JP3856415B2 - Wireless communication apparatus and control method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present inventionWireless communication apparatus and control methodAbout.
[0002]
[Prior art]
Conventionally, in mobile stations using wireless communication, for example, mobile phones and PHS (Personal Handyphone System), etc., in a usage mode mainly for voice communication or deemed voice data communication, a call request from an information device is used. When incoming requests from radio base stations occur at the same time, a method of preferentially processing incoming calls has been taken from the policy that no call loss occurs.
[0003]
However, in recent years, particularly in PHS, which is a simple mobile phone, wireless data communication using unrestricted digital has been standardized, and information equipment having this function is being used. In addition, real-time data transfer is scheduled to be standardized, and it is considered to add value to the function as a telephone.
[0004]
In an information device having both voice wireless communication and digital data wireless communication functions, when performing data communication, a PC (computer terminal) and a mobile station are connected with a card, or voice communication is performed. It was necessary to change the configuration of the device depending on the type of communication that the user wanted to use, such as connecting an earphone microphone. Furthermore, in a composite terminal such as a PHS + digital camera, a PHS + digital video camera, etc., there is a request that the user does not want to receive an incoming call during shooting but only wants to know the other party.
[0005]
[Problems to be solved by the invention]
However, in the conventional configuration, when the mobile station and the information device are ready for data communication, such as when the mobile station is configured to preferentially process incoming calls, a voice incoming request is received wirelessly. When coming up from the base station, it is necessary for the user to perform a troublesome operation of setting an earphone microphone to perform voice communication and canceling data communication.
[0006]
  An object of the present invention is to perform processing of outgoing and incoming calls without degrading serviceability to the user when outgoing and incoming calls collide.
[0007]
[Means for Solving the Problems]
  In the wireless communication apparatus, the present invention provides a storage means for storing information indicating whether the incoming call process has priority or the outgoing call process has priority, a collision determination means for determining a collision between the incoming call process and the outgoing call process, and the storage When the information stored in the means is information indicating the priority of the outgoing call processing, if the collision discriminating means discriminates the collision between the incoming call processing and the outgoing call processing, the identification information of the called party and the transmission capability related to the incoming call And when the communication of the calling process executed by the first sending means is completed, the stored identification information of the called party and the transmission capability related to the incoming call are stored. On the basis of the second transmission means for transmitting to the called party and the information stored in the storage means are information indicating the priority of the incoming processing, the collision determination means of When the collision is determined, the identification information and transmission capability of the calling party are stored, and when the communication of the incoming call processing for executing the incoming call processing and the incoming call processing executed by the incoming call processing is completed, the stored identification of the called call destination is completed. A wireless communication apparatus comprising: a third transmission unit configured to transmit to the other party based on information and transmission capability.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 is a block diagram showing the configuration of the entire system embodying the present invention.
[0017]
In the figure, a PHS mobile station 100 is provided in a portable information device 101 and performs wireless communication with a PHS base station 102. The PHS base station 102 is connected to the exchange 103 by wire, and the exchange 103 is connected to the digital public communication network 104.
[0018]
FIG. 2 is a block diagram showing a detailed configuration of the PHS mobile station 100 and the portable information device 101.
[0019]
In the figure, a PHS unit 200 constitutes a PHS mobile station 100, and an application unit 210 and a man-machine interface 211 constitute a portable information device 101.
[0020]
The wireless RF unit 201 performs wireless transmission via an antenna, and the framer / deframer unit 202 performs PHS TDMA processing and unrestricted digital PIAFS framing / deframing processing.
[0021]
The control unit 203 controls the entire PHS unit 200, and the codec unit 204 performs audio processing. TX-SIG 205 is transmission data from the framer / deframer unit 202 to the radio RF unit 201, and RX-SIG 206 is reception data from the radio RF unit 201 to the framer / deframer unit 202. The RAM 207 has an area for storing various data.
[0022]
The application unit 210 is an information device unit such as a PC, a portable information terminal, or a digital camera. C-TXD 220 is control data from the application unit 210 to the PHS unit 200, and C-RXD 221 is control data from the PHS unit 200 to the application unit 210. D-RXD 222 is data from the PHS unit 200 to the application unit 210, and D-TXD 223 is data from the application unit 210 to the PHS unit 200.
[0023]
Note that the PHS mobile station 100 (PHS unit 200) and the portable information device 101 (application unit 210) may be housed in the same housing, or formed in separate units and connected by a signal line cable. May be.
[0024]
FIG. 3 (1) is an explanatory view showing the outgoing / incoming communication priority storage area table used in the first embodiment of the present invention, and FIG. 3 (2) is an outgoing / incoming call used in the second embodiment of the present invention. It is explanatory drawing which shows a communication priority storage area table. These tables are provided in the RAM 207, for example.
[0025]
As shown in FIG. 3A, the outgoing / incoming communication priority storage area 300 stores outgoing priority or incoming priority instructions.
[0026]
On the other hand, in the outgoing / incoming communication priority storage area 301 shown in FIG. 3 (2), outgoing call processing is performed by a combination of outgoing / incoming from the own terminal and its communication type (voice / data / real time, etc.). Or, which of the incoming call processing is to be prioritized is stored.
[0027]
FIG. 4 (1) is an explanatory diagram showing an area for storing the called party's calling party number and communication data type (such as transmission capability) used in the first embodiment of the present invention. FIG. 4 (2) shows the present invention. It is explanatory drawing which shows the area which stores the other party telephone number and communication data classification (communication capability etc.) in the case of ATD transmission from the own terminal used in 2nd Example of this.
[0028]
As shown in FIG. 4A, in the area 401 in which the calling number 1-N is stored, the telephone number of the other party acquired at the time of the incoming call is stored, and the communication data type storage area 402 (voice / data) / Real-time type) stores the type of communication data requested by the other party acquired at the time of incoming call.
[0029]
On the other hand, as shown in FIG. 4 (2), in the area 403 where the telephone number 1-N is stored, the telephone number of the other party specified at the time of ATD transmission is stored, and the communication data type storage area 404 ( The voice / data / real-time type) stores the type of communication data requested at the time of transmission.
[0030]
5 to 9 are diagrams showing a communication sequence used in the first embodiment of the present invention. FIG. 5 is a diagram showing a mobile information device, a PHS mobile station, and a mobile information device when transmitting from a mobile information device compliant with RCRSTD28. It is a normal transmission sequence diagram showing the flow of processing of the PHS base station.
[0031]
FIG. 6 is a normal incoming call sequence diagram showing the processing flow of the mobile information device, the PHS mobile station, and the PHS base station when receiving a call to the mobile information device compliant with RCRSTD28.
[0032]
Further, FIG. 7 shows a case where the mobile information device, the PHS mobile station, and the PHS base station are one method for realizing the incoming call rejection when the transmission from the mobile information device and the incoming call to the mobile information device collide. It is a sequence diagram showing the flow of operation.
[0033]
FIG. 8 shows a portable information device, a PHS mobile station, and a PHS base station, which is one method for realizing incoming call rejection when a call from the portable information device collides with a simultaneous incoming call to the portable information device. It is a sequence diagram showing the flow of operation.
[0034]
FIG. 9 shows one method for realizing incoming call rejection when the call from the portable information device and the incoming call to the portable information device collide, after acquiring the telephone number and communication data type of the called party. It is a sequence diagram showing the flow of operation | movement of a portable information device, a PHS mobile station, and a PHS base station.
[0035]
The operation in the first embodiment of the present invention will be described below.
[0036]
As shown in FIG. 5, in order to start a normal transmission sequence compliant with RCRSTD28, first, an application unit 210 (hereinafter referred to as APL) performs ATD transmission (501) and a radio base station 102 (hereinafter referred to as CS). Requesting establishment of a wireless link (502). Receiving this, the radio base station searches for a free communication channel, and notifies the result to the PHS unit 200 (hereinafter referred to as PHS) as a link channel assignment (503).
[0037]
The PHS sets the destination telephone number and communication data type (such as transmission capability) that are the parameters of the ATD in the assigned communication channel, and transmits the call setting to the CS (504).
[0038]
Then, when several sequences have passed and the communication partner has been connected, the PHS notifies the APL of the CONNECT representing the connection and performs communication.
[0039]
On the other hand, as shown in FIG. 6, in order to activate a normal incoming call sequence based on RCRSTD 28, first, the PHS receives an incoming call signal from CS (601). Receiving this, the PHS requests the CS to establish a radio link (602). Receiving this, the CS searches for a free communication channel and notifies the PHS of the result as link channel assignment (603).
[0040]
Next, communication channel synchronization is established between the PHS and the CS, and the CS receives a call setting including a caller number and a communication data type (such as transmission capability) for the PHS. (604)
Then, several sequences pass, and a RING indicating that there is an incoming call is notified to the APL (605). In response to this, the APL transmits an ATA to the PHS (606), and when connected to the communication partner, the PHS notifies the APL of a CONNECT representing the connection (607) and performs communication.
[0041]
FIG. 10 shows that in the first embodiment of the present invention, when a call from a portable information device and an incoming call to the portable information device collide, the call is given priority according to the call priority / call priority in the storage area 300. It is a flowchart which shows the operation | movement in the case of deciding whether to give priority to an incoming call and performing.
[0042]
First, it is checked whether or not a collision has occurred in the outgoing / incoming process (1000). If there is no collision, one of the processes is performed (1002). When a collision occurs, the storage area 300 is first checked to determine whether it has priority for outgoing calls or incoming calls (1003).
[0043]
If the call is given priority, the calling party's calling number is stored in the storage area 401, the communication data type of the called party is stored in the storage area 402 (1006), and the calling process is started (1008). Then, the communication operation is disconnected and the transmission operation is terminated (1010).
[0044]
Next, based on the information of the called party stored previously, a call is made to the telephone number in the storage area 401 using the communication data type in the storage area 402 (1012), and communication is performed (1014).
[0045]
If the incoming call has priority, the telephone number for ATD transmission is stored in the storage area 403, the communication data type is stored in the storage area 404 (1007), and the incoming call process is advanced (1009). Then, communication is performed, and when the incoming call processing is completed (1011), the communication data type of the storage area 404 is transmitted to the telephone number of the storage area 403 stored previously.
[0046]
Next, a description will be given of a sequence for realizing incoming call rejection when outgoing and incoming calls collide.
[0047]
First, as shown in FIG. 7, when an outgoing call (ATD) is made by an AT command from the APL (701), an incoming call is sent from the CS to the PHS (702), and as a result, an outgoing call request from the APL. When the incoming requests from the CS and the CS overlap, it is assumed that the storage area 300 is set to give priority to outgoing calls. If the PHS immediately sends a link channel establishment request to the CS, the PHS Even if it intends to make a call, the CS determines that it has responded to the incoming call. In this case, the CS continues to communicate with the called party, and as a result, there is no state between the PHS and the CS. Matching will occur.
[0048]
In order to prevent this, the processing is stopped without issuing a link channel establishment request by the PHS by the timer only for the time when the CS disconnects from the other party (time when it is regarded as an unanswered call: TR301C-4 seconds described in RCRSTD28). Keep it. Meanwhile, a signal indicating that the call is waiting is transmitted to the APL (703). After the time-out of the timer (705), disconnection on the network side occurs due to non-response of incoming call (706).
[0049]
In the PHS, after the timeout of 4 seconds, which is the time that the CS regards as an unanswered call (704), the call-prioritized communication is realized (710) by performing the operation related to the call.
[0050]
Further, as shown in FIG. 8, when an APL is first issued (ATD) from an APL (801), a simultaneous incoming call is generated from the CS to the PHS unit 200 (hereinafter referred to as PHS1) (802a, 802b) As a result, if the outgoing call request from the APL and the incoming call request from the CS overlap, the storage area 300 is set to give priority to outgoing calls, and the link channel establishment request is immediately sent to the CS. In the case of transmission to the PHS1, even if the PHS1 intends to make a call, the CS determines that it has responded to the incoming call. In this case, the CS continues to communicate with the called party, and as a result, the PHS1. And CS will be inconsistent.
[0051]
In order to prevent this, when another PHS slave unit (hereinafter referred to as PHS2) responds to the simultaneous incoming call, the simultaneous incoming call sequence (see FIG. 5) runs between the PHS2 and CS (803, 804, 805). ) After receiving the stop signal for simultaneous incoming calls (806), the PHS 1 activates the outgoing call sequence (see FIG. 3) with the CS and communicates in the desired outgoing call processing (807, 808, 809, 810).
[0052]
Further, as shown in FIG. 9, when a call is first made (ATD) from an APL using an AT command (901), an incoming call is generated from the CS to the PHS (902). As a result, a call request from the APL is generated. If the incoming calls from CS and CS are overlapped, the storage area 300 is set to give priority to outgoing calls, the telephone number as a parameter for ATD transmission is stored in the storage area 403, and the AT command Is stored in the storage area 404, and the incoming call sequence is performed (903, 904).
[0053]
Therefore, when the call setting is received from the CS (905), the calling party's calling party number is stored in the storage area 401, the communication data type included in the transmission capability is stored in the storage area 402, and the call started by the incoming call Is cut (906, 907). When the disconnection is completed, the ATD for which the processing has been suspended is activated, and transmission is performed based on the storage area 403 and the storage area 404 (908, 909, 910), and communication by ATD transmission is established (911).
[0054]
When this communication is completed, an AT command ATH indicating disconnection is issued from the APL (912), and disconnection is performed. Subsequently, based on the information stored in the storage area 403 and the storage area 404, the automatic transmission is performed to the other party who refuses the incoming call and communication is performed (914, 915). At this time, the PHS notifies the APL that automatic calling is to be made to the called party (914).
[0055]
As described above, in the processing when the outgoing call and the incoming call collide, even if the outgoing call is processed with priority, it can communicate with the called party again, and even if the incoming call is processed with priority, the incoming call is answered. There is an effect that the call processing can be automatically performed later.
[0056]
Next, the operation in the second embodiment of the present invention will be described.
[0057]
FIG. 11 shows that in the second embodiment, when the transmission from the portable information device and the incoming call to the portable information device collide, priority is given to the transmission according to the respective communication data types in the storage area 301 or the incoming call. It is a flowchart which shows the operation | movement in the case of determining whether to prioritize and performing.
[0058]
FIG. 12 is a sequence diagram when the transmission is prioritized according to each communication data type when the transmission from the portable information device and the incoming call to the portable information device collide.
[0059]
Further, FIG. 13 is a sequence diagram when priority is given to an incoming call according to each communication data type when a call from the portable information device collides with an incoming call to the portable information device.
[0060]
As shown in FIG. 11, first, it is checked whether or not a collision has occurred in the outgoing / incoming process (1100). If there is no collision, one of the processes is performed (1102). If a collision occurs, the ATD transmission data type and the incoming data type are stored (1101), and the storage area 301 is referenced (1103). Here, referring to FIG. 3 (2), for example, if the outgoing call from the own terminal is real-time data communication and the incoming call to the own terminal is voice communication, as shown in FIG. The call processing is prioritized (1103). The rest is the same as the processing of FIG.
[0061]
Next, the sequence will be described in detail with reference to an example.
[0062]
As shown in FIG. 12, when an outgoing call (ATD) is first made from an APL by an AT command (ATD) (1200), an incoming call is generated from the CS to the PHS (1201). As a result, an outgoing call request from the APL and a CS If there is an overlap with the incoming call request from, first the incoming call processing is performed, and the PHS receives the call setting from the CS (1202).
[0063]
At this time, the communication data type of ATD transmission and the communication data type included in the call setting from the CS are acquired, and the storage area 301 is referred to. Therefore, when the call priority is set, the PHS transmits a release completion to the CS instead of accepting the call setting (1203), and disconnects the radio channel (1204). As a result, the incoming call is temporarily rejected, and the outgoing call processing that is a request from the APL is performed (1205, 1206, 1207, 1208). At the end of communication, APL disconnects by ATH (1209).
[0064]
Next, based on the telephone number (storage area 401) and communication data type (storage area 402) acquired in 1202, the call is automatically made (1211, 1212). A notification that the outgoing call operation has been automatically performed is sent to the previous call rejection party (1213), and communication is performed.
[0065]
On the other hand, as shown in FIG. 13, when a call is first made (ATD) from an APL using an AT command (1300), an incoming call is generated from the CS to the PHS (1301). When the request and the incoming request from the CS overlap, first the incoming call processing is performed, and the PHS receives the call setup from the CS (1302).
[0066]
At this time, the communication data type of ATD transmission and the communication data type included in the call setting from the CS are acquired, and the storage area 301 is referred to. Therefore, when the incoming call priority is set, the PHS transmits a call setting acceptance to the CS (1303), and transmits a RING which is an incoming call display to the APL (1304).
[0067]
The APL transmits ATA as a response command (1305) and performs communication (1306). At the end of communication, ATH indicating disconnection is transmitted to the PHS unit (1307), and the wireless channel is disconnected.
[0068]
Next, the ATD that has been put on hold in 1300 is started (1308), and the telephone number specified in the ATD is notified and the call that has been put on hold for the APL at this time is started. (1309) and perform communication (1310).
[0069]
As described above, in the processing when the outgoing call and the incoming call collide, the priority processing of outgoing call and incoming call can be determined according to the communication data type, and even when the outgoing call is processed preferentially, the communication with the called party is performed again. In addition, even when an incoming call is preferentially processed, an outgoing call process can be automatically performed after answering the incoming call.
[0070]
Next, a third embodiment of the present invention will be described.
[0071]
In the above-described first and second embodiments, processing at the time of collision between outgoing and incoming calls is given, but it is also possible to determine whether to accept or reject an incoming call depending on the data type requested by the called party at the time of incoming call. It is.
[0072]
As shown in FIG. 14, it is assumed that an instruction is received from the APL indicating that the communication data type can only be received in real time (1400). The PHS receives an incoming call from the CS (1401), proceeds with incoming call processing, and the PHS receives a call setup from the CS (1402). At that time, a communication data type is acquired, and it is checked whether the communication data type is a setting for processing incoming calls or a setting for rejecting incoming calls.
[0073]
If the incoming call processing is set, the incoming call processing shown in FIG. 6 is performed. If the incoming call rejection is set, the incoming call is disconnected (1403), and the wireless channel is disconnected. At this time, the telephone number and communication data type of the called party are transmitted to the APL unit (1404).
[0074]
As described above, even if it is not desired to receive an incoming call except for a specific data communication type depending on the state of the device, the incoming call can be rejected, and the telephone number of the called party and the communication data type can be notified to the application. There is an effect.
[0075]
In each of the above embodiments, PHS communication is used as a premise, but the same effect can be obtained by applying the same embodiment not only to PHS but also to other standards such as GSM and mobile phones. it can.
[0076]
  As explained above, according to the above explanationThe following effects can be obtained.
(1) In a wireless communication apparatus capable of performing both voice communication and data communication, it is possible to realize a request to perform outgoing call and incoming call priority processing that has not been conventionally performed without degrading serviceability. .
(2) Since it is an outgoing / incoming priority processing based on a standardized protocol, a service can be realized without changing the radio base station or the network.
(3) Since it is possible to determine the priority of outgoing and incoming call processing for each data type, it is possible to realize a service corresponding to the device state at that time even for a sudden incoming call.
(4) Since the incoming call can be rejected / permitted according to the communication data type, it is possible to know whether or not the user is ready to receive the communication data type requested for the incoming call by linking with the application unit and rejecting the incoming call. Even if the call is made, it is possible to make a call back to the other party later.
【The invention's effect】
  According to the present invention, when the incoming call process and the outgoing call process collide, when the outgoing call process is given priority, the outgoing call process is executed, and when the outgoing communication ends, the identification information of the called party stored at the time of incoming call is stored. On the basis of the incoming call and the transmission capability related to the incoming call. On the other hand, if priority is given to the incoming call processing, the incoming call processing is executed, and when the incoming communication is completed, the identification information of the outgoing call partner and the transmission capability Because the call is sent to the other party based on the above, even if the incoming call process and the outgoing call process collide, it was requested during the incoming call process and outgoing call process with the other party that did not communicate. There is an effect that communication based on the transmission capability can be performed.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of an entire system in an embodiment of the present invention.
FIG. 2 is a block diagram showing detailed configurations of a PHS mobile station and a portable information device in the embodiment.
FIG. 3 is an explanatory diagram showing an outgoing / incoming communication priority storage area table used in the first embodiment of the present invention, and (2) is an outgoing / incoming call used in the first embodiment of the present invention. It is explanatory drawing which shows a communication priority storage area table.
FIG. 4 is an explanatory diagram showing an area for storing the called party's calling party number and communication data type (communication capability, etc.) used in the first embodiment of the present invention, and (2) shows the present invention. It is explanatory drawing which shows the area which stores the other party telephone number and communication data classification (communication capability etc.) in the case of ATD transmission from the own terminal used in 2nd Example of this.
FIG. 5 is a normal transmission sequence diagram showing a processing flow of a mobile information device, a PHS mobile station, and a PHS base station when transmitting from a mobile information device compliant with RCRSTD28 used in the first embodiment of the present invention.
FIG. 6 is a normal incoming call sequence diagram showing a processing flow of a mobile information device, a PHS mobile station, and a PHS base station when receiving a mobile information device compliant with RCRSTD28 used in the first embodiment of the present invention.
FIG. 7 shows a portable information device and a PHS which are one method for realizing incoming call rejection when a call from the portable information device used in the first embodiment of the present invention and an incoming call to the portable information device collide with each other. It is a sequence diagram showing the flow of operation | movement of a mobile station and a PHS base station.
FIG. 8 shows a portable information device that is one method for realizing incoming call rejection when a call from the portable information device used in the first embodiment of the present invention and a simultaneous incoming call to the portable information device collide with each other. It is a sequence diagram showing the flow of operation | movement of a PHS mobile station and a PHS base station.
FIG. 9 shows a case in which when a call from the portable information device used in the first embodiment of the present invention and an incoming call to the portable information device collide, the incoming caller's telephone number and communication data type are acquired, and the incoming call rejection is performed. It is a sequence diagram showing the flow of operation | movement of a portable information device, a PHS mobile station, and a PHS base station as one method for realizing.
FIG. 10 shows that in the first embodiment of the present invention, when the call from the portable information device and the call incoming to the portable information device collide, the call priority / call priority in the storage area shown in FIG. It is a flowchart which shows operation | movement in the case of deciding whether to give priority to an outgoing call or to give priority to an incoming call according to it.
FIG. 11 shows a second embodiment of the present invention in which each communication data type in the storage area shown in FIG. 3 (2) when a call from the portable information device collides with an incoming call to the portable information device. It is a flowchart which shows operation | movement in the case of deciding whether to give priority to an outgoing call or to give priority to an incoming call according to it.
FIG. 12 is a sequence diagram in the case where the transmission from the portable information device used in the second embodiment of the present invention and the incoming call to the portable information device collide with each other according to the respective communication data types; is there.
[Fig. 1]3FIG. 11 is a sequence diagram when priority is given to an incoming call according to each communication data type when a call from the portable information device used in the second embodiment of the present invention and an incoming call to the portable information device collide with each other.
FIG. 14 is a sequence diagram when an incoming call to a portable information device is rejected according to a communication data type used in the third embodiment of the present invention.

Claims (7)

In a wireless communication device,
Storage means for storing information indicating whether to give priority to incoming call processing or outgoing call processing;
A collision discriminating means for discriminating a collision between incoming processing and outgoing processing;
When the information stored in the storage means is information indicating the priority of the outgoing call processing, if the collision discriminating means discriminates the collision between the incoming call processing and the outgoing call processing, the identification information of the incoming call partner and the incoming call First transmission means for storing transmission capability and executing transmission processing;
A second calling means for making a call to the called party on the basis of the stored identification information of the called party and the transmission capability relating to the received call when the communication of the calling process executed by the first sending means is completed;
When the information stored in the storage means is information indicating the priority of incoming call processing, when the collision determination means determines a collision between the incoming call processing and outgoing call processing, And an incoming means for executing incoming processing;
Third communication means for making a call to the calling party on the basis of the stored identification information and transmission capability of the called party when communication of the incoming call processing executed by the receiving means is completed;
Radio communication apparatus characterized by having a. In claim 1,
The wireless communication apparatus , wherein the first transmission means causes the base station that has notified the incoming call to disconnect the other party of the incoming call and executes the transmission process . In claim 1 ,
The wireless communication apparatus according to claim 1, wherein the first transmission unit is connected to the base station after a predetermined time has elapsed since receiving the incoming call notification from the base station, and executes the transmission process . In claim 1 ,
The wireless communication apparatus, wherein the first transmission means executes the transmission process after another wireless communication apparatus responds to an incoming call that collides with the transmission process . In claim 1 ,
The first transmission means stores the identification information of the called party and the transmission capability related to the incoming call, requests the base station to disconnect the incoming call, and executes the outgoing call processing. apparatus. In claim 1 ,
The wireless communication apparatus , wherein the storage unit stores information indicating whether the incoming call process is given priority or the outgoing call process is given priority in correspondence with the communication type of the incoming call process and the communication type of the outgoing call process . In a method for controlling a wireless communication device that stores information indicating whether to prioritize incoming call processing or prioritize outgoing call processing,
A collision discrimination step for discriminating a collision between incoming processing and outgoing processing;
When priority is given to outgoing processing, if a collision between the incoming processing and outgoing processing is determined in the collision determination step, the identification information of the called party and the transmission capability relating to the incoming call are stored, and the outgoing processing is executed. A first transmission step to perform;
A second sending step for making a call to the called party based on the stored identification information of the called party and the transmission capability relating to the incoming call when the communication of the calling process executed in the first sending process is completed;
In the case where priority is given to incoming processing, if the collision between the incoming processing and outgoing processing is determined in the collision determination step, the incoming information is stored in the receiving party identification information and transmission capability, and the incoming processing is executed. When;
A third outgoing call step for making a call to the outgoing call partner on the basis of the stored identification information and transmission capability of the outgoing call party when the communication of the incoming call process executed in the incoming call process is completed;
Control method for a wireless communication device characterized by having a.

Images