JP2003060643A - Wireless communication system and wireless repeater - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable data transmission/reception even between, e.g. a fixed wireless communication terminal 5 of a class 1 in Bluetooth (R) and a portable telephone terminal 2 of a class 2 or a class 3 in a distance longer than a transmission/reception available distance of the class 2 or the class 3. SOLUTION: The system is provided with a wireless repeater 3 which, upon receiving data from a wireless transceiver, calls wireless transceivers near itself to prepare a list of wireless transceivers capable of communicating, transmits the data to another wireless transceiver selected from the list, and manages the transmission and reception of the data by the listed wireless transceivers after the selected wireless transceiver. The data transmission/ reception is carried out between the terminal 2 and the terminal 5 via the repeater 3.

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 and a wireless repeater for transmitting / receiving data between wireless communication devices based on a data communication standard such as so-called Bluetooth.

[0002]

2. Description of the Related Art Conventionally, various standards for transmitting and receiving data between devices have been proposed and put into practical use. Under such circumstances, in recent years, a data communication standard called Bluetooth has been formed mainly for the purpose of making data communication between a personal computer and peripheral devices such as a mobile phone and a PDA wireless. Based products are being commercialized. In addition, this standard was created on the assumption that the wireless communication device will move,
Based on this premise, the main focus is on downsizing, low power consumption, and low price of communication modules.

Therefore, in this standard, for example, a fixedly installed wireless communication device emits a calling radio wave, and another wireless communication device that receives the calling radio wave responds to form a list of communicable wireless communication devices. This list is stored in the wireless communication device that transmitted the calling radio wave, and the identification numbers are added to the other wireless communication devices that responded based on the list. This establishes a link between two or more wireless communication devices.

Then, the calling master wireless communication device sequentially transmits / receives data to / from each wireless communication device listed in time-division multiplexing. This allows
Data can be transmitted and received among the wireless communication devices listed above including the master wireless communication device. A collection of a plurality of wireless communication devices whose data transmission / reception is managed by this one master is called a piconet.

In the data communication standard called Bluetooth, three classes are defined according to the output level of radio waves. Class 1 has a maximum output of +20 dBm,
Data is transmitted by radio waves with a minimum output of 0 dBm, and Class 2
Emits data with a radio wave having a maximum output of +4 dBm and a minimum output of 0 dBm, and class 3 transmits data with a radio wave having a maximum output of 0 dBm. Also, in class 1, class 2
In order to send and receive data to and from the 3rd and 3rd, a power control function is required to reduce the maximum output of radio waves to + 4dBm.

Incidentally, class 1 wireless communication devices can establish a link and send and receive data even if they are separated by about 100 m. Further, between the class 2 and class 3 wireless communication devices, a link can be established and data can be transmitted and received at a distance of about 10 m or less. The class 1 wireless communication device lowers the output level based on this power control function, and in that state, establishes a link with the class 2 or 3 wireless communication device to transmit and receive data.

[0007]

However, when it is considered to install the data communication function based on the Bluetooth in a portable wireless communication device such as a mobile phone terminal,
In class 1, since the output level of the radio wave used for data transmission / reception is too high, the power of the battery is directly consumed. In particular, in recent mobile phone terminals equipped with a web page browsing function, an e-mail transmission / reception function, a function of holding and playing data related to incoming calls such as ringing melody, a vibration function, etc. The standby power has increased, and it is practically impossible at present to incorporate a communication module compatible with class 1 in addition to this.

Further, in class 1, since the capacity of the battery is increased due to the increase in power consumption and the power control function is indispensable, the size of the terminal cannot be avoided.

Further, in the class 1, generally, the circuit configuration is such that a data transmitting / receiving circuit corresponding to the class 2 and an amplifier circuit are separately added to the output of the data transmitting / receiving circuit. Therefore, these are modularized (RFIC
However, the size of the terminal inevitably increases, and for this reason too, the size of the terminal cannot be avoided.

Due to the above reasons, in a portable radio communication device such as a mobile phone terminal, generally, a class 2 or 3 class is used.
Will be adopted.

Therefore, even if a class 1 wireless communication device for transmitting / receiving data to / from this portable wireless communication device is prepared, the distance between these wireless communication devices must be 10 m or less. For example, the radio waves transmitted from the portable wireless communication device do not reach the class 1 wireless communication device, so that the link cannot be established and data cannot be transmitted and received between them.

[0012] As a result, if an order or other data is to be communicated with a mobile phone terminal in a store or a department store having a drive-through function for ordering and purchasing products without getting off the car, it will take about 10 m. A wireless communication device must be installed in each radius area.

That is, one class 1 wireless communication device is installed in a store having a drive-through function, and an attempt to transmit an order command or the like from a mobile phone terminal operated by a user in a vehicle to this wireless communication device. However, the transmission cannot be performed until the distance between the mobile phone terminal and the wireless communication device is 10 m or less. This means that in view of the size of the vehicles, orders can only be received from a few vehicles at a time. Therefore, even if this wireless communication system is newly introduced, orders can only be accepted within the same range as in the case where orders are received verbally using a conventional speaker and microphone. Therefore, the waiting time at the receiving place of the product is hardly reduced.

Various devices have been proposed to extend the communicable distance of class 2 and class 3 wireless communication devices.

For example, in the Bluetooth standard, as shown in FIG. 2, a wireless communication device 52 belonging to a certain piconet 51 is further housed in another piconet 53 and shared by the plurality of piconets 51, 53. The wireless communication device 52 and the master wireless communication device 5 of each piconet
By transmitting and receiving data via 4, it is possible to communicate between the wireless communication devices 55 and 56 separated by 20 m or more.
Further, by providing the piconet 61 adjacent to the piconet 53, it is possible to perform communication between the wireless communicators 55 and 62 separated by 20 m or more by further interposing the master wireless communicator 54 in the piconet 61. By connecting the piconet in this way, data can be transmitted and received even between wireless communication devices that are far apart.

However, when the communicable range is lengthened by utilizing such a piconet connecting method, these master radio communication devices 54 must be able to communicate with all mobile phone terminals, and Since this scatternet needs to be constructed regardless of the presence or absence of a mobile phone terminal, eventually a class 2 or 3 radio communication device must be installed at intervals of 10 m.

Further, for example, if the Bluetooth receiving sensitivity standard is improved from -70 dBm to -90 dBm, even class 3 wireless communication devices can be linked at a distance of about 100 m, which is equivalent to class 1. It is possible to establish and send and receive data. However, such a specification change that makes the receiving sensitivity standard more stringent not only impairs the aspect of Bluetooth as a unified standard, but also requires the use of an expensive device, resulting in low system cost. Will be a factor to prevent.

Therefore, the present invention provides a wireless communication system and a wireless repeater capable of transmitting data from a wireless communication device that transmits an electric wave of an output level that can only reach a short distance to a long distance longer than that. The purpose is to get.

Further, another invention calls a wireless communication device in the vicinity to create a list of other wireless communication devices with which communication is possible,
In a wireless communication system including a plurality of wireless communication devices that transmit data to one other wireless communication device selected from this list, a distance equal to or greater than a distance at which these wireless communication devices can transmit and receive data between them. An object of the present invention is to obtain a wireless communication system and a wireless repeater that establish a link between the plurality of wireless communication devices even if they are separated from each other, thereby enabling data transmission / reception in the plurality of wireless communication devices. .

Another aspect of the present invention is to establish a link between a plurality of wireless communication devices in a wireless communication system including a plurality of wireless communication devices that cannot directly communicate with each other. An object of the present invention is to obtain a wireless communication system and a wireless repeater that enable data transmission and reception between the wireless communication devices.

[0021]

A wireless communication system according to the present invention is capable of reproducing data from a radio wave in a predetermined input level range and is in the input level range when received within a predetermined distance range. With a first wireless communication device that transmits data with a radio wave of a first output level, it is possible to reproduce data from a radio wave of a predetermined input level range, and at a longer distance unlike the radio wave of the first output level and While the first wireless transmitter switches the radio wave of the second output level capable of reproducing the data and transmits the data by the second radio communication device, the data can be reproduced from the radio wave of the predetermined input level range, Data can be transmitted by switching between the radio wave of the first output level and the radio wave of the second output level, and the data from any wireless communication device can be transmitted. When receiving data, create a list of wireless communication devices that can call and communicate with the surrounding wireless communication devices at the output levels of the above two radio waves so that each output level that responds can be specified and posted on this list. And a wireless relay device that transmits and receives data at each output level to and from each wireless communication device.

In the radio communication system according to the present invention, the radio repeater periodically calls at the two output levels or one of the output levels and updates the list based on the call. Is.

In the wireless communication system according to the present invention, the first wireless communication device or the second wireless communication device calls another wireless communication device in the vicinity to create another wireless communication device and a list capable of communicating. If the list does not include the wireless communication device to which the data is transmitted and the wireless relay device is included, the data is transmitted to the wireless relay device.

In the wireless communication system according to the present invention, the first wireless communication device or the second wireless communication device calls or transmits data to the other wireless communication device to which data is transmitted, When it is determined that there is no response to this, data is transmitted to the wireless repeater.

The radio communication system according to the present invention is capable of reproducing data from radio waves in a predetermined input level range, and has a first output level within the above-mentioned input level range when received within a predetermined distance range. A first wireless communication device that transmits data by radio waves and data that can be reproduced from radio waves in a predetermined input level range, and radio waves of the first output level and the first radio transmission at a longer distance unlike the above. Data is transmitted and received between the second wireless communication device that transmits data by switching the radio wave of the second output level at which the device can reproduce the data and the first output data And a wireless relay device for transmitting and receiving data to and from the second wireless communication device with the second output level radio wave.

The wireless communication system according to the present invention calls a nearby wireless communication device to create a list of other wireless communication devices with which communication is possible, and the data is sent to one other wireless communication device selected from this list. In a wireless communication system including a plurality of wireless communication devices that transmit data, wireless communication that calls a nearby wireless communication device to perform communication when data transmitted from a certain wireless communication device to another predetermined wireless communication device is received Create a list of wireless communication devices, and if the other wireless communication device is present in this list, send the above data to that wireless communication device and send / receive data to / from the wireless communication devices listed in the list. It is provided with a wireless repeater for management.

The wireless communication system according to the present invention is a wireless communication system including a plurality of wireless communication devices that cannot directly communicate with each other, and data transmitted from a certain wireless communication device to another predetermined wireless communication device. When receiving the above, create a list of wireless communication devices that can communicate by calling nearby wireless communication devices, and if there is any other wireless communication device in this list, send the above data to that wireless communication device. And a wireless relay device that manages transmission and reception of data to and from the wireless communication devices listed in the list.

The wireless repeater according to the present invention is a wireless repeater for relaying data transmitted / received between two or more wireless communication devices, and when data is received from any one of the wireless communication devices. , Create a list of wireless communicators that can communicate by calling nearby wireless communicators, send the above data to one other wireless communicator selected from this list, and publish in the list after that. It manages the transmission and reception of data by the wireless communication device.

The wireless repeater according to the present invention is a wireless repeater for relaying data transmitted / received between two or more wireless communication devices, and when data is received from any one of the wireless communication devices. , Create a list of wireless communication devices that can call and communicate with surrounding wireless communication devices in two or more radio waves with different output levels so that the output level to which each responds can be specified, and select one other from this list. The wireless communication device transmits data at the specified output level, and thereafter transmits / receives data to / from each wireless communication device listed on the list at the specified output level. It is a thing.

[0030]

BEST MODE FOR CARRYING OUT THE INVENTION A radio communication system and a radio repeater according to embodiments of the present invention will be described below with reference to the drawings.

Embodiment 1.

FIG. 1 is a system configuration diagram showing the overall configuration of a wireless communication system 8 according to the first embodiment of the present invention.

The wireless communication system 8 includes a mobile phone terminal 2 as a first wireless communication device owned by a user in the vehicle 1, a wireless repeater 3 installed in the vehicle 1, and a drive. A fixed wireless communication terminal 5 as a second wireless communication device installed in a store 4 capable of selling products by a through method. The fixed wireless communication terminal 5 is connected to the order receiving computer 6 installed in the store 4 or the like.
It is connected via AN7. In the following, the mobile phone terminal 2, the wireless repeater 3, and the fixed wireless communication terminal 5 will be described.
Are collectively referred to as wireless communication devices.

The mobile phone terminal 2 has a function of transmitting and receiving data and voice through a normal carrier, and a function of transmitting and receiving data based on the so-called Bluetooth standard.

The Bluetooth standard is a data transmission / reception standard for short distances using radio waves in the IMS band (2.4 GHz band). In this standard, wireless communication devices are classified into three classes based on the output class of radio waves used for data transmission and reception. The maximum radio wave output class is +20 dBm (minimum 0 dBm) in the class 1 wireless communication device, the maximum radio wave output class is +4 dBm (minimum -6 dBm) in the class 2 wireless communication device, and the class 3 wireless communication device is The maximum output class of radio waves is 0 dBm. In addition, in the class 1 wireless communication device, a power control function for lowering the output level to class 2 or lower is essential.

Approximately 100 between class 1 wireless communication devices
m, about 10m between class 2 or 3 wireless communication devices
Data can be communicated with each other even when they are remote. On the other hand, since the output levels of radio waves differ between classes for wireless communication devices of different classes, even if the transmission data of one wireless communication device can be correctly received by the other wireless communication device, One wireless communication device cannot accurately receive the transmission data of the communication device. As a result, so-called bidirectional data transmission / reception cannot be performed. Therefore, in the class 1 wireless communication device, the above power control function is essential for communication with the class 2 or 3 wireless communication device.

In the first embodiment, the fixed wireless communication terminal 5 is a wireless communication device that transmits and receives data with a radio wave conforming to class 1, and the mobile phone terminal 2 uses radio waves conforming to class 2 or 3. It is a wireless communication device that transmits and receives data.

The fixed wireless communication terminal 5 has a data transmission / reception function based on the standard called Bluetooth, and transmits a list of products to be sold in response to reception of a page transmission request from the mobile phone terminal 2, or the like. It receives the selection information of the product for the list and outputs it to the order receiving computer 6.

In order to reduce power consumption, wireless communication devices based on these Bluetooth standards are in a standby state (low power consumption standby state) until data to be transmitted is generated. Then, when the data to be transmitted is generated in the state where the link for transmitting and receiving the data is not established, the wireless communication device first calls the wireless communication devices in the vicinity and displays the list of the wireless communication devices that responded to the wireless communication device. create. Then, according to this list, data is sequentially transmitted and received to and from each wireless communication device by the time division multiplexing method.
After the list is created, each wireless communication device is given a unique identification number, and each wireless communication device discriminates the data addressed to itself from other data based on this identification number. In other words, data transmission / reception based on the Bluetooth standard is controlled by a master-slave system in which the link activation side is the master and the linked side is the slave.

On the other hand, after such a piconet link is established, each wireless communication device listed is a slave device under the control of the wireless communication device that is the master. Data communication is performed between the wireless communication device and the wireless communication device that is the master thereof.

Further, even if the wireless communication device is capable of data communication under the control of the predetermined wireless communication device as described above, if a call from a different wireless communication device is received, , And also respond to it. As a result, one wireless communication device can transmit and receive data under the control of a plurality of wireless communication devices, and even wireless communication devices that cannot directly communicate with each other belong to the two piconets. Data can be transmitted and received via a communication device.

When receiving data, the wireless repeater 3 first calls the surrounding wireless communication device using the radio waves of the class 1 and class 2 or the output class of the class 1 and class 3 so that the wireless communication device 3 can communicate. Create a list of communicators to identify the output class to which each responds. Next, the wireless relay device 3 transmits the data to the other wireless communication device selected from this list. Further, the wireless relay device 3 transmits / receives data to / from each wireless communication device listed.

Further, the radio relay station 3 periodically calls the class 1 and the class 2, or the class 1 and the class 3, and updates the list based on this. The list is also transmitted to the fixed wireless communication terminal 5. Therefore, for example, when the distance between the wireless relay device 3 and the fixed wireless communication terminal 5 approaches within 10 m, the wireless relay device 3 and the fixed wireless communication terminal 5 switch their output levels to the class 2 or the class 3, respectively. Transmission and reception can be continued.

Next, the overall operation of the wireless communication system 8 will be described.

The vehicle 1 is connected to the fixed wireless communication terminal 5 by about 100
While approaching within m, the user activates the Bluetooth communication function of the mobile phone terminal 2. The mobile phone terminal 2 emits a class 2 calling radio wave based on this activation. At this distance, the calling radio wave transmitted from the mobile phone terminal 2 does not reach the fixed wireless communication terminal 5 because its power is weak. On the other hand, the wireless repeater 3 installed in the vehicle 1 receives the calling radio wave and responds thereto. When the power of the mobile phone terminal 2 is turned on,
A link may be automatically established between the mobile phone terminal 2 and the wireless relay device 3.

The mobile phone terminal 2 receives the response from the wireless repeater 3 and registers it in the list. It also issues a unique identification number to the wireless relay device 3 and sends it to the wireless relay device 3. This makes the mobile phone terminal 2 the master,
In addition, a class 2 piconet having the wireless relay device 3 as a slave is established.

If there is another wireless communication device in this piconet, this other wireless communication device is also added to the above list, and the master mobile phone terminal 2 is connected to the wireless repeater 3
Data is transmitted and received in order by time division multiplexing with each of the plurality of wireless communication devices including.

When the user operates the mobile phone terminal 2 to input an order command for the store 4 while controlling the transmission and reception of data based on such a one-to-many link, the mobile phone terminal 2 Based on the list, it is confirmed that it cannot be directly transmitted to the fixed wireless communication terminal 5, and the order command is transmitted to the wireless relay device 3.

Upon receipt of this order command, the wireless repeater 3 uses the master-slave switch function to reestablish the link so that this wireless repeater 3 becomes the master and the other wireless repeaters become the slaves. To do. That is, the wireless relay device 3 first transmits the calling radio wave by using one of the two classes, and then transmits the calling radio wave by using the other class after a predetermined time. The mobile phone terminal 2 receives the call radio wave of class 2 or class 3 and responds to it. Fixed wireless communication terminal 5
Also receives the call radio wave of class 1 and responds to it. Then, the wireless relay device 3 generates a list of wireless communication devices that are slaves that can communicate with each other, including the mobile phone terminal 2 and the fixed wireless communication terminal 5. Further, in this list, the output level of the calling radio wave responding to each wireless communication device is stored in association with each other.

As a result, the wireless repeater 3 becomes the master,
A piconet having the mobile phone terminal 2 and the fixed wireless communication terminal 5 as slaves is newly established. Immediately before the establishment of this new link, the mobile phone terminal 2 stops calling the other wireless communication device to destroy the piconet having the mobile phone terminal 2 as a master. Good.

After that, the wireless relay device 3 sequentially transmits and receives data to and from each of the wireless communication devices registered in the list by the time division multiplexing method. Then, when transmitting / receiving data to / from the fixed wireless communication terminal 5, first, the power control function is used to set the transmission power of class 1,
The above order command is transmitted by the output radio wave of.

Further, when the wireless repeater 3 receives the response page from the fixed wireless communication terminal 5, the portable telephone terminal 2 receives the response page.
Use the power control function to reduce the output level to Class 2 or Class 3 before transmitting with
This is transmitted to the mobile phone terminal 2. After that, the data transmission and reception between the fixed wireless communication terminal 5 and the mobile phone terminal 2 are performed under the time division multiplexing control of the wireless repeater 3 and by using the corresponding predetermined class. Executed via.

As a result, when the portable telephone terminal 2 transmits the order data for a predetermined product to the fixed wireless communication terminal 5, the fixed wireless communication terminal 5 outputs this to the order receiving computer 6. The store 4 prepares for sale of the product based on the order list or the like displayed on the order receiving computer 6, while the user can receive the product immediately when the user arrives at the store 4. This allows
Orders can be handled efficiently. Also, the user
Products can be received without waiting at the product receiving place.

Even when the vehicle 1 approaches the store 4 and the distance between the wireless repeater 3 and the fixed wireless communication terminal 5 is 10 m or less, data transmission / reception between the mobile phone terminal 2 and the fixed wireless communication terminal 5 is not possible. When it is continued, the fixed wireless communication terminal 5 responds to the calling radio wave of class 2 or class 3 from the wireless relay device 3. In such a case, the output level of the fixed wireless communication terminal 5 registered in the list of the wireless relay device 3 is changed from class 1 to class 2, and thereafter, the wireless relay device 3 and the fixed wireless communication terminal 5 are connected to each other. Sends and receives data using Class 2 radio waves.

Also, as in the case where another vehicle waits a little for the drive-through, for example, the portable telephone terminal 2
If the user operates the mobile phone terminal 2 after the vehicle 1 approaches the store 4 such that the distance between the fixed wireless communication terminal 5 and the fixed wireless communication terminal 5 becomes 10 m or less, the class 2 from the mobile phone terminal 2 is
Alternatively, a fixed radio communication terminal 5 can be used for calling radio waves of class 3.
Will respond directly. In such a case, data is transferred between the mobile phone terminal 2 as a master and the fixed wireless communication terminal 5 as a slave without passing through the wireless relay device 3 while keeping the piconet as the master of the mobile phone terminal 2. You can send and receive.

Thus, based on the list, class 2
Data is transmitted / received to / from the mobile phone terminal 2 by the radio wave of
The conventional problem can be solved by providing the wireless repeater 3 that transmits and receives data to and from the fixed wireless communication terminal 5 using the radio wave of class 1 near the mobile phone terminal 2. That is, the mobile phone terminal 2 that originally was able to perform bidirectional communication only with a radio wave of class 2, that is, at a distance of 10 m or less, with a radio wave of class 1, that is, 100
With the fixed wireless communication terminal 5 that was capable of bidirectional communication only at a distance of m or less, a bidirectional communication link was established at a communication distance of about 100 m, which is a reach distance of class 1 radio waves, and data was transmitted. You can send and receive.

Moreover, since the portable telephone terminal 2 has only to transmit and receive the radio wave of class 2, the waste of battery power and the portable telephone terminal 5 are wasted as in the case where the transceiver of class 1 is mounted on the portable telephone terminal 2. The size of the mobile phone terminal 2 is not increased, and the usability of the mobile phone terminal 2 comparable to the conventional one can be maintained.

Further, since the wireless repeater 3 operates so as to form a piconet according to class 1 only when receiving data, the mobile phone terminal 2 and the fixed wireless communication terminal 5 directly transmit and receive data, and wireless communication is performed. By preventing data from being transmitted to the repeater 3, the communication will not be adversely affected.

In particular, since the wireless relay device 3 selects a wireless communication device as a data transmission destination based on the list and transmits / receives data to / from this wireless relay device 3 as in this embodiment,
The wireless repeater 3 does not interfere with the formation of the master-slave type piconet for one-to-many communication by the mobile phone terminal 2 or the like.
Can be incorporated into a wireless network of a wireless communication system.

Further, since the wireless repeater 3 itself has only the function of transmitting and receiving data by Bluetooth, it can be downsized at a lower cost than the case where it is integrated with the mobile phone terminal 5, and the power consumption is increased. It is possible to drive with a small battery by suppressing the above. As a result, by incorporating the wireless relay device 3 in a part of a car audio device or the like, the wireless relay device 3 can be mounted in the vehicle 1 or can be carried in the user's bag without being aware of it.

In particular, by providing the wireless repeater 3 which emits the electric wave at the output level of class 1 in this way, separately from the portable telephone terminal 2 owned by the user, it can be used at a short distance from the human body. In this case, the class 1 wireless communication device that outputs radio waves in the IMF band, which may cause eye damage, can be kept away from the human body by, for example, about 10 m.

Further, the wireless repeater 3 periodically repeats the above 2
Since the call is made at one output level and the list is updated based on the response to the call, even if the distance between the wireless repeater 3 and the fixed wireless communication terminal 5 changes from 10 m or more to less than 10 m, it is possible to respond to this. The output level of the radio wave can be appropriately switched from class 1 to class 2 or 3. The reverse is also possible. Therefore, the mobile phone terminal 2 and the fixed wireless communication terminal 5 can perform bidirectional data communication regardless of the change in the communication distance.

Although the above embodiment is a preferred embodiment of the present invention, various modifications can be made without departing from the spirit of the present invention. For example, in the above-described embodiment, the mobile phone terminal 2 determines to the wireless repeater 3 that the fixed wireless communication terminal 5 is absent in the piconet whose master is the mobile phone terminal 2 based on the list. Although data is transmitted, first, data is transmitted from the mobile phone terminal 2 to the fixed wireless communication terminal 5, and after determining that there is no response to this, the same data is transmitted to the wireless relay device 3. Good.

In the case of confirming the absence of the fixed wireless communication terminal 5 based on the list as in the above-described embodiment, the reliable data is more reliable than in the case of transmitting the data to the fixed wireless communication terminal 5 as a trial. Transmission can be started immediately, and it can be expected to receive a page or the like from the fixed wireless communication terminal 5 with a stable response time. On the other hand, in the latter case, if the distance between the mobile phone terminal 2 and the fixed wireless communication terminal 5 is 10 m or less after transmitting the calling radio wave, the data should be transmitted without activating the wireless relay device 3. It has the advantage that

Further, in the above embodiment, by installing the wireless repeater 3 in the vehicle 1, the fixed wireless communication terminal 5 of class 1 installed in the store 4 capable of drive-through and the class used by the user. The case where data transmission / reception with two or three mobile phone terminals 2 is enabled is described as an example, but the present invention can also be applied to other cases. For example, by disposing the class 1 fixed wireless communication terminal 5 in the center of the floor of a department store and by carrying the wireless relay device 3 in the bag of the user having the mobile phone terminal 2, the fixed wireless communication terminal 5 to 10 m Data can be transmitted / received to / from the fixed wireless communication terminal 5 using the mobile phone terminal 2 of class 2 or 3 even if they are located apart from each other.

Further, a class 2 or class 3 mobile phone terminal possessed by a store clerk may be arranged near the fixed wireless communication terminal 5, or the LAN may be wireless instead of wired. Further, the fixed wireless communication terminal 5 has a function of switching a plurality of output levels from the class 1 and the classes 2 and 3, but may have an output level of only the class 1. In this case, it is preferable that a mobile phone terminal of class 2 or 3 that can communicate with the mobile phone terminal 2 is provided in the store 4 when the user approaches the mobile phone terminal.

Further, in the above embodiment, both the wireless repeater 3 and the fixed wireless communication terminal 5 are capable of switching a plurality of output levels, but they may be simultaneously output instead of switching. Further, the output level may be three or more.

[0068]

The wireless communication system and the wireless repeater according to the present invention can transmit data from a wireless communication device that transmits a radio wave having an output level that can only reach a short distance, to a longer distance than that. it can.

In addition, a wireless communication system and a wireless repeater according to another aspect of the present invention call up a plurality of wireless communication devices in the vicinity in response to the reception of data and display a list of wireless communication devices with which communication is possible. Create and send data to one other wireless device selected from this list,
Even if these wireless communication devices are separated from each other by a distance that enables data transmission / reception between them, data can be transmitted / received by establishing a link between these wireless communication devices.

Further, a wireless communication system and a wireless repeater according to another invention, the wireless repeater calls a plurality of wireless communication devices in the vicinity in response to reception of data and displays a list of wireless communication devices with which communication is possible. Create and send data to one other wireless device selected from this list,
Even if these wireless communication devices cannot directly communicate with each other bidirectionally, data can be transmitted and received by establishing a link between the plurality of wireless communication devices.

[Brief description of drawings]

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

FIG. 2 is an explanatory diagram of a scatternet defined by a so-called Bluetooth standard.

[Explanation of symbols]

1 vehicle 2 mobile phone terminal (wireless communication device, first wireless communication device) 3 wireless relay device (wireless communication device) 4 store 5 fixed wireless communication terminal (wireless communication device, second wireless communication device) 6 ordering computer 7 LAN 8 wireless communication system

Claims (9)

[Claims] 1. A device capable of reproducing data from a radio wave in a predetermined input level range and transmitting data by a radio wave of a first output level which is within the input level range when received within a predetermined distance range. Data can be reproduced from one radio communication device and a radio wave within a predetermined input level range, and at the same time, the first radio transmitter can reproduce data at a radio wave of the above-mentioned first output level and at a farther distance. A second wireless communication device that switches the radio wave of the second output level to transmit the data, and can reproduce the data from the radio wave of the predetermined input level range, and the radio wave of the first output level and the second radio wave of the second output level. You can switch the output level radio wave and send data, and when receiving data from any wireless communication device,
Create a list of wireless communication devices that can call and communicate with the surrounding wireless communication devices at the output levels of the above two radio waves so that each output level that responds can be specified, and the wireless communication devices listed in this list And a wireless repeater for transmitting and receiving data at respective output levels between the wireless communication systems. 2. The wireless repeater periodically calls at the two output levels or one of the output levels, and updates the list based on the call. The described wireless communication system. 3. The first wireless communication device or the second wireless communication device calls another wireless communication device in the vicinity to create another wireless communication device and a list with which communication is possible, and transmits data to this list. The wireless communication system according to claim 1, wherein when the wireless communication device which is the destination is not included and the wireless relay device is included, the data is transmitted to the wireless relay device. . 4. The first wireless communication device or the second wireless communication device calls or transmits data to the other wireless communication device to which data is to be transmitted, and determines that there is no response to this. The wireless communication system according to claim 1, wherein data is transmitted to the wireless repeater when the wireless communication is performed. 5. A method for reproducing data from a radio wave within a predetermined input level range, and transmitting the data with a radio wave having a first output level within the input level range when received within a predetermined distance range. Data can be reproduced from one radio communication device and a radio wave within a predetermined input level range, and at the same time, the first radio transmitter can reproduce data at a radio wave of the above-mentioned first output level and at a farther distance. The data transmitted and received between the second wireless communication device that switches the radio wave of the second output level and transmits the data and the wireless communication device of the above-mentioned Taichi is transmitted and received by the radio wave of the first output level. And a wireless relay device that transmits and receives data to and from the second wireless communication device using the radio wave of the second output level. 6. A plurality of wireless communications for creating a list of other wireless communicators capable of calling by calling nearby wireless communicators and transmitting data to one other wireless communicator selected from the list. In a wireless communication system including a wireless communication device, when data transmitted from a certain wireless communication device to another predetermined wireless communication device is received, a list of wireless communication devices that can communicate by calling nearby wireless communication devices is created, A wireless repeater that manages the transmission and reception of data to and from the wireless communication devices listed in the list while transmitting the data to the wireless communication device when the other wireless communication device is present in this list is provided. A wireless communication system characterized by the above. 7. In a wireless communication system including a plurality of wireless communication devices that cannot directly communicate with each other, when the data transmitted from one wireless communication device to another predetermined wireless communication device is received, the surroundings are received. Create a list of wireless communication devices that can be called by calling the wireless communication device, and if the other wireless communication device exists in this list, the above data is transmitted to the wireless communication device and the list A wireless communication system including a wireless relay device that manages transmission and reception of data to and from the wireless communication device described in. 8. A wireless relay device for relaying data transmitted and received between two or more wireless communication devices, wherein when data is received from any one of the wireless communication devices, a wireless communication device in the vicinity is Create a list of wireless communication devices that can be called and communicate, send the above data to one other wireless communication device selected from this list, and save the data by the wireless communication devices listed in the list thereafter. A wireless repeater that manages transmission and reception. 9. A wireless relay device for relaying data transmitted and received between two or more wireless communication devices, wherein two wireless output devices have different output levels when data is received from any one of the wireless communication devices. Create a list of wireless communication devices that can communicate by calling nearby wireless communication devices with the above radio waves so that the output level that each responds can be specified,
Data is transmitted at the output level specified to one other wireless communication device selected from this list, and thereafter, each wireless communication device listed and the above specified wireless communication device are specified. A wireless repeater that transmits and receives data at an output level.