JP2003319450A - Radio communication system and base station and terminal station for configuring same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a radio communication system which can efficiently search a frequency channel used in a self-radio communication system. <P>SOLUTION: In the radio communication system including a base station 10 and terminal stations 11, 12 and 13 and capable of communicating by using a plurality of the frequency channels, the station 10 sends first information regarding the number of the frequency channels used by itself to the terminal stations 11, 12 and 13 by carrying on a specific frequency of the frequency channel used for oneself. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless communication system capable of performing communication using a plurality of frequency channels, a base station and a terminal station forming the wireless communication system, and particularly to a search for a frequency channel used by itself. Regarding technology.

[0002]

2. Description of the Related Art In recent years, a plurality of low-power wireless communication systems using the 5 GHz band, which do not require a license, have been proposed and standardized. Communication systems are being developed.

As one of the above-mentioned wireless communication systems, TD
A method using an MA (time division multiple access method) centralized control method is considered. This system divides a transmission band by frequency to set a plurality of transmission channels, divides each transmission channel by a predetermined time, and uses a plurality of transmission channels in one transmission channel to form a plurality of time slots. Form. Then, the base station allocates a terminal station to be connected to each time slot, and a plurality of terminal stations can be connected simultaneously using one transmission channel.

[0004]

However, 5.15 GHz, which has already been permitted for the low power wireless communication system, has been proposed.
~ 20MHz frequency band in 5.25GHz band
If there are only four channels (occupied signal frequency band is 18 MHz) and a large number of wireless communication terminals or communication systems are present in the same area, radio wave interference may reduce the throughput.

Recently, there is a movement to further open the high frequency band, and a low power wireless communication system using the quasi-millimeter wave band such as the 25 GHz band and the 27 GHz band is permitted under the Radio Law and is being standardized. . Conventionally, the frequency band, which has been limited to other uses, is opened by imposing a limitation by electric power.

According to the frequency allocation plan updated on February 28, 2002 by the Ministry of Internal Affairs and Communications, for example, a personal area system assuming outdoor Internet access at hotspots such as stations and coffee shops is 24.77 GH.
Using a frequency band of 460 MHz from z to 25.23 GH (excluding guard bands of 20 MHz above and below), 23 wireless channels can be arranged with a frequency interval of 20 MHz (occupied signal frequency band per channel is 18 MHz), Simultaneous transmission of up to 3 consecutive channels is possible.

Furthermore, from 27.02 GHz to 27.46
In a community area that uses GHz (excluding the upper and lower 20 MHz guard bands) and assumes a wireless LAN or wireless home link at home or in a factory, the frequency is 20 MHz.
Twenty-two wireless channels can be arranged at intervals, and simultaneous transmission of up to six consecutive channels is possible. 25GH above
The method using the TDMA centralized control method can be applied to a wireless communication system using the z band or the 27 GHz band.

In the wireless communication system using the 25 GHz band or the 27 GHz band, since frequency bands of up to 3 channels or 6 channels can be used at the same time, high-speed and large-capacity communication can be performed, and the communication capacity of the wireless communication system of its own. According to the above, by making the frequency band used for communication variable, it is possible to efficiently use radio resources.

In the conventional TDMA wireless communication system, one terminal station normally uses only one channel, and the number of channels is not so large (for example, as mentioned above, 5 GHz wireless communication is used). 4 channels in communication system). Therefore, when the terminal station starts communication, it sequentially receives and demodulates a signal including control information transmitted from the base station of its own communication system for each channel, thereby determining the channel used by its communication system. The search time of the channel did not become so long even if it searched, and it was not a problem.

However, 25 GHz band or 27 GHz
In the z-band wireless communication system, the number of channels is 20 or more as described above, and a method for searching for a channel used by the wireless communication system of its own is provided by a conventional method of sequentially receiving and demodulating a signal including control information. If used, the search efficiency is poor and the search time may be too long. Furthermore,
Since there are multiple frequency bands used for communication at the same time,
It is also necessary for the terminal station to recognize information on the frequency band used by its own wireless communication system (the number of channels used simultaneously).

An object of the present invention is to provide a technique capable of efficiently searching for a frequency band (frequency channel) used by its own wireless communication system.

[0012]

According to one aspect of the present invention, there is provided a wireless communication system including a base station and a terminal station, capable of communicating using a plurality of frequency channels, wherein the base station is There is provided a wireless communication system, characterized in that the first information regarding the number of frequency channels used by (1) is placed on a specific frequency channel among the frequency channels used by itself and sent to the terminal station.

According to the above wireless system, it is possible to recognize at which position of the plurality of frequency channels used by itself the first information is placed. Also, the first
It is possible to recognize the number of own frequency channels from the information of.

The first information is preferably a preamble signal in the control information sent by the base station for each frame, and is preferably included in a preamble signal having a different cycle depending on the number of frequency channels.

According to the above wireless communication system, the number of frequency channels can be recognized by analyzing the preamble signal.

The specific frequency channel is only the lowest frequency side frequency channel among the frequency channels used by its own radio communication system, only the highest frequency side frequency channel, or the lowest frequency side. It is preferable that there are two frequency channels, a frequency channel on the higher frequency side.

Limiting the particular frequency channel to either or both of the consecutive frequency channels simplifies the search for frequency channels. The above solving means can also be applied to a base station or a terminal station that constitutes a wireless communication system.

[0018]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Before describing a wireless communication system according to an embodiment of the present invention, the consideration made by the inventor will be briefly described.

In a radio communication system having a base station and a terminal station, the base station informs the terminal station, for example, by including frequency channel number information regarding the number of frequency channels used by its own radio communication system in control information. To send. The base station transmits the control information for each frame.
The frequency channel number information is included in the preamble signal in the control information, for example.

In addition, regarding which frequency channel among the frequency channels used by the radio communication system of its own, the preamble signal including the frequency channel number information (hereinafter, referred to as "frequency channel position information") is included. Is also specified in advance.

The base station transmits the control information with the preamble signal added only to a specific frequency channel defined by the frequency channel position information in the frequency channel to be used, to the terminal station.

The terminal station receives the preamble signal sent from the base station, and based on the frequency channel number information and the frequency channel position information in the preamble signal, the terminal station can use the frequency channel number. Search for (frequency band). The terminal station can know the frequency channel position information from the frequency channel of the preamble signal received by itself.

As will be described later, Japanese Patent Laid-Open No. 2001-3136
By a method similar to the method described in Japanese Patent No. 23,
The terminal station can determine the number of frequency channels used by the terminal station by the identification circuit without demodulating the preamble signal by the demodulation circuit. In addition, by determining the frequency channel search (operation) procedure in consideration of the frequency channel position information, it is possible to simplify the search for the frequency channel used by itself.

Based on the above consideration, the radio communication system according to the first embodiment of the present invention will be described below in detail with reference to the drawings.

FIG. 1 is a diagram showing a configuration example of a radio communication system according to the first embodiment of the present invention. The wireless communication system 1 according to the first embodiment of the present invention includes one base station 10 and at least one or more terminal stations, for example, a first terminal station 11, a second terminal station 12 and a third terminal. Station 1
It is a wireless communication system of a centralized control system composed of three terminal stations No. 3 and 3, for example, using a TDMA (Time Division Multiple Access) system. In this wireless communication system, the base station 10 centrally controls transmission / reception timings of the terminal stations 11, 12 and 13 and frequency channels to be used. In addition, the wireless communication system 1 is, for example, the above 2
It is a wireless communication system that uses frequencies in the 4.77 GHz to 25.23 GHz band, uses 23 wireless channels from 1 to 23 at a frequency interval of 20 MHz, and simultaneously transmits up to three consecutive channels.

Base station 10 constituting the wireless communication system 1
The first terminal station 11 and the first terminal station 11 can transmit and receive using a maximum of three channels, and the second terminal station 12 can transmit and receive using a maximum of two channels. The terminal station 13 will be described as an example of a system in which transmission / reception is performed using only one channel. The number of channels that can be transmitted and received in each terminal station of the above wireless communication system is an example for convenience of explanation, and a system in which all the terminal stations can use three channels may be used.

FIG. 2 is a functional block diagram showing a configuration example of a base station or a terminal station which constitutes the wireless communication system 1 according to the first embodiment of the present invention. Description will be made with reference to FIG. 1 as appropriate.

As shown in FIG. 2, the base station or terminal station
The antenna 21, the antenna duplexer 22, the RF / IF receiver 23, the A / D converter 24, the demodulator 25, the information detector 26, the bus control unit 27, the modulator 28, and the D /
It has an A converter 29, an RF / IF transmitter 30, and a system control unit 31.

The base station 10 and the terminal stations 11, 12, 13
The block configuration of and is as shown in FIG.
It has almost the same configuration. However, some of the functions of the system control unit 31 are different due to the difference in specifications of each functional block due to the difference in the maximum number of transmission / reception channels and the difference in transmission / reception function between the base station and the terminal station. There is. The difference between the functions relating to transmission and reception between the base station and the terminal station is mainly that only the base station 10 has a frequency channel allocation function, a time domain allocation function, and a function of notifying them.

Next, the operation of the base station or terminal station will be described based on the functional block diagram shown in FIG. The reception signal input from the transmission / reception antenna 21 has its reception side path selected by the antenna duplexer 22, and the RF / IF receiver 23 amplifies the reception signal and frequency-converts it into an intermediate frequency (IF) band. . Intermediate frequency (eg center frequency 20M
The received signal converted to Hz) is converted from an analog format to a digital format by the A / D converter 24, and the demodulator 25 normally demodulates the received signal, and a bus having a function such as an interface with the outside. The data is taken into the information processing apparatus such as a personal computer (PC) via the control unit 27 as data (Data).

As described above, the preamble signal including the information about the frame synchronization, the frequency channel, etc. does not need to be demodulated by the demodulator 25.
For example, according to the method described in Japanese Unexamined Patent Publication No. 2001-313623, the information detector 26 can determine the frame synchronization and the number of frequency channels used by the own system from the periodic pattern of the preamble. JP 20
The method described in Japanese Patent Publication No. 01-313623 is a process of adding information regarding the number of frequency channels used by itself to a preamble signal. To add to the preamble signal, the period Tw of the preamble signal is
It corresponds to the process of changing according to the frequency band (the number of channels) used by its own system. For example, if the number of channels used by the wireless communication system of its own is 1, the period of the preamble signal is set to Tw, and if the number of channels is 2, the period is set to Tw / 2, and the number of channels is 3. If so, the cycle is set to Tw / 4. Then, the number of channels can be detected without demodulating the preamble signal depending on whether or not the cycle of the preamble signal matches the preamble pattern stored in the wireless station (terminal station) in advance. Of course, it is also possible to know the frequency channel number by demodulating the preamble signal without discriminating only the preamble pattern.

Data output from a PC or the like (Data)
In the modulator 28 via the bus control unit 27,
Control information is added and converted into a transmission signal format (packet format or the like) used for wireless communication. Next, the transmission signal is converted from a digital format signal into an analog format signal by the D / A converter 29, and the RF / IF transmitter 30 performs amplification of the transmission signal and frequency conversion into a high frequency (RF) signal. A signal is transmitted from the transmitting / receiving antenna 21 to the antenna via the antenna duplexer 22.

The system control unit 31 has a function of controlling the system of the base station or the entire terminal station and a control function of supplying power to each unit. The base station also has a function of recognizing the frequency channel number, storing and determining time allocation (time scheduling), and the like.

FIG. 3 is a diagram showing an example of a communication data structure in the wireless communication system according to the first embodiment of the present invention. As shown in FIG. 3, the communication data structure in the wireless communication system according to the first embodiment of the present invention has a basic configuration composed of a large number of frames divided at a certain fixed time. One frame 41 includes a control information transmission area 42 including first information for notifying the terminal station of a frequency channel used for transmission and reception by the base station and transmission and reception timing, and data transmitted from the base station to the terminal station. Downlink area 43 for transmitting data and uplink area 4 for transmitting data from the terminal station to the base station.
4 and 3 time domains. The control information transmission area 42 includes a preamble 45 for obtaining information such as frame synchronization, and a data payload (46-) including information on a time domain and frequency channel for transmission / reception within the frame.
1 to 46-N).

Next, an operation example of the wireless communication system according to the first embodiment of the present invention will be described with reference to FIGS. Reference will also be made to FIGS. 1 to 3 as appropriate.
FIG. 4 is a flow chart diagram showing an operation flow of a base station forming the wireless communication system according to the first embodiment of the present invention, and FIG. 5 is a wireless communication system according to the first embodiment of the present invention. FIG. 6 is a flowchart showing the operation of the terminal station constituting the above, and FIG. 6 is a diagram showing an example of using frequency channels in the wireless communication system according to the first embodiment of the present invention.

As shown in FIG. 6, the base station 10 and the terminal station 11 of the radio communication system 1 include the seventh channel (CH7) of 23 frequency channels from CH1 to CH23.
Preparations are made for communication using three consecutive frequency channels (frequency bands) from channel 9 to channel 9 (CH9). In the wireless communication system according to the first embodiment of the present invention, the control information including the preamble signal added with the information on the number of frequency channels, which is the information of the frequency channel used by the wireless communication system of its own, is:
It is a rule to put only on a specific channel used by the wireless communication system of its own, here, the frequency channel having the smallest number (used in the lowest frequency band). Information on the position of such a frequency channel is stored in, for example, the system control unit 31. The frequency channel position information may be stored in advance in, for example, a storage device in the system control unit 31 before shipment of the product, or may be downloaded later via a network and stored in the storage device.

In the wireless communication system 1 according to the first embodiment of the present invention, for example, CH1 to CH
Although 23 frequency channels up to 23 are used, the first frequency channel CH1 is a channel for performing communication using the lowest frequency, and the 23rd frequency channel CH23 is a channel for performing communication using the highest frequency.

In step SA11 shown in FIG. 4, the base station 10 constituting the wireless communication system 1 uses the modulator based on the frequency channel number information used by the wireless communication system 1 of its own stored in the system controller 31. 28
Performs preamble signal addition processing. The process of adding the frequency channel number information to the preamble signal is a process of setting the period Tw of the preamble signal to match the frequency band (the number of frequency channels) used by the own system. For example, if the number of channels used by the wireless communication system 1 of its own is 1, the period of the preamble signal is set to Tw, and if the number of channels is 2, the period of the preamble signal is set to Tw / 2. If the number is 3, the period of the preamble signal is set to Tw / 4.
In the example shown in FIG. 6, since communication is performed using frequency channels for three channels CH7 to CH9, the period T
A w / 4 preamble signal is included in the control information.
By this processing, the frequency channel number information can be included in the preamble signal.

The base station 11 in the wireless communication system 1 according to the present embodiment is not using another wireless communication system different from itself when setting the frequency channel used by its own communication system, and causes no interference. On condition that there is no influence of the above, the frequency channel (frequency band) with the smallest possible number is assigned as defined in the regulations regarding the wireless communication system according to the present embodiment. In the radio communication system according to the present embodiment, since frequency channels CH1 to CH6 are being used by another radio communication system, the frequency band of its own communication system is assigned to frequency channel CH7 and thereafter.

In step SA12, the base station 10
Transmits the control information added with the preamble signal toward the terminal station 11 in the area 61 using the frequency band of the frequency channel 7 (CH7). The control information is preferably transmitted from the base station at the beginning of one frame.
According to the frequency channel position information defined in advance,
The frequency channel for transmitting the control information is only the frequency channel having the smallest frequency channel number CH7 among the three frequency channels (CH7 to CH9) to be used. Therefore, the region 6 of the frequency channel CH8
2 and the region 63 of the frequency channel CH9 do not transmit control information.

Next, in step SB21, the terminal station 11 searches for a frequency channel including control information of its own wireless communication system. In this step, the terminal station 11
The control information including the preamble signal has the smallest frequency channel number among the channels used by its own wireless communication system (frequency channel using the lowest frequency band).
It is known in advance from the frequency channel position information that the information is loaded on the. Therefore, starting from the frequency channel having the smallest number (CH1 in this case),
The frequency channels are sequentially scanned while incrementing the number of frequency channels until the preamble signal of the own communication system is captured.

At this time, the terminal station 11 detects the period and the like of the preamble signal by using the information detector 26 by the autocorrelation method as described above. Therefore, the preamble signal can be detected more easily and quickly as compared with the case where the frequency band information is detected by demodulating the control information (step SB22).

Next, in step SB23, the system control unit 31 analyzes the information such as the period of the preamble signal detected in step SB22, and recognizes the number of frequency channels used by its own system. For example, when a preamble signal is detected on the 7th channel CH7 and the period of this preamble signal is Tw / 4, the frequency channel position information indicates the channel with the smallest number (low frequency side Since it is a rule to put control information in the channel, the frequency channels used by its own wireless communication system are CH7 to CH.
It can be recognized that there are 3 channels up to 9.

When the terminal station 11 recognizes the frequency band used by its own system, in the next step SB24, the terminal station 11 transmits a transmission / reception request signal (in the area 67) to the base station 10, and the transmission / reception time to the base station 10 is transmitted. And request to use the frequency channel.

In step SA13, the base station 10 receives the transmission / reception request signal from the terminal station 11, and determines the transmission / reception request time and the number of frequency channels for the base station 10 and other terminal stations 12 and 13 other than the terminal station 11. The request is adjusted and the frequency channel and the time domain (time slot) are assigned to itself and other terminal stations (step SA14).

In step SA15, the base station 10
Configures its own wireless communication system with control information similarly including information on allocation of frequency channels and time slots in the transmission time region of control information in the (N + 1) th frame following the Nth frame. Send to the terminal station that is doing.

At step SB25, the terminal station 11
Receives the control information transmitted by the base station 10 and demodulates the control information by the demodulator 25 to detect the information regarding the transmission / reception time of itself and the frequency channel (including the number of used channels).

Thereafter, in step SA16, the base station 10 performs a data transmission process (performed in the downlink phase) and a reception process (performed in the uplink phase), as shown in FIG. In step SB26, the terminal station 11 performs a data reception process (downlink phase) and a data transmission process (uplink phase).

As described above, the preamble signal containing the information on the number of frequency channels that can be used for communication is sent on the frequency channel having the smallest number among the frequency channels used by itself, and is transmitted in order from the smallest frequency number. By scanning the channels, it becomes possible to efficiently search for the channels and frequency bands used by the wireless communication system of the user. Further, the base station of the wireless communication system according to the present embodiment can transmit control information only on one specific frequency channel and not transmit control information on other frequency channels. In this case, power consumption can be reduced as compared with the case where control information is transmitted on all frequency channels. Further, in the frequency channel not transmitting the control information, the base station or the terminal station can transmit / receive information different from the control information such as the data signal, so that the frequency channel can be effectively used.

Next, a radio communication system according to the second embodiment of the present invention will be described with reference to FIG. 1 to 5 are the same as the wireless communication system according to the first embodiment, and these drawings will also be referred to as appropriate.

FIG. 7 is a diagram showing a usage example of frequency channels used in the wireless communication system according to the second embodiment of the present invention. In the usage example of the frequency channels in the wireless communication system according to the present embodiment, the frequency channels (frequency bands) used by the wireless communication system 1 are the channel CH17 and the channel CH18, and the wireless communication of its own transmitted by the base station 10 is performed. In the frequency channel position information used by the system, it is prescribed that the base station sends the information on the frequency channel with the highest number used by its own communication system. However, the rules regarding the period of the preamble signal corresponding to the number of frequency channels are the same.

In order to shorten the control information search time as much as possible, the terminal station 11 is as large as possible except for the case where it cannot continuously secure the frequency band that it wants to secure or interference with other wireless communication systems. A frequency channel having a number (high frequency side) is assigned as a frequency channel for transmitting control information.

In the example shown in FIG. 7, the frequency channel CH2
2 and frequency channel CH21, and frequency channel CH
It is assumed that 19 is a channel being used by another wireless communication system. In this case, the frequency channel CH20 is vacant, but if the communication system of its own wants to use the frequency channels (bands) of two channels, only one channel of the frequency channel CH20 is the above-mentioned "I want to secure my own". The frequency band cannot be secured continuously. Therefore, frequency channels CH18 and CH17 are assigned.

On the other hand, since it is known in advance that the control information including the preamble signal is on the largest channel number in the channels used by its own system, the terminal station 11 searches for the control information. The frequency channel with the highest number (C in FIG.
Sequential scanning is performed while decrementing the number of channels from H23) until the preamble signal of the own communication system is captured.

The terminal station 11 can recognize the channel and frequency channel (band) used by its own system, based on the detected period of the preamble signal and the above-mentioned regulation. That is, the terminal station 11 uses the frequency channel C
If the preamble signal is received at H18 and the period of the preamble signal is Tw / 2, the frequency channel CH
It can be recognized that two consecutive channels of 17 and CH18 are frequency channels used by the user.

As in the radio communication system according to this embodiment, the control information added to the preamble signal including the frequency channel number information may be added to the channel with the maximum number. Also in the wireless communication system according to the present embodiment, the frequency channel number (frequency band) used by itself can be searched easily and quickly, as in the case of the wireless communication system according to the first embodiment. If two consecutive channels cannot be secured, it may be preliminarily specified that the frequency channel for one channel is used for communication as the next best measure.

Next, a radio communication system according to the third embodiment of the present invention will be described with reference to FIG. FIG. 8 is a diagram showing an example of using frequency channels different from those in FIGS. 6 and 7. 1 to 5 are the same as those in the first and second embodiments, and will be described with reference to these as appropriate.

In the use example of the frequency channel in the radio communication system according to the third embodiment of the present invention,
As shown in FIG. 8, the number of frequency channels (frequency band) used by the wireless communication system 1 is the frequency channel CH6.
To CH10, the control information obtained by adding the information of the frequency channel (frequency band) used by the wireless communication system of the base station 10 to the preamble signal is the minimum number used by the communication system of the base station 10. It is a rule to put on both the channel of and the channel of the maximum number. Here, the preamble signal added to the minimum channel is referred to as "preamble small signal", and the preamble signal added to the maximum channel is referred to as "preamble large signal".

As described above, the base station 10 has a rule that the control information is put on the channel of the minimum number and the channel of the maximum number used by its own communication system, so that the terminal station 11 controls. In order to reduce the time required to search for information as much as possible, use is permitted unless there is interference with other wireless communication systems or the frequency band you want to secure cannot be secured continuously. The frequency channels close to the maximum channel and the minimum channel of the existing frequency channels are assigned as frequency channels for transmitting control information.

In the frequency channel usage example (FIG. 8) of the radio communication system according to the present embodiment, another radio communication system is in use from frequency channel CH1 to frequency channel CH5 and from frequency channel CH22 to frequency channel CH12. Therefore, the frequency channel C
Five consecutive channels from H6 to frequency channel CH10 can be assigned for own communication.

The terminal station 11 knows in advance that the control information including the preamble signal is put on the largest frequency channel and the smallest frequency channel among the frequency channels used by its own system. There is. Therefore, the terminal station 11 first receives the lowest frequency channel (CH1), the second highest frequency channel (CH22), the second lowest frequency channel (CH2), and the second. Large and small frequency channels such as a large-numbered frequency channel (CH21) are alternately searched, and sequentially searched until either the preamble small signal or the preamble large signal of the own communication system is captured.

In the above frequency channel search method,
I first searched for the lowest frequency channel,
As a search procedure, the frequency channel with the highest number may be searched first, and the frequency channel with the lowest number may be searched next.

Next, when the small preamble signal is first detected, the frequency channel having the next largest number (in the example of FIG. 8) the frequency channel (for example, frequency CH7 in the example of FIG. 8) in which the small preamble signal is found. Frequency channel C
H8) is searched. In this way, the frequency channels to be searched may be searched while incrementing by one channel until the large preamble signal is found.

On the other hand, when the large preamble signal is first detected, the frequency channel having the second smallest number after the frequency channel in which the large preamble signal is found is searched. In this way, the frequency channels to be searched may be decremented one by one until the small preamble signal is found.

By adopting the search method described above, the terminal station 11 can shorten the search time of the preamble signal as compared with a method of sequentially searching from frequency channels of a small number or a large number. Can be achieved.

The terminal station 11 can recognize all the frequency channel numbers used by its own system by detecting the preamble signal having the cycle showing the minimum frequency channel and the preamble signal having the cycle showing the maximum frequency channel. In the example of FIG. 8, if the frequency channel CH6 receives the minimum channel preamble signal (cycle Tw) and the frequency channel CH10 receives the maximum channel preamble signal (cycle Tw / 2), the frequency channel CH6
From this, it can be recognized that the five channels of the frequency channel CH10 are frequency channels used by the user.

In the above case, two types of period patterns of the preamble signal may be set, for example, the period of the preamble signal of the minimum channel may be set to Tw and the period of the preamble signal of the maximum channel may be set to Tw / 2, and the frequencies that can be transmitted simultaneously This is particularly effective for searching a frequency channel to be used quickly and easily when the number of channels is large.

As described above, when the radio communication system according to each of the embodiments of the present invention is used, in a radio communication system in which a plurality of frequency channels can be used simultaneously, the terminal station uses the channels and frequency bands used by its own radio communication system. Can be easily recognized.

The terminal station can efficiently search the control information as compared with the method of sequentially searching the frequency channels, and as a result, the search time can be shortened.

Since the base station can limit the channel for transmitting control information to a specific channel, it can reduce the power required for transmission as compared with the method of transmitting control information on all channels. It is possible to save power.

Further, since the base station and the terminal station can transmit and receive other information different from the control information by using the vacant channel, the frequency channel and the time domain can be efficiently used.

Although the present invention has been described above with reference to the embodiments, the present invention is not limited thereto. It will be apparent to those skilled in the art that other various modifications, improvements, and combinations can be made.

[0073]

As described above, according to the wireless communication system of the present invention, in a wireless communication system capable of simultaneously using a plurality of frequency channels, a terminal station can easily recognize the frequency channel used by its own wireless communication system. You can

Since the terminal station can efficiently search the control information as compared with the method of sequentially searching the frequency channels, the search time can be shortened as a result.

Since the base station can limit the channel for transmitting control information to a specific channel, the power required for transmission can be reduced as compared with the method of transmitting control information on all channels. It is possible to save power.

Further, since the base station and the terminal station can transmit / receive another signal different from the control information using the vacant channel, the frequency channel and the time domain can be efficiently used.

The following disclosure is included in the present specification. (Appendix) 1. The base station or terminal station according to claim 1, further comprising an information detector that detects the number of frequency channels without demodulating the first information. 2. A wireless communication system including a base station and a terminal station, which is capable of communicating using continuous frequency channels among a plurality of frequency channels, wherein the base station has frequency channel number information relating to the number of frequency channels used by itself. A radio communication system, which sends frequency channel position information regarding a frequency channel position used by the terminal device to the terminal station. 3. The radio communication system according to appendix 2, wherein the frequency channel position information is detected by a frequency channel carrying the frequency channel number information.

[Brief description of drawings]

FIG. 1 is a diagram showing a configuration example of a wireless communication system according to a first embodiment of the present invention.

FIG. 2 is a block diagram showing a configuration example of a base station or a terminal station configuring the wireless communication system according to the first embodiment of the present invention.

FIG. 3 is a diagram showing an example of a communication data structure of the wireless communication system according to the first embodiment of the present invention.

FIG. 4 is a flowchart diagram showing an operation of a base station of the wireless communication system according to the first embodiment of the present invention.

FIG. 5 is a flowchart diagram showing an operation of the terminal station of the wireless communication system according to the first embodiment of the present invention.

FIG. 6 is a diagram showing an example of using frequency channels in the wireless communication system according to the first embodiment of the present invention.

FIG. 7 is a diagram showing an example of using frequency channels in a wireless communication system according to a second embodiment of the present invention.

FIG. 8 is a diagram showing a usage example of frequency channels in a wireless communication system according to a third embodiment of the present invention.

[Explanation of Codes] 1 ... Wireless communication system, 10 ... Base station, 11, 12, 1
3 ... Terminal station, 21 ... Transmitting / receiving antenna, 22 ... Antenna duplexer, 23 ... RF / IF receiver, 24 ... A / D converter, 25 ... Demodulator, 26 ... Information detector, 27 ... Bus control unit, 28 ... Modulator, 29 ... D / A converter, 30 ... RF /
IF transmitter, 31 ... System control unit, 41 ... Frame,
42 ... Control information, 43 ... Downlink phase, 44 ...
Uplink phase, 45 ... Preamble, 46 ... Data payload, 61, 62, 63 ... Control information time domain.

   ─────────────────────────────────────────────────── ─── Continued front page    F term (reference) 5K022 AA07 AA09 AA10 FF02                 5K067 AA13 AA14 AA43 CC04 DD25                       EE02 EE10 EE22 EE63 EE71                       JJ21

Claims (18)

[Claims] 1. A wireless communication system including a base station and a terminal station, capable of communicating using a plurality of frequency channels, wherein the base station outputs first information regarding the number of frequency channels used by the base station. A wireless communication system, characterized in that the wireless communication system is placed on a specific frequency channel of the frequency channels used by itself and transmitted to the terminal station. 2. The first information is a preamble signal in control information sent by the base station for each frame, and is included in a preamble signal having a cycle different depending on the number of frequency channels and sent. The wireless communication system according to claim 1. 3. The wireless communication system according to claim 1, wherein the specific frequency channel is only the frequency channel on the lowest frequency side of the frequency channels used by the wireless communication system of its own. . 4. The wireless communication system according to claim 1, wherein the specific frequency channel is only a frequency channel on the highest frequency side of the frequency channels used by the wireless communication system of its own. . 5. The specific frequency channel is two frequency channels, that is, a frequency channel on a lowest frequency side and a frequency channel on a highest frequency side of a frequency band used by the wireless communication system of its own. The wireless communication system according to 1 or 2. 6. It is suitable for use in a wireless communication system including a base station and a terminal station and capable of communicating using a plurality of frequency channels, and the first information on the number of frequency channels used by itself is A base station characterized by transmitting on a specific frequency channel among frequency channels used by. 7. The frequency channel that does not transmit the first information in the frequency channel used by itself,
The base station according to claim 6, wherein no signal is transmitted in the time domain for transmitting the first information. 8. A frequency channel that does not transmit the first information in the frequency channel used by itself,
The base station according to claim 6, wherein a signal other than a signal related to the first information is transmitted in a time domain for transmitting the first information. 9. The allocation of the frequency channel used by its own wireless communication system is the lowest frequency among free frequency channels not used by other wireless communication systems and available by its own wireless communication system. From the frequency channel having the same frequency as the number of frequency channels used by the self, and the specific frequency channel is the frequency channel having the lowest frequency among the frequency channels used by the wireless communication system of the self. The base station according to claim 6, wherein: 10. The allocation of the frequency channel used by its own wireless communication system is not performed by another wireless communication system, and the highest frequency among free frequency channels usable by its own wireless communication system. The frequency channel having the lowest frequency among the frequency channels used by the wireless communication system of the own, the frequency channel having the lowest frequency among the frequency channels having The base station according to claim 6, wherein: 11. A frequency channel used by its own wireless communication system is not used by another wireless communication system, and a frequency having the lowest frequency among free frequency channels available for its own wireless communication system. The difference between the channel and the frequency channel having the lowest frequency of the plurality of frequency channels and the difference between the frequency channel having the highest frequency in the empty frequency channels that can be used by the own wireless communication system are compared, and the difference is small. One frequency channel is allocated from the frequency channel used by itself to the frequency channel having the larger difference by the number of frequency channels used by itself, and the specific channel is a frequency used by the wireless communication system of the user. Frequency channel with the lowest frequency in the channel The base station according to claim 6, characterized in that in the frequency channel with the highest frequency when. 12. A frequency channel including a base station and a terminal station, suitable for use in a wireless communication system capable of communicating using a plurality of frequency channels, wherein the base station uses a frequency channel used by its own wireless communication system. A signal containing first information about a number,
It has an information detector which receives a signal sent on a specific frequency channel among frequency channels used by itself and which identifies a first information including a frequency channel used by the wireless communication system of its own. And the terminal station. 13. A lowest frequency among frequency channels used by its own wireless communication system, which is suitable for use in a wireless communication system including a base station and a terminal station and capable of communicating using a plurality of frequency channels. In the plurality of frequency channels until the signal containing the first information sent only by the base station on only the channel and including the first information on the number of frequency channels used by the wireless communication system of the base station is received. The terminal station which sequentially searches the frequency channels from the frequency channel having the lowest frequency to the higher frequency channel side. 14. The highest frequency among frequency channels used by its own radio communication system, which is suitable for use in a radio communication system including a base station and a terminal station and capable of communicating using a plurality of frequency channels. In the plurality of frequency channels until the signal containing the first information sent only by the base station on only the channel and including the first information on the number of frequency channels used by the wireless communication system of the base station is received. The terminal station, which sequentially searches the frequency channels from the frequency channel having the highest frequency to the lower frequency channel side. 15. A frequency channel that is suitable for use in a wireless communication system that includes a base station and a terminal station and is capable of communicating using a plurality of frequency channels, wherein the base station uses the frequency channel used by its own wireless communication system. A signal containing first information about a number,
It is a terminal station that receives signals sent on only two frequency channels, the lowest frequency side and the highest frequency side, of the frequency channels used by its own wireless communication system, and the frequency used by its own wireless communication system. The channel searching method includes a first step of searching for a frequency channel having the highest frequency, and a second step of searching for a frequency channel having the lowest frequency when the signal cannot be received in the first step.
And if the signal cannot be received in the second step, a third step of searching a frequency channel having the highest frequency among unsearched frequency channels and attempting to receive control information, If the signal cannot be received even in the third step, a fourth step of searching a frequency channel having the lowest frequency among unsearched frequency channels and trying to receive the signal is included. The terminal station, characterized in that the search for the signal is repeated on the frequency channels on the high frequency side and the low frequency side until the signal is received. 16. The terminal station according to claim 15, further comprising: after receiving the signal, in the first step and the third step,
When the signal is received, a second signal including the first information in a frequency channel different from the signal is searched in order from a frequency channel one lower than the frequency channel, the second step and In the fourth step,
When receiving the signal, the terminal station searches for the second signal in order from a frequency channel one higher than a frequency channel. 17. A base station and a terminal station, which are suitable for use in a wireless communication system capable of communicating using a plurality of frequency channels, wherein the base station uses a frequency channel used by its own wireless communication system. A specific frequency channel in the frequency channels used by itself, the first frequency channel including first information about the number,
It is a terminal station that receives signals sent on only two frequency channels, the lowest frequency side and the highest frequency side, of the frequency channels used by its own wireless communication system, and the frequency used by its own wireless communication system. The channel search method includes a first step of searching a frequency channel having the lowest frequency, and a second step of searching a frequency channel having the highest frequency when the signal cannot be received in the first step.
And if the signal cannot be received even in the second step, a third step of searching a frequency channel having the lowest frequency among unsearched frequency channels and attempting to receive control information, If the signal cannot be received even in the third step, a fourth step of searching for a frequency channel having the highest frequency among unsearched frequency channels and attempting to receive the signal is included. The terminal station, characterized in that the search for the signal is repeated on the frequency channels on the low frequency side and the high frequency side until the signal is received. 18. The terminal station according to claim 17, further comprising: receiving the first signal in the first step and the third step after receiving the signal, A second signal in a frequency channel different from the first signal is searched in order from the frequency channel one higher than the frequency channel, and the second signal
And the fourth step, when the signal is received, the terminal station is searched for the second signal in order from the frequency channel one lower than the frequency channel.