JP3491570B2 - Communication line quality control method and center station - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system for performing time division multiplex communication between one center station and a plurality of user stations, and a communication line for controlling the quality of the communication line received by the user station. The present invention relates to a quality control method and its center station and user station. In particular, this system relates to satellite communication systems.

[0002]

2. Description of the Related Art Conventionally, in the case of transmitting information in a satellite communication system, the information is transmitted by one predetermined transmission method (reference document "Announcement of the 1995 Telecommunications Technology Council" (Question No. 74). ) (July 24, 1995)). For example, this transmission method has a predetermined coding rate (ratio between the number of bits used for information transmission and the number of bits after adding an error correction code) to a predetermined modulation method such as QPSK. It is a combination of error correction codes (for example, a convolutional code with a code rate r = 3/4).

Regarding the European DVB-S standard,
The modulation method is fixed only for QPSK. However, the coding rate of the error correction code should be selected and operated on the transmitting side within the range of r = 1/2 (low efficiency / high reliability) to 7/8 (high efficiency / low reliability). There is. On the receiving side, it is possible to restore the transmitted signal once at all coding rates, and then decode at that coding rate that allows good decoding.

FIG. 1 is a system configuration diagram of an embodiment of CS digital satellite communication. The center station includes a transmitting antenna and a transmitting device. The user station is composed of a receiving antenna, a tuner and an external device.

The user station sends a request signal for desired information,
Transmitted from the tuner to the center station via the ground line. The center station receives the request signal, connects to the server of the corresponding information provider via the ground line, and acquires the information of the information provider. Next, the center station uses the transmitter to perform QPS.
Modulation is performed by the fixed modulation method and error correction method of K (r = 3/4), and the requested information is transmitted from the transmission antenna to the user station via the satellite line. In the user station, the receiving antenna receives the information, the tuner demodulates the information, and the external device acquires the information. The signal from the user station to the center station includes pay broadcast billing information as transmission information via the terrestrial line, but does not include a signal indicating the satellite line reception state of the user station.

FIG. 2 is a system configuration diagram of an embodiment of digital satellite broadcasting by a BS-4 starting device. The BS
-4 Digital satellite broadcasting by a posterior device (Reference: Japanese Patent Laid-Open No. 9-321813 "Digital transmission method and transmission / reception apparatus", Technical Report of the Television Society, Vol.
(Published by The Television Society of Japan, March 15, 1996))
Is scheduled to start broadcasting in 2000.

Digital satellite broadcasting by a BS-4 starting device is a trellis-coded 8-phase PSK as a main signal modulation system.
(TC8PSK, coding rate 2/3) is adopted. In addition to TC8PSK, QPSK (convolutional coding rate is 1/2, 2/3, 3/4, 5/6, 7/8) or BPS in consideration of frequency utilization efficiency and resistance to rain attenuation.
K (convolutional coding rate is 1/2) can be switched to another PSK modulation. Furthermore, transmission by a plurality of TSs capable of accommodating a plurality of logical TSs (transport streams) in one carrier is possible. In order to control the switching of the modulation method and the configuration of multiple TSs, TMCC (Tra
nsmission & Multiplexing Configuration Control) data is multiplexed, but due to the restriction of TMCC data, the modulation method and error correction method that can be set in one carrier are
Up to 4 out of 7 types.

The business operator selects a transmission method according to the program content. This is, for example, a main signal modulation scheme, a symbol rate, a hierarchical structure (for example, the number of layers when hierarchizing, a modulation scheme for each hierarchy, time allocation allocated to each hierarchy) or a coding rate. Then, the business operator transmits the program content to the center station. The center station multiplexes the TMCC data into the main signal, modulates it by the modulation method and error correction method determined by the operator, and transmits it from the transmission antenna to the user station via the satellite line. In FIG. 2, the center station has 8PSK (r = 2
/ 3), QPSK (r = 7/8), QPSK (r = 2 /
3) and BPSK (r = 1/2) are used to transmit information. The user station receives the information from the receiving antenna and demodulates the TMCC data received by the tuner, so that it is possible to know what kind of transmission method is used, and the information is carried based on this. The main signal can be demodulated.

In FIG. 2, the user station A has 8PSK (r = 2).
/ 3), the user station B sends QPSK (r = 7/8)
Is getting information about. The information transmitted from the user station to the center station via the terrestrial line includes pay broadcasting billing information,
The signal indicating the satellite line reception status of the user station is not included.

[0010]

In the conventional satellite communication,
Since a certain modulation method and error correction method such as QPSK (r = 3/4) are used when information is transmitted, multiple modulation methods and error correction methods are not transmitted at the same time, resulting in line quality deterioration. It has been a problem that the generated user station is in an unreceivable state until the line quality is restored.

Further, in satellite broadcasting by the layered modulation method, information of a plurality of modulation methods and error correction methods is accommodated in one carrier and transmitted, and when line quality deterioration occurs, it is transmitted at the center station. It is possible to change the channel modulation method and error correction method. However, since the center station cannot acquire the accurate reception status of each user station in real time, there is a problem that it takes time from the time when the line quality deteriorates to the time of switching.

Therefore, an object of the present invention is to notify the center station of the reception channel quality state of the user station, and the center station
Guarantees the reception line quality at the user station by evaluating the line quality based on the notified information and controlling the change of the modulation method and error correction method used for communication and notifying the user station of the change according to the evaluation result. Is to be realized.

[0013]

In the existing satellite communication system, this is a transmission service that does not consider the reception channel quality state of the user station. Therefore, the user station does not notify the center station of the satellite channel reception status. In addition, satellite broadcasting using the layered modulation method enables broadcasting using a plurality of modulation methods and error correction methods, but since it is one-way communication from the center station to the user station, the center station receives the reception line of each user station. The modulation method and error correction method for each channel are set without quality control. However, in order to realize the line quality guarantee at each user station, the reception line quality state from each user station is notified to the center station, the center station judges the situation, and an appropriate modulation method and error correction method are used. It is necessary to automatically switch control to.

Further, the communication line quality control method of the present invention is
A first step in which a user station receives desired information from a line and measures the line quality of the line, and a second step in which the user station notifies the center station of the line quality information measured in the first step. And the third step in which the center station receives the line quality information of the plurality of user stations notified by the second step, and the center station in the plurality of user stations received by the third step. 4th, where the center station collects line quality information
And the fifth step, in which the center station determines whether or not the totalized result of the line quality information for the plurality of user stations totaled in the fourth step is within a predetermined reference range value, However, when the result determined in the fifth step is within the predetermined reference range value, the modulation method and the error correction method of the line received by the plurality of user stations are maintained as they are, and the result is the predetermined reference range. When the value is out of the range, the sixth step in which the line is changed to the modulation system and the error correction system that satisfy the line quality within the reference range value
The step 7 of notifying the plurality of user stations of the modulation method and the error correction method changed by the step 7 and the step of receiving the modulation method and the error correction method of the user station notified by the step 7 of the plurality of user stations. And a ninth step in which a plurality of user stations change the line to the modulation method and the error correction method received by the eighth step, and the total line quality for the plurality of user stations is increased. The information is controlled so as to be within a predetermined reference range value.

According to another embodiment of the present invention, at the stage where the center station and the user station change the line modulation method and error correction method, the time division multiplexing of the plurality of lines is performed individually. It is also preferable that the individual modulation schemes and error correction schemes are assigned in advance, and that the lines are assigned modulation schemes and error correction schemes that satisfy the line quality within the reference range value.

According to another embodiment of the present invention, when the center station and the user station change the line modulation method and the error correction method, the line modulation method and the error correction method are set within the reference range value. It is also preferable to change to a modulation method and an error correction method that satisfy the line quality of.

[0018]

Further, the center station of the present invention has a user station calculation result receiving means for receiving the line quality information of the line received by the user station from the user station and a reference range value of the line quality for the line received by the user station. And switching reference value storage means for storing data defining a reference range value for the result of aggregating the line quality information received from a plurality of user stations, and line quality information received by the user station calculation result receiving means, and switching User station reception determination processing means for determining whether or not the user station is in a state capable of receiving transmission information from the center station by comparing with a reference range value of line quality read from the reference value storage means, A judgment result totaling processing means for inputting the judgment result of the user station reception judgment processing means and comprehensively processing the line quality information of a plurality of user stations, and a totaling result of the judgment result totaling processing means , When the line quality information read from the switching reference value storage means is within the reference range value for the result of aggregating the line quality information sent from the plurality of user stations, the lines received by the plurality of user stations are maintained as they are, When the determination result of the user station reception determination processing means is outside the reference range value,
Based on an instruction output from the method switching determination processing unit that outputs an instruction to change the channel to a modulation method and an error correction method in which the channel quality of the line received by the user station becomes a reference range value, A system change control means for executing a switching process of the modulation system and the error correction system, and a system change instruction means for notifying the user station of change information for the switched modulation system and error correction system.

[0020]

[0021]

DETAILED DESCRIPTION OF THE INVENTION Embodiments of the present invention will be described in detail below with reference to the drawings.

First, a first embodiment of the present invention will be described.

According to the present invention, in satellite communication between a center station and a plurality of user stations, a modulation method and an error correction method which are currently in use are different from each other depending on the satellite channel reception state of the user station. This is a line quality control method for satellite communication in which communication is performed by switching to an error correction system channel.

FIG. 3 is a block diagram showing a case where channels of different modulation systems and error correction systems are set for the time-division multiplexed satellite lines between the center station and the user station.
As is clear from FIG. 3, a plurality of different modulation methods and error correction methods are assigned to each channel within the same carrier (for example, 8PSK (r = 2/3), QP
SK (r = 7/8), QPSK (r = 2/3), BPS
K (r = 1/2)). In FIG. 3, communication is currently being performed from the center station to the user station using 8PSK (r = 2/3). The user station uses the satellite channel quality index (for example, BER
(Bit error rate), C / N (carrier to noise ratio), ATM
The cell discard rate) is measured, and this is notified to the center station via the ground line as reception state data.

The center station acquires the reception status data from the user station, and determines whether the user station can receive on the channel of the current modulation system and error correction system. If the determination result is within the range of the reference value, communication is continued with the current channel (modulation method and error correction method are 8PS).
K (r = 2/3)). On the other hand, when the result of the determination by the user station reception determination processing unit is that it is out of the reference range value of the service quality provided by the received channel quality of the user station, the first modulation method and The method is switched according to the method of determining the error correction method (the modulation method and the error correction method are QPSK (r = 7/8)).
Change to the channel). The center station notifies the user station of the changed channel information, changes the channel for transmitting the information to the user station, and provides the information to the user station. The user station changes the reception channel based on the information of the changed channel and receives desired information. As described above, the line quality detection function and the notification function of the user station and the reception determination function and the channel selection function of the center station use the appropriate modulation method and error correction method to automatically realize the satellite channel quality. Realize the guarantee.

A method of determining the first modulation method and error correction method will be described. The switching reference value storage unit stores bit error rate (BER), carrier-to-noise ratio (C / N) or ATM.
The upper limit value and the lower limit value of the line quality information of the line received by the user station, such as the cell discard rate, are stored. Here, taking BER as an example of the line quality information, it is assumed that the upper limit value of the BER is 10 ⁻⁴ and the lower limit value thereof is 10 ⁻⁶ . In addition, a plurality of combinations of modulation schemes and error correction schemes used in the system are prepared in advance, the rankings related to the strength of error resilience are assigned to the schemes of these combinations, and these pieces of information are used as a switching reference value storage unit. Remember. In the system switching determination processing unit, based on the information stored in these switching reference value storage means, when the line quality exceeds BER = 10 ⁻⁴ which is the upper limit value, the error tolerance is higher than that of the system currently used. Is selected, and the selected modulation method and error correction method are output to the method change control means to instruct the method change. On the other hand, when the line quality falls below the lower limit value of BER = 10 ⁻⁶ , it is determined that the service quality is satisfied even with the system having a lower error tolerance than the currently used system (system with high transmission capacity). Then, according to the ranking information of the method related to the strength of the error resilience stored in the switching reference value storage means, the modulation method and the error correction method are changed to a method having a weaker error resilience than the currently used method. The change method is output to the change control unit to instruct the change of the method.

FIG. 4 is an image diagram of channel switching according to the present invention. The transmission path accommodates a plurality of channels of the modulation method and the error correction method, and the user station receives the channel of which the modulation method and the error correction method are 8PSK (r = 2/3). According to the present invention, the user station can perform switching control for channels (QPSK (r = 7/8) here) of different modulation schemes and error correction schemes depending on the reception state.

FIG. 5 shows a switching sequence of the modulation method and the error correction method for realizing FIG. First, the user station transmits a request command for desired information to the center station via the ground line. The center station transmits the request command to the corresponding information provider via the ground line. The business operator responds to the request command,
The information requested by the user station is transmitted to the center station via the ground line. The center station transmits the response and information received from the business operator to the user station via the ground line or satellite line. After receiving the desired information, the user station detects the reception state on the satellite line and transmits the detection result to the center station via the ground line.

FIG. 6 is a structural diagram of the data of the reception status signal. After receiving the reception status data of the user station, the center station makes an evaluation, and based on the result, determines whether to switch between the modulation method and the error correction method. When it is determined to perform the switching, switching instruction information based on the corresponding modulation method and error correction method and channel information is transmitted to the user station via the terrestrial line or the satellite line according to the switching determination result.

FIG. 7 is a data structure diagram of the switching instruction information including the modulation method, the error correction method, channel information and the like. The user station receives the switching instruction information and changes to the designated modulation method and error correction method and channel. After the change, the user station transmits a response signal to the switching instruction information to the center station via the ground line.

FIG. 8 is a data block diagram of a response signal to the switching instruction information.

FIG. 9 is a block diagram of a center station according to the present invention. In FIG. 9, the process of transmitting data to the satellite is
It is realized by an antenna for transmitting, a transmitter, a modulation unit, and an information processing unit. The switching process of the modulation system and the error correction system is performed by the user station calculation result receiving unit, the user station reception determination processing unit, and the system switching determination processing unit. , A system reference value storage unit, a system change control unit, and a system change instruction unit.

The user station calculation result receiving section receives the reception status (channel quality) data (BER, for example) from the user station and transmits it to the user station reception determination processing section. The user station reception determination processing unit acquires the switching reference value related to the current line from the switching reference value storage unit in which the reference data required for reception determination such as the switching reference value related to each modulation method and error correction method is registered in advance. The reception status data from the user station calculation result receiving unit is determined by the user station as to whether or not it can be received, and the result is transmitted to the system switching determination processing unit. In the system switching determination processing unit, the reference value information necessary for switching determination is acquired from the switching reference value storage unit, and the system switching determination is performed on the reception availability determination result acquired from the user station reception determination processing unit, and the reception availability is determined. If the determination result satisfies the range of the switching reference value, no particular processing is performed and the current line is maintained. on the other hand,
When the reception permission / inhibition determination result does not satisfy the range of the switching reference value, the change method is determined according to the determination method of the first modulation method and the error correction method as described above, and the determined change method is transmitted to the method change control unit. Send error correction method. The system change control unit transmits the channel information of the modulation system and the error correction system transmitted from the system switching determination processing unit to the modulation unit and the system change instruction unit, and the modulation unit switches the channel used by the user station to instruct the system change. The section notifies the user station of the channel information of the modulation method and the error correction method to be changed, via the terrestrial line or the satellite line.

FIG. 10 is a functional block diagram of a user station according to the first embodiment of the present invention. The user station includes an antenna that processes received data from a satellite, a receiver, a demodulation unit and an information processing unit, a channel quality transmission unit that performs switching processing of a modulation method and an error correction method, a channel change reception unit, and a channel change. It is composed of a control unit.

The line quality transmission unit receives the detection output signal of the demodulation unit, measures the satellite line quality index (for example, BER) necessary for the reception determination, and notifies it to the center station via the terrestrial line. If the center station selects a channel that uses a modulation method and error correction method different from the current one as a result of the notification of the satellite channel quality index, a signal for channel change is sent from the center station via the terrestrial or satellite circuit. Be notified. The channel change receiving unit receives the modulation method, the error correction method, and the time slot number notified of with the channel change, and demodulates based on the modulation method, the error correction method, and the time slot number notified by the channel change control unit. The channel changing process is performed by controlling the unit.

Next, a second embodiment of the present invention will be described.

In the present invention, in satellite communication for simultaneous distribution from a center station to a plurality of user stations, the channel quality states of all the user stations receiving the channels of the modulation method and the error correction method currently used are displayed. This is a satellite communication channel quality control method for performing communication by switching to a channel of a different modulation method and error correction method when data is out of a certain reference value by the center station.

FIG. 11 is a block diagram showing a case where channels having different modulation methods and error correction methods are set for the satellite channel between the center station and the user station according to the second embodiment of the present invention. Within the same carrier, different modulation methods and error correction methods are assigned to different channels (8PSK (r = 2/3) as an example, and QPSK (r =
7/8), QPSK (r = 2/3), BPSK (r = 1)
/ 2)), from the center station to the user station, currently 8PSK (r =
2/3) is used for communication. Each user station measures the satellite channel quality index (for example, BER (bit error rate), C / N (carrier-to-noise ratio), ATM cell loss rate), and uses this as reception status data to the center station via the ground line. To notify you. The center station acquires the reception status data from all the user stations that are receiving the same channel, determines whether each user station can receive the current modulation method and error correction method channel, and Total (as an example, the number of unreceivable user stations and the ratio of unreceivable user stations). If the counting result is within the range of the method switching reference value, the current channel is continuously communicated (modulation method and error correction method are 8PSK (r = 2/3))
as it is). If the totalization result is outside the range of the system switching reference value, the center station determines the optimum modulation system and error correction system channel by the second modulation system and error correction system determination method described below. (A channel whose modulation method and error correction method are QPSK (r = 7/8)). The center station notifies each user station of the changed channel information, changes the channel for transmitting information to the user station,
Information is transmitted to the user station. Each user station changes the reception channel based on the changed channel information and receives desired information. As described above, the line quality detection function and the notification function of each user station, the line quality aggregation function of each user station in the center station, the judgment function based on the method switching reference value and the line quality aggregation result, and the channel selection function ensure appropriate modulation. By using this method and error correction method, automatic quality assurance of satellite links is realized. However, the channel switching image and the modulation system and error correction system switching sequence processing are the same as those in the first embodiment.

The method of determining the second modulation method and error correction method will be described below. The system switching determination processing unit,
From the determination result totaling processing unit, the determination result and the totaling processing result for the line quality information of a plurality of user stations are passed. However,
In this case, the data stored in the switching reference value storage unit is, for example, the upper limit value and the lower limit value of the BER and the modulation method based on the aggregation result aggregated by the determination result aggregation processing unit. This is reference information for determining whether to change the error correction method. This reference information is, for example, if the totalization result in the totalization processing unit is the ratio of user stations that do not satisfy the line quality among a plurality of user stations, the upper limit value and the lower limit value for that ratio, Whether or not the system is changed can be determined and instructed by the above-described method of determining the first modulation system and the error correction system. That is, when the ratio of the totaled result exceeds the upper limit value, the method is changed to a method with a higher error tolerance (a method with a smaller transmission capacity), and when the ratio is below the lower limit value, a method with a lower error tolerance (a transmission capacity is reduced). Higher method).

As described above, a plurality of combinations of the modulation system and the error correction system used in the system are prepared in advance, and the systems related to these combinations are ranked in relation to the strength of the error resilience, and this information is obtained. In addition to the method of storing in the switching reference value storage unit, the following method can be considered.

That is, when the BER is taken as an example of the line quality information in the switching reference value storage unit, the upper and lower limits of the BER are stored, and the combination of the modulation method and the error correction method used in the system is stored in advance. Prepare a plurality of databases and prepare a database that summarizes the relationship with the BER value when two sets of methods are used as parameters for all the combinations of the two sets of methods. And remember it. By using this database, for example, method A and method B shown in the graph of FIG.
If there is data that summarizes the ER relationship in tabular format, method A
The BER obtained when the method B at that time is used is obtained from the measured value of the BER at the time when is used. If the BER when using this method B is within the range that satisfies the quality of service, the modulation method and error correction method may be changed from method A to method B. As described above, by using the above-mentioned tabular database, it is possible to select the most suitable method for the user station and perform the changing process.

FIG. 12 is a functional block diagram of the center station in this embodiment. Processing of data to be transmitted to a satellite is realized by an antenna for transmitting, a transmitter, a modulator and an information processor, and the modulation method and The error correction method switching process is implemented by the user station calculation result receiving unit, the user station reception determination processing unit, the determination result aggregation processing unit, the system switching determination processing unit, the switching reference value storage unit, the system change control unit, and the system change instruction unit. To be done.

The user station calculation result receiving section receives the reception state data (for example, BER) from the user station and transmits it to the user station reception determination processing section. The user station reception determination processing unit acquires a switching reference value for the current line from a switching reference value storage unit in which parameters necessary for reception determination such as a switching reference value for each modulation method and error correction method are registered in advance, With respect to the reception status data from the user station calculation result receiving unit, it is determined whether the user station can receive the data, and the result is transmitted to the determination result totaling processing unit. The determination result totaling processing unit totalizes the reception determination results for the current channel of each user station transmitted from the user station reception determination processing unit, and transmits the totalization result to the method switching determination processing unit. In the method switching judgment processing unit, the reference value information necessary for the switching judgment is acquired from the switching reference value storage unit, and the judgment of the method switching is performed for the counting result acquired from the judgment result collection processing unit, and the counting result is the switching standard. If the value range is satisfied, the current line is maintained without any processing. If the totalization result does not satisfy the range of the switching reference value, the change method is determined according to the above-described second modulation method and error correction method determination method, and the determined change method and error correction method are sent to the method change control unit. Send. The system change control unit transmits the channel information of the modulation system and the error correction system transmitted from the system switching determination processing unit to the modulation unit and the system change instruction unit, and the modulation unit switches the channel used by the user station to instruct the system change. The section notifies each user station of the channel of the modulation system and the error correction system to be changed.

The configuration of the user station and the operation content of each unit are the same as in the first embodiment.

Next, a third embodiment of the present invention will be described.

According to the present invention, in satellite communication between a center station and a plurality of user stations, different modulation methods are used in the same channel from the channel of the modulation method and the error correction method currently used, depending on the satellite channel reception state of the user station. And a line quality control method for satellite communication in which communication is performed by switching to an error correction method.

FIG. 13 is a block diagram showing a case where channels having different modulation methods and error correction methods are set for the satellite channel between the center station and the user station. Within the same carrier, a plurality of different modulation methods and error correction methods are assigned to each channel (for example, 8PSK (r = 2 /
3), QPSK (r = 5/6), QPSK (r = 2 /
3), BPSK (r = 1/2)), and it is assumed that communication is currently being performed from the center station to the user station using 8PSK (r = 2/3). At the user station, the satellite channel quality index (for example, BER (bit error rate), C / N (carrier to noise ratio), ATM cell discard rate) is measured, and this is used as reception state data to the center station via the terrestrial circuit. Notice. The center station acquires the reception status data from the user station and determines whether or not the user station can receive the data by the current channel modulation method and error correction method. If the determination result is within the range of the reference value, the current modulation method and error correction method are continuously communicated (the modulation method and error correction method remain 8PSK (r = 2/3)). If the determination result is outside the range of the reference value, the center station determines the optimum modulation method and error correction method by the above-described first modulation method and error correction method determination method (modulation method and error correction method). The method is QPSK (r = 7/8)). The center station notifies the user station of the channel information for the selected modulation method and error correction method, and changes the modulation method and error correction method while keeping the same channel itself for transmitting information to the user station. The station transmits the desired information. Based on the notified channel information, the user station receives the desired information by changing the modulation system and error correction system of the reception channel while keeping the reception channel itself the same. As described above, the line quality detection function and the notification function of the user station and the reception determination function and the channel selection function of the center station use the appropriate modulation method and error correction method to automatically realize the satellite channel quality. Realize the guarantee.

FIG. 14 is an image diagram of channel switching. The transmission line accommodates a plurality of channels of the modulation method and the error correction method, and currently, the user station receives the channel of the modulation method and the error correction method of 8PSK (r = 2/3). By applying the present invention, different modulation schemes and error correction schemes (here, QPSK (r =
Switching control is performed on 7/8)).

The switching sequence processing of the modulation system and the error correction system is the same as that of the first embodiment.

The functional block diagram of the center station in this embodiment is the same as that in the first embodiment. Therefore, the processing of transmitting data to the satellite is realized by the antenna for transmitting, the transmitter, the modulation unit and the information processing unit, and the switching process of the modulation system and the error correction system is performed by the user station calculation result reception unit and the user station reception determination. It is realized by a processing unit, a system switching determination processing unit, a switching reference value storage unit, a system change control unit, and a system change instruction unit.

The user station calculation result receiving section receives the reception status data (for example, BER) from the user station and transmits it to the user station reception determination processing section. The user station reception determination processing unit acquires a switching reference value for the current line from a switching reference value storage unit in which parameters necessary for reception determination such as a switching reference value for each modulation method and error correction method are registered in advance, With respect to the reception status data from the user station calculation result receiving unit, it is determined whether the user station can receive the data, and the result is transmitted to the system switching determination processing unit. In the system switching determination processing unit, the reference value information necessary for switching determination is acquired from the switching reference value storage unit, and the system switching determination is performed on the reception availability determination result acquired from the user station reception determination processing unit, and the reception availability is determined. If the determination result satisfies the range of the switching reference value, no particular processing is performed and the current line is maintained. If the reception permission / inhibition determination result does not satisfy the range of the switching reference value, the change method is determined according to the above-described first optimum modulation method and error correction method determination method, and the determined modulation method and Send error correction method information. The system change control unit transmits the information of the modulation system and the error correction system transmitted from the system switching determination processing unit to the modulation unit and the system change instruction unit, and the modulation unit receives the modulation system and the error correction system of the reception channel of the user station. The system change instruction unit notifies the user station of the modulation system and error correction system to be changed.

FIG. 15 is a functional block diagram of the user station in this embodiment. In FIG. 15, received data processing from a satellite is realized by an antenna for receiving, a receiver, a demodulation section and an information processing section, and switching processing of a modulation method and an error correction method is performed by a line quality transmission section and a method change reception. And the method change control unit.

The line quality sending unit receives the detection output signal of the demodulation unit, measures the satellite line quality index (for example, BER) required for reception judgment, and notifies it to the center station via the terrestrial line. Also, if a modulation method and error correction method different from the current channel is selected at the center station according to the result of notification of this satellite channel quality index, the signal of the modulation method and error correction method change from the center station is transmitted over the terrestrial or satellite circuit. Be notified via. The system change receiving unit receives the modulation system and the error correction system associated with the system change, and controls the demodulation unit based on the modulation system and the error correction system notified by the system change control unit to perform the change process. To do.

Finally, a fourth embodiment of the present invention will be described.

In the satellite communication in which the center station broadcasts to a plurality of user stations at the same time, the present invention uses the center of the channel quality status of all the user stations receiving the channels of the modulation method and the error correction method currently used. This is a channel quality control method for satellite communication in which when the data is out of a certain reference value by the station and switched to a different modulation method and error correction method in the same channel, communication is performed.

FIG. 16 is a block diagram showing a case where channels with different modulation methods and error correction methods are set for the satellite channel between the center station and the user station. Within the same carrier, a plurality of different modulation methods and error correction methods are assigned to each channel (for example, 8PSK (r = 2 /
3), QPSK (r = 5/6), QPSK (r = 2 /
3), BPSK (r = 1/2)), and it is assumed that communication is currently being performed from the center station to the user station using 8PSK (r = 2/3). Each user station measures the satellite channel quality index (for example, BER (bit error rate), C / N (carrier-to-noise ratio), ATM cell loss rate), and uses this as reception status data to the center station via the ground line. To notify you.
The center station acquires the reception status data from all the user stations that are receiving the same channel, determines whether each user station can receive the current modulation method and error correction method channel, and Total (as an example, the number of unreceivable user stations and the ratio of unreceivable user stations). If the totalization result is within the range of the method switching reference value, the current modulation method and error correction method are continuously communicated (the modulation method and error correction method remain 8PSK (r = 2/3)). If the aggregation result is out of the range of the method switching reference value, the center station determines the optimum modulation method and error correction method by the second modulation method and error correction method determination method (modulation method and error correction method). Method is QPSK (r = 7/8)
Change to the channel). The center station notifies each user station of the channel information for the selected modulation method and error correction method, and changes the modulation method and error correction method while the channel itself for transmitting information to the user station remains the same,
The information desired by the user station is transmitted. Each user station
Based on the notified channel information, the reception channel itself remains the same, and the modulation system and error correction system of the reception channel are changed to receive desired information. In this way, the line quality detection function and notification function of each user station, the line quality aggregation function of each user station in the center station, the determination function based on the method switching reference value and the line quality aggregation result, and the modulation method and error correction method By using the appropriate modulation method and error correction method with the selection function, automatic quality assurance of satellite links is realized.

The channel switching image, the modulation method and the error correction method switching sequence processing are the same as those in the third embodiment.

The functional block diagram of the center station in this embodiment is the same as that of the second embodiment, and the processing of transmitting data to the satellite is realized by an antenna for transmitting, a transmitter, a modulator and an information processor. The switching process between the modulation method and the error correction method is performed by the user station calculation result receiving unit, the user station reception determination processing unit, the determination result aggregation processing unit, the system switching determination processing unit, the switching reference value storage unit, the system change control unit, This is realized by the method change instruction unit.

The user station calculation result receiving section receives the reception status data (for example, BER) from the user station and transmits it to the user station reception determination processing section. The user station reception determination processing unit acquires a switching reference value for the current line from a switching reference value storage unit in which parameters necessary for reception determination such as a switching reference value for each modulation method and error correction method are registered in advance, With respect to the reception status data from the user station calculation result receiving unit, it is determined whether the user station can receive the data, and the result is transmitted to the determination result totaling processing unit. The determination result totaling processing unit totalizes the reception determination results for the current channel of each user station transmitted from the user station reception determination processing unit, and transmits the totalization result to the method switching determination processing unit. In the method switching judgment processing unit, the reference value information necessary for the switching judgment is acquired from the switching reference value storage unit, and the judgment of the method switching is performed for the counting result acquired from the judgment result collection processing unit, and the counting result is the switching standard. If the value range is satisfied, the current line is maintained without any processing. If the totalization result does not satisfy the range of the switching reference value, the change method is determined according to the second modulation method and error correction method determination method, and the information about the determined modulation method and error correction method is sent to the method change control unit. Send. The system change control unit transmits the information of the modulation system and the error correction system transmitted from the system switching determination processing unit to the modulation unit and the system change instruction unit, and the modulation unit receives the modulation system and the error correction system of the reception channel of the user station. The system change instruction unit notifies the user station of the modulation system and error correction system to be changed.

The configuration of the user station and the operation contents of each unit are the same as those in the third embodiment.

In the embodiments of the invention described in detail above, various modifications of the technical idea and scope of the present invention,
Modifications and omissions can be easily made by those skilled in the art. Therefore, the embodiment of the invention described above is merely an example and is not intended to limit the invention. The invention is limited only by the claims and equivalents thereof.

[0062]

According to the line quality control method for satellite communication of the present invention described in detail above, it is possible to control the switching of the modulation system and the error correction system at the center station by the notification of the line quality at the user station, Moreover, the switching quality of the modulation method and the error correction method is notified to the user station, and the modulation method and the error correction method are switched by the user station, whereby the satellite channel quality at each user station can be guaranteed. As a result, there is an effect of increasing the service providing time for the user station.

In this way, the information of the reception line quality of each user station is obtained, and the optimum modulation and error correction systems of the line to be used are automatically selected and changed based on the information. Thus, it is possible to provide a communication service to be provided to a user while guaranteeing a certain quality of service, and it is possible to minimize the time rate of service provision in which the service quality provided is not satisfied as compared with the conventional method. Play.

[Brief description of drawings]

FIG. 1 is a system configuration diagram of a CS digital satellite communication in a conventional technique.

FIG. 2 is a system configuration diagram of digital satellite broadcasting by a BS-4 starting device in the related art.

FIG. 3 is a configuration diagram in which channels with different modulation methods and error correction methods are set for a satellite line between a center station and a user station according to the present invention.

FIG. 4 is an explanatory diagram of a channel switching image according to the present invention.

FIG. 5 is a switching sequence diagram of a modulation method and an error correction method.

FIG. 6 is a data configuration diagram of a reception state data transfer signal of a satellite line transmitted from a user station to a center station.

FIG. 7 is a data configuration diagram of a modulation scheme, an error correction scheme, and a channel switching instruction signal transmitted from the center station to the user station.

FIG. 8 is a data configuration diagram of a switching instruction response result signal transmitted from the user station to the center station.

FIG. 9 is a functional block diagram of a center station according to the first embodiment of the present invention.

FIG. 10 is a functional block diagram of a user station according to the first embodiment of the present invention.

FIG. 11 is a configuration diagram in which channels having different modulation schemes and error correction schemes are set for a satellite channel between a center station and a plurality of user stations.

FIG. 12 is a functional block diagram of a center station according to the second embodiment of the present invention.

FIG. 13 is a configuration diagram in which transmission paths having different modulation methods and error correction methods are set for a satellite line between a center station and a user station.

FIG. 14 is a switching image diagram of a modulation method and an error correction method in the third and fourth embodiments of the present invention.

FIG. 15 is a functional block diagram of a user station according to the third embodiment of the present invention.

FIG. 16 is a configuration diagram in which transmission paths having different modulation methods and error correction methods are set for a satellite line between a center station and a plurality of user stations.

FIG. 17 is a diagram illustrating the contents of a tabular database according to the second embodiment of the present invention.

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ Identification code FI H04L 12/28 H04B 7/26 K 12/56 H04L 11/00 310B 27/18 11/20 C 102A (72) Inventor Takehiko Kawazoe 3-19-2 Nishishinjuku, Shinjuku-ku, Tokyo Japan Telegraph and Telephone Corporation (72) Inventor Kunihiro Hayashi 3-19-2 Nishishinjuku, Shinjuku-ku, Tokyo Japan Telegraph and Telephone Corporation (56) References JP-A-10-150396 (JP, A) JP-A-3-283743 (JP, A) JP-A-3-198546 (JP, A) JP-A-57-159148 (JP, A) (58) Fields investigated (Int.Cl. ⁷ , DB name) H04L 29/06 H04B 7/15 H04B 7/26 H04J 3/00 H04L 1/00 H04L 12/28 H04L 12/56 H04L 27/18

Claims (4)

(57) [Claims] 1. A communication line quality control method for controlling the quality of a line received by a user station in a system that performs time division multiplex communication between one center station and a plurality of user stations, wherein the user A first step in which a station receives desired information from the line and measures the line quality of the line; and the user station notifies the center station of the line quality information measured in the first step. And a third step in which the center station receives the line quality information of the plurality of user stations notified by the second step, and the center station performs the third step in accordance with the third step. A fourth step in which the center station totalizes the received line quality information of the plurality of user stations, and the center station collects the result of totaling the line quality information for the plurality of user stations totaled in the fourth step. Predetermined A fifth step of determining whether or not it is within a reference range value, and the center station, when the result determined by the fifth step is within a predetermined reference range value, the plurality of user stations. When the result is outside the predetermined reference range value, the modulation system and the error correction system that satisfy the line quality within the reference range value are used as the modulation system and the error correction method. And a seventh step in which the center station notifies the plurality of user stations of the line information of the modulation method and the error correction method changed in the sixth step, and the plurality of users. An eighth step in which the station receives the line information of the modulation method and the error correction method notified from the center station in the seventh step; and the modulation received by the plurality of user stations in the eighth step. And a ninth step of changing the line to an error correction method, and controlling the total result of the line quality information for the plurality of user stations to be within a predetermined reference range value. Communication line quality control method. 2. The center station and the user station at the stage of changing the modulation method and the error correction method of the line, the individual modulation method and the error correction for each of the time-division-multiplexed lines. 2. The communication line quality control method according to claim 1, wherein the system is assigned in advance, and the line is changed to a line to which a modulation system and an error correction system that satisfy the line quality within the reference range value are allocated. 3. The center station and the user station at the stage of changing the line modulation method and the error correction method, wherein the line modulation method and the error correction method are modulated to satisfy the line quality within the reference range value. 2. The communication line quality control method according to claim 1, wherein the method and the error correction method are changed. 4. A center station of a system for performing time division multiplex communication between one center station and a plurality of user stations, wherein a user receives line quality information of a line received by the user station from the user station. Stores data defining a station calculation result receiving unit, a reference range value of line quality for a line received by the user station, and a reference range value for a result of totaling line quality information received from the plurality of user stations. The switching reference value storage means, the line quality information received by the user station calculation result receiving means, and the reference range value of the line quality read from the switching reference value storage means are compared, and the user station User station reception determination processing means for determining whether or not the transmission information from the station can be received, by inputting the determination result of the user station reception determination processing means,
Judgment result aggregation processing means for aggregating the line quality information of the plurality of user stations, and aggregation results of the determination result aggregation processing means are sent from the plurality of user stations read from the switching reference value storage means. When the received line quality information is within the reference range value for the totaled result, the lines received by the plurality of user stations are maintained as they are, and the determination result of the user station reception determination processing means is outside the reference range value. At this time, the system switching determination processing means for outputting an instruction to change the channel to the modulation method and the error correction method in which the channel quality of the channel received by the user station becomes the reference range value, and the system switching determination processing means. Based on the instruction, the system change control means for executing the switching process of the modulation system and the error correction system, and the change information for the switched modulation system and error correction system are written in the user information. Center station; and a mode change instructing means for notifying the station.