JP2000287257A - Communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a communication system where a plurality of slave stations having received communication information transmitted in a broadcast mode can simultaneously reproduce the original information. SOLUTION: In a slave station, a GPS reception section 11 of a slave station extracts time information included in a GPS signal and a time signal processing section 12 adds the time information to transmission data and allows a transmitter 13 to transmit the resulting transmission data to a master station. In the master station, a time extract section 22 of the master station extracts the time information from received data received by a receiver 21. Furthermore, a GPS reception section 23 extracts the time information from the GPS signal. A delay processing section 24 obtains a delay time required to make delay times with each slave station entirely the same from each slave station on the basis of the time information from each slave station and the time information of its own station to generate delay time information. A delay signal processing section 25 adds delay time information to the transmission data and allows a transmitter 26 to transmit the resulting transmission data to each slave station. A delay processing section 15 of the slave station extracts the delay time information from the data received by a receiver 14 and delays the received data on the basis thereof.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a communication system, and more particularly to a communication system for transmitting communication information in a broadcast mode from a master station to a plurality of slave stations connected in a star connection.

[0002]

2. Description of the Related Art In a satellite communication system in which a master station and a plurality of slave stations are connected in a star shape by a satellite line, transmission from the slave station to the master station is performed in order to effectively use a communication channel. The TDMA system is adopted. In order to simultaneously transmit the same information from the master station to all slave stations, a broadcast mode (for example, the SCPC method) is employed. Such a satellite communication system is disclosed in, for example,
No. 4928.

[0003]

In a conventional satellite communication system, synchronization control is performed by various methods so that transmission signals transmitted by a plurality of ground stations do not collide on a satellite. (For example, Japanese Patent Application Laid-Open No. 1-229528). However, these synchronization controls are merely for realizing the communication between the master station and the slave stations. In the conventional satellite communication system, the master station receives the communication information transmitted in the broadcast mode. Each slave station reproduces the original information at its own operation timing. That is, in the conventional satellite communication system, all the slave stations that have received the communication information broadcast in the broadcast mode do not perform synchronization control for simultaneously reproducing the original information. For this reason, in the conventional satellite communication system, there is a problem that each slave station cannot realize a usage form such as displaying the same image simultaneously.

An object of the present invention is to provide a communication system in which a plurality of slave stations receiving communication information transmitted in a broadcast mode can simultaneously reproduce original information.

[0005]

According to the present invention, a master station and a plurality of slave stations are connected in a star configuration, and the master station transmits communication information to the plurality of slave stations in a broadcast mode. In the communication system, a communication system is provided in which synchronization means for synchronizing the plurality of slave stations is provided so that the plurality of slave stations simultaneously reproduce original information from the received communication information.

Specifically, the synchronization means includes delay means provided in each of the plurality of slave stations and delaying the received communication information. Further, the synchronization unit includes a delay amount determining unit that determines a delay amount of the delay unit for each of the plurality of slave stations. Further, the delay amount determining means is provided in each of the plurality of slave stations, and a time notifying means for notifying the master station of a current time, and is provided in the master station and is sent from the plurality of slave stations. A delay amount notifying unit that determines and notifies the delay unit controlling delay amount in each slave station based on the current time. Furthermore, each of the time notifying unit and the delay amount notifying unit includes a GPS receiving unit.

Further, according to the present invention, in a communication system in which a master station and a plurality of slave stations are connected in a star by a satellite line, communication information is transmitted from the master station to the plurality of slave stations in a broadcast mode. In this case, the plurality of slave stations individually delay the received communication information, so that the plurality of slave stations reproduce the original information at the same time. can get.

[0008] More specifically, the plurality of slave stations respectively notify the master station of the current time, so that the master station determines a propagation delay between each of the plurality of slave stations and obtains the delay. The delay time in each slave station is determined based on the propagation delay, and is notified to the plurality of slave stations. The master station and the plurality of slave stations each use time information included in a GPS signal.

[0009]

Embodiments of the present invention will be described below in detail with reference to the drawings.

[0010] In the satellite communication system according to the present embodiment, one master station is connected to a plurality of slave stations in a star shape by a satellite line. A plurality of slave stations can access the master station by a TDMA system through a satellite line. In addition, the master station can transmit in the broadcast mode in which the same information is simultaneously broadcast to a plurality of slave stations. Note that communication between the master station and the slave stations is realized using a known method.

FIGS. 1 and 2 show the configurations of a slave station and a master station used in a satellite communication system according to an embodiment of the present invention, respectively.

First, the slave station will be described with reference to FIG. This slave station is a GPS (Global Positioning system)
m) A GPS receiving unit 11 for receiving a GPS signal from a satellite and extracting time information, a time signal processing unit 12 for adding time information from the GPS receiving unit 11 to transmission data, and transmitting data with the time information added thereto. A transmitter 13 that transmits to the master station via the satellite link as an uplink signal, a receiver 14 that receives a downlink signal sent from the master station via the satellite link and outputs reception data, and reception data from the receiver 14 Is provided.

Next, the operation of the slave station will be described.

First, the GPS receiving unit 11 receives a GPS signal transmitted from a GPS satellite, extracts time information included in the GPS signal, and outputs it to the time signal processing unit 12 as slave station time information. Here, the GPS receiving section 11 receives GPS signals from a plurality of GPS satellites one after another, and adopts time information indicating the most advanced time among the received GPS signals. This is the G closest to your station.
This means adopting a GPS signal from a PS satellite.
A plurality of slave stations adopt the GPS signals from the GPS satellites closest to the own station, thereby taking into account the propagation delay difference between the slave stations as in the case of using the GPS signal from a single GPS satellite. No need to do. That is, it can be considered that all of the plurality of slave stations are simultaneously receiving the GPS signal including the time information indicating the same time.

The GPS receiving section 11 outputs slave station time information to the time signal processing section 12 at predetermined intervals, for example. In this case, the GPS receiving unit 11 may output the slave station time information to the time signal processing unit 12 every time detecting the time information indicating the predetermined time. Alternatively, the GPS receiver 11
May output slave station time information to the time signal processing unit 12 every time transmission data is generated.

The time signal processing unit 12 adds the slave station time information from the GPS receiving unit 11 to the head of the transmission data created in the slave station, and outputs the data to the transmitter 13. When the slave station time information is periodically input from the GPS receiving unit 11 and there is no transmission data, null data or the like is created and the slave station time information is added to the beginning.

The transmitter 13 modulates the transmission data from the time signal processing unit 12 to which the slave station time information is added, and transmits the modulated data to the master station as an uplink signal via an antenna and a satellite line (not shown).

Further, the slave station receives a down signal transmitted from the master station via a satellite line by the receiver 14 via an antenna (not shown). The receiver 14 demodulates the received downlink signal and outputs it to the delay processing unit 15 as received data.

The delay processing section 15 detects the delay synchronization information included in the received data, and holds the received data for a time indicated by the delay synchronization information. After that, the delay processing unit 1
5 outputs the received data to a decoding unit (not shown). The decoding unit decodes the received data, drives a display, a speaker, and the like, and reproduces original information such as images and sounds.

Next, the master station will be described with reference to FIG. The master station shown in FIG. 2 receives and demodulates an uplink signal sent from a slave station through a satellite line, and outputs a received data. A time extracting unit 22 for extracting slave station time information included in the received data. GPS receiving unit 2 that receives a signal, extracts time information, and outputs it as master station time information
3. Based on the slave station time information from the time extracting unit 22 and the master station time information from the GPS receiving unit 23, the delay processing unit 24 that generates the delay synchronization information and the delay synchronization information from the delay processing unit 24 Delay signal processing unit 2 added to transmission data
5, and a transmitter 26 that modulates transmission data and transmits it as a downlink signal.

Next, the operation of the master station will be described.

An upstream signal transmitted from each slave station via a satellite line is received by a receiver 21 via an antenna (not shown). The receiver 21 demodulates the received uplink signal and outputs it to the time extracting unit 22 as received data.

The time extracting section 22 extracts slave station time information included in the received data and outputs the information to the delay processing section 24.

On the other hand, the GPS receiving section 23 receives a GPS signal from a GPS satellite, extracts time information from the received GPS signal, and outputs it to the delay processing section 24 as master station time information. Like the GPS receiving unit 11 of the slave station, the GPS receiving unit 23 also employs time information indicating the most advanced time among time information extracted from GPS signals received one after another.

The delay processing section 24 stores the slave station time information extracted by the time extracting section 22 and the master station time information when the slave station information is received, as a pair. When slave station information is periodically sent from each slave station, the following processing is performed while waiting for slave station time information to be sent from all slave stations. On the other hand, if the slave station time information is sent each time transmission data is generated in the slave station, the following processing is performed each time the slave station time information is received.

That is, the delay processing unit 24 obtains the propagation delay time between each slave station and the master station from the pair of the stored slave station time information and master station time information. Then, a time required to make all the propagation delay times coincide with the largest propagation delay time (referred to as a delay synchronization time) is obtained for each slave station. Then, the delay processing unit 24 outputs the delay synchronization information indicating the obtained delay synchronization time to the delay signal processing unit 25.

The delay signal processing unit 25 adds delay synchronization information to the head of the transmission data and outputs it to the transmitter 26. Note that when the delay synchronization information is generated periodically,
If there is no transmission data, null data or the like is created, delay synchronization information is added to the data, and output to the transmitter 26. Further, the delay synchronization information may be separated and independent for each slave station, or may include delay synchronization information for all slave stations. In the case of delay synchronization information that is separated and independent for each slave station, it is added to transmission data addressed to the corresponding slave station. When delay synchronization information for all slave stations is included, the delay synchronization information is added to transmission data transmitted in the broadcast mode.

The transmitter 26 modulates the transmission data to which the delay synchronization information has been added, and transmits the modulated data to each slave station via an unillustrated antenna via a satellite line or in a broadcast mode.

As is apparent from the above description, in the satellite communication system according to the present embodiment, each slave station transmits slave station time information obtained from the GPS signal to the master station, and the master station receiving the information transmits the slave station time information to the master station. By comparing with the master station time information obtained from the GPS signal in the own station, the propagation delay time between each slave station is recognized. This recognition can be performed in real time by shortening the transmission cycle of the slave station time information from each slave station. Then, the master station generates delay synchronization information and transmits it to each slave station so that all slave stations simultaneously reproduce the original information in accordance with the slave station having the largest propagation delay time. Thereby, in each slave station, the reception data is delayed,
All the slave stations simultaneously start processing such as decoding, and the reproduction of the original information is performed simultaneously. As for the delay of the received data, only the data transmitted in the broadcast mode may be delayed, or all the received data may be delayed.

As described above, in the satellite communication system according to the present embodiment, the reproduction of the original information is performed at the same time. Application that cannot be used unless the reproduction of the original information is synchronized.

Although the above embodiment has been described with reference to the case where the present invention is applied to a satellite communication system, the present invention can also be applied to terrestrial wired communication and mobile communication systems.

[0032]

According to the present invention, in a communication system in which a master station and a plurality of slave stations are connected in a star configuration and communication information is transmitted from the master station to a plurality of slave stations in a broadcast mode, the plurality of slave stations are connected. By providing the synchronization means for synchronizing the slave stations, a plurality of slave stations can simultaneously reproduce the original information from the received communication information.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a part of a configuration of a slave station used in a satellite communication system according to an embodiment of the present invention.

FIG. 2 is a block diagram illustrating a part of a configuration of a master station used in the satellite communication system according to one embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 11 GPS receiving part 12 Time signal processing part 13 Transmitter 14 Receiver 15 Delay processing part 21 Receiver 22 Time extraction part 23 GPS receiving part 24 Delay processing part 25 Delay signal processing part 26 Transmitter

 ──────────────────────────────────────────────────続 き Continued on the front page F-term (reference)

Claims (8)

[Claims] 1. A communication system in which a master station and a plurality of slave stations are connected in a star configuration, and the master station transmits communication information to the plurality of slave stations in a broadcast mode. And a synchronizing means for synchronizing the plurality of slave stations so as to simultaneously reproduce the original information from the received communication information. 2. The communication system according to claim 1, wherein said synchronization means includes a delay means provided in each of said plurality of slave stations and delaying the received communication information. 3. The communication system according to claim 2, wherein said synchronization means includes a delay amount determining means for determining a delay amount of said delay means for each of said plurality of slave stations. 4. The delay amount determining means is provided in each of the plurality of slave stations, a time notifying means for notifying a current time to the master station, and a time notifying means provided in the master station and transmitted from the plurality of slave stations. 4. The communication system according to claim 3, further comprising: a delay amount notifying unit that determines and notifies the delay unit controlling delay amount in each slave station based on the received current time. 5. The communication system according to claim 4, wherein said time notifying means and said delay amount notifying means each include a GPS receiving unit. 6. In a communication system in which a master station and a plurality of slave stations are connected in a star configuration by a satellite line, when transmitting communication information in a broadcast mode from the master station to the plurality of slave stations,
A delay synchronous communication method, characterized in that the plurality of slave stations individually delay the received communication information so that the plurality of slave stations simultaneously reproduce the original information. 7. The plurality of slave stations respectively notify a current time to the master station, so that the master station determines a propagation delay between each of the plurality of slave stations, and determines the determined propagation delay. 7. The delay synchronous communication method according to claim 6, wherein a delay time in each of the slave stations is determined based on the delay time, and the delay time is notified to the plurality of slave stations. 8. The delay synchronous communication method according to claim 7, wherein each of said master station and said plurality of slave stations uses time information included in a GPS signal.