal processing circuit 122 Can be realized without changing. Rather, the interface subsystem 100 A suitable use layer computer program implemented by a digital computer. For sending and receiving any form of digital data through the use of RAM Can be.   Although the present invention has been described in a preferred embodiment, such disclosure is purely exemplary. It should be understood that it should not be construed as limiting. Therefore, the invention Various changes, modifications and alternative applications of the invention may be made without departing from the spirit and scope thereof. After reading the disclosure of, it will no doubt be suggested to one skilled in the art. Therefore, It is claimed that all alterations, modifications or alternative applications fall within the true spirit and scope of the invention. Is intended to do.

────────────────────────────────────────────────── ─── Continuation of front page    (31) Priority claim number PCT / US92 / 04944 (32) Priority date June 11, 1992 (33) Priority claim countries World Intellectual Property Organization (WO) (81) Designated countries EP (AT, BE, CH, DE, DK, ES, FR, GB, GR, IE, IT, LU, M C, NL, SE), AT, AU, BB, BR, CA, D E, ES, FI, JP, KP, KR, LU, NO, PL , RU, US

Claims (1)

[Claims] 1 Host digital computer and digital Interface for interchanging audiovisual information, video and audio data Subsystem,     Exchange digital audiovisual information through first digital telecommunications access A first digital telecommunications interface circuit for     Exchanges video and audio data with the host digital computer. A host computer interface circuit for replacement,     Digital audiovisual information from the interface circuit and the video and audio Random access memory for storing audio data,     The interface coupled to the interface circuit and the random access memory Interface circuit to control the operation of the interface circuit and , Exchange digital audiovisual information with each other, The digital audiovisual information and video A programmable digital signal processor for processing audio and audio data. Logic circuit   An interface subsystem consisting of and. 2 Exchange digital audiovisual information with second digital telecommunications access The second digital telecommunications interface circuit for further comprising: Interface subsystem. 3 The first digital telecommunications interface circuit is an integrated service digital Exchange digital audiovisual information through network (“ISDN”) basic rate access, The interface subsystem of claim 2. 4 The second digital telecommunications interface circuit comprises a plurality of ISDN The interface of claim 3 for exchanging digital audiovisual information through rate access. Ace subsystem. 5 The second digital telecommunications circuit uses the ISDN primary rate access to The interface subsystem of claim 3 for exchanging digital audiovisual information. 6 Programmable digital signal processing circuit, interfering subsystem The digital signal received by the system through several digital telecommunications accesses. The interface subsystem of claim 5 for synchronizing audiovisual information. 7 Programmable digital signal processing circuitry, some telecommunication access Multiplexed digitized video and audio data exchanged through 6. The interferometry subsystem of claim 5. 8 Read only memory (“ROM”) included in the random access memory ) Is a computer executed by the programmable digital signal processing circuit. The interface subsystem of claim 1, wherein the interface subsystem stores a data program. 9 Programmable digital signal processing circuit, digital telecommunications After the digital audiovisual information is given to the interface circuit, the continuation of such information The interface subsystem of claim 1, receiving each of the words to perform. 10 Programmable digital signal processing circuit and digital audiovisual information Transmitting each of the following words to said digital telecommunications interface circuit. The interface subsystem of item 1. 11 The programmable digital signal processing circuit is a digital telecommunications service. Control of the operation of the digital telecommunications interface circuit in response to the start of the device. The interface subsystem of claim 1, which is controlled. 12 Programmable digital signal processing circuit, digital telecommunications service Control the operation of the digital telecommunications interface circuit to initiate the The interface subsystem of claim 1, which is controlled. 13 The random access memory is connected to the digital telecommunication interface interface. Multiple receive circular buffers to receive multiple frames of audiovisual information from the The interface subsystem of claim 1 including. 14 The random access memory includes a plurality of sort buffers, Each addressable location in the buffer receives through digital telecommunications access. 1 octet of audiovisual information, and the octet is stored in the sort buffer. A frame alignment signal ("FAS") that is scanned at some time and embedded in it The interface subsystem of claim 1, wherein: 15 After the FAS is located in the sort buffer, the sort buffer User receives successive frames of audiovisual information through digital telecommunications access. And the audiovisual information received as such is entered into the sort buffer and the FAS Is the 8th bit through the 8th octet of the first octet in the sort buffer 15. The interface subsystem of claim 14, which is located in bit 8 of. 16 After the FAS is located in the sort buffer, the video data The audio data, the high speed data and the low speed data are audiovisual information in the sort buffer. 15. The message of claim 14 extracted from the information and stored in individual receive data buffers. Interface subsystem. 17 The individual receive data buffers are run by the interface subsystem. 17. The interface subsystem of claim 16 located in dumb access memory. 18 A set of host computer interface receive buffers are Audio data, high speed data and low speed data are extracted from the received audiovisual information. It is possible to store such data after A set of host computer interfaces by a digital computer 2. The interface subsystem of claim 1, which can be removed from the buffer. 19 The set of host computer interface receive buffers is the host In a shared random access memory located in the computer interface circuit And the host computer interface circuit is located in the digital signal processing circuit. A contract that is accessible by both the logic circuit and the host digital computer. The interface subsystem of claim 18. 20 The digital telecommunications interface circuit comprises a plurality of digital telecommunications Receives single-stream audiovisual information from the connection, video data, audio data, high speed After the data and the low speed data are extracted from such audiovisual information, the one set 20. Stored in the host computer interface receive buffer of Interface subsystem. 21 The host computer interface receive buffer is a circular buffer. 19. The interface subsystem of claim 18, wherein: 22 for storage in the host computer interface receive buffer of the set Video data, audio data, high speed data and low speed data In order to receive messages from the host digital computer, 19. The interface subsystem of claim 18, wherein: 23 The above-mentioned host computer interface receive buffer is full of data A message identifying that is to the host digital computer 19. The interface subsystem of claim 18, wherein: 24 Transmitted as audiovisual information from the digital telecommunications interface circuit In order for the host digital computer to Video data, audio data, high-speed data stored in the interface transmit buffer. The interface server of claim 1, adapted to receive data and low speed data. System. 25 Transmit as audiovisual information from the digital telecommunications interface circuit To store the video data in the host computer interface transmit buffers of the set. Data, audio data, high speed data and low speed data. Requested to receive a message from the host digital computer The interface subsystem of paragraph 24. 26 There is no data in the host computer interface transmit buffer of the set Send a specific message to the host digital computer 25. The interface subsystem of claim 24. 27 Host computer interface As soon as there is no more data in the transmit buffer, The audiovisual information according to the new bit rate allocation signal (“BAS”). Message from the host digital computer that identifies the 25. The interface subsystem of claim 24, adapted to: 28 The digital telecommunications interface circuit allows the individual digital remote Video data, audio extracted from the audiovisual information received from the remote communication connection. Data, high-speed data and low-speed data for each set of host computer interfaces. The interface of claim 1 adapted to be stored in a base receive buffer. Subsystem. 29 The digital telecommunications interface circuit allows To send as separate audiovisual information carried by the communication connection, the host Digital computer sends individual sets of host computer interface Video data, audio data, high speed data and low data stored in the buffer 28. The interface subsystem of claim 27, adapted to receive speed data. 30 Hosts a message identifying that the received audiovisual information contains a new BAS. The interface of claim 1, adapted to send to a digital computer. Subsystem. 31 A message that identifies that audiovisual information is currently being sent according to the new BAS. The method of transmitting messages to a host digital computer according to claim 1. Interface subsystem. 32 Message identifying that audiovisual information should be sent according to the new BAS A message from a host digital computer. Interface subsystem.