JP3240892B2 - Data transmission / reception method and apparatus for implementing the method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data transmission / reception method and an apparatus for implementing the method, and more particularly, to data transmission / reception based on a type of data to be transmitted / received, a type of data amount, and a moving state of a mobile communication station. The present invention relates to a data transmission / reception method for switching and selecting and an apparatus for implementing the method.

[0002]

2. Description of the Related Art A conventional example will be described with reference to FIG. FIG.
Describes a method of transmitting and receiving data by taking an example of an external work support device for transmitting and receiving data between a plurality of mobile communication stations operated by off-site workers and a center communication station for centrally managing the plurality of mobile communication stations. FIG.

[0003] In FIG. 7, various information associated with the work is included in the maintenance and inspection of the outside facilities, the service construction requested by the customer, the outside work associated with the failure repair and the like, or the emergency outside work accompanying the disaster. I need. The various types of information include the location of the off-site equipment, the details of the equipment or contact information from the customer, the failure status, the history of the equipment, and other information. It is necessary for the off-site worker in charge to communicate information on the contents of the treatment, the progress of the operation, the location of the worker, and other information. Referring to FIG. 7A, in order to confirm the position of the worker, a global positioning system (GPS) including a GPS satellite as a positioning device is used.
m), the position detecting device is mounted on a mobile communication station 7 which is a working vehicle, and the information on the position obtained by the mobile communication station 7 is transmitted between the center communication stations 8 using a business radio or a mobile phone. In order to ascertain the position of each mobile communication station 7 on a map. FIG. 7 (b)
In order to transmit the contents of the out-of-office maintenance work to the center communication station 8, a mobile phone is mounted on the mobile communication station 7, which is a working vehicle, and information communication is performed. In performing off-site work, the amount of data to be transmitted and received,
The data structure and other data contents are diversified, and the transmission / reception timing is also diversified at the end of work in the field, when walking, when the mobile communication station is mounted on a work vehicle, when the vehicle is stopped, at high speed, and the like.

[0004]

However, in the above-mentioned example of data transmission / reception of the out-of-office work support device, the data transmission / reception device is fixed, and the type and amount of data to be transmitted / received, the mobile communication station, and the like. There is no room to select the most suitable data transmitting / receiving device corresponding to the moving state and other requirements.
Due to the fact that data transmission / reception methods and devices are not always appropriate for the type of data, data transmission / reception requires a very long transmission time, or the number of communication retries increases, and in some situations, A problem arises in that data cannot be transmitted and received.

[0005] The present invention has solved the above-described problem of reliably and efficiently transmitting and receiving data in accordance with various types and contents of data, the amount of data, the moving state of a mobile communication station, and other requirements. An object of the present invention is to provide a data transmission / reception method and an apparatus for implementing the method. FIG. 8 shows the types and characteristics of the transmission / reception devices.

[0006]

Means for Solving the Problems Claim 1: A plurality of mobile communication stations are provided, and a center communication station for centrally managing the plurality of mobile communication stations is provided. A plurality of transmission / reception devices having different characteristics for communicating between center communication stations are provided, a first transmission / reception device is selectively set based on transmission data, data is transmitted, and the type of transmission data detected is determined. In the data transmission / reception method for selectively setting the first-rank transmission / reception device based on the data type, a data transmission / reception method is configured in which data types are classified into three types: text data, bit mark data, and designated data. Claim 2: A plurality of mobile communication stations are provided, a center communication station for centrally managing the plurality of mobile communication stations is provided, and communication is performed between mobile communication stations or between a mobile communication station and the center communication station. A plurality of transmission / reception devices having different characteristics, transmitting and receiving data by selecting and setting the first-rank transmission / reception device based on the transmission data, and based on the detected transmission data type and the transmission data capacity. In the data transmission / reception method for selectively setting the transmission / reception device of the first rank, a data transmission / reception method is configured in which data types are classified into three types: text data, bit mark data, and designated data. Claim 3: In the data transmission / reception method according to any one of claims 1 and 2, the data transmission / reception in which the instruction communication, the position of the mobile communication station, and the work progress status occurring in an emergency are classified into designated data. The method was configured. Further, in the data transmission / reception method according to any one of claims 1 to 3, if the first transmission / reception device cannot be connected, the second transmission / reception device is set. In addition, a data transmission / reception method for temporarily storing data in a storage device built in the operation terminal when it is not possible to connect to the second transmission / reception device is configured.

Here, claim 5 includes a plurality of mobile communication stations, a center communication station for centrally managing the plurality of mobile communication stations, and the mobile communication stations are mutually connected or the mobile communication station and the center communication station. A plurality of transmission / reception devices having different characteristics for communicating between the mobile stations, transmitting / receiving data by selecting and setting the first transmission / reception device based on the moving state of the mobile communication station and / or transmission data. In the data transmission / reception method for selecting and setting the first-rank transmission / reception device based on the type of transmission data, a data transmission / reception method is configured in which data types are classified into three types: text data, bit mark data, and designated data. Claim 6: A plurality of mobile communication stations are provided, and a center communication station for centrally managing the plurality of mobile communication stations is provided, and communication is performed between the mobile communication stations or between the mobile communication station and the center communication station. A plurality of transmission / reception devices having different characteristics, transmitting / receiving data by selecting and setting a first-order transmission / reception device based on a moving state of a mobile communication station and / or transmission data. In the data transmission / reception method of selecting and setting the first transmission / reception device based on the type of data and the data capacity of the transmission data, the data types are text data, bit mark data, and designated data.
The data transmission / reception method classified into the types was configured. Claim 7: In the data transmission / reception method according to claim 6, when the data capacity becomes large, the data is processed in real time or the data is temporarily stored in a storage device built in the operation terminal. A data transmission / reception method for judging is configured. Further, in the data transmitting / receiving method according to the present invention, it is preferable that the data temporarily stored in the storage device is transmitted through the second transmitting / receiving device when the mobile communication station stops. The characteristic data transmission / reception method was constructed. Claim 9: In the data transmission / reception method according to any one of claims 5 and 6, the instruction communication, the position of the mobile communication station, and the work progress status occurring in an emergency are classified into designated data. The characteristic data transmission / reception method was constructed.

[0010] Further, the present invention provides a mobile communication station comprising a plurality of mobile communication stations, a center communication station for centrally managing the plurality of mobile communication stations, and a communication between the mobile communication stations or between the mobile communication station and the center communication station. In a data transmission / reception method in which a plurality of transmission / reception devices having different characteristics for communicating between the plurality of transmission / reception devices are provided, a first transmission / reception device is selectively set based on transmission data and data is transmitted, the plurality of mobile communication stations perform their own mobile communication. The state is detected at each mobile communication station, and the mobile communication station periodically transmits the detected movement state of the mobile communication station to the center communication station, and the center communication station transmits the movement of each transmitted mobile communication station. The state is managed by the database module,
A data transmission / reception method is configured to select and set a transmission / reception device according to the moving state of a mobile communication station managed by a database module when transmitting from a center communication station or a mobile communication station to another mobile communication station. Here, claim 11: A plurality of mobile communication stations are provided, and a center communication station for centrally managing the plurality of mobile communication stations is provided, and the communication between mobile communication stations or between the mobile communication station and the center communication station is provided. A plurality of transmission / reception devices having different characteristics to communicate with each other are provided, and a first transmission / reception device is selectively set based on transmission data, and the mobile communication station includes an operation terminal including a computer, a position detection device, and a digital still camera. In the data transmitting and receiving device, the mobile communication station further includes a data detecting unit for detecting data to be transmitted, a data classifying unit for classifying the type of the detected data, and output data of the data classifying unit. The data transmission / reception device includes a data capacity determination unit that determines a part of the data capacity, and includes a storage device that temporarily stores data.

[0009] Claim 12: A plurality of mobile communication stations are provided, a center communication station for centrally managing the plurality of mobile communication stations is provided, and a mobile communication station is provided between mobile communication stations or between a mobile communication station and a center communication station. A plurality of transmission / reception devices having different characteristics for communicating between the transmission / reception devices; a first transmission / reception device is selectively set based on transmission data; and the mobile communication station is an operation terminal including a computer, a position detection device, and a digital still camera. In the data transmission / reception device comprising: the mobile communication station further includes a movement state determination unit that determines a movement state of the mobile communication station, and further includes a changeover switch that is switched by a stopped output of the movement state determination unit. A data detecting unit that detects data to be transmitted, which is activated by the moving output of the moving state determining unit, and classifies the type of the detected data. A real-time processing determining unit that includes a data capacity determining unit that determines the data capacity of a part of the output data of the data classifying unit, and that inputs a large capacity output of the data capacity determining unit and determines whether transmission is possible. With
The data transmission / reception device includes a storage device for temporarily storing data in response to a non-output of the real-time processing determination unit, and a changeover switch is connected to an output of the storage device. Claim 13: A plurality of mobile communication stations are provided, and a center communication station for centrally managing the plurality of mobile communication stations is provided, and communication is performed between the mobile communication stations or between the mobile communication station and the center communication station. A plurality of transmission / reception devices having different characteristics, a first transmission / reception device is selectively set based on transmission data, and the mobile communication station is an operation terminal including a computer;
In the data transmission / reception device including the position detection device and the digital still camera 13, the mobile communication station includes a database registration unit that transmits a moving state to the center communication station, and the center communication station transmits each mobile communication transmitted from the mobile communication station. A database module for managing the moving state of the station; selecting a transmitting / receiving apparatus according to the moving state of the mobile communication station managed by the database module when transmitting from the center communication station or the mobile communication station to another mobile communication station; A data transmission / reception device that performs

[0010]

DETAILED DESCRIPTION OF THE INVENTION The present invention provides a plurality of mobile communication stations,
It comprises a center communication station that centrally manages a plurality of mobile communication stations and a plurality of transmission / reception devices having different characteristics. In this case, the mobile communication station includes an operation terminal, a communication terminal corresponding to a plurality of transmission / reception devices having different characteristics, and a switching module for switching the transmission / reception device. The mobile communication station is further provided with a moving state detecting device for detecting a moving state of the mobile communication station. Similarly, the center communication station also includes an operation terminal, a communication terminal corresponding to a plurality of transmission / reception devices having different characteristics, and a switching module for switching the transmission / reception device. The center communication station is further provided with a function module for registering the moving states of a plurality of mobile communication stations.

A plurality of transmitting / receiving apparatuses having different characteristics include a portable telephone and a PHS (Personal Handy-phone System).
), NTT business radio, taxi radio and other business radio, dedicated satellite communication and other transmitting and receiving devices can be adopted.

[0012]

An embodiment of the present invention will be described with reference to FIG. FIG. 1 also shows an out-of-office work supporting apparatus for transmitting and receiving data between a plurality of mobile communication stations operated by off-site workers and a center communication station for centrally managing these plurality of mobile communication stations, similarly to FIG. FIG. 4 is a diagram for explaining a method of transmitting and receiving data by taking the example as an example.

In FIG. 1, reference numeral 7 denotes a mobile communication station which is a work vehicle. Reference numeral 8 denotes a center communication station that performs centralized management.
As a plurality of transmitting / receiving apparatuses having different characteristics for performing communication between the mobile communication station 7 and the center communication station 8, a PHS network 9 supporting a bearer service for data communication and a business radio 10 are used. A description will be given of the components mounted on the mobile communication station 7 which is a work vehicle among the elements constituting the out-of-office work support apparatus. Reference numeral 1 denotes a mobile communication station operation terminal including a computer. 2 is the mobile communication station operation terminal PH
A transmission / reception device switching module for switching to either the S network 9 or the business radio 10. Reference numeral 3 denotes a communication terminal corresponding to the PHS network 9 corresponding to the bearer service, which is one of the transmission / reception devices. 4 is a PCMC arranged in the operation terminal 1
2 shows an IA card. Reference numeral 5 denotes a communication terminal corresponding to the business radio 10 which is the other of the transmission / reception devices. 6 is RS232
Shows the C port. In this embodiment, the GPS
The mobile communication station 7, which is a working vehicle, is equipped with a position detecting device 11, a car navigation device 120, and a digital still camera 13 of a global positioning device including the above.

The transmission rate of the data communication bearer service PHS employed in this embodiment is approximately 32 kp.
bs. The transmission rate of the business radio adopted as the other transmitting / receiving device is 1200 bps. Further, in this embodiment, the data transmitted from the center communication station 8 to the mobile communication station 7 includes the outside facility number, the outside facility name, the location of the outside facility, the contents of the facility, the contact information from the customer, and the failure status. , The history of the facility, the instruction contact that occurred in an emergency, the location of the other mobile communication station, and the work progress of the worker in charge of the other mobile communication station. The data transmitted from the mobile communication station 7 to the center communication station 8 was the treatment contents of the off-site worker in charge and the progress of the work.

Further, the mobile communication station 7 obtains position information and route information data of the mobile communication station itself by the position detecting device 11 of the global positioning device including the GPS and the car navigation device 120, and transmits these data to the mobile communication device. The mobile station 7 transmits to the center communication station 8 to detect the moving state of the mobile communication station 7. Further, by installing the digital still camera 13 in the mobile communication station 7, an image of the external equipment is taken in, the image is transmitted from the mobile communication station 7 to the center communication station 8, and a person in charge of the center communication station 8 is provided in real time. The system was configured to grasp the equipment status.

In this embodiment, when data is transmitted from the mobile communication station 7 to the center communication station 8, the type of data and the data capacity are detected, and the priority of the transmitting / receiving apparatus is determined based on the type and capacity. These data calculation processes are performed by the operation terminal 1 composed of a computer. As data types, three classifications of text data, bit mark data, and designated data are adopted. Here, the text data is data including character information and vector information specifying a line segment on a map. Bit mark data is image information and image information.
The designated data is data that needs to be designated in the transmission and reception of the data, data that is frequently transmitted and received, and urgent data. Here, referring to the flowchart of FIG. 2, when the person in charge of the mobile communication station 7 takes a procedure for starting data transmission, data is detected, and this data is any of text data, bit mark data, or designated data. Is determined. If the type of data is the designated data, the business radio is set as the first rank. If the data type is text data, the size of the data is determined. If the data size is small, the business radio is set as the first rank. If the capacity is large, the PHS line is set as the first priority. If the data type is bit mark data, the PHS line is set as the first order. Although not explicitly shown in FIG. 2, the first-rank line is connected first, but if it is not possible to connect to the first-rank transmission / reception device, the line is switched to the second-rank line. Further, when the second-rank line cannot be connected, a configuration is adopted in which this data is temporarily stored in a storage device built in the operation terminal of the mobile communication station.

Among the data transmitted from the center communication station 8 to the mobile communication station 7, instruction communication generated in an emergency, the position of another mobile communication station, and the work progress status of the worker in charge of the other mobile communication station are designated data. As a transmitting and receiving device to be used, the business radio is set as the first order, and the mobile communication station 7 can transmit any time at the request of the worker in charge. Similarly, among the data transmitted from the mobile communication station 7 to the center communication station 8, the position information of the own vehicle and the progress of the work are designated as designated data, and the priority order of the transmitting / receiving device to be used is set to the first radio. The rankings were sent periodically. As a result, information that is frequently transmitted to and received from multiple points can be automatically distributed to the business radio, and information that is not frequent but has a large transmission capacity can be automatically distributed to the PHS line.
The time required for connecting the line and the number of times the line is interrupted on the way are reduced, so that efficient off-site work can be performed.

Another embodiment of the present invention will be described with reference to FIG. In FIG. 3, the PHS line 9 and the mobile phone line 1 are used as a plurality of transmission / reception devices having different characteristics.
Use 0. In the above embodiment, the application range is limited to the range where the transmission radio wave can reach from the center communication station 8 because the business radio is used. However, since both the mobile phone line 10 and the PHS line 9 are public lines, a wide area communication is performed. This is an effective transmitting and receiving device when the working area is a wide area. However, when working in a wide area, the time required to move the vehicle is long, and the PHS line cannot be used while the vehicle is moving. In this case, the mobile phone line 10 is used.
Here, the position information and route information data of the mobile communication station itself are acquired by the GPS position detection device 11 and the car navigation device 120, and these data are transmitted from the mobile communication station 7 to the center communication station 8 to be transmitted to the mobile communication station 7. Detects the moving state of. A configuration is adopted in which the transmitting / receiving device is automatically switched according to the moving state of the mobile communication station detected in this way.

As a device for detecting the moving state of the mobile communication station, a device for detecting the moving state from a change in the position detected by the GPS, or a device for detecting the moving state from the rotation of the axle of a work vehicle equipped with the mobile communication station. Can be adopted.
A device that detects the moving state of the mobile communication station from a change in the detected position obtained by the GPS position detecting device 11 has a variation in the detected position data. Must be averaged. In addition, the device that obtains from the axle rotation of the work vehicle equipped with the mobile communication station can obtain the change in the detected position accurately by a simple configuration for extracting the signal of the rotation sensor. Therefore, when the mobile communication station is mounted on the work vehicle, it is more appropriate to detect the moving state of the mobile communication station based on the rotation of the axle of the work vehicle.

The operation of the embodiment of FIG. 3 will be described with reference to the flowchart of FIG. 4. When a worker in charge transmits required data, the transmission process is started by the operation terminal 1 of the mobile communication station 7; The position detecting device 11 first detects a moving state of the mobile communication station 7. Then, similarly to the previous embodiment, the target data to be transmitted is detected, the type of data is determined, and then the data capacity is determined. Here, when the mobile communication station 7 is moving, the PHS is performed while the vehicle is moving.
Since the line 9 cannot be used, the mobile phone line 10 is necessarily selected and set. When the mobile communication station 7 is stopped, the first-ranked transmission / reception device is selected and set based on the type of data of the target data to be transmitted and the data capacity in the same manner as in the previous embodiment. . Also,
In order to make the transmission time more efficient, even if the mobile communication station 7 is moving, if the data transmission capacity is very large, the PHS line 9 will be stopped when the mobile communication station 7 stops.
Is adopted to adopt a configuration for transmitting data collectively by using. 4
Reference numeral 06 denotes a changeover switch that operates at the time of the stop. By doing as described above, it is possible to effectively select the PHS line and the mobile phone line regardless of whether or not the mobile communication station is moving, even in an off-site work over a wide area. Data transmission time can be reduced.

Another embodiment will be described with reference to FIG. In this embodiment, data is efficiently transmitted to a mobile communication station in an embodiment using a PHS line and a mobile phone line. In FIG. 5, members common to those in FIG. 3 are given the same reference numerals. 12
Is a database module installed in the center communication station 8 for centralized management. Referring to the flowchart of FIG. 6 as well, first, the center communication station 8 performs a reception mobile station line selection start procedure 601 and asks for a movement state inquiry 6.
When 02 is performed, as in the embodiment of FIG. 3, the plurality of mobile communication stations 7 automatically detect their own moving states at the respective mobile communication stations. The mobile communication station periodically transmits the detected moving state of the mobile communication station 7 to the center communication station 8 via the database registration unit 600. The center communication station 8 manages, using the ID number corresponding to the mobile communication station as a key, the database module 12 in which the transmitted movement state of each mobile communication station 7 is installed. When transmitting data from the center communication station 8 or the mobile communication station 7 to another mobile communication station 7, this database module 12 is transmitted in the same manner as in the embodiment of FIG.
The transmission / reception device is selected in accordance with the moving state of the mobile communication station managed by.

The above description of the data transmission / reception method and apparatus is based on the example of data transmission / reception between a plurality of mobile communication stations operated by off-site workers and a center communication station for centrally managing the plurality of mobile communication stations. However, this can be similarly applied to data transmission / reception between a plurality of general mobile communication stations and a center communication station which centrally manages the plurality of mobile communication stations.

[0023]

As described above, the present invention provides a method for transmitting and receiving data between the center communication station 8 and the mobile communication station 7 or the mobile communication station 7 for centralized management. It is possible to access a transmitting / receiving apparatus having characteristics and select an optimum transmitting / receiving apparatus. This reduces the data transmission time and the amount of retransmission work,
Transmission work efficiency can be greatly improved. And
Since the transmission / reception device can be automatically selected, even a worker who is unfamiliar with the operation of the device can efficiently and easily transmit the work result data from the mobile communication station to the center communication station.

[Brief description of the drawings]

FIG. 1 illustrates an embodiment.

FIG. 2 is a flowchart corresponding to the embodiment of FIG. 1;

FIG. 3 is a diagram illustrating another embodiment.

FIG. 4 is a flowchart corresponding to another embodiment.

FIG. 5 is a view for explaining still another embodiment.

FIG. 6 is a flowchart corresponding to still another embodiment.

FIG. 7 illustrates a conventional example.

FIG. 8 is a diagram illustrating types and characteristics of a transmission / reception device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Operation terminal 2 Switching module 3 Communication terminal 5 Communication terminal 7 Mobile communication station 8 Center communication station 9 PHS network 10 Business radio 11 Position detection device 12 Car navigation device 13 Digital still camera

Continuation of the front page (72) Inventor Chinori Hasu 3-9-1-2 Nishi-Shinjuku, Shinjuku-ku, Tokyo Nippon Telegraph and Telephone Corporation (56) References JP-A-5-48522 (JP, A) JP-A-6 -188830 (JP, A) JP-A-6-343189 (JP, A) JP-A-7-212817 (JP, A) JP-A-7-231474 (JP, A) JP-A-7-298339 (JP, A) ) Special Table Hei 6-506817 (JP, A) (58) Fields surveyed (Int. Cl. ⁷ , DB name) H04B 7/26 H04Q ⁷ /04-7/38

Claims (13)

(57) [Claims] 1. A mobile station comprising a plurality of mobile communication stations, a center communication station for centrally managing the plurality of mobile communication stations, and communication between mobile communication stations or between a mobile communication station and the center communication station. Equipped with a plurality of transmission and reception devices having different characteristics,
In a data transmission / reception method of selectively setting and setting a first-rank transmission / reception device based on transmission data and transmitting data, and selecting and setting a first-rank transmission / reception device based on a detected type of transmission data, Text data, bit mark data,
And a data transmission / reception method characterized by classifying the data into three types: designated data and designated data. 2. A mobile communication station comprising a plurality of mobile communication stations, a center communication station for centrally managing the plurality of mobile communication stations, and communication between the mobile communication stations or between the mobile communication station and the center communication station. Equipped with a plurality of transmission and reception devices having different characteristics,
A data transmission / reception method for selectively setting and setting a first-rank transmission / reception device based on transmission data and transmitting data, and selecting and setting a first-rank transmission / reception device based on a detected type of transmission data and a size of the transmission data. The data types are text data, bit mark data,
And a data transmission / reception method characterized by classifying the data into three types: designated data and designated data. 3. The data transmission / reception method according to claim 1, wherein an instruction communication, a position of a mobile communication station, and a work progress status occurring in an emergency are classified into designated data. Data transmission and reception method. 4. The data transmission / reception method according to claim 1, wherein a second-rank transmission / reception device is set when it is not possible to connect to the first-rank transmission / reception device. A data transmission / reception method characterized by temporarily storing data in a storage device built in an operation terminal when a connection cannot be established with a second-rank transmission / reception device. 5. A mobile communication station comprising a plurality of mobile communication stations, a center communication station for centrally managing the plurality of mobile communication stations, and communication between the mobile communication stations or between the mobile communication station and the center communication station. Equipped with a plurality of transmission and reception devices having different characteristics,
A first-order transmission / reception device is selectively set based on the movement state of the mobile communication station and / or transmission data, and data is transmitted. A first-order transmission / reception device is selectively set based on the type of detected transmission data. Data transmission / reception method, data types are text data, bit mark data,
And a data transmission / reception method characterized by classifying the data into three types: designated data and designated data. 6. A mobile communication station comprising a plurality of mobile communication stations, a center communication station for centrally managing the plurality of mobile communication stations, and communication between the mobile communication stations or between the mobile communication station and the center communication station. Equipped with a plurality of transmission and reception devices having different characteristics,
Based on the moving state of the mobile communication station and / or the transmission data, the first transmission / reception device is selectively set and transmitted, and the first transmission / reception device is transmitted based on the type of the detected transmission data and the data capacity of the transmission data. In the data transmission / reception method for selectively setting the transmission / reception device, the type of data is text data, bit mark data,
And a data transmission / reception method characterized by classifying the data into three types: designated data and designated data. 7. The data transmission / reception method according to claim 6, wherein when the data capacity is large, the data is processed in real time or the data is temporarily stored in a storage device built in the operation terminal. A data transmission / reception method characterized by determining. 8. The data transmission / reception method according to claim 7, wherein the data temporarily stored in the storage device is transmitted via the second transmission / reception device when the mobile communication station stops. Data transmission and reception method. 9. The data transmission / reception method according to claim 5, wherein an instruction communication generated in an emergency, a position of a mobile communication station, and a work progress status are classified into designated data. Data transmission and reception method. 10. A mobile communication station comprising a plurality of mobile communication stations, a center communication station for centrally managing the plurality of mobile communication stations, and communication between the mobile communication stations or between the mobile communication station and the center communication station. A data transmission / reception method comprising a plurality of transmission / reception apparatuses having different characteristics, and selectively setting and transmitting a first-rank transmission / reception apparatus based on transmission data, and transmitting data. The mobile communication station periodically transmits the detected mobile communication status to the center communication station, and the center communication station stores the transmitted mobile communication station database in the database. The module is managed by the module, and when transmitting from the center communication station or the mobile communication station to another mobile communication station, according to the moving state of the mobile communication station managed by the database module. Data transmission and reception method characterized by selecting set the transceiver. 11. A mobile communication station comprising a plurality of mobile communication stations, a center communication station for centrally managing the plurality of mobile communication stations, and communication between the mobile communication stations or between the mobile communication station and the center communication station. A plurality of transmission / reception devices having different characteristics, a first transmission / reception device is selectively set based on transmission data, and the mobile communication station is an operation terminal including a computer;
In a data transmission / reception device including a position detection device and a digital still camera, the mobile communication station further includes a data detection unit that detects data to be transmitted, and a data classification unit that classifies detected data. A data transmission / reception device comprising: a data capacity determination unit for determining a data capacity of a part of output data of the data classification unit; and a storage device for temporarily storing data. 12. A mobile communication station comprising a plurality of mobile communication stations, a center communication station for centrally managing the plurality of mobile communication stations, and communication between mobile communication stations or between a mobile communication station and a center communication station. A plurality of transmission / reception devices having different characteristics, a first transmission / reception device is selectively set based on transmission data, and the mobile communication station is an operation terminal including a computer;
In the data transmission / reception device including the position detection device and the digital still camera, the mobile communication station further includes a movement state determination unit that determines a movement state of the mobile communication station, and the switching control is performed by a stopped output of the movement state determination unit. Equipped with a changeover switch,
A data detecting unit that detects data to be transmitted, which is activated by the moving output of the moving state determining unit; and a data classifying unit that classifies the detected data. It has a data capacity judging unit to judge a part of data capacity, and has a real-time processing judging unit to judge whether transmission is possible by inputting a large capacity output of the data capacity judging unit. A data transmission / reception device comprising a storage device for temporarily storing data, wherein the changeover switch is connected to an output of the storage device. 13. A mobile station comprising a plurality of mobile communication stations, a center communication station for centrally managing the plurality of mobile communication stations, and communication between the mobile communication stations or between the mobile communication station and the center communication station. A plurality of transmission / reception devices having different characteristics, a first transmission / reception device is selectively set based on transmission data, and the mobile communication station is an operation terminal including a computer;
In the data transmitting / receiving apparatus including the position detecting device and the digital still camera 13, the mobile communication station includes a database registration unit for transmitting a moving state to the center communication station, and the center communication station performs each mobile communication transmitted from the mobile communication station. A database module for managing the moving state of the station; selecting a transmitting / receiving apparatus according to the moving state of the mobile communication station managed by the database module when transmitting from the center communication station or the mobile communication station to another mobile communication station; A data transmitting / receiving device, comprising: