KR20000047270A - Method for reassigning abnormal access channel in multimedia satellite communication system - Google Patents

Abstract

PURPOSE: A method for reassigning abnormal access channel in the multimedia satellite communication system, in case that an abnormal channel is generated, is provided to normally operate a system by transferring the abnormal channel through other channel automatically. CONSTITUTION: An ethernet frame comprising a CDMA code and a channel frequency data is transmitted to a received data processing unit and a CDMA receiving unit(ST1). A central station control processor receives channel status information from the CDMA receiving unit(ST2) and stores it in a channel status information storage unit(ST3). Then, the central station control processor compares the channel status information from the CDMA receiving unit and the channel status information previously stored in a data base(ST4). If the received channel status information is the information of a modified channel(ST5), the central station control processor determines whether the modified channel is an abnormal access channel(ST6). If the modified channel is other abnormal channel, the central station control processor sends channel status information to a network management system(ST8).

Description

Reallocation Method of Abnormal Access Channel in Multimedia Satellite Communication System

The present invention relates to a multimedia satellite communication system, and in particular, periodically checks an access channel allocated by a central station to a terminal station, and if an abnormal channel exists, automatically switches and reassigns the channel through another available channel so that the abnormal channel Automatic reallocation of an abnormal access channel in a multimedia satellite communication system that allows the system to operate normally even if it occurs.

1 is a block diagram showing the overall system configuration of a multimedia satellite communication system.

In FIG. 1, reference numeral 1 denotes a central station connected to the Internet, which provides various multimedia services to terminal stations, and performs overall network operation management and control functions. In addition, reference numeral 3 is a terminal station antenna, 4 is a set top box as a terminal station providing multimedia services to a general subscriber, 5 is a personal computer as a terminal for a user to perform multimedia communication, and 6 is a satellite. to be.

That is, in the multimedia satellite communication system having the above-described configuration, in the case of a forward link transmitted from the central station 1 to the set top box 4, a large amount of messages can be transmitted through a TDM scheme, and the set top box ( In the case of a return link transmitted from 4) to the central station 1, a code division multiple access (CDMA) scheme is used to accommodate a plurality of subscribers.

FIG. 2 shows the configuration of a transponder of the system, which has a frequency band f _A of 40 MHz for a forward link and a frequency band f _B of 40 MHz for a return link, for example. f _T ), for example, has a bandwidth of 80 MHz, and the return link is composed of a plurality of frequency channels f1 to fn with a bandwidth of approximately 1.5 MHz. For example, 64 CDMA codes are allocated to each of the frequency channels f1 to fn, and the central station 1 has a channel frequency for each set-top box 4 corresponding to each time the subscriber uses the Internet service. And a CDMA code are allocated to form a return link.

That is, the central station 1 includes various satellite resource information required when the set-top box 4 requests access to the central station 1, for example, a CDMA code and channel frequency data for transmitting a control message to the central station 1; All set-top boxes (4) to execute the information service to provide a PID for the information service for receiving in common.

On the other hand, the central station 1 is an RF device for receiving data transmitted from the set-top box 4, a demodulation device for demodulating an intermediate frequency signal input from the RF device, and the frequency demodulated through the demodulation device And a CDMA receiver for outputting original packet data by CDMA demodulation of the modulated data. The demodulator includes 20 demodulators, each of which has a frequency channel (fn) of the transponder. Will be allocated. The CDMA receiver is coupled to a demodulator so that eight CDMA receivers are coupled to one demodulator, and one CDMA code is assigned to one CDMA receiver to accommodate eight subscribers. Doing.

Accordingly, the central station 1 assigns an access channel required when the terminal station set-top box 4 requests access through the CDMA receiver to assign an arbitrary CDMA receiver to allocate two access channels, for example. The terminal station set-top box 4 executes an access request through the assigned access channel to execute a communication connection.

However, when the terminal station set-top box 4 executes the communication connection to the central station 1 through the access channel as described above, if an abnormal access channel exists in the central station 1, the communication is interrupted or the connection fails. In some cases, the communication connection cannot be executed. Therefore, the user of the PC 5 coupled to the set-top box 4 who wants to access the Internet through the central station 1 to obtain the necessary information becomes a factor of reducing the reliability of the multimedia satellite communication service.

Accordingly, the present invention has been made in view of the above circumstances, and in the multimedia satellite communication system, the access channel allocated by the central station to the terminal station is periodically checked, and if there is an abnormal channel, the channel is automatically used through other available channels. It is an object of the present invention to provide an automatic reassignment method of an abnormal access channel in a multimedia satellite communication system in which a system is normally operated even when an abnormal channel is generated due to a reassignment.

1 is a block diagram showing the overall system configuration of a multimedia satellite communication system.

2 is a diagram showing the configuration of a transponder of a multimedia satellite communication system.

3 is a block diagram showing the configuration of a central station 100 that executes a method for reallocating an abnormal access channel in a multimedia satellite communication system according to a first embodiment of the present invention.

FIG. 4 is a block diagram showing the internal structure of the CDMA receiving apparatus 15 of FIG.

Fig. 5 is an operational flowchart for explaining a method for reassigning an abnormal access channel in a multimedia satellite communication system according to a first embodiment of the present invention.

*** Explanation of symbols for the main parts of the drawing ***

1: central station 2, 3: antenna

4: set-top box 5: personal computer

6: satellite 10: IP switch

11 transmission data processing device 12 modulation device

13 RF device 14 Demodulation device

15: CDMA receiving device 16: Receiving data processing device

17: central international language processor 18: network management system (NMS)

19: Database 20: Channel status information storage unit

151: channel selector 152 (152a to 152h): code demodulator

153 (153a to 153h): CDMA channel processor 154: CDMA channel interface

155: CDMA Receive Processor

In the multimedia satellite communication system according to the present invention for realizing the above object, the automatic reassignment method of an abnormal access channel checks the operation state of a plurality of CDMA channel demodulators for performing CDMA code demodulation on the received data, and the result A central station equipped with a CDMA receiving apparatus having a CDMA receiving processor for transmitting a signal and a central international language processor for reallocating an abnormal access channel based on channel state information received from the CDMA receiving apparatus, the channel from the CDMA receiving apparatus. Channel status information receiving step for receiving status information, Channel status information storing step for storing received channel status information, Changed channel searching step for searching whether there is a changed abnormal channel compared with previous channel status information, Access channel determination step of determining whether the channel is allocated for access or not A non-used channel searching method comprising: searching whether a normal channel is present, non-normal and if the channel in use exist, including access channel re-allocation step of allocating to a new access channel is characterized in that configured.

That is, according to the present invention having the above-described configuration, after allocating a channel by allocating a CDMA code to each terminal station to which the central international language processor has requested access, it receives an abnormal state by receiving status information of each channel from the CDMA receiving apparatus. If there is an access channel of, the normal channel among the unused channels is reassigned to the new access channel for the abnormal access channel.

Therefore, even if an abnormal access channel is generated among the channels allocated by the central station in the multimedia satellite communication system, it is possible to immediately change and improve the reliability of the multimedia satellite communication service.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

3 is a block diagram showing a configuration of a central station 100 that executes an automatic reassignment method of an abnormal access channel in a multimedia satellite communication system according to a first embodiment of the present invention.

In FIG. 3, reference numeral 100 denotes a central station for executing and controlling an automatic reassignment method of an abnormal access channel according to the present invention, and 10 denotes an IP switch for switching an Internet Protocol packet. The IP packet data transmitted to the system is transmitted according to the IP address of the IP packet data input from each system.

In the figure, reference numeral 11 denotes a transmission data processing apparatus which processes transmission data input from the IP switch 10 to generate, for example, an MPEG-2 TS packet, and 12 denotes an output from the transmission data processing apparatus 11. A modulator for outputting an intermediate frequency signal of, for example, 70 MHz by performing quadrature phase shift keying (QPSK) modulation on TS packet data, and a 13 frequency upconverting and high output amplifying an intermediate frequency signal output from the modulator 12. It is an RF device for outputting to the antenna (2), the high-frequency signal received through the antenna (2) down-frequency conversion and low noise amplification output.

In the figure, reference numeral 14 denotes a demodulation device for demodulating an intermediate frequency signal input from the RF device 13, and 15 denotes an original packet by CDMA demodulation of demodulated data input by frequency demodulation in the demodulation device 14. As a CDMA receiver for outputting data, as shown in FIG. 4, the CDMA receiver 15 includes a channel selector 151 for selecting modulation data input from the demodulator 14 according to a frequency channel, Each channel code demodulator (152: 152a to 152h) for performing CDMA demodulation on the demodulated data, and the CDMA code data for each channel received from the central international language processor 17 to be described later are sent to the processor for each channel. CDMA receiving processor 155, which is set by using the CDMA receiving processor 155, for each of the eight CDMA channels for causing the code demodulator 152 to perform CDMA demodulation based on the CDMA code data inputted from the CDMA receiving processor 155. It is composed of: (153a~153h 153)) and, each CDMA channel processor (153a~153h) and CDMA channel interface 154 which performs the interface function between the CDMA reception processor 155 processor.

In FIG. 3, reference numeral 16 denotes a reception data processing device for processing data input from the CDMA reception device 15, wherein the reception data processing device 22 controls IP packet data or control from the set top box 4. When the message is received, it is converted into data of the Ethernet frame and input to the IP switch 10. In addition, the reception data processing device 16 converts, for example, 100 baseT, that is, 100 Mbps data input from the CDMA reception device 15 into 10 baseT data and inputs the data to the IP switch 10.

In the drawing, reference numeral 17 controls the entire apparatus of the central station 100 and assigns another channel usable when an abnormal access channel is generated based on the channel state information received from the CDMA receiver 15 to the access channel. Is a central international language processor that controls the system to operate normally, 18 is a network management system for the system operator to operate and manage the entire satellite network, and 19 is PID and frequency data assignable to the set-top box 4. And a database for storing CDMA code data and storing IDs, passwords, and IP addresses for subscribers.

Reference numeral 20 denotes a channel state information storage unit for storing channel state information received from the CDMA receiver 16 as data, and the central international language processor 17 transmits the channel state information storage unit 20 to the channel state information storage unit 20. If there is an abnormal access channel compared with the stored channel state information and the CDMA channel state information allocated to the database 19, another available channel is allocated to the access channel.

Next, the operation of the device having the above configuration will be described with reference to the operation flowchart shown in FIG.

First, the network management system 18 of the central station 100 has a variety of information required when the set-top box 4 requests access to the central station 100, for example, a CDMA code for transmitting a control message to the central station 100. And the information service that provides channel frequency data and common PID.

That is, the network management system 18 generates an Ethernet frame including the CDMA code and the channel frequency and transmits the generated Ethernet frame to the reception data processing device 16 and the CDMA receiving device 15 through the IP switch 10. Therefore, the reception data processing device 16 and the CDMA reception device 15 are set via the received channel frequency and the CDMA code, respectively (ST1 step).

In addition, the network management system 18 generates an Ethernet frame including the CDMA code, channel frequency data, and PID for information service for common reception in all set-top boxes, and generates a database 19 through the IP switch 10. And the transmission data processing device 17.

Accordingly, the database 19 stores and manages the received communication resource information, and the transmission data processing apparatus 17 converts the Ethernet frame transmitted from the IP switch 10 into an IP packet and converts it into a TS packet for transmission. The TS packet is transmitted to the set top box 4 through the modulator 12 and the RF device 13.

In the above state, the central international language processor 17 periodically receives and checks the CDMA channel state information from the CDMA receiver 15.

That is, the CDMA receiving processor 155 of the CDMA receiving apparatus 15 sequentially checks each of the CDMA channel processors 153a to 153h. For example, two CDMA channel processors 153a and 153b are allocated as an access channel. When the CDMA channel processor 1 153a is detected as an abnormal channel, IP packet data including the channel information is generated and transmitted to the central international language processor 17 through the IP switch 10.

Accordingly, the central international language processor 17 which has received the channel image information from the CDMA receiver 15 stores the channel state information received from the CDMA receiver 15 in the channel image information storage 20 ( ST2 to ST3 step). Then, the central international language processor 17 compares the previous channel state information stored in the database 19 (step ST4).

If the received channel state information is changed by comparing the channel state information received from the CDMA receiver 15 with the previous channel state information (step ST5), the central international language processor 17 accesses the changed channel abnormally. It is determined whether the channel (step ST6), if the channel other than the access channel, for example, the abnormal channel of the traffic channel by sending the channel status information to the network management system 18 so that the network administrator can cope with the occurrence of the abnormal channel. (ST7 stage).

On the other hand, if the channel state information received from the CDMA receiver 15 is an abnormal access channel of the changed channel information (step ST6), the IP packet data is generated in the database 19 to search for the existence of a normal channel. It transmits through the IP switch 19 (ST8 step), and then the database 19 searches for the normal channel which is not in use according to the search command of the central international language processor 17, and if there exists, the channel information is recalled. It is sent to the central international language processor 17.

Accordingly, the central international language processor 17 generates a control message for allocating a non-used normal channel as an access channel as IP packet data, and sends the control packet to the database 19 through the IP switch 10 and the CDMA receiving apparatus ( 15), the database 19 stores and manages the reset channel information received from the central international language processor 17. In the CDMA receiver 15, the CDMA receiving processor 155 stores the central international language. The reset channel information received from the processor 17 sets the corresponding CDMA channel processor (steps ST10 to ST11).

That is, according to the above embodiment, when an abnormal access channel is generated among the allocated access channels in the multimedia satellite communication system, another non-used normal channel is allocated as an access channel, thereby enabling access at any time to improve reliability of a communication service. It can be improved.

In addition, this invention is not limited to the said Example, It can variously deform and implement within the range which does not deviate from the technical summary of this invention.

As described above, according to the present invention, when an abnormal access channel is generated in a multimedia satellite communication system, the reliability of the multimedia satellite communication service can be improved by reassigning automatically through another unused normal channel.

Claims (3)

A CDMA receiver equipped with a plurality of CDMA channel demodulators for performing CDMA code demodulation on the received data, and a CDMA receiver processor for checking the operation state thereof and transmitting the result thereof, and channel state information received from the CDMA receiver apparatus. A central station having a central international language processor for reallocating an abnormal access channel based on A channel state information receiving step of receiving channel state information from the CDMA receiving apparatus; A channel state information storing step of storing the received channel state information; A change channel search step of searching for the presence of a changed abnormal channel by comparing with the previous channel state information, An access channel determination step of determining whether the changed abnormal channel is a channel allocated for access; Unused channel search step of searching for existence of normal unused channel, An automatic reallocation method of an abnormal access channel in a multimedia satellite communication system, comprising an access channel reallocation step of allocating a new access channel when a normal and inactive channel exists. The method of claim 1, In the access channel determination step, if the channel other than the access channel, the automatic channel reassignment method of the abnormal access channel in the multimedia satellite communication system, characterized in that for transmitting the received channel state information to the network management system. The method of claim 1, If the unused normal channel does not exist in the unused channel search step, the automatic channel reallocation method of the abnormal access channel in the multimedia satellite communication system, characterized in that for transmitting the received channel state information to the network management system.