KR100253942B1 - Data channel selective connection apparatus - Google Patents

Abstract

PURPOSE: An apparatus for selectively connecting data channels is to allocate the data channels only when a subscriber demands, thereby utilizing the data channels effectively and establishing the system at a low expense. CONSTITUTION: A video on demand(VOD) system comprises a video server, a video switch, a network management unit, an ADSL(asynchronous data subscriber line) terminal unit-central, an ADSL terminal unit-rack and a set top box(STB). In the ADSL terminal unit-central, a control command for selecting a data channel is inputted from the network management unit via a control signal transmission line(104). A micro-processor(200) generates a line connection signal in response to the control command. Signal modulation/demodulation units(207) are connected to corresponding subscriber lines through splitters(108). The first sub channels(206) are connected to the signal modulation/demodulation units. The second sub channels(103) receive data from the video switch. A line connection unit(208) coupled to the second sub channels connects a selected first sub channel to a selected second sub channel in response to the line connection signal.

Description

Data channel selective connection

1 is a block diagram of an on-demand video system to which the present invention is applied.

2 is a connection conceptual diagram described in the ANSI standard.

3 is a diagram showing the configuration of an asymmetric data transmission mother station apparatus according to the present invention in FIG.

* Explanation of symbols for main parts of the drawings

100: video server 101: video switch

107: asymmetric data transmission mother station device 108: distributor

112: asymmetric data transmission local station 111: telephone

116: TV 115: STB (Set Top Box)

200: microprocessor 201: communication unit

207: signal modulation and demodulation part 208: line connection part

The present invention relates to a data channel access device of an asymmetric data transmission mother station in a Video On Demand (VOD) system. In particular, the present invention provides a method for selectively accessing a data channel only at the request of a subscriber. Relates to a device.

In general, in a VOD service using a telephone line, each subscriber becomes a general user such as a telephone user, and the user can purchase a telephone line modem device and an in-house device and connect a TV to it to receive video service interactively.

FIG. 1 shows a schematic configuration of such a VOD system, and the video server 100 stores compressed video information and serves to provide a predetermined request. The compressed video information includes a video switch 101 and an asynchronous digital subscriber line (ADSL) transmission device, that is, an asymmetric data transmission mother station (ADSL Terminal Unit-Central), which is an external or indoor transmission device. ), And restored from the subscriber control device 115, which is a television stationary receiver, via an asymmetric data transmission local station (ADSL Terminal Unit-Rack; 112), and is provided to the viewer through the screen of the television 116. The video server 100 uses a DEC (Digital Equipment Cooperation) company or a Celerity company.

The STB 115 is made to be placed above or below a television, so it is called a TV-mounted receiver or set top box (hereinafter referred to as STB), and is installed in a home among the elements implementing a VOD system. This is the part that is actually manipulated. The STB 115 may receive desired video information from the server by accessing the server through a network.

In addition, the asymmetrical data transmission mother station 107 and the asymmetrical data transmission local station 112 are the most essential parts of the VOD system using a telephone line, are connected to the telephone line of both the telephone station and the subscriber, the video server 100 and the STB It is a transmission device for relaying communication between the (115). One asymmetric data transmission mother station apparatus 107 provided in the telephone station is allocated to each subscriber.

On the other hand, when the STB 115 requests the desired information (video, distance education, entertainment, etc.), the information is received by the asymmetric data transmission local station 112. The asymmetric data transmission local station 112 properly formats the information and transmits the information to the asymmetric data transmission mother station 107 in the telephone station through the telephone line. The asymmetric data transmission mother station apparatus 107 transmits the received information to the video server 100 through the ATM demultiplexer 250 and the video switch 101. The video server 100 controls the information received from the STB 115 to appear on the TV or PC. In this way, the information transmitted from the video server 100 at the request of the STB 115 is called a downstream or a simplex, and the control communicates between the STB 115 and the video server to receive the actual desired information. The signal is called upstream or duplex.

As shown, a network management device (level 1 gateway: L1GW) 102, which is located between the video server, the video switch and the asymmetric data transmission mother station device, may be separately installed, but the control server directly generates the control signal. Sometimes. In addition, the network management device 102 is a video switch of INC (International Network Cooperation).

However, as shown in FIG. 2, the asymmetric data transmission mother station apparatus 107 has already standardized on technical matters to be basically provided by ANSI, which is a US standardization organization. However, there are many practical problems in implementing the asymmetric data transmission mother station 107 with this standard. Some of the issues that must be considered realistically include:

That is, the problem of allocating a data channel to the subscriber line 109, ANSI TIE1. According to the standard of 4 / 93-007, up to seven subchannels can be allocated to one subscriber line 109. Therefore, up to seven subchannel lines 103 should be directly connected to the signal modulation / demodulation unit 207 of the asymmetric data transmission mother station 107. As a result, since the subchannels 103, which are relatively unlikely to be used, must be connected to the signal modulation and demodulation unit 207 unconditionally, the data channel cannot be efficiently used, and in the case of a system in which a plurality of signal modulation and demodulation units 207 are mounted, connection Handling cables is not an easy matter.

Accordingly, an object of the present invention is to eliminate the irrationality in using data channels caused by unconditionally connecting subchannels, which are rarely used, to each signal modulation demodulator, thereby enabling a system to be constructed at a low cost, and according to the implementation of a plurality of signal modulation demodulators. It is to provide a data channel selective access device that is easy to process.

The present invention for achieving the above object is connected to the line connection of the asymmetrical data transmission mother station apparatus smaller than the total number of subchannels that can be allocated to the subscriber and the line connection unit only when the subscriber requests The control unit is configured to connect the corresponding subchannel to the corresponding signal modulation / demodulation unit.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals have the same reference numerals as much as possible even if displayed on different drawings. In addition, in the following description, many specific details such as components of specific circuits are shown, which are provided to help a more general understanding of the present invention, and the present invention may be practiced without these specific details. It will be obvious to those of ordinary skill in the field.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Referring to FIG. 1 to which the present invention is applied, the selection signal used when a subscriber wants to select a desired movie by the STB 115 among the subscriber-side devices is a control channel 114 and an asymmetric data transmission local station apparatus. Reference numeral 112, a transmission line 109, an asymmetric data transmission mother station apparatus 107, and a transmission line extending to the second sub-channel 103 is transmitted to the network management apparatus 102. The network management apparatus 102 is connected to the corresponding second subchannel 103 of the asymmetric data transmission mother station apparatus 107 through the video server 100 and the video switch 101. This signal is transmitted to the asymmetrical data transmission local station 112 through the transmission line 109 via the corresponding signal modulation and demodulation unit 207 of the asymmetrical data transmission mother station apparatus 107 shown in FIG. The asymmetric data transmission local station 112 transmits this signal to the STB 115. The transmitted signal is displayed on the screen of T 116 again so that the subscriber can enjoy the movie selected by him.

3 is a diagram showing the configuration of an asymmetric data transmission mother station apparatus according to the present invention in FIG.

The asymmetric data transmission mother station apparatus 107 collectively controls the overall operation of the control signal line 104 for inputting a control signal for selecting a data channel from the network management apparatus 102 and the asymmetric data transmission mother station apparatus, and a communication unit. A microprocessor 200 for outputting a line connection signal in response to the control signal transmitted through the 201, and a plurality of signal modulation and demodulation unit 207 connected to the corresponding subscriber line through each splitter 108 And a plurality of first subchannels 206 connected to the plurality of signal modulation and demodulation units 207 and a smaller number of second subchannels 206 for inputting data from the video switch 101. A selected one of the first sub-channels 206 selected from the second sub-channels 103 in response to the line connection signal, connected to the sub-channel 103 and the second sub-channel 103. A line connecting portion 208 for connecting to the first and second portions A nonvolatile memory 204 for storing information on the connection state of the channels 206 and 103, a ROM 203 for storing various programs for controlling the operation of the asymmetric data transmission mother station, and for performing or performing the programs. RAM 205 for temporarily storing the various data generated according to the.

In this way, the number of second subchannels 103 smaller than the total number of first subchannels 206 that each signal demodulation section 207 can take as an input is connected to the line connecting portion 208 by cable.

When the second subchannel 103 is allocated to a specific subscriber, the first subchannel 206 is a specific second subchannel 103 to which the network management device 102 is connected in advance through the control signal line 104. The microprocessor 200 controls the line connection unit 208 so that the corresponding subchannels 103 and 206 are connected. At this time, the information related to the connection is stored in the nonvolatile memory 204. This is to allow a connection to the information stored in the nonvolatile memory 204 when the microprocessor 200 is initialized.

On the contrary, when the user wants to cancel the use of the allocated second subchannel 103, the microprocessor 200 sends the disconnection command to the microprocessor 200 using the same procedure as described above. Generates a line disconnection signal. The line connection unit 208 terminates the connection between the selected first subchannel and the second subchannel in response to the line connection release signal, and stores the disconnection related information in the nonvolatile memory 204.

The line connection unit 208 can be implemented simply by using one or several connection-dedicated ICs depending on the number of lines of the subchannels 103 and 206.

As described above, the present invention can efficiently use a data channel by selectively allocating a sub-channel that is not likely to be used and assigning it to each signal modulation and demodulation unit only at the request of a subscriber. It is possible to construct and to handle the cable according to the mounting of a number of signal modulation and demodulation unit.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by the equivalents of the claims.

Claims (3)

In an on-demand video system having a video server, a video switch, a network management device and an asymmetric data transmission mother station device, an asymmetric data transmission local station device and a set-top box, the asymmetric data transmission mother station device is used for selecting a data channel from the network management device. A control signal line for inputting a control command, a microprocessor for outputting a line connection signal in response to the control command, a plurality of signal modulation and demodulation units connected to the corresponding subscriber line through respective distributors, and a plurality of signal modulation demodulation units A plurality of first sub-channels, a plurality of second sub-channels smaller than the first sub-channel for inputting data from the video switch, and the second sub-channel, in response to the line connection signal. A line connection for connecting one selected subchannel of the first subchannel to one selected subchannel of the second subchannel Apparatus characterized by consisting of parts. The apparatus of claim 1, further comprising a nonvolatile memory configured to store information about a connection state of the first and second subchannels. The microprocessor of claim 1 or 2, wherein the microprocessor outputs a line connection release signal in response to the control command, and the line connection unit selects a first subchannel and a second subchannel selected in response to the line connection release signal. Apparatus for disconnecting the.