JPH11331947A - Radio station, radio data communication method and program storage medium - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve availability of a communication circuit and also to decrease the useless repeated calls by deciding the presence or absence of communication data, detecting the circuit disconnection reason, disconnecting a radio link when a circuit disconnection enabling signal is received, establishing the radio link when the transmission of data is required and restarting the communication of data. SOLUTION: When a mobile station data communication terminal 1 receives a disconnection signal from a mobile station 2, the terminal 1 inquires of the station 2 about a non-data circuit disconnection enabling signal and the circuit disconnection reason and carries on the communication of data if it's decided that the circuit is disconnected by its quality deterioration. A radio data communication device 3 also continues its data communication state when the circuit is disconnected by its quality deterioration. If no data are transmitted within a prescribed fixed time, the station 2 disconnects a radio link 6 in response to a circuit disconnection instruction. At the same time, the terminal 1 receives the non-data circuit enabling signal from the device 3 and the device 3 transmits the non-data circuit enabling signal. Thus, a data communication state is maintained.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to control of a wireless data communication system for performing data communication via a wireless communication line, and more particularly to disconnection of a wireless link not related to call control while one circuit-switched call is continued. Also, the present invention relates to control of data communication in which effective re-establishment of a wireless link can be achieved by automatically performing re-establishment.

[0002]

2. Description of the Related Art FIG. 13 shows an example of the configuration of a conventional wireless data communication system. In the figure, numeral 1 indicates a mobile station data communication terminal, 2 indicates a mobile station, 3 indicates a wireless data communication device, 4 indicates a wired network connection device, 5 indicates a data communication terminal, 6 indicates a wireless link, and 7 indicates a wired link. ing. The mobile station data communication terminal 1 can perform data communication with the data communication terminal 5 via the wireless link 6 and the wired link 7.

FIG. 1 shows a case where the wireless data communication device 3 and the wired network connection device 4 are directly connected by the wired link 7, but the wireless data communication device 3 and the wired network connection device 4 are connected to each other. , A private network (PBX system) or a public network.

In FIG. 1, a mobile station 2 is a PHS, a mobile station data communication terminal 1 is a notebook personal computer connected to the PHS, and a wireless data communication device 3 is a TA (Terminal Adapter) to which a PHS can be connected, a wire. Network connection device 4
The data communication terminal 5 includes a network server and the like.

[0005] FIG. 14 shows a sequence in the case of starting data communication from the mobile station data communication terminal 1 to the data communication terminal 5 in the conventional method. Here, the data communication means a communication state in which a user continuously transmits and receives data regardless of whether a wireless link or a wired link is established or disconnected.

First, a data communication start request signal is transmitted from the mobile station data communication terminal 1 to the mobile station 2. An ATD command is used as the data communication start request signal. This is "ATD + other party's line number". The ATD command is a command for making a call. The mobile station 2 transmits a wireless communication channel assignment request signal to the wireless data communication device 3.

[0007] The wireless data communication device 3 selects a wireless communication line that satisfies the wireless quality of data communication to be performed,
A wireless communication channel is assigned to the mobile station 2 using a wireless communication channel assignment signal. The above operation establishes the wireless link 6.
The wireless communication line assignment request signal includes information on the line number,
And the information of the line number of the mobile station 2.

When the wireless link 6 is established between the mobile station 2 and the wireless data communication device 3, the wireless data communication device 3 makes a call to the wired network connection device 4. This call includes information on the line number of the mobile station 2. When the wired network connection device 4 receives the call from the wireless data communication device 3,
“RING” indicating an incoming call is transmitted to the data communication terminal 5. At this time, the information of the line number of the mobile station 2 is also transmitted.

When the data communication terminal 5 receives “RING”, it transmits “ATA” indicating the connection to the wired network connection device 4. “ATA” is a command for making a connection for an incoming call. Further, it also receives the line number of the mobile station 2 and stores the information. Upon receiving “ATA” from the data communication terminal 5, the wired network connection device 4 returns “connection” to the wireless data communication device 3 to establish the wired link 7.

The wireless data communication device 3 transmits a “connection” to the mobile station 2 when the wired link 7 is established. Upon receiving the “connection”, the mobile station 2 performs an initial setting for data communication with the wired network connection device 4 via the wireless link 6 and the wired link 7, and after completing the initial setting, connects to the mobile station data communication terminal 1. Is transmitted. After the initial setting of the data link is completed, the wired network connection device 4 transmits “CONNECT” indicating the connection to the data communication terminal 5.

According to the above procedure, data communication between the mobile station data communication terminal 1 and the data communication terminal 5 becomes possible. In traditional data communications, wireless links,
And the wired link remains connected during data communication. If a wireless link or a wired link with the data communication terminal 5 is to be connected or disconnected, the user of the mobile station data communication terminal must operate the mobile station data communication terminal 1 to operate. .

[0012]

As described above, in the conventional data communication, if a wireless link or a wired link is to be established or disconnected, it is necessary for the user to perform the establishment and disconnection. Typically, wireless and wired links remain established during data communication. E-mail on the Internet, WWW (World Wide We
In the case of using b), since data occurs in bursts, the wireless link and the wired link are maintained even while no data is generated.

This causes a problem that the use efficiency of the radio link is reduced. If the user wants to solve such a problem, the user disconnects the wireless link and the wired link when there is no data transmission / reception.
A wired link had to be established.

[0014] Further, when the wireless link is disconnected for the partner terminal, it is determined whether the disconnection is due to a loss of data transmission / reception, a disconnection due to deterioration of wireless quality, or a disconnection due to termination of data communication. There was also a problem that it was not possible.

The data communication referred to here is a wireless link,
This means a communication state in which the user maintains a request for transmitting and receiving data regardless of whether a wired link is established or disconnected. When in the data communication state, it indicates that the call state of the end-to-end circuit-switched call is a communication state.

Further, when the user makes a call again when the wireless link is disconnected, it is necessary to check by himself or herself whether or not the wireless link can be established. Recalls were sometimes performed.

The present invention is intended to solve such a problem, and it is possible to increase the efficiency of use of a wireless communication line and to establish and disconnect a wireless link without the user being conscious. Furthermore, it is another object of the present invention to realize a means capable of reducing unnecessary recall processing when a wireless link cannot be established when a recall is performed.

[0018]

According to the present invention, the above-mentioned object is solved by the means described in the claims. That is, the first aspect of the present invention is a wireless station of a data communication system that performs data communication using a wireless line, and determines whether or not there is data to be transmitted to a partner station. "Means" and "line disconnect reason detecting means" for investigating the reason for disconnection when the wireless link is disconnected,

When it is determined that there is no data to be transmitted, a means for transmitting a "data-less line disconnection request" to the partner station, and when receiving a "data-less line disconnection request", If not present, means for transmitting a "dataless line disconnection permission signal" to the partner station; and means for disconnecting the wireless link when receiving the "dataless line disconnection permission signal".

When the wireless link is disconnected, whether the disconnection reason is “deterioration of the quality of the wireless link”, or whether a “data-free line disconnection permission signal” has already been received, or Means for maintaining a data communication state when transmitting to the apparatus, and means for establishing a wireless link and resuming data communication when data to be transmitted occurs while the data communication state is maintained. A wireless station comprising:

The above description that the state during the end-to-end data communication is not affected is described as follows.
This means that the communication state is maintained as the call state of the circuit-switched call when viewed from the two-end user (user).

According to a third aspect of the present invention, in the wireless data communication method according to the second aspect, when data to be communicated is newly generated, it is determined whether a wireless link can be established. By means, when it is determined that the wireless link can be established, the wireless link is re-established and the data communication state is continued.

The invention of claim 4 is the invention of claim 2 or claim 3.
The wireless data communication method according to claim 1, wherein the wireless station transmits a data-less line disconnection request signal that disconnects only a wireless link without affecting a state during end-to-end data communication. And a data-less line disconnection permission signal that permits disconnection of a wireless line in response to a data-less line disconnection request signal received from a partner wireless station. .

According to a fifth aspect of the present invention, in a data communication system for performing data communication using a wireless line, a wireless station is notified when a wireless link is disconnected or when a wireless link is recognized. The line disconnection reason detecting means detects the line disconnection reason, and according to the content of the line disconnection reason detected by the line disconnection reason detecting means, determines whether or not to re-establish the wireless link by the link reestablishment determining means. Judge,

If it is determined that the wireless link should be re-established, the wireless link is re-established and the data communication state is continued, while the line disconnection reason detected by the line disconnection reason detecting means is used. The link re-establishment determination means
When it is determined that the data communication should be terminated by disconnecting the wireless link, the wireless link is disconnected by a process of terminating the call connection, and the data communication state is terminated.

According to a sixth aspect of the present invention, in the wireless data communication method according to the fifth aspect, the link re-establishment determining means re-establishes the wireless link based on the content of the line disconnection reason detected by the line disconnection reason detecting means. Determine that it should be, and
When the link establishment determination unit that determines whether the wireless link can be established is determined to be able to establish the wireless link, the wireless link is reestablished to continue the data communication state. It is.

According to a seventh aspect of the present invention, in the wireless data communication method according to the fifth aspect, the wireless station recognizes that the content of the line disconnection reason is deterioration of the line quality of the wireless link and should perform communication. When data exists or when data to be communicated newly occurs, the link re-establishment determination means determines that the wireless link should be re-established,
In addition, when the link establishment determination unit that determines whether the wireless link can be established is determined to be able to establish the wireless link, the wireless link is reestablished and the data communication state is continued. Things.

According to an eighth aspect of the present invention, in the wireless data communication method according to the sixth aspect, one wireless station comprises a mobile station and a mobile station data communication terminal, and the other wireless station has one communication area. In a wireless data communication system configured by a wireless data communication device that establishes a wireless communication system that establishes a wireless link between the mobile station and the wireless data communication device to perform data communication,

[0029] Link establishment availability determination means is provided as out-of-service area determination means for determining whether the mobile station is in the area of the wireless data communication device (in the service area) or out of the area (out of the service area). When it recognizes the disconnection of the wireless link due to the deterioration of the line quality of the wireless link,

The mobile station collects out-of-service information indicating whether the mobile data communication device is in service or out of service with the area constructed by the wireless data communication apparatus by the out-of-service area determining means. Notify the wireless link disconnection, and each time the out-of-service information changes, notifies the mobile station data communication terminal of the changed out-of-service information,

When the mobile station data communication terminal is notified of the disconnection of the radio link and there is data to be communicated, or when new data to be communicated is generated, Only when the notified out-of-service-area information is within the service area, the wireless link is re-established and the data communication state is continued.

According to a ninth aspect of the present invention, in the wireless data communication method according to the sixth aspect, one wireless station comprises a mobile station and a mobile station data communication terminal, and the other wireless station comprises: In a wireless data communication system configured with a wireless data communication device that constructs one communication area, a wireless link is established between the mobile station and the wireless data communication device to perform data communication,

The link establishment availability determination means may determine whether the mobile station is within the area of the wireless data communication device.
The wireless data communication device is provided as out-of-service area determination means for determining whether the wireless data communication device is out of service area (out of service area). Or when new data to be communicated occurs,

At each predetermined time, the mobile station makes a call for inquiring whether a radio link can be established. If the mobile station can respond to the call, the mobile station issues a call. A wireless link with the data communication device is re-established to continue the data communication state.

The invention of claim 10 is the invention of claims 2 to 9
It is a storage medium of the program which recorded the control procedure of the wireless data communication method as described in any one of the above as a program.

According to the present invention, each of the above-described configurations makes it possible to automatically connect and disconnect a wireless link depending on the presence or absence of data, thereby improving the use efficiency of wireless resources. Further, by investigating the reason for disconnecting the line, when new data is generated, it can be automatically determined whether or not a call should be made again. Further, since the re-call is performed only when the wireless link can be established, the call loss at the time of the re-call can be reduced.

[0037]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described with reference to FIGS. FIG. 2 is a diagram showing an example of a wireless data communication system to which the present invention is applied. In FIG. 2, numeral 1 denotes a mobile station data communication terminal, 1-1 denotes a line control device, 1-2 denotes a mobile station data communication terminal, 2 denotes a mobile station, 3 denotes a wireless data communication device, and 3-1 denotes a line control device. Represents a device.

Numeral code 3-1-1 is a wireless line disconnection requesting means, 3-1-2 is communication data presence / absence determining means,
1-3 is a wireless line re-establishing means, 3-1-4 is a line disconnection reason detecting means, 3-1-5 is a wireless line disconnection permitting means, 4 is a wired network connection device, 5 is a data communication terminal, and 6 is wireless. The link 7 indicates a wired link.

Each of the mobile station data communication terminal 1 and the wireless data communication device 3 is provided with a line controller 1-1 or a line controller 3-1. Establish and disconnect links. In this figure, regarding the line control device 3-1 of the wireless data communication device 3, each means having the functions of monitoring the presence / absence of the data, establishing and disconnecting the wireless link, etc.
This is indicated by 3-1-5.

Each of these means may be provided in the line control device 1-1 of the mobile station data communication terminal 1. (In claim 1 of the present specification, an object provided with each of the above-mentioned 3-1-1 to 3-5-1-5 is indicated as a wireless station.) In the following embodiments, mobile station data The control between the communication terminal 1 and the mobile station 2 and the control between the wired network connection device 4 and the data communication terminal 5 use AT commands generally used in modem control.

The control up to the start of data communication between the mobile station data communication terminal 1 and the data communication terminal 5 is performed according to a control sequence similar to that shown in FIG. Here, the data communication refers to a state in which the mobile station data communication terminal 1 and the data communication terminal 5 can transmit and receive data regardless of whether the wireless link 6 and the wired link 7 are established or disconnected.

Next, a control in the case where the wireless link 6 is disconnected due to the deterioration of the wireless quality is shown in FIG. 3 as a first example of the control sequence. At this time, control of the mobile station data communication terminal 1 and the wireless data communication device 3 after disconnection is performed according to the flowchart of FIG. (S1-1) to (S1-
Symbols such as 7) represent control steps and correspond to the same symbols in the following description.

When the radio link 6 is disconnected due to the quality degradation, the mobile station 2 holds information indicating the radio link quality degradation as the reason for the line disconnection, and gives the mobile station data communication terminal 1 "NO CARRIER" indicating the disconnection. Send. When the mobile station data communication terminal 1 receives "NOCARRIER" (S1-1), it transmits a data-less line disconnection permission signal and does not receive it (S1-2), and furthermore, transmits a line disconnection (ATH). Since the transmission has not been performed (S1-7), the mobile station 2 is inquired about the reason for the line disconnection (S1
1-4).

When the mobile station 2 is inquired by the mobile station data communication terminal 1 about the reason for the line disconnection, it transmits information indicating the quality deterioration of the radio link. When the mobile station data communication terminal 1 determines that the line disconnection reason is information indicating the quality deterioration of the wireless link (S1-5), the data communication state is continued (S1-5).
1-6).

When the wireless link 6 is disconnected (S1-1), the wireless data communication device 3 transmits and receives no data disconnection permission signal (S1-2). (ATH) is not transmitted (S1-
From 7), the reason for disconnecting the line is investigated (S1-4). When the wireless data communication device 3 determines that the reason of the line disconnection is the deterioration of the quality of the wireless link (S1-5), the wireless data communication device 3 continues the data communication state (S1-6).

Next, after data communication between the mobile station data communication terminal 1 and the data communication terminal 5 is started, data transmitted and received between the mobile station data communication terminal 1 and the data communication terminal 5 becomes constant. FIG. 4 shows a second example of the control sequence of a disconnection sequence of the wireless link when the state without time continues. The control of the mobile station data communication terminal 1 and the wireless data communication device 3 after the mobile station data communication terminal 1 and the wireless data communication device 3 are notified of the disconnection of the wireless link is performed according to the flowchart shown in FIG. Is done along.

This example shows a case where at least one of the mobile station data communication terminal 1 and the wireless data communication device 3 monitors the presence or absence of data between the mobile station data communication terminal 1 and the data communication terminal 5. Here, the mobile station data communication terminal 1 monitors the presence or absence of data to be transmitted to the data communication terminal 5 and the presence or absence of data transmitted from the data communication terminal 5.

If there is no data to be transmitted to the data communication terminal 5 and data to be transmitted from the data communication terminal 5 at a predetermined time, the mobile station data communication terminal 1 Transmits a data-less line disconnection request signal. When receiving the line disconnect request signal without data, the wireless data communication device 3 checks whether or not data to be transmitted from the wireless data communication device 3 to the mobile station data communication terminal 1 exists. If there is no data to be transmitted, a non-data line disconnection permission signal is transmitted.

When the mobile station data communication terminal 1 receives the "data-less line disconnection permission signal", it transmits an "ATH" command for instructing the mobile station 2 to disconnect the line. “ATH” is a command for disconnecting a line. The mobile station 2 is called "AT
When receiving "H", the wireless link 6 is disconnected, and "NO CARRI" indicating the line disconnection to the mobile station data communication terminal 1 is received.
ER ".

The mobile station data communication terminal 1 transmits “NO CA
RRIER ”(S1-1),“ NO CA
Since the “data-free line disconnection permission signal” is received before receiving the “RRIER” (S1-2), the data communication state is continued (S1-3).
When the wireless link 6 is disconnected (S1-1), the data communication state is continued (S1-3) because the line disconnection permission signal without data is transmitted (S1-2).

Next, control at the end of data communication from the mobile station data communication terminal 1 is shown in FIG. 5 as a third example of the control sequence. Control of the mobile station data communication terminal 1 and the wireless data communication device 3 after the mobile station data communication terminal 1 and the wireless data communication device 3 are notified of the line disconnection is performed according to the flowchart shown in FIG. Will be

The mobile station data communication terminal 1 transmits to the mobile station 2 an ATH command indicating the end of data communication. Upon receiving the ATH, the mobile station 2 disconnects the wireless link with the wireless data communication device 3 and transmits “NO CARRIER” indicating disconnection to the mobile station data communication terminal 1.

The mobile station data communication terminal 1 transmits “NO CA
RRIER "is received (S1-1), a line disconnection permission signal without data is transmitted and not received (S1-1).
1-2), and further, a line disconnection (ATH) is transmitted (S1).
-7), the data communication state ends (S1-
6).

When the wireless link is disconnected (S1-1), the wireless data communication device 3 transmits and receives no data-free line disconnection permission signal (S1-2).
The line disconnection (ATH) has not been transmitted (S1-7).
Then, the reason for disconnecting the line is investigated (S1-4).

When the wireless data communication device 3 determines that the reason for the line disconnection is normal disconnection (S1-5), it ends the data communication state (S1-6) and disconnects the wired link 7. When the wired link 7 is disconnected, the wired network connection device 4 transmits “NO CARRIER” to the data communication terminal 5. When the data communication terminal 5 receives “NO CARRIER”, the data communication state ends.

In the case where data communication is continued with the wireless link disconnected, if new data is generated in the mobile station data communication terminal 1, the mobile station 2
May be inquired about out-of-service information on whether a wireless link can be established, and it can be determined whether or not to make a call again based on the out-of-service information.

Next, when data is generated from the mobile station data communication terminal 1 when the radio link 6 is disconnected while the data communication is continued, control is performed between the mobile station data communication terminal and the data communication terminal. Fourth of the control sequence during
6 is shown in FIG.

The wireless data communication device 3 operates at regular time intervals,
The presence signal indicating the presence of the wireless data communication device 3 is transmitted. When the presence signal cannot be received, the mobile station 2 transmits an out-of-service notification to the mobile station data communication terminal 1. Upon receiving the out-of-service notification from the mobile station 2, the mobile station data communication terminal 1 does not perform a re-call even if new data is generated.

However, this re-call is not a re-call for a normal end-to-end call connection but for re-establishing a radio link. That is,
The two-end call state is a "communicating" state even if the wireless link is broken.

When the mobile station 2 can receive the presence signal, the mobile station 2 determines that the wireless link 6 can be established with the wireless data communication device 3 and transmits an area notification to the mobile station data communication terminal 1. When receiving the area notification from the mobile station 2, the mobile station data communication terminal 1 transmits an ATD command to the mobile station 2 in order to make a call again.

When the mobile station 2 receives the ATD command,
A wireless communication line assignment request signal is transmitted to the wireless data communication device 3. The wireless data communication device 3 selects a wireless communication line that satisfies the wireless quality of the data communication to be performed, and allocates a wireless communication line to the mobile station 2 by using a wireless communication line allocation signal. With the above procedure, the wireless link 6 is established. When the radio link 6 is established, the mobile station 2 transmits “CONNECT” indicating connection to the mobile station data communication terminal 1.

Next, the control when data is generated from the wireless data communication device 3 when the wireless link 6 is disconnected while the data communication is continued is defined as the control between the mobile station data communication terminal and the data communication terminal. FIG. 7 shows a fifth example of the control sequence. The data communication device 3 transmits an incoming call to the mobile station 2 when new data is generated.

However, this incoming call is not for an ordinary end-to-end call connection but for re-establishing a radio link. That is, the end-to-end call state is a “communicating” state even if the wireless link is broken.

The mobile station 2 transmits a wireless communication channel assignment request signal to the wireless data communication device 3. The wireless data communication device 3 selects a wireless communication line that satisfies the wireless quality of the data communication to be performed, and allocates the wireless communication line to the mobile station 2 using a wireless communication line allocation signal. From the above, the radio link 6 is established. When the wireless link 6 is established, the mobile station 2 connects to the mobile station data communication terminal 1 with “CO” indicating connection.
NNECT ”is transmitted.

FIG. 8 shows a sixth example of a control sequence between the mobile station data communication terminal and the data communication terminal when the mobile station data communication terminal 1 determines whether or not to make a call again from out-of-service information. Wireless data communication device 3
Transmits a presence signal indicating the presence of the wireless data communication device 3 at regular time intervals. When new data is generated, the mobile station data communication terminal 1 inquires the mobile station 2 of the out-of-service area occupation information.

If the mobile station 2 cannot receive the presence signal, it sends an out-of-service notification to the mobile station data communication terminal 1. When receiving the out-of-service notification, the mobile station data communication terminal 1 does not make a call, waits for a certain period of time, and then inquires the mobile station 2 about out-of-service area information again. If the mobile station 2 can receive the presence signal, the mobile station 2 transmits an area notification to the mobile station data communication terminal 1.

The mobile station data communication terminal 1 transmits “ATD” to the mobile station 2 upon receiving the area notification. When the mobile station 2 receives the “ATD” command, the wireless data communication device 3
Transmits a wireless communication line assignment request signal to the terminal. The wireless data communication device 3 selects a wireless communication line that satisfies the wireless quality of data communication to be performed from now on, and allocates a wireless communication line to the mobile station 2 using a wireless communication line allocation signal.

The wireless link 6 is established by the above operation. When the wireless link is established, the mobile station 2 transmits “CONNECT” indicating connection to the mobile station data communication terminal 1. Also, the above method can be used in a system for establishing and disconnecting the wireless link 6 and the wired link 7 according to the presence or absence of data.

The sequence in the case where the radio link 6 is disconnected due to the deterioration of the radio quality is shown as a seventh example of the control sequence between the mobile station data communication terminal and the data communication terminal in FIG.
Shown in The control of the mobile station data communication terminal 1 and the data communication terminal 5 after disconnection is performed according to the flowchart shown in FIG. When the wireless link 6 is disconnected due to the quality deterioration, the mobile station 2 holds information indicating the quality of the wireless link as a reason for disconnecting the line, and transmits “NO CARRIER” indicating the disconnection to the mobile station data communication terminal 1.

The data communication terminal 1 has "NO CARRIE"
When R ″ is received (S1-1), a line disconnection permission signal without data is transmitted and not received (S1-2).
Further, since the line disconnection signal (ATH) has not been transmitted (S1-7), the mobile station 2 is inquired about the reason for the line disconnection (S1-4).

When the mobile station 2 is inquired about the reason for the line disconnection from the mobile station data communication terminal 1, the mobile station 2 transmits information indicating the quality deterioration of the radio link. When the mobile station data communication terminal 1 determines that the reason of the line disconnection is the information indicating the quality deterioration of the wireless link (S1-5), the data communication state is continued (S1-6).

When the wireless link 6 is disconnected, the wireless data communication device 3 transmits to the wired network connection device 4 that the reason for the line disconnection is deterioration of wireless quality, and disconnects the wired link 7.
Upon receiving the line disconnection reason, the wired network connection device 4 holds the line disconnection reason and transmits “NO CARRIER” indicating disconnection to the data communication terminal 5.

The data communication terminal 5 has "NO CARRIE"
R "(S1-1), no line disconnection permission signal without data has been transmitted and received (S1-2), and no line disconnection signal (ATH) has been transmitted (S1-2).
From 1-7), the reason for disconnecting the line is inquired to the wired network connection device 4 (S1-4).

When the data communication terminal 5 inquires about the reason of the line disconnection, the wired network connection device 4 transmits information indicating the quality deterioration of the radio link. When the data communication terminal 5 determines that the reason for the line disconnection is information indicating the quality deterioration of the wireless link (S1-5), the data communication terminal 5 continues the data communication state (S1).
1-6).

Next, after data communication between mobile station data communication terminal 1 and data communication terminal 5 is started, data transmitted and received between mobile station data communication terminal 1 and data communication terminal 5 is constant. FIG. 10 shows an eighth example of a control sequence between the mobile station data communication terminal and the disconnection control in the case where the state without time continues. The control of the mobile station data communication terminal 1 and the data communication terminal 5 after the mobile station data communication terminal 1 and the data communication terminal 5 are notified of the line disconnection are performed according to the flowchart shown in FIG. .

At least one of the mobile station data communication terminal 1 and the data communication terminal 5 monitors the presence or absence of data between the mobile station data communication terminal 1 and the data communication terminal 5. FIG.
0 indicates a case where the mobile station data communication terminal 1 monitors the presence or absence of data. In this case, the mobile station data communication terminal 1 monitors the presence / absence of data to be transmitted to the data communication terminal 5 and the presence / absence of data transmitted from the data communication terminal 5.

If the data to be transmitted to the data communication terminal 5 and the data to be transmitted from the data communication terminal 5 at a predetermined time do not exist together, the mobile station data communication terminal 1 is connected to the data communication terminal 5. Sends a line disconnection request signal without data. When the data communication terminal 5 receives the data disconnection request signal, the data communication terminal 5
To determine if there is data to be transmitted from the mobile station data communication terminal 1 to the mobile station data communication terminal 1.
If there is no data to be transmitted to the terminal, a data-free line disconnection permission signal is transmitted.

When the mobile station data communication terminal 1 receives the data-free line disconnection permission signal, it transmits to the mobile station 2 an "ATH" command instructing the line disconnection. “ATH” is a command for disconnecting a line. Mobile station 2 is "ATH"
Is received, the wireless link 6 is disconnected, and "NO CARRIE" indicating the line disconnection to the mobile station data communication terminal 1 is received.
R ".

The mobile station data communication terminal 1 uses “NO CA
RRIER ”(S1-1),“ NO CA
Before receiving the RRIER ", since the line disconnection permission signal without data is received (S1-2), the data communication state is continued (S1-3). In the wireless data communication device 3, the wireless link 6 is disconnected. Then, the wired link 7 is disconnected.

When the wired link 7 is disconnected, the wired network connection device 4 sends “NO CARRI” to the data communication terminal 5.
ER ". The data communication terminal 5 transmits" NO CAR "
RIER "(S1-1), since the data-free line disconnection permission signal has already been transmitted (S1-1).
2) Continue the data communication state (S1-3).

FIG. 11 shows a control sequence at the end of data communication from mobile station data communication terminal 1 as a ninth example of a control sequence between mobile station data communication terminals. The control of the mobile station data communication terminal 1 and the data communication terminal 5 after the mobile station data communication terminal 1 and the data communication terminal 5 are notified of the disconnection of the line is described in FIG.
It is performed according to the flow chart shown as. The mobile station data communication terminal 1 transmits to the mobile station 2 an "ATH" command indicating the end of data communication.

Upon receiving “ATH”, the mobile station 2 disconnects the wireless link with the wireless data communication device 3 and transmits “NO CARRIER” indicating disconnection to the mobile station data communication terminal 1. The mobile station data communication terminal 1 uses “NO CARR
When the IER "is received (S1-1), it is determined that the line disconnection permission signal without data is transmitted and not received (S1--
2) Further, a line disconnection signal (ATH) is transmitted (S1).
After -7), the data communication ends (S1-6).

When the wireless link 6 is disconnected, the wireless data communication device 3 transmits to the wired network connection device 4 that the reason for the line disconnection is normal termination, and disconnects the wired link 7. Upon receiving the line disconnection reason, the wired network connection device 4 holds the line disconnection reason and notifies the data communication terminal 5 of “NO” indicating disconnection.
CARRIER ".

The data communication terminal 5 has “NO CARRIE”
R "(S1-1), no line disconnection permission signal without data has been transmitted and received (S1-2), and no line disconnection signal (ATH) has been transmitted (S1-2).
From 1-7), the reason for disconnecting the line is inquired to the wired network connection device 4 (S1-4).

When the data communication terminal 5 inquires about the reason of the line disconnection, the wired network connection device 4 transmits that the reason for the green disconnection is normal disconnection. When the data communication terminal 5 determines that the reason for the line disconnection is normal disconnection (S1-5),
The data communication state ends (S1-6).

Next, when the wireless link 6 and the wired link 7 are disconnected while the data communication is continued,
As a tenth example of the control sequence, the control for determining whether or not to make a call again when data is generated from the mobile station data communication terminal 1 based on out-of-service area information transmitted from the mobile station at regular intervals is shown in FIG. Shown in

The wireless data communication device 3 operates at regular time intervals,
A presence signal indicating the presence of the wireless data communication device 3 is transmitted. When the presence signal cannot be received, the mobile station 2 transmits an out-of-service notification to the mobile station data communication terminal 1. Upon receiving the out-of-service notification from the mobile station 2, the mobile station data communication terminal 1 does not perform a re-call even if new data is generated.

When the mobile station 2 can receive the presence signal, the mobile station 2 determines that the wireless link 6 can be established with the wireless data communication device 3 and sends an area notification to the mobile station data communication terminal 1. I do. When the mobile station data communication terminal 1 receives the area notification from the mobile station 2, it transmits an "ATD" command to the mobile station 2 to make a call again.

The mobile station 2 transmits a wireless communication channel assignment request signal to the wireless data communication device 3. The wireless data communication device 3 selects a wireless communication line that satisfies the wireless quality of the data communication to be performed, and allocates the wireless communication line to the mobile station 2 using a wireless communication line allocation signal. The wireless link 6 is established by the above control.

When the wireless link 6 is established, the wireless data communication device 3 makes a call to the wired network connection device 4. This call includes information on the line number of the mobile station 2. When receiving the call from the wireless data communication device 3, the wired network connection device 4 outputs “RI” indicating the incoming call to the data communication terminal 5.
NG ". At the same time, information on the line number of the mobile station 2 is also transmitted.

When receiving the “RING”, the data communication terminal 5 transmits “ATA” indicating the connection to the wired network connection device 4. “ATA” is a command for making a connection for an incoming call. Also, it receives the line number of the mobile station 2 and stores the information. When the wired network connection device 4 receives “ATA” from the data communication terminal 4, it transmits “connection” to the wireless data communication connection device 3 to establish the wired link 7.

Further, the wired network connection device 4 transmits “CONNECT” indicating the connection to the data communication terminal 5. on the other hand,
When the wireless link 6 is established and the wired link 7 is established, the wireless data communication device 3 transmits a “connection” to the mobile station 2. When receiving the “connection” from the wireless data communication device 3, the mobile station 2 transmits “CONNECT” indicating the connection to the mobile station data communication terminal 1. In this way, the mobile station data communication terminal and the data communication terminal can transmit and receive data again.

[0093]

As described above, according to the present invention,
The wireless station (mobile station data communication terminal or wireless data communication device, etc.) automatically establishes and disconnects a wireless link depending on the presence or absence of data transmitted and received between the mobile station data communication terminal and the data communication terminal. In an environment where bursts occur, the wireless link can be used effectively without the user being conscious.

Since the establishment of the wireless link and the wired link, the disconnection, and the determination of the end of the data communication are performed using the reason for disconnecting the line, the control can be performed accurately and simply. Also, at this time, when new data is generated, it can be automatically determined whether or not to make a re-call, and the re-call is performed only when a wireless link can be established. There is an advantage that it can be made smaller.

[Brief description of the drawings]

FIG. 1 is a flowchart showing control when a line disconnection is notified.

FIG. 2 is a diagram illustrating an example of a wireless data communication system that implements the present invention.

FIG. 3 is a diagram showing a first example of a control sequence between a mobile station data communication terminal and a data communication terminal.

FIG. 4 is a diagram showing a second example of a control sequence between a mobile station data communication terminal and a data communication terminal.

FIG. 5 is a diagram showing a third example of a control sequence between a mobile station data communication terminal and a data communication terminal.

FIG. 6 is a diagram showing a fourth example of a control sequence between a mobile station data communication terminal and a data communication terminal.

FIG. 7 is a diagram showing a fifth example of a control sequence between a mobile station data communication terminal and a data communication terminal.

FIG. 8 is a diagram showing a sixth example of a control sequence between a mobile station data communication terminal and a data communication terminal.

FIG. 9 is a diagram showing a seventh example of a control sequence between a mobile station data communication terminal and a data communication terminal.

FIG. 10 is a diagram showing an eighth example of a control sequence between a mobile station data communication terminal and a data communication terminal.

FIG. 11 is a diagram showing a ninth example of a control sequence between a mobile station data communication terminal and a data communication terminal.

FIG. 12 is a diagram showing a tenth example of a control sequence between a mobile station data communication terminal and a data communication terminal.

FIG. 13 is a diagram illustrating an example of a configuration of a conventional wireless data communication system.

FIG. 14 is a diagram showing a sequence up to the start of conventional data communication.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 mobile station data communication terminal 1-1 line control device 1-2 mobile station data communication terminal 2 mobile station 3 wireless data communication device 3-1 line control device 3-1-1 wireless line disconnection request means 3-1-2 communication Data presence / absence determination means 3-1-3 Wireless line re-establishment means 3-1-4 Line disconnection reason detecting means 3-1-5 Wireless line disconnection permission means 4 Wired network connection device 5 Data communication terminal 6 Wireless link 7 Wired link

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁶ Identification code FI H04Q 7/24 7/26 7/30 (72) Inventor Hiroyuki Otsuka Nippon Telegraph and Telephone No. 19-2 Nishishinjuku 3-chome, Shinjuku-ku, Tokyo Incorporated (72) Inventor Toshinori Tanaka Nippon Telegraph and Telephone Corporation 3-9-1-2 Nishishinjuku, Shinjuku-ku, Tokyo

Claims (10)

[Claims] 1. A communication station for performing data communication using a wireless line, comprising: a communication data presence / absence determining means for determining whether data to be transmitted to a partner station exists; When the wireless link is disconnected, a "line disconnect reason detecting means" for investigating the reason for disconnection, and when it is determined that there is no data to be transmitted, a "data-less line disconnect request" is transmitted to the partner station. Means for transmitting a "data-less line disconnection permission signal" to the partner station when there is no data to be transmitted when the "data-less line disconnection request" is received; Means for disconnecting the wireless link when receiving the link, and when the wireless link is disconnected, the reason for the disconnection is "deterioration of the quality of the wireless link" or a "dataless line disconnection permission signal". Means for holding the data communication state when the data has already been received or already transmitted to the partner station, and when data to be transmitted occurs while the data communication state is being held. Means for establishing a wireless link and restarting data communication. 2. A data communication system for performing data communication using a wireless line, wherein a wireless station determines whether or not communication data exists during a predetermined period of time. Means for disconnecting only the radio link without affecting the state of end-to-end data communication when it is determined that there is no data to be communicated during the predetermined period of time. A wireless data communication method, wherein a wireless link is disconnected by wireless link disconnecting means, and when data to be communicated is newly generated, the wireless link is reestablished and data communication is continued. 3. When new data to be communicated is generated, the link establishment determining means for determining whether a wireless link can be established is determined. The wireless data communication method according to claim 2, wherein the data communication state is continued by re-establishment. 4. A dataless line disconnection request signal transmitted by a wireless station for disconnecting only a wireless link without affecting a state during end-to-end data communication;
The wireless station receives from a partner wireless station, a data-less line disconnection permission signal that permits disconnection of a wireless line in response to a data-less line disconnection request signal, and constructs the data-less wireless link disconnecting means. The wireless data communication method according to claim 2 or 3, wherein: 5. A data communication system for performing data communication using a wireless line, wherein a wireless station is notified of disconnection of a wireless link, or
When the disconnection of the wireless link is recognized, the reason for disconnecting the line is detected by the disconnection reason detecting means, and the re-establishment of the wireless link is performed based on the content of the disconnection reason detected by the disconnection reason detecting means. The link re-establishment determination unit determines whether or not the wireless link should be re-established.If the wireless link is determined to be re-established, the wireless link is re-established and the data communication state is continued. If the link re-establishment determination means determines that the wireless link should be disconnected and the data communication should be terminated based on the content of the detected line disconnection reason, the wireless link is disconnected by a process of terminating the call connection, A wireless data communication method comprising terminating a data communication state. 6. The link re-establishment determination means, based on the contents of the line disconnection reason detected by the line disconnection reason detection means,
If it is determined that the wireless link should be re-established, and if the wireless link can be established by the link establishment availability determination means that determines whether the wireless link can be established, the wireless link is re-established. The wireless data communication method according to claim 5, wherein the data communication state is continued by performing the operation. 7. The radio station recognizes that the cause of the line disconnection is the deterioration of the line quality of the radio link, and whether data to be communicated exists or data to be communicated is newly generated. Then, the link re-establishment determination means determines that the wireless link should be re-established, and the link establishment availability determination means determines whether the wireless link can be established. 6. The wireless data communication method according to claim 5, wherein when it is determined, the wireless link is reestablished and the data communication state is continued. 8. One radio station is composed of a mobile station and a mobile station data communication terminal, and the other radio station is composed of a radio data communication device that constructs one communication area. In a wireless data communication system in which a wireless link is established between data communication devices to perform data communication, a link establishment availability determination unit determines whether or not the mobile station is within an area of the wireless data communication device (within the area) or outside the area (without of the area). ) Is provided as out-of-service area determination means for determining whether the mobile station is in the service area. For the area constructed by the data communication device, while collecting information outside the service area indicating whether the user is in the service area or outside the service area, the mobile station data communication terminal The mobile station data communication terminal notifies the mobile station data communication terminal of the changed out-of-service information each time the out-of-service information changes. In the notified state, and if there is data to be communicated, or when new data to be communicated, only if the notified out-of-service information is in service,
The wireless data communication method according to claim 6, wherein the wireless link is re-established and the data communication state is continued. 9. One wireless station is constituted by a mobile station and a mobile station data communication terminal, and another one of the wireless stations is constituted by a wireless data communication device constructing one communication area, In a wireless data communication system that establishes a wireless link between the mobile station and the wireless data communication device to perform data communication, a link establishment availability determination unit may include: The wireless data communication device recognizes the disconnection of the wireless link due to the degradation of the wireless link line quality. When the mobile station exists or when data to be communicated is newly generated, it is asked at each predetermined time whether the mobile station can establish a radio link. 7. The mobile station according to claim 6, wherein the mobile station performs a matching call, and when the mobile station can respond to the call, re-establishes a wireless link with the wireless data communication device to continue the data communication state. Wireless data communication method. 10. A storage medium for a program in which a control procedure of the wireless data communication method according to claim 2 is recorded as a program.