JP3756110B2 - Wireless communication device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a wireless communication technique for performing communication in a predetermined frequency band.
[0002]
[Prior art]
With the expansion of wireless communication services typified by cellular mobile phones and the increase in Internet users, demand for transmission channels (frequencies) for wirelessly performing broadband data communication such as broadband Internet communication is increasing.
In response to this, applications have been limited in the past, and so-called “frequency band release” is progressing, in which a frequency band whose use is restricted to such a specific application or a specific user is generally released. The condition for use is “a newly entered system should not interfere with existing systems that have previously used that frequency band”. In order to satisfy this condition, research on radio wave interference avoidance techniques and coexistence methods of wireless communication systems has been actively conducted.
[0003]
Microwaves in the GHz band or higher having characteristics such as strong directivity and large attenuation in the atmosphere can easily control the size of the service area by limiting the transmission output. Therefore, an ISM band that does not require a frequency license that can be used by unspecified majority ( I ndustrial S cientific M edical B and) using a wireless LAN using a wireless communication system (for example, a low power data communication system such as ARIB (Radio Industry) standard STD-T70 or ISO / IEC 8802-11) is being studied. .
[0004]
[Problems to be solved by the invention]
However, it is considered that the use of a newly entered system is severely restricted in the service area of the existing system and in the vicinity thereof. For example, in the vicinity of an area where a trunk line such as a telephone network is provided or in the vicinity of an area provided with a microwave line used by a telecommunications carrier as a backup line in case of an emergency such as a disaster Corresponds to a so-called restricted use area.
[0005]
If a wireless LAN by a wireless communication device using a wireless communication system that is newly permitted to use is constructed within the use restricted area and using the frequency band used for the line, there is no interference to the microwave line. May occur and cause great damage.
[0006]
Therefore, it is considered that use of a wireless communication device using a wireless communication system using the same frequency band as that of the microwave line is not permitted in the vicinity of the microwave line. As described above, in a certain frequency band, it is necessary to limit the configuration of a wireless LAN by another wireless communication system in a specific area where an existing wireless communication system exists.
[0007]
In general, when multiple wireless communication systems are assumed to use the same frequency band, there is an interference avoidance and coexistence method based on carrier sense in order to prevent a decrease in frequency utilization efficiency due to each radio wave interference. It is prescribed.
[0008]
Carrier sense means that the wireless communication apparatus measures the electric field strength (signal strength) of a received signal at a frequency at which wireless communication is to be performed. For example, when the electric field strength is greater than or equal to a predetermined threshold value, it is determined that transmission is being performed by a wireless communication system that should perform interference avoidance, and radio wave transmission is stopped. When the electric field strength is less than a predetermined threshold, it is determined that the frequency is vacant and transmission is performed.
[0009]
By the way, in a wireless communication system, since frequencies that can be effectively used are limited, a plurality of wireless communication systems may use the same frequency band. In a base station centralized control type radio communication system, base stations are fixedly arranged so that a specific area whose use is restricted and a service area do not overlap each other as in a cellular communication system such as a mobile phone. Thereby, it is possible to realize interference avoidance by a mobile radio terminal for an existing radio communication system.
[0010]
However, a mobile radio terminal using a distributed control type radio communication system can construct an ad hoc (temporary) wireless LAN with respect to a position (location), and an operation mode in which each terminal performs independent distributed control in which each terminal performs control. Then, transmission is possible anywhere.
[0011]
Even in a centralized control type wireless communication system having a base station, it is not possible to guarantee that the base station is out of the use restricted area if the base station is not fixedly arranged.
In such a case, the above carrier sense alone is not sufficient as a method for avoiding interference by restricting transmission within the restricted use area.
[0012]
That is, carrier sense only determines whether or not any wireless communication is performed in a specific time zone, and cannot determine whether the terminal itself exists in a specific area. Therefore, there is a possibility that the transmission is performed in spite of being in the use restricted area. For example, even if the target wireless communication system is temporarily not communicating, or even if the wireless communication system targeted for carrier sense is communicating, carrier sense is not performed correctly due to the influence of topography, etc. This situation applies.
Japanese Patent Application Laid-Open No. 11-215562 discloses a technique for restricting wireless communication in a specific area. The technique described in the above publication will be described with reference to FIG.
[0013]
As shown in FIG. 11, the use restriction device 11-2 is arranged in the use restriction area 11-1. The use restriction device 11-2 transmits a use restriction signal 11-3 in the use restriction area 11-1. The mobile terminals 11-4 and 11-5 are provided with receiving means and decoding means for the usage restriction signal 11-3 transmitted by the usage restriction device 11-2.
[0014]
For example, when the movable second terminal 11-5 that performs wireless communication with the first terminal 11-4 enters the use restriction area, the use restriction signal 11-3 transmitted by the use restriction device 11-2 is received. To do. When the usage restriction signal 11-3 is received, the second terminal 11-5 stops transmission. In this way, it is possible to restrict use in the use restriction area of the wireless communication device.
[0015]
According to the above technique, it is considered possible to restrict transmission, but there is a problem that it is necessary to newly install a use restriction device on the existing line side. Furthermore, an excessive burden such as securing a frequency for transmitting the use restriction signal occurs.
An object of the present invention is to provide a technique capable of more simply and reliably performing use restriction of a wireless communication device in a use restriction area.
[0016]
[Means for Solving the Problems]
According to an aspect of the present invention, a wireless communication apparatus capable of communicating in a predetermined frequency band, and performs wireless communication only within a wireless communication permission area where wireless communication using the predetermined frequency band is permitted. Confirmation means for receiving a communication signal of another wireless communication system and confirming the presence of the other wireless communication system based on the received signal, and whether the position of the wireless communication device is within the wireless communication permission area A position determination unit that determines whether or not the wireless communication system is in a state in which wireless communication is possible only when the presence of the other wireless communication system is confirmed and the wireless communication device is determined to be located within the wireless communication permission area. A communication device is provided.
According to the wireless communication device, wireless communication can be performed only within the same area as that of the other wireless communication system whose existence has been confirmed, so that the use restriction of the wireless communication device can be ensured.
[0017]
The position determining unit includes a received signal strength measuring unit that measures the strength of the received signal, and a signal strength determining unit that compares the received signal strength with a preset signal strength threshold value. Is preferred.
It can be determined whether or not the wireless communication device exists in the communication permission area based on whether or not the received signal strength is greater than or equal to the threshold value.
[0018]
The position determining means compares the received signal-to-noise ratio calculating means for calculating a signal-to-noise ratio based on the received signal, and compares the signal-to-noise ratio with a preset threshold of the signal-to-noise ratio. Receiving signal-to-noise ratio judging means
It is preferable to have.
It can be determined whether or not the wireless communication device exists in the communication permitted area based on whether or not the received signal-to-noise ratio is equal to or greater than a preset threshold value of the signal-to-noise ratio.
[0019]
The position determination means includes a bit error rate calculation means for calculating an error rate based on the received signal, and an error rate determination means for comparing the bit error rate with a preset bit error rate threshold value. It is preferable to have.
It is possible to determine whether or not the wireless communication device exists in the communication permission area based on whether or not the received signal error rate is equal to or higher than the threshold value of the set bit error rate.
[0020]
Preferably, the confirmation unit includes a control information extraction unit that extracts control information included in the received signal, and a control information comparison unit that compares the extracted control information with preset control information. .
The control information is used as a determination criterion of the confirmation unit, and it is determined whether or not the signal of the other radio communication system is received based on whether or not the control information is the same as the preset control information.
[0021]
Preferably, the confirmation unit includes a preamble signal extraction unit that extracts a preamble signal included in the received signal, and a preamble comparison unit that compares the extracted preamble signal with a preset preamble signal pattern. .
When the preamble signal of the received signal is used as a determination criterion of the confirmation unit, and the preamble signal is a preset preamble pattern, the other wireless communication system uses a wireless LAN signal configured in a communication permission area. Judge as received.
[0022]
The confirmation means includes control information extraction means for extracting control information contained in the received signal, control information comparison means for comparing the extracted control information with preset control information, and the received signal. It is preferable to include preamble signal extraction means for extracting the included preamble signal, and preamble comparison means for comparing the extracted preamble signal with a preset preamble signal pattern.
[0023]
When determining whether or not a signal of the other wireless communication system has been received, the control information of the received signal and the preamble signal are both used as determination criteria, and the determination can be performed more reliably. For example, it is possible to determine that a signal of the other radio communication system has been received when a preamble signal is used as a determination criterion of the confirmation unit and the preamble signal is a preset preamble pattern.
[0024]
The radio communication device can use a plurality of frequency channels in the predetermined frequency band, detects a frequency channel in use used by the other radio communication system, and other than the frequency channels in use It is preferable to perform communication by switching to a free frequency channel, which is a frequency channel.
[0025]
The wireless communication apparatus can use a plurality of frequency channels in the predetermined frequency band, calculates a timing for receiving signals necessary for the confirmation unit and the position determination unit, and matches the calculated timing. It is preferable to provide channel switching timing control means for switching from a frequency channel currently in use to a frequency channel that can receive the necessary signal.
For example, the same antenna and wireless reception unit can determine the position by receiving a signal of the other wireless communication system while performing communication using an empty frequency channel that is not used by the other wireless communication system. .
[0026]
According to another aspect of the present invention, a first wireless communication system that performs wireless communication only within a wireless communication permission area where wireless communication using a predetermined frequency band is permitted, and communication in the predetermined frequency band. A second wireless communication system including a wireless communication device that performs communication, receives a communication signal of the first wireless communication system, and confirms the presence of the first wireless communication system based on the received signal And a second wireless communication system including a wireless communication device including a wireless communication device, and a position determination unit that determines whether or not the position of the wireless communication device is within the wireless communication permission region. The
[0027]
The wireless communication device included in the second wireless communication system confirms the presence of the first wireless communication system and performs wireless communication only when it is determined that the wireless communication device is located in the wireless communication permission region. Send for.
According to another aspect of the present invention, the second communication is performed in the same frequency band as the predetermined frequency band used by the first wireless communication system that performs wireless communication only within a wireless communication permission area where wireless communication is permitted. A wireless communication method in a wireless communication system, comprising: (a) receiving a communication signal of the first wireless communication system and confirming the presence of the first wireless communication system based on the received signal; b) determining whether the position of the wireless communication device is within the wireless communication permission area; and (c) confirming the presence of the first wireless communication system in the step (a), and And (b) providing a wireless communication method having a step of performing wireless communication only when it is determined that it is located within the wireless communication permission area in the step.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
The inventor is a wireless communication system that performs communication outside a use restriction area in order to determine whether or not the wireless communication device to be used is outside a specific area where use is restricted, that is, the use restriction area. I came up with using a wireless communication system that includes base stations fixedly located outside. For example, a control signal transmitted from a base station included in another wireless LAN that constitutes a service area only outside the restricted use area is used.
[0029]
A means for receiving another wireless LAN control signal is added to a mobile wireless terminal using a distributed control wireless communication system. When another wireless LAN control signal is received, it is determined that the mobile terminal (self-mobile wireless terminal) is located within the service area (outside the restricted use area) and is within an area where wireless communication is possible. In other words, communication is not performed by determining that wireless communication is not performed as in the method based on carrier sense, but communication is performed only when it can be confirmed that specific wireless communication is performed. It is. Thereby, it is possible to restrict the use of the wireless communication device in the use restricted area (specific area).
Based on the above principle, an environment on which the wireless communication apparatus according to the embodiment of the present invention is used will be described with reference to FIG. FIG. 2 is a schematic diagram for explaining an environment which is a premise of the present invention.
[0030]
As shown in FIG. 2, it is assumed that a use restriction area 2-1 exists in the area to be considered. In this use restriction area 2-1, for example, there is an existing wireless communication system using a predetermined frequency band. The use of wireless communication devices using other wireless communication systems that are newly permitted to use the frequency band is restricted.
[0031]
The wireless LANs 2-2, 2-3, and 2-4 are used in a restricted use area 2-1 by base stations 2-2-1, 2-3-1, and 2-4-1 that are fixedly arranged as in the cellular system. Generally, the wireless LAN service area (defined within a predetermined range centering on the base station in FIG. 2) does not overlap. For example, the base station of each wireless LAN is a WAN such as the Internet ( W ide A rea N network) 2-5 and an optical fiber 2-6 or the like. An FWA (wireless connection between a terminal placed in each home or office 2-8 and the base stations 2-2-1, 2-3-1 and 2-4-1 ( F fixed W irless A ccess) and the like are conceivable.
[0032]
The wireless communication technology according to the present embodiment is, for example, a notebook PC (personal computer) or PDA (PDA) under the environment as shown in FIG. P ersonal D ata A The use of a wireless communication terminal provided with a wireless communication card or the like for configuring an ad hoc wireless LAN that connects directly to a portable information terminal such as a sci- ence by wireless communication is restricted.
[0033]
First, a radio communication technique according to a first embodiment of the present invention will be described with reference to FIGS. 1 and 3 to 9. Reference is also made to FIG.
[0034]
FIG. 1 is a diagram showing a schematic configuration of a radio communication system according to the first embodiment of the present invention. FIG. 3A is a diagram showing the principle of dividing and using a radio wave in a predetermined frequency band into four frequency channels from first to fourth, and FIG. It is a chart figure which shows the utilization example of up to four frequency channels. FIG. 4 is a diagram illustrating an example of frequency use in a centralized control wireless communication system, FIG. 4A is a diagram illustrating an example of a data structure for communication, and FIG. 4B is a time of a frequency channel. This is an example of using a region. FIG. 5 is a diagram illustrating a frequency usage example in a distributed control wireless communication system, which is a usage example of a frequency channel in the time domain. FIG. 6 is a functional block diagram of the entire wireless communication apparatus according to the first embodiment of the present invention. FIG. 7 is a functional block diagram showing the structure of the wireless transmission / reception unit in FIG. FIG. 8 is a flowchart showing the operation of the wireless communication apparatus of the distributed control system in the wireless transmission system according to the present embodiment. FIG. 9 is a diagram for explaining a confirmation method by confirmation means in the wireless communication apparatus according to the present embodiment. FIG. 9A is a diagram showing a data structure of a preamble, and FIG. These are the conceptual diagrams for demonstrating the identification method by preamble.
[0035]
As shown in FIG. 1, in the area to be considered, a radio relay line 1 including a first relay base station 1-1, a second relay base station 1-2, and a third relay base station 1-3. Is formed. The wireless relay line 1 is a medium to long distance data transmission system that uses a microwave or millimeter wave frequency band and uses a directional antenna and has a large transmission power. For example, a medium to long distance wireless relay line such as an ISDN telephone network or a backup line of a wired line. A restricted use area (2-1) is defined along the wireless trunk line 1 in an area as shown in FIG.
[0036]
A wireless communication system 1 ′ using a centralized control system represented by ARIB STD-T70 is provided in an area that does not overlap with the use restricted area (2-1: FIG. 2). The first wireless communication system (LAN) 1-7 includes, for example, a first base station 1-4, a first terminal 1-5, and a second terminal 1-6. The wireless communication system (LAN) 1-7 uses the same frequency band as the signal frequency band used for the wireless relay line 1 by dividing it into a plurality of channels.
[0037]
Here, the use of the frequency band will be described with reference to FIG. As shown in FIG. 3A, the wireless trunk line 1 (FIG. 1) performs wireless communication using a frequency band 3-1 having a width of 100 MHz from 5.15 to 5.25 GHz, for example. The first wireless communication system (LAN) 1-7 uses, for example, a frequency band 3-1 of 5.17 GHz, 5.19 GHz, and 5-19 as indicated by reference numerals 3-2, 3-3, 3-4, and 3-5. Each of the frequency channels of .21 GHz and 5.23 GHz is divided into a plurality of frequency channels in consideration of each interference. The respective channels are referred to as a first frequency channel 3-6, a second frequency channel 3-7, a third frequency channel 3-8, and a fourth frequency channel 3-9.
[0038]
As shown in FIG. 3B, data communication time allocation (time domain allocation) is performed on the time axis using any one of the first to fourth frequency channels. Wireless communication is performed at the specified time. For example, the first base station 1-4 and the first terminal 1-5 in FIG. 1 use the first frequency channel 3-6. The time domain is divided in units called frames with respect to the time axis. At the beginning of the frame, the first base station 1-10 (FIG. 1) transmits control information 3-6-1 indicating time domain allocation in the frame. Then, the first base station and the first terminal transmit data 3-6-2 and a control signal 3-6-3 of the first terminal in a designated time domain in the frame. During this time, the other frequency channels 3-7 to 3-9 are free. Therefore, other wireless communication devices can use these empty channels.
[0039]
As shown in FIG. 1, the second wireless LAN 1-10 includes a third terminal 1-8 and a fourth terminal 1-9. The second wireless LAN 1-10 is a wireless communication system of a distributed control system typified by IEEE 802.11. Regarding the method of using the frequency band, the second wireless LAN 1-10 is the same as the case of the first wireless LAN 1-7 shown in FIG.
[0040]
As shown in FIG. 1, the second wireless LAN 1-10 is not a wireless LAN constituted by base stations arranged in a fixed manner, but performs communication between notebook PCs or PDAs equipped with a wireless LAN card or the like. A temporary (Ad-hoc) wireless LAN is configured.
[0041]
That is, the service area of the first wireless LAN 1-7 is fixed, whereas the service area of the second wireless LAN 1-10 is “anytime, anywhere”. In the wireless communication system according to the present embodiment, it is possible to prevent a communication communication apparatus (terminal) that performs such wireless communication from being used in the use restricted area (2-1: FIG. 2).
[0042]
As shown in FIG. 4, in the first wireless LAN 1-7, communication is performed in units of periodic frames 4-1. One frame 4-1 includes control information 4-2 for controlling communication, and Down-link 4-3 and Up-link 4-4 including transmission / reception data. For example, data 4-5-1 is transmitted / received in the time domain 4-5, and data 4-6-1 is transmitted / received in the time domain 4-6.
[0043]
The control information 4-2 includes a preamble 4-7 and a data payload (1 to N) 4-8. The base station 1-4 of the first wireless LAN 1-7 uses the control information 4-2 to control information including a preamble signal 4-7 for frame synchronization, bandwidth allocation for transmission / reception in the frame 4-1, and the like. Data (data payload) 4-8 is periodically transmitted.
[0044]
The base station 1-4 transmits data 4-5-1 in the time domain 4-5 designated by the control information 4-2, and the terminals 1-5 and 1-6 transmit the data 4-5-1. Receive. The terminals 1-5 and 1-6 transmit data 4-6-1 in the time domain 4-6 specified by the control information 4-2, and the base station 1-10 transmits the transmitted data 4-6. 1 is received. Thus, the first wireless LAN 1-7 that performs bidirectional wireless communication is configured.
[0045]
The third terminal 1-8 and the fourth terminal 1-9 constitute a second wireless LAN 1-10 using a distributed control wireless communication system. When the third terminal 1-8 wants to transmit data to the fourth terminal 1-9, as shown in FIG. 5, the RTS signal 5-1 of the data transmission request signal is transmitted. If the fourth terminal 1-9 can normally receive the RTS signal 5-1, it transmits a CTS signal 5-2 notifying completion of data reception preparation.
[0046]
The third terminal 1-8 receives the CTS signal 5-2 and transmits a data signal 5-3. The fourth terminal 1-9 notifies the third terminal 1-8 by the ACK signal 5-4 that the data signal 5-3 has been normally received. Bidirectional wireless communication can be performed by performing the same operation from the fourth terminal 1-9 to the third terminal 1-9.
[0047]
FIG. 6 is a functional block diagram of the wireless communication apparatus (terminal) according to the present embodiment. FIG. 7 is a detailed functional block diagram of the wireless transmission / reception unit of FIG.
[0048]
FIG. 8 is a flowchart showing the operation of the wireless communication apparatus according to the present embodiment. Hereinafter, the wireless communication technique according to the first embodiment of the present invention will be described in detail with reference to FIGS.
[0049]
As shown in FIG. 6, the radio communication apparatus according to the present embodiment includes an antenna AT, a radio transmission / reception unit 6-1, a demodulation circuit 6-2, a radio data extraction unit 6-4, and received data storage. Part 6-6. Further, the wireless communication apparatus includes a bus control circuit 6-10, a transmission data storage unit 6-7, a wireless data generation unit 6-5, and a modulation circuit 6-3. In addition, a communication control unit 6-8 and a timing information generation circuit 6-9 are provided.
[0050]
The wireless transmission / reception unit 6-1 transmits / receives a signal via the antenna AT. The signal received by the wireless transmission / reception unit 6-1 is demodulated by the demodulation circuit 6-2. The wireless data extraction unit 6-4 extracts data from the demodulated signal. The extracted data is stored as reception data by the reception data storage unit 6-6. The received data is sent by the bus control circuit 6-10 to a device having a data transmission / reception function such as a personal computer PC.
[0051]
On the other hand, transmission data from an external device such as a personal computer PC is temporarily stored in the transmission data storage unit 6-7. Radio data is generated based on the transmission data by the radio data generator 6-5. The wireless data modulated by the modulation circuit 6-3 is sent to the wireless transmission / reception unit 6-1 and transmitted as a signal radio wave.
[0052]
Note that the above example has been described in the image of a wireless terminal used by inserting a wireless communication device for a wireless LAN into a PC card slot or LAN port of a notebook PC, but the wireless communication device according to the present embodiment The present invention is not limited to this form, and includes other forms such as a PDA with a built-in wireless function or a built-in notebook PC.
[0053]
The wireless communication device further controls the entire device including each of the above functional units, and generates timing information with a communication control unit 6-8 having a function of controlling various operations shown in the flowchart shown in FIG. And a timing information generation circuit 6-9.
[0054]
FIG. 7 is a functional block diagram showing a more detailed structure of the wireless transceiver 6-1. The wireless transmission / reception unit 6-1 includes a wireless transmission / reception unit and a communication availability determination unit.
The wireless transmission / reception means includes an antenna 6-11, an antenna duplexer 6-12, a wireless reception unit 6-13, a received power detection unit 6-18, an A / D conversion unit 6-15, and a preamble detection unit 6 -17. Further, the wireless transmission / reception means includes a D / A conversion unit 6-16 and a wireless transmission unit 6-14. The antenna duplexer 6-12 is connected to the antenna 6-11. The output from the modulation circuit 6-3 (FIG. 6) is input to the D / A converter 6-16, and a signal is transmitted from the antenna 6-11 to the antenna duplexer 6-12.
[0055]
A signal received by the wireless reception unit 6-13 via the antenna 6-11 and the antenna duplexer 6-12 is transmitted to the communication control unit via the A / D conversion unit 6-15 and the preamble detection unit 6-17. 6-8. The signal received by the wireless reception unit 6-13 is output to the communication control unit 6-8 through the reception power detection unit 6-18.
[0056]
The communicability determining means includes a first wireless LAN preamble comparing unit 7-1, a first wireless LAN demodulating circuit 7-2, and a first wireless LAN received signal strength comparing unit 7-3. . Further, the communicability determining means includes a first wireless LAN wireless data extraction unit 7-4, a first wireless LAN control information confirmation unit 7-5, and a first wireless LAN BER / C / N calculation unit 7-. 6 and a communicability determination control unit 7-7.
[0057]
The output signal from the preamble detector 6-17 is input to the first wireless LAN preamble comparator 7-1. The output signal from the A / D converter 6-15 is input to the first wireless LAN demodulation circuit 7-2. The output signals from the reception power detection units 6-18 and the like are input to the first wireless LAN reception signal strength comparison unit 7-3. The output signal from the first wireless LAN demodulation circuit 7-2 is output to the first wireless LAN control information confirmation unit 7-5 and the first wireless LAN BER / C / N calculation unit 7-6.
[0058]
First wireless LAN preamble comparison unit 7-1, first wireless LAN received signal strength comparison unit 7-3, first wireless LAN control information confirmation unit 7-5, and first wireless LAN BER / C / N An output signal from the calculation unit 7-6 is input to the communication enable determination control unit 7-7. Data is exchanged between the communicability determination control unit 7-7 and the communication control unit 6-8.
[0059]
Hereinafter, the radio communication technique according to the present embodiment will be described focusing on a method for determining whether or not communication is possible.
When wireless communication is started, the communication control unit 6-8 confirms the presence of another wireless LAN (first wireless LAN 1-7: FIG. 1) and terminal position determination with respect to the communication enable determination control unit 7-7. Is instructed to make a communication feasibility determination.
[0060]
First, carrier sense processing 8-1 is performed. In the carrier sense process 8-1, the radio reception unit 6-13 starts a reception operation on the designated frequency channel. When the reception operation is started, the signal (radio wave) received by the wireless reception unit 6-13 is converted into a reception signal strength signal (RSSI signal) in the reception power detection unit 6-18.
[0061]
The first wireless LAN received signal strength comparing unit 7-3 determines whether or not a certain criterion (a preset threshold value) is exceeded. If the threshold value is exceeded, it is considered that there is a received radio wave, and if the threshold value is not exceeded, it is considered that there is no received radio wave. In step 8-2, the determination result of presence / absence of the received radio wave is notified to the communicable determination control unit 7-7.
[0062]
In step 8-2, if there is no received radio wave, communication is not started and communication is not started (end). Note that in carrier sense processing in a general wireless communication device, if there is no received radio wave, it is determined that the channel is an empty channel and transmission is started. However, in the wireless communication device according to the present embodiment, communication is permitted by itself. It is impossible to judge whether it is an area. As a result, it may be possible to perform processing such as notifying the user that communication is impossible or performing carrier sense processing for a certain period of time until the received radio wave is confirmed.
[0063]
If the received radio wave is confirmed in step 8-2, wireless LAN confirmation processing 8-3 is performed. In the wireless LAN confirmation process 8-3, first, the received signal is A / D converted by the A / D converter 6-15, and then sent to the preamble detector 6-17 to extract a preamble signal pattern. The first wireless LAN preamble comparison unit 7-1 determines whether the preamble signal pattern is registered in advance and matches a specific preamble pattern in the first wireless LAN.
[0064]
Here, the preamble will be described with reference to FIGS. 9 (a) and 9 (b). As shown in FIG. 9 (a), in a wireless communication system used for a wireless LAN, a transmission signal is generally composed of a preamble part 10-1 and a data payload part 10-2 for storing data to be actually sent. .
[0065]
The preamble section 10-1 has a signal pattern unique to the system. For example, in ARIB STD-T70, a control information preamble 10-3, a terminal data transmission preamble 10-4, and a base station data transmission preamble 10-5 are defined.
[0066]
The control information preamble 10-3 is a preamble for a control information signal that the base station transmits for frame synchronization, frame configuration information notification, and the like. The terminal data transmission preamble 10-4 is used when each terminal transmits data to the base station. The base station data transmission preamble 10-5 is used when the base station transmits data to the terminal.
[0067]
The portions indicated by alphabets A, B and C actually have specific signal waveforms. For example, A has a signal waveform indicated by reference numeral 10-6 as shown in FIG. By comparing whether or not the pattern 10-7 obtained by A / D-converting the signal waveform matches the received signal, processing such as identification processing and signal synchronization of the received signal is performed.
[0068]
The first wireless LAN has a preamble that can specify that the signal sequence is indicated by reference numeral 10-3 in FIG. 10A and is a signal sequence transmitted from a fixedly arranged base station. In this case, the first wireless LAN preamble comparison unit 7-1 (FIG. 7) can check whether the first wireless LAN exists by comparing whether or not the preamble patterns match. .
[0069]
By the way, a CSMA / CA wireless communication system standardized by ISO / IEC8802-11: 1999 etc. basically constitutes a temporary (Ad-hoc) wireless LAN in which terminals communicate directly with each other. However, there is also a mechanism for performing communication only between a base station (access point) and a terminal.
[0070]
Even in such a case, it is defined that the base station is fixedly arranged so that the specific area (usage-restricted area) and the service area do not overlap, and that the base station is a fixedly arranged base station (terminal ( By specifying that a control signal (referred to as a beacon signal) including control information to be notified to a mobile station is periodically transmitted and that the terminal does not transmit any data until it receives a beacon signal. It is also possible to have the same role as the first wireless LAN 1-7 using the base station central control wireless communication system.
[0071]
By the way, when such a system is the first wireless LAN 1-7, since the base station is originally handled as a terminal, the preamble patterns of the terminal and the base station are the same. Therefore, the presence of another wireless LAN cannot be confirmed only by the preamble pattern.
[0072]
Therefore, the A / D converted signal is demodulated by the first wireless LAN demodulating circuit 7-2 so as to cope with the above case, and further the first wireless LAN wireless data extracting unit 7-4. The control information is extracted by decoding processing such as an error correction code.
[0073]
The first wireless LAN control information confirmation unit 7-5 determines whether or not it matches the registered control information. The control information in this case is, for example, an identification ID indicating that the wireless LAN created by the base station is a public base station fixedly arranged in STD-T70. In IEEE 802.11, the ID is an identification ID indicating that the base station is a control signal (beacon signal) for informing the other that it is a base station constituting the first wireless LAN.
[0074]
Returning to the flowchart (FIG. 8), if it is confirmed in step 8-4 that the first wireless LAN where the restricted area and the service area do not overlap is present, the terminal location determination process 8-5 is started. If the presence of the first wireless LAN cannot be confirmed, communication is not started.
[0075]
In the terminal position determination process 8-5, the first wireless LAN reception strength comparison unit 7-3 compares the received power strength with a predetermined threshold value, and the received signal strength is determined in advance. It is determined whether or not the threshold value is exceeded. The comparison results are summed up by the communicability determination control unit 7-7, and how many times the reception intensity is equal to or higher than the threshold value, etc., and how far the terminal is from the base station. to decide. Further, it is determined whether the terminal position is a position that does not cause interference with the restricted area based on a determination criterion that also takes into account the output of wireless transmission of the terminal.
[0076]
If the received signal strength comparison alone is not sufficient, the first wireless LAN wireless data extraction unit 7-4 extracts the confirmation control information based on the information obtained in the error correction code decoding process. In the first wireless LAN BER / C / N operation unit 7-6, the bit error rate ( B it E rror R ate: BER) and signal-to-noise ratio (C / N). It is determined whether or not the position of the communication terminal is in the communication permission area by determining whether or not they exceed a predetermined threshold value or a change in the calculation result.
[0077]
In step 8-6, when it is determined that the wireless communication device is within the communication permission area, the communication enable determination control unit 7-7 notifies the communication control unit 6-8 that communication is possible. In step 8-7, communication is started. If it is determined in step 8-6 that the wireless communication apparatus is outside the communication permission area, communication is not performed. During communication, in step 8-8, the position of the communication terminal is periodically determined. The processing in step 8-8 is necessary particularly for the type in which the wireless communication device (terminal) moves. This is because the position of the wireless communication device (terminal) fluctuates due to movement and may move outside the communication permission area (outside the use restriction area).
Through the above processing, communication within the restricted area can be reliably restricted.
[0078]
Next, a radio communication apparatus according to the second embodiment of the present invention will be described with reference to FIG. Reference is also made to FIGS. 1 to 9 as appropriate. FIG. 10 is a flowchart for explaining the operation of the wireless communication apparatus according to the second embodiment of the present invention, and is a diagram illustrating processing when communication is performed using an empty channel. The flowchart shown in FIG. 10 is the same as the flowchart shown in FIG. 8 up to communication permission area determination step 8-6. The carrier sense process in step 8-1 is referred to as a first carrier sense process, and is distinguished from the second carrier sense process (step 9-1). When the first wireless LAN and the second wireless LAN use a wireless communication system that uses a predetermined frequency band as a plurality of frequency channels, a free channel different from the frequency channel used by the first wireless LAN is used. It is conceivable to communicate with each other.
[0079]
In this case, if it is determined in the communication permission area determination step 8-6 that the communication is within the communication permission area, the second carrier sense process 9-1 is performed. The second carrier sense process 9-1 is different from the first carrier sense process 8-1 and is different from the first frequency channel 3-6 (FIG. 3) used by the first wireless LAN. , Carrier sense of the third or fourth frequency channel 3-7, 3-8, 3-9 is performed. In step 9-2, it is determined whether the frequency channel is free. If the frequency channel is free, communication is started using the free frequency channel in step 8-7.
[0080]
Here, in order to periodically determine that the area is the communication permitted area, it is necessary to check the frequency channel used by the first wireless LAN, not the frequency channel with which the communication is performed.
For example, in ARIB STD-T70 described in the first embodiment, the base station periodically transmits a control signal once every 2 ms. In ISO / IEC 8802-11: 1999, a control signal (beacon signal) is transmitted at a cycle of 1000 ms.
[0081]
Therefore, the timer is operated in accordance with these cycles, and when the check timing of step 9-3 comes, the recheck process of step 9-4 is performed. Actually, the recheck process in step 9-4 switches from the communication frequency channel currently used for communication to the frequency channel used by the first wireless LAN, from step 8-1 to step 8-6. This is a process for performing the above processes again.
[0082]
If it is confirmed in step 8-6 in the recheck processing 9-4 that the wireless communication device is located in the communication permission area, the communication frequency channel is returned to the base station again, and communication is started in step 8-7. To do. If it is not confirmed in step 8-6 that the wireless communication device is located within the communication permission area, the communication is terminated.
With the above processing, communication permission determination processing can be performed while using an empty frequency channel.
[0083]
When determining whether or not the terminal is within the communication permission area, comprehensively considering the result of comparing the received signal strength, the result of comparing the BER, and the result of comparing the C / N You may judge. For example, it is possible to use a method of making a determination by majority decision of the determination results of the three methods, a method of assigning priorities to the three methods, a method of performing a predetermined weighting process on the determination results, and the like.
[0084]
Moreover, you may provide the terminal position determination means which has two or more different values as a preset threshold value or determination standard. For example, it is possible to update the position determination result when the results of the two terminal position determination means match, and not to update the position determination when the determination results of the two terminal position determination means do not match. it can.
As mentioned above, although this invention was demonstrated along embodiment, this invention is not restrict | limited to these. It will be apparent to those skilled in the art that other various modifications, improvements, and combinations can be made.
[0085]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, communication of the radio | wireless communication apparatus can be restrict | limited within the use restriction area where the existing radio | wireless communications system exists.
[Brief description of the drawings]
FIG. 1 is a schematic diagram showing a configuration of a wireless communication system according to a first embodiment of the present invention.
FIG. 2 is a schematic diagram showing an environment on which a wireless communication apparatus according to an embodiment of the present invention is used.
FIG. 3 (a) is a diagram showing the principle of dividing and using a radio wave in a predetermined frequency band into four frequency channels from first to fourth, and FIG. It is a chart figure which shows the utilization example of four frequency channels from 1 to 4.
4A and 4B are diagrams illustrating an example of frequency use in a centralized control wireless communication system, in which FIG. 4A is a diagram illustrating an example of a data structure for communication, and FIG. 4B is a frequency channel time; This is an example of using a region.
FIG. 5 is a diagram illustrating a frequency usage example in a wireless communication system using a distributed control method, and is a usage example of a time domain of a frequency channel.
FIG. 6 is a functional block diagram of the entire wireless communication apparatus according to the first embodiment of the present invention.
FIG. 7 is a functional block diagram illustrating a structure of a wireless transmission / reception unit.
FIG. 8 is a flowchart showing an operation of a wireless communication apparatus of a distributed control system in the wireless transmission system according to the first embodiment of the present invention.
9 is a diagram for explaining a confirmation method by confirmation means in the wireless communication apparatus according to the present embodiment, and FIG. 9 (a) is a diagram showing a data structure of a preamble, and FIG. 9 (b) These are the figures which show the example of allocation of the frequency band which is a conceptual diagram for demonstrating the identification method by preamble.
FIG. 10 is a flowchart showing an operation of a wireless communication apparatus of a distributed control system in the wireless transmission system according to the second embodiment of the present invention.
FIG. 11 is a diagram showing a configuration of a communication restriction method disclosed in the prior art.
[Explanation of symbols]
1-1 ... 1st relay base station, 1-2 ... 2nd relay base station, 1-3 ... 3rd relay base station, 1-4 ... 1st base station, 1-5 ... 1st terminal, 1-6 ... 2nd terminal, 1-7 ... 1st wireless LAN, 1-8 ... 3rd terminal, 1-9 ... 4th terminal, 1-10 ... 2nd wireless LAN, 2-1 ... Restricted use area, 2 -2 ... Wireless LAN, 2-3 ... Wireless LAN, 2-4 ... Wireless LAN, 2-5 ... Internet, 3-1, ... Frequency band, 3-2 ... First frequency channel, 3-3 ... Second frequency channel 3-4 ... 3rd frequency channel, 3-5 ... 4th frequency channel, AT ... Antenna, 6-1 ... Radio transceiver, 6-2 ... Demodulation circuit, 6-3 ... Modulation circuit, 6-4 ... Radio Data extraction unit, 6-5 ... wireless data generation unit, 6-6 ... received data storage unit, 6-7 ... transmission data storage unit, 6-8 ... communication control unit, 6-9 ... data Ming information generating circuit, 6-10 ... bus control circuit, PC ... personal computer, 6-12 ... antenna duplexer, 6-13 ... wireless receiver, 6-14 ... wireless transmitter, 6-15 ... A / D conversion , 6-16 ... D / A converter, 6-17 ... preamble detector, 6-18 ... received power detector, 7-1 ... first wireless LAN preamble comparator, 7-2 ... first wireless LAN Demodulating circuit, 7-3... First wireless LAN received signal strength comparing section, 7-4. First wireless LAN wireless data extracting section, 7-5... First wireless LAN control information confirming section, 7-6 ... First wireless LAN BER / C / N calculation unit, 7-7...

Claims (11)

A wireless communication device capable of communicating in a predetermined frequency band,
Receiving a communication signal of another wireless communication system that performs wireless communication only within a wireless communication permission area where wireless communication using the predetermined frequency band is permitted, and based on the received signal, the other wireless communication system Confirmation means for confirming the presence of the wireless communication device, and position determination means for determining whether or not the position of the wireless communication device is within the wireless communication permission area,
A wireless communication apparatus that checks the existence of the other wireless communication system and enters a wireless communication enabled state only when it is determined that the wireless communication apparatus is located within the wireless communication permission area. The position determination means includes
Received signal strength measuring means for measuring the strength of the received signal;
The radio communication apparatus according to claim 1, further comprising: a signal strength determination unit that compares the received signal strength with a preset signal strength threshold value. The position determination means includes
A received signal to noise ratio calculating means for calculating a signal to noise ratio based on the received signal;
The radio communication apparatus according to claim 1, further comprising: a received signal-to-noise ratio determining unit that compares the signal-to-noise ratio with a preset threshold value of the signal-to-noise ratio. The position determination means includes
Bit error rate calculating means for calculating an error rate based on the received signal;
The radio communication apparatus according to claim 1, further comprising: an error rate determination unit that compares the bit error rate with a preset threshold value of the bit error rate. The confirmation means includes
Control information extraction means for extracting control information contained in the received signal;
5. The wireless communication device according to claim 1, further comprising control information comparison means that compares the extracted control information with preset control information. 6. The confirmation means includes
Preamble signal extracting means for extracting a preamble signal included in the received signal;
5. The radio communication apparatus according to claim 1, further comprising: a preamble comparison unit that compares the extracted preamble signal with a preset preamble signal pattern. 6. The confirmation means includes
Control information extracting means for extracting control information contained in the received signal, control information comparing means for comparing the extracted control information with preset control information,
The preamble signal extracting means for extracting a preamble signal included in the received signal, and the preamble comparing means for comparing the extracted preamble signal with a preset preamble signal pattern. Item 1. A wireless communication device according to item 1. The wireless communication device can use a plurality of frequency channels in the predetermined frequency band,
8. The communication system according to claim 1, wherein a frequency channel in use used by the other radio communication system is detected, and communication is performed by switching to an unused frequency channel that is a frequency channel other than the frequency channel being used. The wireless communication system according to item 1. The wireless communication device can use a plurality of frequency channels in the predetermined frequency band,
Channel switching timing for calculating a timing for receiving a signal necessary for the confirmation unit and the position determination unit, and switching to a frequency channel capable of receiving the necessary signal from the currently used frequency channel in accordance with the calculated timing. The wireless communication apparatus according to claim 1, further comprising a control unit. A first wireless communication system that performs wireless communication only within a wireless communication permission area where wireless communication using a predetermined frequency band is permitted;
A second wireless communication system including a wireless communication device that performs communication in the predetermined frequency band, wherein a communication signal of the first wireless communication system is received, and the first wireless communication is based on the received signal A second wireless communication system including a wireless communication device comprising: confirmation means for confirming presence of the system; and position determination means for determining whether or not a position of the wireless communication device is within the wireless communication permission area. A wireless communication system. A wireless communication method in a second wireless communication system that performs communication in the same frequency band as a predetermined frequency band used by a first wireless communication system that performs wireless communication only within a wireless communication permission area where wireless communication is permitted. And
(A) receiving a communication signal of the first wireless communication system and confirming the presence of the first wireless communication system based on the received signal;
(B) determining whether the position of the wireless communication device is within the wireless communication permission area;
(C) confirming the presence of the first wireless communication system in the step (a), and performing wireless communication only when it is determined in the step (b) that the wireless communication permission area is located. A wireless communication method.

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