JPH09247748A - Emergency call control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To serve the emergency call control system in which callback is made to a mobile terminal equipment even in the case of hand-over and the line re-connection procedure in the case of callback is simplified. SOLUTION: A portable telephone set during emergency calling sends a call set up message including a slot number, a frequency and a PS number to a base station of a moving destination when the telephone set moves between areas, or an exchange sends call setup reception message to a base station being a moving destination in the case of hand-over of the portable telephone set during emergency speech. The base station being the moving destination calls back the portable telephone set during emergency speech specified by emergency call information to be stored.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to an emergency call control system,
In particular, the present invention relates to control at the time of handover of a mobile terminal such as a mobile phone during an emergency call in a mobile communication system and control of a call setting procedure.

[0002]

2. Description of the Related Art Emergency calls to fire departments, police stations, etc. are often upset by the caller, and the receiver is dropped without talking about important urgent requirements or important communication items such as places. There is a situation where it gets lost. Therefore, in the conventional switching system, when a call path is formed by an emergency call, each exchange forming the call path holds information indicating that the call is an emergency call, and the caller drops the handset to disconnect the line. Even if a call is made, the channel is temporarily held without being released immediately. Then, when the called party issues a call setup request to the calling party, a method is adopted in which the held communication channel can be traced back in the opposite direction. .

The above emergency call control system is naturally used in a mobile phone. FIG. 13 is a schematic diagram of a mobile communication system that provides services to mobile phones.
A mobile communication system is a wireless zone formed by dividing a service area for providing a wireless communication service (hereinafter,
Base stations 2 and 3 are installed for each of the areas 5 and 6. Then, the mobile phone 4 in the area is wirelessly connected to the base stations 2 and 3 to provide a call service. Each of the base stations 2 and 3 is connected to the exchange 1 that constitutes the exchange system. The standard of the communication procedure in such a mobile communication system is "Second Generation Cordless Telephone System, Standard, 1st Edition, RCR STD-28" (December 20, 1993) issued by the Radio System Development Center. Formulated). FIG. 14 shows the procedure of the transmission sequence from the mobile phone 4 according to this standard.
FIG. 15 shows the procedure of the incoming sequence from the mobile phone 4.
The procedure of the call back sequence is shown in FIG. 16, and the mobile phone sets the call at the time of emergency call setup and at the time of handover according to this call sequence procedure.
According to this incoming sequence procedure, the call setup by the call back is accepted.

In addition, in order to authenticate the validity of the mobile phone 4, the exchange 1 sends an authentication random number to the authentication request message after receiving the call setting and sends it to the mobile phone via the base station as shown in FIG. . The mobile phone performs an authentication calculation using the received authentication random number, sends the result on the authentication response message, and sends it to the exchange through the base station. In this way, the exchange determines whether or not the mobile phone should provide the service based on the authentication calculation result.

By the way, in the mobile communication system,
An emergency call setting request issued from the mobile phone 4 is sent to a fire station or the like via some exchanges 1 as in the case of a wired phone. In the case of the system shown in FIG. 13,
The communication path from the mobile phone 4 in the area 5 is formed through the mobile phone 4, the base station 2, and the exchange 1 to the called fire station or the like. At this time, the emergency call information included in the call setup message is held in the base station 2 and the exchange 1 on the communication path to which the call setup message is sent. The emergency call information includes information for identifying the mobile phone 4 that is making an emergency call. Here, when the cellular phone 4 disconnects the line and is called back from the called party, the base station 2 holds the emergency call information and therefore makes an emergency call within its own area 5. Knowing that there is a mobile phone 4. Therefore, the call setup message by the call back from the exchange 1 can be sent to the mobile phone 4, so that the called party can call back the mobile phone 4 via the exchange 1 and the base station 2.

[0006]

However, in the conventional emergency call control system, there is a case where the mobile phone cannot be called back. This is because in the case of a mobile phone, the area may be moved by a handover while the line is connected. In other words, when moving between areas, the base stations that form the communication path will automatically switch, but the call setup message sent from the mobile phone when switching to a new base station does not include emergency call information. Therefore, the base station of the switching destination cannot determine whether the mobile phone that has moved is in an emergency call. For example, in FIG. 13, when the mobile phone 4 moves from area 5 to area 6 by a handover, the communication path is switched from via the base station 2 to via the base station 3, but conventionally the emergency call information is passed to the base station 3. The base station 3 does not have emergency call information because there is no means for doing so. When the mobile phone 4 moves to the area 6 and the line is disconnected, the called party calls back. However, even if the base station 3 receives a call setup message from the exchange 1 by the call back, which mobile phone 4 I can't recognize if I was making an emergency call.

As described above, conventionally, there is no means for informing the base station which controls the area of the destination of the portable telephone that the moving portable telephone is in an emergency call. Therefore, the temporarily held path is called. It was not possible to call back even if the person chasing in the opposite direction of the emergency call.

The present invention has been made to solve the above problems, and a first object thereof is to provide an emergency call control system capable of returning a call to a mobile terminal even in the case of a handover. To do.

Another object of the present invention is to provide an emergency call control system which can simplify the line reconnection procedure at the time of call back.

[0010]

In order to achieve the above objects, an emergency call control system according to the present invention is provided between a mobile communication terminal and the mobile communication terminal moving in a paging area. In a mobile communication system having a base station that performs wireless communication with each other and a switch that connects each of the base stations and holds information about an emergency call, the emergency call information is sent to the switching destination base station at the time of handover. It has a means to do.

Further, the mobile communication terminal transmits the emergency call information to the switching destination base station at the time of handover during the emergency call.

Further, the mobile communication terminal is characterized in that it transmits a call setting message to which emergency call information is added to a switching destination base station.

On the other hand, the exchange is characterized in that it transmits the emergency call information to the switching destination base station at the time of handover of the mobile communication terminal during the emergency call.

Further, the exchange is characterized in that it transmits a call setting acceptance message to which emergency call information is added to the switching destination base station.

As described above, since the information for specifying the mobile communication terminal in the emergency call at the time of handover is sent to the switching destination base station, the switching destination base station is
It is possible to know that the mobile communication terminal that has moved into the paging area was in an emergency call. This allows
The switching destination base station can call back.

An emergency call control system according to another invention is
A mobile communication terminal, and a base station that performs wireless communication between the mobile communication terminal that moves in the paging area, and an exchange that connects the base stations, and the switch and the In a mobile communication system that sends and receives a message to and from a mobile communication terminal via the base station, the base station refers to the content of the message sent from the mobile communication terminal to the exchange. It is characterized by recognizing that a handover was performed during an emergency call.

Further, the exchange sends an authentication request message including an authentication random number to the mobile communication terminal at the time of call setup in order to authenticate the validity of the mobile communication terminal, and the mobile communication terminal receives the authentication request message. The result of the authentication calculation performed using the authentication random number is transmitted to the exchange, the base station,
It is characterized in that the handover is performed during an emergency call by referring to the result of the authentication calculation sent by the mobile communication terminal.

Further, the exchange is characterized in that it generates an authentication random number that can obtain a specific authentication calculation result when the authentication calculation is performed twice or more when the emergency call setting is received.

As described above, the base station can monitor the message transmitted / received between the exchange and the mobile communication terminal at the time of call setup, and can recognize the presence / absence of the handover in its own station by the contents thereof.

An emergency call control system according to another invention is
A mobile communication terminal, a base station that performs wireless communication between the mobile communication terminal that moves in the paging area, and a switch that connects each of the base stations and holds information regarding an emergency call. In a mobile communication system in which when the mobile communication terminal disconnects the line during an emergency call, the mobile communication terminal calls back by call setup from a called party, the mobile communication terminal relates to a call path used for an emergency call. Holding emergency call path information, the base station holds emergency call path information regarding the call path used by the mobile communication terminal for emergency calls,
The feature is that the line is reconnected using the emergency call path information when the call is set up by calling back. In this way, by retaining the information on the emergency call path used between the mobile communication terminal and the base station, it is possible to omit the processing for forming the emergency call path again. The line reconnection process in can be simplified.

[0021] Also, a base station that performs wireless communication between the mobile communication terminal and the mobile communication terminal that moves in the paging area is connected to each of the base stations, and holds information about emergency calls. In a mobile communication system having an exchange and performing a call back by call setup from the called party when the mobile communication terminal disconnects the line during an emergency call,
The base station and the exchange hold the call path used for the emergency call even when the mobile communication terminal disconnects the line during the emergency call, and the call path held when the call is set up by calling back due to the disconnection of the line. The feature is that the line is reconnected by using. In this way, by retaining the resources of the emergency call path used on the exchange side from the base station, the processing for forming the emergency call path between the base station and the called party can be omitted again. Therefore, the line reconnection process at the time of calling back can be simplified.

[0022]

BEST MODE FOR CARRYING OUT THE INVENTION Preferred embodiments of the present invention will be described below with reference to the drawings.

Embodiment 1 The overall system configuration using the emergency call control system in the present embodiment is the same as in FIG. The block configuration of the base stations 2 and 3 used in the emergency call control system according to the present invention is shown in FIG. 1, the block configuration of the mobile phone 4 is shown in FIG. 2, and the block configuration of the exchange 1 is shown in FIG. Event transmitting / receiving units 12, 22, 31 for transmitting / receiving various messages, event analyzing units 13, 23, 32 for analyzing messages, an information storage unit 15 for temporarily storing messages to be transmitted / received and storing various setting information, 25, 34 and control units 14, 24, 33 for controlling the entire configuration mounted on each device are mounted. Further, the base stations 2 and 3 and the exchange 1 further include switch units 16 and 35 for switching a call channel, and the mobile phone 4 has a key input / output unit 27 for inputting a call destination and the like. Key analysis unit 26 for analyzing input by key operation
have. Furthermore, the base stations 2 and 3 and the mobile phone 4
Has antennas 11 and 21 for performing wireless communication. The configuration itself installed in each device is almost the same as the conventional one, and the control of the control units 14, 24, 33 and the information stored in the information storage units 15, 25, 34 are different. It should be noted that the mobile communication in this embodiment is performed based on the above-mentioned standard. Further, the mobile communication system in the present embodiment includes not only a configuration related to wireless communication with a mobile communication terminal, but also an exchange system that forms a communication path to a called party.

A feature of this embodiment is that the mobile phone 4 is made to send out emergency call information not only at the start of an emergency call but also at the time of a handover. As a result, the base station that is the switching destination can recognize that the mobile phone 4 during the emergency call has moved into the area by receiving the emergency call information from the mobile phone 4, and the exchange 1 via the exchange 1. It is possible to specify the mobile phone 4 to which the call setup message by calling back should be sent.

In the above-mentioned standard, if a fixed shift is designated in the existing call setup message data, a unique message can be added subsequently to the fixed shift. Therefore, in the present embodiment, as shown in FIG. 4, the emergency call information 4 is added to the existing call setup message following the fixed shift 41.
2 is added and the call setup message to which the emergency call information 42 is added is transmitted at the time of handover. As shown in FIG. 5, the emergency call information includes the slot number and frequency, which are also the emergency call path information used in the formed call path, the PS-ID of the own station, and the PS number indicating the subscriber number. including. The base station can specify the mobile phone to be called back by obtaining the PS number.

Next, the operation at the time of handover in the present embodiment when mobile phone 4 moves from area 5 to area 6 will be described using the sequence procedure of handover shown in FIG.

When moving from the area 5 to the area 6, a switching instruction is sent from the base station 2 to the mobile phone 4 due to deterioration of the communication level (step 101). The mobile phone 4 detects the radio wave level in a new area and requests the best base station 3 to establish a channel (step 102). Then, after performing a predetermined sequence such as a synchronization burst, a call setup request is sent to the base station 3 (step 103). The control unit 24 in the present embodiment sends the call setting message including the above-mentioned emergency call information to the switching destination base station 3 from the antenna 21 via the event analysis unit 23 and the event transmission / reception unit 22.

When the base station 3 recognizes that the call setup message received from the antenna 11 includes the emergency call information, it stores the emergency call information in a predetermined portion of the information storage unit 15. This allows the base station 3 to determine which mobile phone in the area 6 is in an emergency call.

In this state, when the cellular phone 4 disconnects the line, the called party calls back, but when the base station 3 receives a call setting request from the exchange 1 by calling back, it is registered in the information storage unit 15. With reference to the emergency call information, a call setup request is transmitted at a predetermined slot number to the mobile phone 4 in the emergency call specified by the PS number. In this way, even if the mobile phone 4 moves, it is possible to call back to the mobile phone 4 during the emergency call.

The exchange 1 has the emergency call information in the information storage unit 34 shown in FIG. 3 similarly to the base station 2 by the emergency call setting from the mobile phone 4. The fact that the call path formed by the mobile phone 4 during an emergency call has been switched from the base station 2 to the base station 3 can be known from the call setup message obtained via the base station 3, so the information storage unit The registration contents of 34 can be updated.

As described above, according to the present embodiment, the mobile phone 4 is made to transmit the emergency call information even at the time of the handover, so that the base station 3 of the handover switching destination moves into the area. It is possible to know that the mobile phone 4 that has made a call was in an emergency call. As a result, even if there is a call back from the called party, the base station of the switching destination can determine the transmission destination of the call setup request by the call back, that is, the mobile phone in an emergency call in the area. Therefore, the call back can be surely performed.

In the present embodiment, as shown in FIG. 4, the call setup message used at the time of handover is data obtained by additionally adding emergency call information to an existing call setup message for newly establishing a line connection. Although it has a format, emergency call information may be set in the same place as when a new line connection is made.

Further, in the present embodiment, the emergency call information is added to the call setup message based on the above-mentioned standard and is sent to the base station, but the emergency call information is not limited to this standard and is used at the time of handover. Can be used according to the standard.

Embodiment 2 In the above-described first embodiment, the mobile telephone 4 that has moved is configured to send the emergency call information to the base station to which the mobile telephone has moved.
The present embodiment is characterized in that the exchange 1 is designed to send.

The operation at the time of handover in the present embodiment when mobile phone 4 moves from area 5 to area 6 will be described with reference to FIG.

First, the switching destination base station 3 and the mobile telephone 4
The procedure up to the call setting performed between and is as described above. However, in the case of the present embodiment, it is not necessary to add the fixed shift 41 and the emergency call information 42 shown in FIG. 4 to the call setup message.

The exchange 1 sends a call setup acceptance message to the base station 3 in order to respond to the call setup request received from the mobile telephone 4 via the base station 3 (step 10).
4) In the present embodiment, as shown in FIG. 7, the emergency call information 43 is added to the existing call setup acceptance message and sent to the base station 3. The emergency call information 43 to be added has the same contents as in FIG. 5 described above.

When the base station 3 recognizes that the received call setting acceptance message contains the emergency call information, it sets the emergency call information in a predetermined portion of the information storage unit 15. As a result, the base station 3 can recognize that the mobile phone during an emergency call has moved into its own area and can identify the mobile phone.

As described above, according to the present embodiment, since the exchange 1 is made to transmit the emergency call information to the base station 3 of the switching destination at the time of the handover of the mobile telephone 4, the above-mentioned first embodiment is performed. Similar to the form, it is possible to reliably call back from the called party.

Embodiment 3 In each of the above-described embodiments, description has been made regarding that the mobile phone or the exchange sends the emergency call information to the base station during the handover. Here, a method will be described in which it is possible to recognize by itself that the mobile phone during an emergency call has moved to the switching destination base station.

The mobile phone performs the authentication calculation using the authentication random number set by the exchange to authenticate the validity at the time of call setup. The present embodiment is characterized in that the base station is made to monitor the authentication calculation result transmitted and received to notify that the mobile phone during an emergency call has moved. In the present embodiment, attention is paid to the fact that the authentication calculation performed at the time of handover during an emergency call is the second and subsequent processes. In other words, the mobile phone
Although the first authentication calculation is performed at the start of the emergency call, if the authentication calculation is performed twice or more during the call, it can be determined that the call setup by the handover is performed. Therefore, create an authentication random number so that it can be uniquely determined whether the calculation is performed once or the calculation is performed twice or more by looking at the calculation result, and refer the result at the base station. It is made to recognize the presence or absence of handover. In addition, for the second and subsequent authentication calculations,
The result obtained by the previous authentication calculation is used as the authentication random number. In the present embodiment, the MS of the authentication calculation result
The presence or absence of handover is recognized based on the value of B (Most Significant Bit). This procedure will be described using the sequence shown in FIG.

First, when the exchange receives a call request for an emergency call from a mobile phone via the base station, it determines from the contents of the message whether or not it is an emergency call (step 201). If it is not an emergency call setup request, 2
An authentication random number is created so that the MSB does not become 1 even if the authentication calculation is performed more than once (step 202). If it is an emergency call setup request, the MSB becomes 1 by performing the authentication calculation more than once.
Then, an authentication random number is created (step 203). Then, the authentication request message carrying the authentication random number is sent to the mobile phone (step 204).

The mobile phone performs an authentication calculation using the received authentication random number (step 205) and sends the result in an authentication response message to the exchange through the base station. At this time, the base station Examine the results. Since the MSB is always 0 in this first authentication calculation, it is recognized as not an emergency call handover (step 206).

Here, when the base station is switched by the hand-over, the mobile phone again sends a call setting request. At this time, the authentication calculation is performed again upon receiving the authentication request message from the exchange. (Step 207). Since this authentication calculation is the second time, the MSB of the result of the authentication calculation is 1. The mobile phone puts the result on the authentication response message and sends it to the exchange through the base station. At this time, the base station checks the authentication calculation result, but since the MSB in this case is 1, it recognizes that it is an emergency call handover (step 2).
08).

As described above, according to the present embodiment, the handover is performed during the emergency call to the base station of the switching destination by using the message transmitted and received in the authentication at the time of call setup. Can be recognized in the own station. Therefore, as in each of the above-described embodiments, it is possible to recognize from another station that it is a handover during an emergency call without being explicitly stated.

In the above example, by referring to the MSB of the authentication calculation result, whether or not it is the handover of the emergency call can be efficiently recognized by the transmission and reception of the existing message and the minimum number of bits. Of course, other bit positions or multiple bits may be used. Further, in the present embodiment, transmission / reception of a message relating to authentication is used, but if possible, an independent message may be transmitted / received or another existing message may be used.

Fourth Embodiment In each of the above embodiments, the control method for eliminating the inconvenience at the time of handover has been described. The control method according to the present embodiment relates to simplification of the call setup procedure in the case of call back and can be used without being limited to handover.

By the way, as mentioned above, when the cellular phone disconnects the line due to an erroneous operation during the emergency call, the call back is performed as described above.
It is performed according to the same incoming sequence as when an ordinary call setup request such as shown in FIG. The present embodiment is characterized in that the mobile phone is made to retain the emergency call path information before the line disconnection even after the line disconnection, thereby simplifying the procedure of line reconnection. As shown in FIG. 9, the emergency call path information includes the slot number and frequency used before the line disconnection, and the identification information (CS-ID) of the wirelessly connected base station.

Next, the procedure for receiving a call back in the present embodiment will be described with reference to FIG. 10 showing a simplified procedure. It is assumed that the mobile phone 4 is in the area 5.

The mobile phone 4 stores the emergency call path information in the information storage unit 25 at the time when the emergency call is started.
On the other hand, the base station 2 stores the emergency call information in the information storage unit 15. Here, when the line is disconnected due to a user's operation error, power failure, etc. (step 301), the exchange 1 sends a call setup message to which the above-mentioned emergency call information is added to the base station 2 for call back ( Step 302). When the base station 2 recognizes from the emergency call information of the call setup message that the call is an emergency call, it sends an incoming message with the call back to the mobile phone 4 (step 303). Normally, the base station 2 transmits the incoming message shown in FIG. 11, but in the present embodiment, in the case of a call back of an emergency call, the fact is set in the call service type 44 and the message is transmitted. . According to the above-mentioned standard, an option can be arbitrarily specified for the call service type 44. At the same time, the control unit 14 enters a waiting state for receiving the synchronization burst signal in the slot having the slot number included in the emergency call information.
In other words, it does not wait for the reception of a link channel establishment request that is performed during normal call setup.

Upon receiving the above-mentioned incoming message, the portable telephone 4 refers to the call service type 44 in the message and recognizes that it is a call setting request by calling back.
The slot number of the emergency call path information held in the information storage unit 25 is obtained, and the synchronous burst signal is transmitted in that slot (step 304). That is, the link channel establishment request made during normal call setup is not transmitted.

Upon receiving the synchronization burst signal from the mobile phone 4, the base station 2 performs a predetermined process with the exchange 1 and then resumes an emergency call between the called party and the mobile phone 4. Since the emergency call information held by the base station 2 includes the same slot number and frequency as the emergency call path information held by the mobile phone 4, the call path can be reliably formed.

As described above, according to the present embodiment, since the above-mentioned emergency call path information is held in the mobile phone 4, normally, when a call is received, the mobile phone 4 and the base station 2 receive the call. It is possible to omit the link channel establishment request and link channel allocation procedure performed for slot acquisition. Therefore, it is possible to simplify the procedure of the incoming call sequence in the case of call back, so that the line reconnection can be made faster.

Embodiment 5 FIG . In the fourth embodiment, the sequence between the base station and the mobile phone is omitted to simplify the procedure of the incoming call sequence in the case of call back. However, once the line is disconnected, the exchange system side ahead of the base station releases resources such as slots reserved for forming a communication path. Therefore, at the time of calling back, a process for reserving resources is performed again from the called party to the base station via the exchange. Therefore, in the present embodiment, even when the line for emergency call is disconnected, the resources are kept connected, and the sequence between the base station and the exchange and between the exchanges is omitted and the call back is performed. In this case, the procedure is simplified. This will be described with reference to FIG. 12 showing the simplified procedure. It is assumed that the mobile phone 4 is in the area 5.

When the line is disconnected due to an operation error of the user of the mobile phone 4 (step 401), conventionally, the resources on the exchange side are released from the base station 2 which formed the communication path, but this embodiment In, it keeps the resource connected. Which resource is held can be specified by the emergency call information held by the base station and each exchange. Then, the exchange 1 connected to the base station 2 sends to the base station 2 a call setup message to which emergency call information is added for call back (step 40).
2). Each exchange between the called party and the exchange 1 does not need to send out the call setup message because the resources remain connected. Subsequent processing between the base station 2 and the mobile phone 4 may be the same sequence as the conventional one, or may be the same as that in the fourth embodiment. Further, the subsequent processing between the base station 2 and the exchange 1 is the same as the conventional one. Therefore, description is omitted.

As described above, according to the present embodiment, even when the cellular phone 4 disconnects the line, the resource on the wired side ahead of the base station 2 is kept connected, so that the base station It is possible to omit the sequence of call setting and call setting acceptance performed between the exchanges and further between the exchanges.
Therefore, it is possible to simplify the procedure of the incoming call sequence in the case of call back, so that the line reconnection can be made faster.

At present, the call back function is used only in a system relating to an emergency call, but if it is also used in another system in the future, that system will also be described in each of the embodiments described in this embodiment. It is possible to use the method.

In each of the above embodiments, the case where the mobile communication terminal is a mobile phone has been described, but it goes without saying that an automobile telephone or the like is also included in the mobile communication terminal.

[0059]

According to the first aspect of the present invention, the information for identifying the mobile communication terminal in emergency call at the time of handover is sent to the switching destination base station. The station can know that the mobile communication terminal moving into the paging area was in an emergency call. As a result, even if there is a call back from the called party, the switching destination base station can reliably identify the destination of the call setup request due to the call back, that is, the mobile communication terminal in an emergency call in the area. Because you can
It is possible to reliably call back. In particular, the second
According to the third aspect of the invention, the mobile communication terminal is made to transmit the emergency call information not only at the time of setting the emergency call but also at the time of handover, so that the above effect can be obtained. Also,
According to the fourth and fifth aspects of the present invention, the exchange can send the emergency call information to the base station to which the handover is switched to notify the mobile communication terminal of the emergency call, which can achieve the above effect.

According to the sixth aspect of the present invention, the base station monitors the message transmitted / received between the mobile communication terminal and the exchange so that the mobile telephone in emergency call has moved into the paging area. It becomes possible for the base station of the switching destination to recognize itself. Particularly, according to the seventh and eighth inventions, the above effect can be obtained by effectively utilizing the existing message and the authentication random number transmitted and received for authenticating the legitimacy of the mobile communication terminal.

According to the ninth aspect of the invention, since the mobile communication terminal holds the emergency call path information before disconnection, it is not necessary to newly acquire the resource for forming the emergency call path. Therefore, it is possible to simplify the procedure of the incoming sequence in the case of calling back.

According to the tenth invention, even when the line is disconnected during an emergency call by the mobile communication terminal, the resource on the exchange side ahead of the base station is kept connected, so that the resource The procedure of reallocation can be omitted. Therefore, it is possible to simplify the procedure of the incoming sequence in the case of calling back.

[Brief description of drawings]

FIG. 1 is a block configuration diagram of a base station corresponding to a first embodiment of an emergency call control system according to the present invention.

FIG. 2 is a block configuration diagram of a mobile phone corresponding to the first embodiment of the emergency call control system according to the present invention.

FIG. 3 is a block configuration diagram of an exchange corresponding to the first embodiment of the emergency call control system according to the present invention.

FIG. 4 is a diagram showing a data format of a call setup message used in the first embodiment.

FIG. 5 is a diagram showing the contents of emergency call information used in the first embodiment.

FIG. 6 is a diagram showing a sequence procedure of a handover in the first embodiment.

FIG. 7 is a diagram showing a data format of a call setting acceptance message used in the second embodiment of the emergency call control system according to the present invention.

FIG. 8 is a diagram showing a sequence procedure of processing performed at the time of handover in the third embodiment of the emergency call control system according to the present invention.

FIG. 9 is a diagram showing emergency call path information held by a mobile phone corresponding to the fourth embodiment of the emergency call control system according to the present invention.

FIG. 10 is a diagram showing an incoming call sequence procedure of a call back in the fourth embodiment.

FIG. 11 is a diagram showing an incoming message used in the fourth embodiment.

FIG. 12 is a diagram showing a sequence procedure of circuit reconnection in the fifth embodiment of the emergency call control system according to the present invention.

FIG. 13 is a schematic diagram of a mobile communication system that provides a call service to a mobile phone.

FIG. 14 is a diagram showing a calling sequence procedure from a mobile phone according to a standard.

FIG. 15 is a diagram showing an incoming sequence procedure from a mobile phone according to a standard.

FIG. 16 is a diagram showing a sequence procedure at the time of call back according to the standard.

FIG. 17 is a diagram showing a sequence procedure for authenticating the legitimacy of the mobile phone according to the standard.

[Explanation of symbols]

1 exchange, 2, 3 base stations, 4 mobile phones, 5, 6
Wireless zone, 11,21 antennas, 12,22,3
1 event transmission / reception unit, 13, 23, 32 event analysis unit, 14, 24, 33 control unit, 15, 25, 34
Information storage unit, 16, 35 switch unit, 17 wireless control unit, 26 key analysis unit, 27 key input unit.

Claims (10)

[Claims] 1. A base station for performing wireless communication between a mobile communication terminal and the mobile communication terminal moving in a paging area, and each base station is connected to hold information about an emergency call. An emergency call control method comprising means for transmitting emergency call information to a switching destination base station in a mobile communication system having an exchange. 2. The emergency call control method according to claim 1, wherein the mobile communication terminal transmits emergency call information to a switching destination base station during handover during an emergency call. method. 3. The emergency call control method according to claim 2, wherein the mobile communication terminal transmits a call setup message to which emergency call information is added to a switching destination base station. . 4. The emergency call control system according to claim 1, wherein the exchange transmits emergency call information to a switching destination base station at the time of handover of a mobile communication terminal during an emergency call. Call control method. 5. The emergency call control method according to claim 4, wherein the exchange sends a call setup acceptance message to which emergency call information is added to a switching destination base station. 6. A mobile communication terminal, a base station that performs wireless communication between the mobile communication terminal that moves in a paging area, and an exchange that connects each of the base stations. In a mobile communication system in which a message is transmitted and received between the exchange and the mobile communication terminal via the base station at the time of setting, the base station is the message transmitted from the mobile communication terminal to the exchange. An emergency call control method characterized by recognizing that a handover was performed during an emergency call by referring to the contents. 7. The emergency call control method according to claim 6, wherein the exchange sends an authentication request message including an authentication random number to the mobile communication terminal at the time of call setup in order to authenticate the validity of the mobile communication terminal. The mobile communication terminal transmits the result of the authentication operation performed using the received authentication random number to the exchange, and the base station refers to the result of the authentication operation sent by the mobile communication terminal. Therefore, the emergency call control method is characterized by recognizing that the handover is performed during the emergency call. 8. The emergency call control method according to claim 7, wherein the exchange creates an authentication random number that obtains a specific authentication operation result when performing the authentication operation two or more times when receiving the emergency call setting. An emergency call control method characterized in that 9. A base station that performs wireless communication between a mobile communication terminal and the mobile communication terminal that moves in a paging area, and each base station is connected to hold information about an emergency call. A mobile communication system having an exchange and performing call back by call setup from the called party when the mobile communication terminal disconnects the line during an emergency call, wherein the mobile communication terminal is an emergency call. Holds the emergency call path information about the call path used by the mobile communication terminal, and the base station holds the emergency call path information about the call path used by the mobile communication terminal for emergency call An emergency call control method characterized by reconnecting lines using information. 10. A base station that performs wireless communication between a mobile communication terminal and the mobile communication terminal that moves in a paging area, and each base station is connected to hold information about an emergency call. In a mobile communication system having an exchange, wherein the mobile communication terminal performs call back by call setup from the called party when the mobile communication terminal disconnects the line during an emergency call, the base station and the exchange are Even when the mobile communication terminal disconnects the line during an emergency call, the call path used for the emergency call is retained, and the line is reconnected using the retained call path when the call is set up by calling back due to the disconnection. An emergency call control method characterized in that