JP3703766B2 - Satellite communication terminal station apparatus, satellite communication system using the same, radio communication terminal station apparatus, and radio communication system using the same - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a satellite communication terminal station apparatus that communicates with a satellite communication base station apparatus via a satellite, a satellite communication system using the same, a wireless communication terminal station apparatus that communicates with a wireless communication base station apparatus by radio , and a device using the same The present invention relates to a conventional wireless communication system.
[0002]
[Prior art]
A conventional wireless transmission / reception system is disclosed in Japanese Patent Application Laid-Open No. 2000-68921. In this document, a satellite communication system composed of a satellite communication base station apparatus and a satellite communication terminal station apparatus is disclosed, and the satellite communication terminal station apparatus uses an RF interface with the satellite communication base station apparatus (for convenience, the base station here). The repeat function is realized by providing two radio interfaces, called an air interface, and a radio interface with another terminal device (referred to here as a terminal air interface for convenience). This satellite communication terminal station apparatus has a repeater function by providing a digital cellular radio interface or having an exchange function to enable communication with the digital cellular terminal, for example, and satellite communication from a general digital cellular terminal. Or constructing a satellite communication system that relieves terrestrial wireless network overflow calls by satellite communication.
[0003]
[Problems to be solved by the invention]
However, in such a conventional satellite communication system, the configuration of the satellite communication terminal station device having a repeater function requires two types of base station air interface and terminal air interface, and there is a problem that the device configuration becomes complicated. .
[0004]
The present invention has been made in order to solve the above-described problems, and a first object of the present invention is to obtain a satellite communication system in which a repeater can be easily configured using a satellite communication terminal station apparatus. .
Another object of the present invention is to obtain a satellite communication terminal station apparatus that can easily configure a repeater used in a satellite communication system.
Another object of the present invention is to obtain a wireless communication system in which a repeater can be easily configured using a wireless communication terminal station apparatus.
[0005]
[Means for Solving the Problems]
In satellite communication terminal station apparatus according to the invention, the satellite communication terminal station apparatus location for receiving RF unit and the transmission RF unit which is arranged to transmit and receive via the satellite is provided with the satellite communication base station apparatus In this case, when the reception signal received by the reception RF unit is used as a relay that transmits the transmission signal as a transmission signal by the transmission RF unit, the reception destination of the reception RF unit and the transmission destination of the transmission RF unit are respectively input to the relay. A switching device that switches between a destination and an output destination, a first local oscillator that generates a first frequency that is a frequency of a transmission signal, and a second frequency that is a frequency of a reception signal different from the first frequency The satellite communication terminal station apparatus is divided into A type or B type according to the frequency generated by the first local oscillator and the second local oscillator. Shin terminal station apparatus is obtained by exchanging a first frequency and a second frequency.
[0006]
Moreover, in the radio communication terminal station apparatus according to the present invention, in the radio communication terminal station apparatus provided with the reception RF unit and the transmission RF unit arranged to transmit and receive wirelessly with the radio communication base station apparatus, When the reception signal received by the RF unit is used as a relay that transmits the transmission signal as a transmission signal by the transmission RF unit, the reception destination of the reception RF unit and the transmission destination of the transmission RF unit are respectively the input destination and output destination of the relay. A switching device for switching to a first local oscillator that generates a first frequency that is a frequency of a transmission signal, and a second local oscillator that generates a second frequency that is a frequency of a reception signal different from the first frequency The wireless communication terminal station apparatus is divided into A type or B type according to the frequency generated by the first local oscillator and the second local oscillator. A type and B type Radio communication terminal station apparatus is obtained interchanging the first frequency and the second frequency.
[0007]
Furthermore, in the satellite communication system according to the present invention, a plurality of satellite communication terminal stations that are sequentially connected so that the A type and the B type of the satellite communication terminal stations are alternately arranged, and a plurality of that are sequentially connected those having a satellite communication base station apparatus that is configured to transmit and receive via the satellite with the satellite communication terminal station apparatus located at the end of the satellite communication terminal station apparatus.
[0008]
In addition, a plurality of satellite communication terminal stations that are sequentially connected so that the A type and the B type of the satellite communication terminal stations are alternately arranged, and one end of the plurality of satellite communication terminal stations that are sequentially connected which receives from the deployed satellite communication terminal station apparatus via a satellite, to transmit via satellite to the other end arranged satellite communication terminal station apparatus of a plurality of satellite communication terminal station apparatus A satellite communication base station apparatus configured as described above is provided.
[0009]
Furthermore, in the wireless communication system according to the present invention, a plurality of wireless communication terminal stations connected sequentially so that the A type and the B type of the wireless communication terminal stations are alternately arranged, and the plurality connected sequentially. The wireless communication base station apparatus is configured to transmit and receive wirelessly to and from the wireless communication terminal station apparatus disposed at the end of the wireless communication terminal station apparatus.
[0010]
Also, one end of sequentially connected plurality of radio communication terminal station apparatus, and sequentially connected to a plurality of radio communication terminal station apparatus as A type and B type of the radio communication terminal station apparatus is arranged alternately Wireless communication configured to receive wirelessly from a wireless communication terminal station device disposed in a part and transmit wirelessly to a wireless communication terminal station device disposed at the other end of the plurality of wireless communication terminal station devices A base station apparatus is provided.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1 FIG.
FIG. 1 is a diagram showing a satellite communication system according to Embodiment 1 of the present invention.
In FIG. 1, 1 is a satellite communication terminal station (first satellite communication terminal station apparatus), 2 is the same satellite communication terminal station (other satellite communication terminal station apparatus) as the satellite communication terminal station 1, and each includes a transmission RF unit and A reception RF unit is included. 3 is a base station (satellite communication base station apparatus), and 4 is a satellite connecting the satellite communication terminal station 1 and the base station 3. Reference numeral 6 denotes an antenna for the satellite communication terminal station 2 of the satellite communication terminal station 1. The radio frequency used by the satellite communication terminal station 1 for communication with the base station 3 is f1 as the transmission frequency and f2 as the reception frequency.
[0013]
FIG. 2 is a diagram showing the configuration of the satellite communication terminal station of the satellite communication system according to Embodiment 1 of the present invention.
In FIG. 2, 6 is the same as that in FIG. 8 is a repeat mode for relaying communication between the base station 3 and the satellite communication terminal station 2, 9 is a transmission RF unit (TX), 10 is a reception RF unit (RX), 11 and 12 are switches, and 13 is a base station 3 A mixer (DIP) that is arranged on the side and mixes the transmission wave and the reception wave, and 14 is a mixer (DIP) that is arranged on the satellite communication terminal station 2 side and mixes the transmission wave and the reception wave. Reference numeral 15 denotes an antenna for the base station 3.
In the configuration of FIG. 2, signals input from the base station 3 side or the satellite communication terminal station 2 side are switched by the switches 11 and 12 via the respective mixers 13 or 14 and received by the reception RF unit 10. This signal is frequency-converted in the repeat mode 8, switched from the transmission RF unit 9 by the switches 11 and 12, and transmitted to the satellite communication terminal station 2 or the base station 3 via the mixer 14 or the mixer 13. It has become. That is, the satellite communication terminal station 1 performs relay between the satellite communication terminal station 2 and the base station 3.
[0014]
Normally, the satellite communication terminal stations 1 and 2 transmit radio waves to the base station 3 at the frequency f1, receive radio waves from the base station 3 at the frequency f2, and each constitute a terminal station independently.
On the other hand, such a normal terminal configuration is difficult due to the prospects and power supply environment, and when there is a communication request from another terminal station (referred to as satellite communication terminal station 2), the satellite communication terminal station 1 relays. It operates as follows as a container (repeater).
[0015]
First, the antenna 6 for the satellite communication terminal station 2 is installed in the satellite communication terminal station 1. The satellite communication terminal station 1 has two antennas 15 and 6 for the satellite base station 3. When transmitting from the satellite communication terminal station 2, the satellite communication terminal station 2 once transmits radio waves to the satellite communication terminal station 1. The satellite communication terminal station 1 receives this radio wave with the antenna 6 and the reception RF unit 10. Next, the satellite communication terminal station 1 transmits this radio wave to the base station 3 using the transmission RF unit 9 and the antenna 15 provided from the beginning.
Conversely, when transmitting from the base station 3 and received by the satellite communication terminal station 2, the following occurs. The base station 3 first transmits to the satellite communication terminal station 1. The satellite communication terminal station 1 receives this radio wave with the antenna 15 and the reception RF unit 10 provided from the beginning. Next, the satellite communication terminal station 1 transmits this radio wave toward the satellite communication terminal station 2 through the transmission RF unit 9 and the antenna 6. And the satellite communication terminal station 2 receives.
[0016]
In such a satellite communication system, radio frequencies used for communication are as follows. First, regarding the radio frequency of the satellite communication terminal station 1 with the base station 3, the transmission frequency of the satellite communication terminal station 1 is f1, and the reception frequency is f2. As for the radio frequency with the satellite communication terminal station 2, the transmission frequency of the satellite communication terminal station 1 is f1, and the reception frequency is f2. Since the satellite communication terminal station 2 has a frequency opposite to that of the satellite communication terminal station 1, the reception frequency is f1 and the transmission frequency is f2.
Also, in such a relay function, the reception RF unit and the transmission RF unit are usually connected in cascade, and the function of the terminal station is used up in one-way communication. Therefore, it is necessary to change the connection configuration of the transmission RF unit 9 and the reception RF unit 10 used in common for transmission and reception as shown in FIG. 2, resulting in half-duplex communication.
[0017]
Next, the repeat mode will be described in more detail with reference to FIG.
FIG. 3 is a diagram showing a repeat mode of the satellite communication terminal station of the satellite communication system according to Embodiment 1 of the present invention, and FIG. 3 (a) shows a configuration when the satellite communication terminal station is used as a terminal. FIG. 3 and FIG. 3B are diagrams in which a device using a satellite communication terminal station as a repeater is added.
In FIG. 3, 6, 9 to 15 are the same as those in FIG. 31 is a mixer, 32 is a demodulator, 33 is a local oscillator, 34 is a filter, 35 is an analog-to-digital converter (ADC) that converts an analog signal into a digital signal, 36 is a signal framing unit, 37 is an interface unit, 38 is a handset, Data terminal (modem or personal computer). 39 is an interface unit, 40 is a signal framing unit, and 41 is a DA converter (DAC) that converts a digital signal into an analog signal.
42 is a filter, 43 is a modulator, 44 is a local oscillator, 45 is a mixer, and 46 is a frequency synthesizer.
[0018]
When using the satellite communication terminal station as a terminal in FIG. 3A, the received radio wave (RF frequency) is received by the antenna 15, the received wave is taken out by the mixer (DIP) 13, and the received RF unit (RX) Amplified at 10 (and filtering, not shown), and converted to an IF frequency by the mixer 31. Thereafter, the signal is demodulated by the demodulator 32 to become a baseband signal, band-limited by the filter 34, and converted to a digital signal by the AD converter (ADC) 35. The digital signal is decomposed into data and control signals by the signal deframing unit 36, and the data is further subjected to necessary signal processing by the interface unit 37 and sent to the handset and the data terminal 38. If the interface unit 37 is an audio signal, a conversion from a digital signal to an analog signal and an audio compression (decompression) circuit such as a CELP signal are inserted.
[0019]
When transmitting, the reverse is true. A signal sent from the handset or the data terminal 38 is sent to the signal framing unit 40 through the interface unit 39. The signal framing unit 40 assembles these data and line control signals. Up to this point, the signal is a digital signal, and then converted to a baseband signal by a DA converter (DAC) 41, band-limited by a filter 42, and modulated by a modulator 43. From here, it becomes an IF signal. Thereafter, the frequency is converted by the mixer 45 to become an RF signal, which is combined with the reception signal by the mixer (DIP) 13 through the output amplifier of the transmission RF unit (TX) 9 and emitted from the antenna 15.
[0020]
When the repeat function shown in FIG. 3B is provided, the configuration of FIG. 3A is changed as follows.
(1) Two antennas 6 and 15 and mixers (DIP) 13 and 14 are installed.
(2) The antennas 6 and 15 are switched by SW11 and 12. At this time, it is a feature of this apparatus that the transmitting antenna and the receiving antenna are switched separately.
(3) The received signal is returned to the transmission side by the signal deframing unit 36 in the above description. There is a method of converting the IF signal into an analog signal by frequency conversion. In this case, however, an additional circuit such as a local frequency generator (frequency synthesizer or the like) for folding is required. Assuming that it is used as a terminal, if the digital signal (between the signal framing unit 36 and the signal framing unit 40) is turned back, the configuration change is considerably reduced.
(4) Second and third embodiments described later The difference between the A type and the B type is obtained by changing the frequency of the local oscillators 33 and 44 supplied to the modulation / demodulation unit for the A type and the B type. It is done.
[0021]
According to the first embodiment, as a result of constructing such a satellite communication system, a base station air interface and a terminal air interface that have been dually provided as an expensive wireless interface conventionally except for an antenna. It is not necessary to provide almost double, and a satellite communication relay station can be realized with a simple configuration satellite communication terminal station.
[0022]
Embodiment 2. FIG.
In the second embodiment, in addition to the first embodiment, a plurality of satellite communication terminal stations (satellite communication terminal station apparatuses) are continuously connected. For example, this configuration example is effective when the line-of-sight distance cannot be obtained or when the transmission output is not sufficient due to power supply circumstances. The frequency relationship at this time is shown in FIG.
FIG. 4 is a diagram showing a satellite communication system according to Embodiment 2 of the present invention.
In FIG. 4, 1-4 are the same as in FIG. In FIG. 4, the satellite communication terminal station 1 (another satellite communication terminal station apparatus) is a B type, and the satellite communication terminal station 2 (second satellite communication terminal station apparatus) is an A type. 17 is the same B type satellite communication terminal station (other satellite communication terminal station apparatus) as the satellite communication terminal station 1, and 18 is the same A type satellite communication terminal station as the satellite communication terminal station 2. The B type satellite communication terminal station transmits at 2.6 GHz and receives at 2.4 GHz. The A type satellite communication terminal station transmits at 2.4 GHz and receives at 2.6 GHz.
[0023]
Next, the operation will be described.
The satellite communication terminal station 1 (satellite communication terminal station device arranged at the end) transmits at 2.6 GHz and receives at 2.4 GHz. The adjacent satellite communication terminal station 2 transmits at 2.4 GHz and receives at 2.6 GHz. Similar to the satellite communication terminal station 1, the adjacent satellite communication terminal station 17 transmits at 2.6 GHz and receives at 2.4 GHz. In this way, each satellite communication terminal station can take two types of radio frequencies, the B type such as the satellite communication terminal stations 1 and 17 and the A type such as the satellite communication terminal stations 2 and 18. .
[0024]
According to the second embodiment, by continuously connecting a plurality of terminal stations, it is possible to communicate effectively when the line-of-sight distance cannot be obtained or when the transmission output is not sufficient due to power supply circumstances.
[0025]
Embodiment 3 FIG.
FIG. 5 shows a satellite communication system according to Embodiment 3 of the present invention.
5, 3 and 4 are the same as those in FIG. 20, 22, 24 and 26 are B type satellite communication terminal stations, and 21, 23 and 25 are A type satellite communication terminal stations. The satellite communication terminal stations 26, 25, 24, 23, 22, 21, and 20 are sequentially connected in a chain in the order of reception of radio waves from the base station 3.
[0026]
Next, the operation will be described.
In FIG. 4, the relay is only half-duplex, but full-duplex communication is required depending on the application. The case of performing this full-duplex communication is shown in FIG. In FIG. 5, the cascade connection of the satellite communication terminal station 20 (fourth satellite communication terminal station apparatus) transmitting toward the base station 3 and the reception of the satellite communication terminal station 26 (third satellite communication terminal station apparatus) receiving are performed. Two cascaded connections are arranged side by side.
[0027]
According to the third embodiment, in addition to the effects of the second embodiment, full-duplex communication is possible between the satellite communication terminal station and the base station.
[0028]
In the first to third embodiments, communication between the satellite communication terminal station and the base station has been described. However, communication between the terrestrial radio communication terminal station and the terrestrial radio communication base station is also described. It is the same.
[0029]
【The invention's effect】
Since the present invention is configured as described above, the following effects can be obtained.
Oite satellite communication terminal station apparatus location to the RF receiver arranged to receive and transmit RF section is provided via the satellite between the satellite communication base station apparatus, a reception signal received by the reception RF unit Is used as a repeater for transmitting as a transmission signal by the transmission RF unit, a switching device that switches the reception destination of the reception RF unit and the transmission destination of the transmission RF unit to the input destination and output destination of the relay, respectively, A first local oscillator that generates a first local oscillator that generates a first frequency that is a frequency, and a second local oscillator that generates a second frequency that is a frequency of a received signal different from the first frequency. And the satellite communication terminal station apparatus is classified into A type or B type according to the frequency generated by the second local oscillator, and the A type and B type satellite communication terminal station apparatuses have a first frequency, a second frequency, Since those interchanged, by the satellite communication terminal station apparatus, it is possible to realize a relay function with a simple structure.
[0030]
In addition, in a radio communication terminal station apparatus provided with a reception RF unit and a transmission RF unit arranged to transmit and receive wirelessly with a radio communication base station apparatus, a reception signal received by the reception RF unit is transmitted as a transmission RF unit. Switching device for switching the receiving destination of the receiving RF unit and the transmitting destination of the transmitting RF unit to the input destination and the output destination of the repeater, respectively, and the frequency of the transmission signal A first local oscillator that generates one frequency, and a second local oscillator that generates a second frequency that is a frequency of a received signal different from the first frequency, the first local oscillator and the second local oscillator Radio communication terminal stations are classified into A type and B type according to the frequency generated by the local oscillator. The A type and B type radio communication terminal stations are divided into a first frequency and a second frequency. Since those interchanged with the number, the radio communication terminal station apparatus, it is possible to realize a relay function with a simple structure.
[0031]
Furthermore, a plurality of satellite communication terminal stations connected sequentially so that the A type and the B type of satellite communication terminal stations are alternately arranged, and arranged at the end of a plurality of satellite communication terminal stations connected sequentially Since the satellite communication base station apparatus configured to transmit / receive data to / from the satellite communication terminal station apparatus via the satellite is provided , the transmission output of the satellite communication terminal station apparatus is sufficient by connecting a repeater. Even when it is not, communication with the satellite communication base station apparatus can be performed.
[0032]
In addition, a plurality of satellite communication terminal stations that are sequentially connected so that the A type and the B type of the satellite communication terminal stations are alternately arranged, and one end of the plurality of satellite communication terminal stations that are sequentially connected which receives from the deployed satellite communication terminal station apparatus via a satellite, to transmit via satellite to the other end arranged satellite communication terminal station apparatus of a plurality of satellite communication terminal station apparatus Since the satellite communication base station apparatus is configured, full-duplex communication with the satellite communication base station apparatus is performed by connecting a repeater even when the transmission output of the satellite communication terminal station apparatus is not sufficient. be able to.
[0033]
Furthermore, at the end of a plurality of wireless communication terminal stations that are sequentially connected so that the A type and the B type of the wireless communication terminal stations are alternately arranged, and at the end of the plurality of wireless communication terminal stations that are sequentially connected Since the radio communication base station apparatus configured to transmit and receive wirelessly with the arranged radio communication terminal station apparatus is provided, the transmission output of the radio communication terminal station apparatus is not sufficient by connecting a repeater Even at times, it is possible to communicate with the radio communication base station apparatus.
[0034]
Also, one end of sequentially connected plurality of radio communication terminal station apparatus, and sequentially connected to a plurality of radio communication terminal station apparatus as A type and B type of the radio communication terminal station apparatus is arranged alternately Wireless communication configured to receive wirelessly from a wireless communication terminal station device disposed in a part and transmit wirelessly to a wireless communication terminal station device disposed at the other end of the plurality of wireless communication terminal station devices Since the base station apparatus is provided, full-duplex communication with the radio communication base station apparatus can be performed by connecting a repeater even when the transmission output of the radio communication terminal station apparatus is not sufficient.
[Brief description of the drawings]
FIG. 1 is a diagram showing a satellite communication system according to Embodiment 1 of the present invention.
FIG. 2 is a diagram showing a configuration of a satellite communication terminal station of a satellite communication system according to Embodiment 1 of the present invention.
FIG. 3 is a diagram showing a repeat mode of the satellite communication terminal station of the satellite communication system according to the first embodiment of the present invention.
FIG. 4 is a diagram showing a satellite communication system according to a second embodiment of the present invention.
FIG. 5 is a diagram showing a satellite communication system according to Embodiment 3 of the present invention.
[Explanation of symbols]
1, 2 satellite communication terminal stations, 3 base stations, 4 satellites,
6 antenna, 8 repeat mode, 9 transmit RF part (TX),
10 Reception RF section (RX),
11, 12 switch, 13, 14 mixer (DIP), 15 antenna,
17, 18, 20, 21, 22, 23, 24, 25, 26 satellite communication terminal station,
31 mixer, 32 demodulator, 33 local oscillator, 34 filter,
35 AD converter (ADC), 36 is a signal framing unit,
37 Interface section, 38 is a handset, data terminal,
39 interface part, 40 signal framing part,
41 DA converter (DAC), 42 filter, 43 modulator,
44 local oscillator, 45 mixer, 46 frequency synthesizer.

Claims (6)

Oite satellite communication terminal station apparatus location to the RF receiver arranged to receive and transmit RF section is provided via the satellite between the satellite communication base station apparatus, the reception received by the reception RF unit Switching device for switching the reception destination of the reception RF unit and the transmission destination of the transmission RF unit to the input destination and the output destination of the relay, respectively, when used as a relay for transmitting a signal as a transmission signal by the transmission RF unit A first local oscillator that generates a first frequency that is a frequency of the transmission signal, and a second local oscillator that generates a second frequency that is a frequency of the reception signal different from the first frequency. The satellite communication terminal station apparatus is divided into A type or B type according to the frequency generated by the first local oscillator and the second local oscillator, and the A type and B type satellite communication terminals. Station apparatus, satellite communication terminal station apparatus, characterized in that is obtained by interchanging the first frequency and the second frequency. In a radio communication terminal station apparatus provided with a reception RF unit and a transmission RF unit arranged to transmit and receive wirelessly with a radio communication base station device, a reception signal received by the reception RF unit is transmitted to the transmission RF unit. Switching device that switches the receiving destination of the receiving RF unit and the transmitting destination of the transmitting RF unit to the input destination and the output destination of the repeater, respectively, when used as a repeater that transmits as a transmission signal by the frequency A first local oscillator that generates a first frequency, and a second local oscillator that generates a second frequency that is a frequency of the received signal different from the first frequency, The wireless communication terminal station device is divided into A type or B type according to the frequency generated by the local oscillator and the second local oscillator, and the wireless communication terminal of the A type and B type. Station apparatus, the radio communication terminal station apparatus, characterized in that is obtained by interchanging the first frequency and the second frequency. A plurality of satellite communication terminal stations sequentially connected so that the A type and the B type of the satellite communication terminal stations according to claim 1 are alternately arranged, and the plurality of satellite communication terminal stations sequentially connected satellite communication system comprising the satellite communication base station apparatus that is configured to transmit and receive via the satellite with the satellite communication terminal station apparatus that is arranged in the end portion. A plurality of satellite communication terminal stations sequentially connected so that the A type and the B type of the satellite communication terminal stations according to claim 1 are alternately arranged, and the plurality of satellite communication terminal stations sequentially connected which receives from one end arranged satellite communication terminal station apparatus unit via the satellite, through the satellite to the other end arranged satellite communication terminal station apparatus of the plurality of satellite communication terminal station apparatus A satellite communication system comprising a satellite communication base station device configured to transmit the data. A plurality of wireless communication terminal station devices sequentially connected so that A type and B type of the wireless communication terminal station device according to claim 2 are alternately arranged, and the plurality of wireless communication terminal station devices sequentially connected A wireless communication system comprising a wireless communication base station device configured to transmit and receive wirelessly to and from a wireless communication terminal station device disposed at an end. A plurality of wireless communication terminal station devices sequentially connected so that A type and B type of the wireless communication terminal station device according to claim 2 are alternately arranged, and the plurality of wireless communication terminal station devices sequentially connected The wireless communication terminal station device arranged at one end is received by radio and transmitted to the wireless communication terminal station device arranged at the other end of the plurality of wireless communication terminal stations by radio A wireless communication system comprising the wireless communication base station apparatus.

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