JP3824435B2 - Communication terminal device - Google Patents

Description

[0001]
[Technical field to which the invention belongs]
The present invention relates to a communication terminal apparatus for configuring a wireless communication network in combination with a base station.
[0002]
[Prior art]
In recent years, for example, so-called mobile phone systems and PHS (Personal
Wireless communication networks such as the Handyphone System are rapidly spreading. The wireless communication network includes at least one mobile station that can move, that is, a communication terminal device, a plurality of fixed stations that have mutually different communication areas, that is, base stations, and an exchange for mobile communication that is interposed between the base stations. Including stations. All base stations and switching centers are connected to each other to form a communication network, and the communication network may be further connected to an existing public communication network, such as a public telephone switching network and a comprehensive service digital network. is there.
[0003]
In the wireless communication network, in a situation where communication is performed between any one communication terminal apparatus and another communication terminal apparatus or a terminal apparatus in the public communication network, the arbitrary communication terminal apparatus is a so-called called call. If it is a device on the side, the arbitrary communication terminal device performs the following wireless communication with the base station nearest to the device. After the line connection between the other communication terminal apparatus or the terminal apparatus in the public communication network and the nearest base station, the base station uses a predetermined common control channel to connect to the arbitrary communication terminal apparatus. On the other hand, a predetermined calling signal is transmitted as an electromagnetic wave. The arbitrary communication terminal device always receives an electromagnetic wave in the common control channel, and after receiving a call signal to the device itself, transmits a response signal to the call signal as an electromagnetic wave. In this case, for example, if the arbitrary communication terminal device has a so-called answering machine function, the response signal is automatically transmitted regardless of whether or not the operator of the device performs a predetermined incoming call operation. Sent to. After receiving the response signal, the nearest base station uses one of all unused communication channels, and the signal for communication with the arbitrary communication terminal device as an electromagnetic wave. Send and receive.
[0004]
Also, in the wireless communication network, in order to improve the efficiency of the call of the called communication terminal device from the base station, the positions of all communication terminal devices in the network are, for example, in units of predetermined location registration areas. Registered on the network. Therefore, when the communication terminal apparatus moves from any one of the plurality of position registration areas to any one of the other, the communication terminal apparatus uses a predetermined common control channel for position registration. Thus, an electromagnetic wave indicating a location registration request is automatically transmitted to the nearest base station.
[0005]
Recently, problems have been pointed out that electromagnetic waves used in the wireless communication network can cause precision electronic devices to malfunction. Examples of the precision electronic device include medical devices. For this reason, there is a demand for self-restriction of the use of the communication terminal device in a place where the precision electronic device exists, for example, in a hospital. For this reason, JP-A-9-311989, JP-A-10-42371, and JP-A-10-150406 are for requesting the operator to restrain himself / herself from using the communication terminal device in the place. An apparatus is disclosed.
[0006]
The mobile phone alarm device disclosed in Japanese Patent Application Laid-Open No. 9-311989, the mobile phone use restriction device disclosed in Japanese Patent Application Laid-Open No. 10-42371, and the mobile phone detection device disclosed in Japanese Patent Application Laid-Open No. 10-150406, respectively, Installed in a place where the use of the device is restricted. Each of the three devices described above can receive a predetermined electromagnetic wave that is transmitted from a communication terminal device in the place, that is, a mobile phone or a wireless device, and that can cause an electronic device in the place to malfunction. When the electromagnetic wave is received, the three devices described above each generate a warning, for example, a message or a warning sound, in order to stop the operator of the communication terminal device from using the device.
[0007]
When each of the above three devices is used, whether or not to actually restrict the use of the communication terminal device is left to the operator of the device. Therefore, when the operator does not follow the warning, for example, when the operator inadvertently performs an operation for responding to the call signal in a situation where a call signal arrives at the communication terminal device, the communication terminal device Electromagnetic waves are transmitted. Thus, when the above three devices are used, it is difficult to reliably restrict the use of the communication terminal device. Further, as described above, the communication terminal device itself automatically transmits electromagnetic waves to the base station for automatic incoming calls in the location registration and answering machine functions. Therefore, when the power of the communication terminal device is not turned off, electromagnetic waves are automatically generated from the communication terminal device even though the operator of the device is not consciously using the communication terminal device for communication. May be sent.
[0008]
In consideration of the above problems, the present applicant has proposed a method for controlling a portable wireless device in Japanese Patent Application Laid-Open No. 10-135891 for controlling transmission of electromagnetic waves from the portable wireless device, that is, the communication terminal device. ing. The wireless communication network using the control method further includes a wireless device that transmits a signal indicating an instruction to turn off the portable wireless device. The wireless device is installed at an entrance of a place where the use of the portable wireless device should be restricted, and constantly transmits the signal as an electromagnetic wave to the entrance and a space in the vicinity thereof. When the portable wireless device receives the signal, the portable wireless device automatically turns off the power of the portable wireless device.
[0009]
Similarly, for automatic control of the transmission of the electromagnetic wave, Japanese Patent Application Laid-Open Nos. 9-331576, 10-154111, 10-200149, and 10-2000958 disclose wireless communication. A configuration is disclosed in which the network itself automatically controls the operation of the communication terminal device. The wireless communication network including each of the devices disclosed in the above four publications is installed in a place where the use should be restricted, and the predetermined signal is set as any one of light, radio wave, and sound wave. It further includes a transmission device that constantly transmits to the space within the place. Each of the mobile phone, the wireless communication function-equipped information processing device, the mobile communication terminal, and the wireless communication device disclosed in each of the above four publications further includes a configuration for receiving a signal from the transmission device. When is received, the transmission of electromagnetic waves is automatically prohibited.
[0010]
Furthermore, Japanese Patent Laid-Open No. 10-215483 discloses a mobile phone system for controlling the operation of the communication terminal device for automatic control of transmission of the electromagnetic wave. The mobile phone system further includes a prohibited area base station that has a prohibited area where the use should be restricted and can accept location registration from the mobile phone in the area. The prohibited area base station receives location registration from a mobile phone in the prohibited area, and then gives notification information for controlling the transmission of electromagnetic waves to the mobile phone. The mobile phone turns off the transmitter in the phone after receiving the notification information. The prohibited area base station is not connected to another general base station in the mobile phone system. For this reason, the other base station does not call the mobile phone in the prohibited area, and as a result, the transmission function of the mobile phone in the prohibited area is always kept stopped.
[0011]
Japanese Patent Laid-Open No. 10-42362 discloses a mobile phone device including a base station and a wireless slave unit for automatic control of the transmission of the electromagnetic wave. In the mobile phone device, when the location of the wireless handset is in the area where the wireless handset is prohibited from being used, the base station has the base station itself with respect to the wireless handset. The transmission prohibition mode information is transmitted together with the ID code. When the wireless slave device receives the transmission prohibition mode information, the wireless slave device does not transmit electromagnetic waves in the area of the base station.
[0012]
[Problems to be solved by the invention]
As described above, JP-A-10-135891, JP-A-9-331576, JP-A-10-154111, JP-A-10-200409, JP-A-10-200958, and JP-A-10- In order to control the transmission function of the communication terminal device, the communication network of the above-mentioned wireless communication network in Japanese Patent No. 215483 includes a transmission device and a prohibited area base station in addition to a communication network of a conventional general wireless communication network. I need. For this reason, the communication network of the wireless communication network of the above publication increases the number of parts of the communication network and makes the structure complicated. In addition, when the technique of the above publication is applied to the current general wireless communication network, it is necessary to add a transmitting device and a prohibited area base station to the communication network of the network, which takes time and effort.
[0013]
Furthermore, in the mobile phone device disclosed in Japanese Patent Application Laid-Open No. 10-42362, since the base station determines whether or not the wireless handset is in the prohibited area, the processing at the time of registering the location of the base station is not performed. This is more complicated than the processing at the time of registering the position of the base station of the wireless communication network of the prior art. Further, when the technique of the above publication is applied to the current general wireless communication network, it is necessary to change the processing of the base station of the network, which takes time and effort. Furthermore, in the mobile phone device, the transmission of electromagnetic waves from all the wireless slave units existing in the base station including the place where transmission of electromagnetic waves should be prohibited is prohibited in a lump. Therefore, in the mobile phone device, the transmission control of the electromagnetic waves of the wireless slave unit is executed only in the standby area unit of the base station. Therefore, when the place to be prohibited is sufficiently wider than the standby area or sufficiently narrow However, it is difficult to perform the transmission control according to the place.
[0014]
An object of the present invention is to control transmission stop of electromagnetic waves at a place where wireless communication should be restricted in a communication terminal device of a wireless communication network using a conventional general communication network. It is an object of the present invention to provide a communication terminal apparatus that can be automatically performed without using the network and without the operator being aware of it.
[0015]
[Means for Solving the Problems]
The first invention is a plurality of base stations each belonging to a plurality of different wireless communication networks and having a predetermined standby area, and further transmitting a predetermined use restriction signal for electromagnetic wave transmission control. In a communication terminal device capable of wireless connection with a plurality of base stations,
Use restriction signal receiving means for receiving a use restriction signal from a base station belonging to at least one wireless communication network;
Transmitting means for transmitting electromagnetic waves to a plurality of base stations respectively belonging to at least the plurality of wireless communication networks;
When at least one of the received use restriction signals indicates prohibition of transmission of electromagnetic waves, it is determined whether or not the standby area has moved with respect to the wireless communication network to which the base station that transmitted the use restriction signal belongs, Transmission that prohibits transmission of electromagnetic waves from the transmission means to all base stations belonging to all wireless communication networks, regardless of usage restriction signals from base stations belonging to other wireless communication networks, until moving in the standby area And a control means.
[0016]
According to the first invention, the communication terminal apparatus can perform wireless communication with a plurality of base stations respectively belonging to a plurality of wireless communication networks. Each base station belongs to any one of the plurality of wireless communication networks, and each wireless communication network includes at least one base station. The communication terminal apparatus receives a use restriction signal from a base station, and when the use restriction signal indicates prohibition of transmission of electromagnetic waves, transmission means sends all signals to all base stations belonging to all wireless communication networks. Prohibit transmission of electromagnetic waves. More specifically, it is determined whether or not the standby area has moved with respect to the wireless communication network to which the base station that has transmitted the use restriction signal indicating the prohibition of transmission of the electromagnetic wave belongs, and other wireless communication is performed until the standby area is moved. Regardless of the use restriction signal from the base station belonging to the communication network, transmission of electromagnetic waves from the transmission means to all base stations belonging to all wireless communication networks is prohibited.
[0017]
As a result, the communication terminal device automatically transmits the electromagnetic wave regardless of the operation of the operator when the base station that has transmitted the use restriction signal indicating the prohibition of the transmission of the electromagnetic wave is present in the region to which the communication terminal device belongs. Can be prohibited. In this case, the communication terminal device can automatically prohibit transmission of electromagnetic waves that the operator is not aware of, for example, transmission of electromagnetic waves for location registration or automatic incoming calls. In this way, the communication terminal device emits electromagnetic waves for wireless communication not only for the wireless communication network to which the at least one base station of all wireless communication networks belongs, but also for other wireless communication networks other than that, Based on the use restriction signal of the at least one base station, it can be surely and automatically prohibited until the standby area is moved. As a result, when the communication terminal apparatus exists in the area to which the base station that transmitted the use restriction signal indicating prohibition of electromagnetic wave transmission belongs, it is transmitted from the communication terminal apparatus to the precision electronic device in the area. It is possible to prevent the electromagnetic wave from affecting.
[0020]
In the communication terminal device of the second invention, the use restriction signal is used to identify each base station for controlling wireless connection with a wireless communication terminal existing in a standby area of each base station. Number It is characterized by that.
[0021]
According to the second invention, 2 The communication terminal device of the invention includes the same configuration as that of the communication terminal device of the first invention, and the use restriction signal Represents the identification number of the base station It is configured. As a result 2 The wireless communication network including the communication terminal device according to the present invention is based on the same reason as that of the communication terminal device according to the first invention. The transmission of electromagnetic waves at the point to be prohibited of the communication terminal device can be automatically and reliably suppressed with the same configuration as in FIG.
[0022]
A communication terminal device according to a third aspect of the invention is an identification number storage means for storing in advance an identification number of a base station including a point where transmission of electromagnetic waves should be prohibited in the standby area;
Received by the use restriction signal receiving means Represents a usage restriction signal An identification number determination means for determining whether or not an identification number is stored in the identification number storage means,
The transmission control means receives the received Represents a usage restriction signal Identification number Issue When it is determined that it is stored in the identification number storage means, Indicates the identification number determined to be stored in the identification number storage means The use restriction signal is regarded as indicating the prohibition of electromagnetic wave transmission.
[0023]
According to a third invention, the communication terminal device of the third invention has the same configuration as the communication terminal device of the second invention, and the identification Number The configuration further includes a configuration related to electromagnetic wave transmission control using a signal, and the transmission control means operates as described above. As a result, the communication terminal device of the third invention is the identification Number The automatic control of the transmission of the electromagnetic wave based on the signal can be easily and reliably performed.
[0024]
In a communication terminal device according to a fourth aspect of the present invention, the transmission control means, after prohibiting transmission of the electromagnetic wave, Indicates prohibition of electromagnetic wave transmission Usage restrictions from base stations that further belong to the wireless communication network to which the base station that sent the usage restriction signal belongs signal Is said usage restriction signal The use restriction signal received by the receiving means Is electric Only when the transmission of the magnetic wave is permitted, the transmission of the electromagnetic wave from the transmission means is permitted.
[0025]
According to the fourth invention, the communication terminal device of the fourth invention includes the same configuration as the communication terminal device of the first invention, and the transmission control means operates as described above. As a result, the communication terminal apparatus according to the fourth aspect of the present invention prohibits transmission of electromagnetic waves based on a use restriction signal from a base station belonging to a certain one wireless communication network, and then from a base station belonging to the wireless communication network. Until the transmission of the electromagnetic wave is permitted based on the use restriction signal, the use restriction signal from the base station of the remaining wireless communication network other than the one wireless communication network out of all the wireless communication networks is ignored. This is for the following reason.
[0026]
When standby areas of a plurality of wireless communication networks are set in one area, while the communication terminal apparatus is moving within a single standby area in a certain wireless communication network, In some cases, the wireless communication network moves across a plurality of standby areas in the remaining one wireless communication network. In such a situation, the communication terminal device is configured to use the remaining wireless communication network if the single standby area of the certain wireless communication network includes a point where transmission of the electromagnetic wave should be prohibited. Regardless of the movement of the standby area, it is necessary to always prohibit the transmission of electromagnetic waves while the device is in the single standby area. Therefore, the communication terminal device operates as described above after the transmission of electromagnetic waves is prohibited.
[0027]
The communication terminal device according to a fifth aspect of the present invention is characterized in that the plurality of standby areas respectively possessed by the plurality of base stations belonging to different wireless communication networks include the same point and have different areas.
[0028]
According to the fifth invention, the communication terminal device of the fifth invention includes the same configuration as the communication terminal device of the first invention, and the interrelationship between the standby areas of the plurality of wireless communication networks is as described above. It has become. As a result, for example, when the transmission of electromagnetic waves is controlled based on a use restriction signal from a base station of a certain wireless communication network, the communication terminal apparatus has a standby area whose area is different from the standby area of the wireless communication network. Transmission of electromagnetic waves to base stations of other wireless communication networks can be controlled in units of standby areas of the certain one wireless communication network. Therefore, in the above case, if the area of the standby area of the certain one wireless communication network is less than the standby area of the other wireless communication network, the communication terminal device can generate an electromagnetic wave to the base station of the other wireless communication network. Can be controlled more finely than when the transmission is controlled in units of standby areas of the other wireless communication networks themselves. In this case, if the area of the standby area of the one wireless communication network is equal to or larger than the standby area of the other wireless communication network, the communication terminal apparatus Can be collectively controlled for each of a plurality of standby areas.
[0029]
The communication terminal device according to a sixth aspect of the present invention further includes a transmission state display unit for displaying a transmission state of the electromagnetic wave from the transmission unit,
The transmission control unit causes the transmission state display unit to display whether or not transmission of electromagnetic waves from the transmission unit is prohibited.
[0030]
According to the sixth invention, the communication terminal device of the sixth invention further includes a transmission state display means in addition to the same configuration as the first communication terminal device, and the transmission control means operates as described above. It is configured. As a result, the operator of the communication terminal device of the sixth invention can easily recognize whether communication using the communication terminal device is possible at the present time.
[0031]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a block diagram showing an electrical configuration of a communication terminal device 1 according to an embodiment of the present invention. The communication terminal device 1 also serves as a plurality of wireless communication networks, that is, a mobile station of a plurality of wireless communication systems. Each of the wireless communication networks generally includes a communication network including at least one base station and at least one mobile station, and signal transmission / reception between the base station and the mobile station is performed by wireless communication. Done. The communication terminal device 1 includes a plurality of radio units 11 and 12, an input unit 13, a display unit 14, a memory 15, and a control unit 16. The plurality of wireless units 11 and 12, the input unit 13, the display unit 14, the memory 15, and the control unit 16 are connected to each other via the bus line 17 and can send and receive signals to each other. In FIG. 1, it is assumed that there are two radio units.
[0032]
The plurality of radio units 11 and 12 are respectively associated with the plurality of radio communication networks in which the communication terminal device 1 is a mobile station. Each wireless unit 11, 12 is connected to a base station of each wireless communication network to transmit / receive a control signal for communication and a data signal indicating communication contents based on the communication protocol of each associated wireless communication network. Wireless communication is performed between the two. The input unit 13 is a device configured to be operable by an operator. For example, the operator operates the input unit 13 to input data to the communication terminal device 1 and to input instructions related to communication to the device 1. The display unit 14 is controlled by the control unit 16 and displays data related to communication using the communication terminal device 1.
[0033]
The memory 15 stores program code to be executed by the control unit 16 and data to be referred to when the control unit 16 executes the program code. One of the data to be referred to is, as will be described later, a base station identification signal (hereinafter referred to as “base station”) in the location registration information from the base station of each wireless communication network received by the wireless units 11 and 12. ID ”). Further, as described later, one of the data to be referred to is a base station ID of a base station having a standby area including a point where transmission of electromagnetic waves should be prohibited, that is, a base station ID for which electromagnetic wave transmission is prohibited. The base station ID whose electromagnetic wave transmission is prohibited may be stored in the memory 15 when the communication terminal device 1 is manufactured, for example, or may be stored in the memory 15 by the operator of the device 1 after the communication terminal device 1 is sold. The point is a place where a precision electronic device that may malfunction due to the electromagnetic wave is installed, for example, a hospital. The base station ID forbidden to transmit electromagnetic waves is set for each of a plurality of wireless communication networks. Of the plurality of wireless communication networks, there may be one in which the base station ID for prohibiting electromagnetic wave transmission is not set. These data are referred to when the communication terminal device 1 performs a transmission control process including a location registration operation described later.
[0034]
The control unit 16 is realized by, for example, a central processing unit, reads the program code in the memory 15, and executes the program code while referring to the data in the memory 15. As a result, the control unit 16 performs operation control of the components 11 to 15 in the communication terminal device 1 and communication control using the communication terminal device 1. In particular, the control unit 16 performs transmission control processing for controlling transmission of electromagnetic waves from all the radio units 11 and 12 based on the base station ID. As a result, all the wireless units 11 and 12 transmit various signals as electromagnetic waves to the base station of the corresponding wireless communication network only while transmission of electromagnetic waves is permitted by the control unit 16.
[0035]
For example, each of the radio units 11 and 12 includes a transmission and reception antenna, a frequency conversion circuit, and a modem. The reception antenna of any one wireless unit receives an electromagnetic wave from a base station of a wireless communication network associated with the wireless unit, and outputs a reception signal. The received signal is frequency-converted by a frequency conversion circuit in the arbitrary radio unit, and then demodulated by a modem in the radio unit. The demodulated received signal is stored in the memory 15 and given to the control unit 16. A transmission signal related to any one wireless communication network output from the control unit 16 is modulated by a modem in the wireless unit corresponding to the network, and then frequency-converted by a frequency conversion circuit in the wireless unit, so that the wireless signal is transmitted. It is given to the transmitting antenna in the department. The transmission antenna oscillates an electromagnetic wave based on a transmission signal after frequency conversion.
[0036]
The modulation and demodulation processing in the modem of the arbitrary radio unit, the frequency conversion processing in the frequency conversion circuit of the radio unit, and the characteristics of the transmission and reception antennas of the radio unit are the communications of the radio communication network to which the radio unit corresponds. Determined based on the rules. A single antenna may also serve as a transmission and reception antenna. The signal indicated by the electromagnetic wave from the base station and the transmission signal correspond to a data signal indicating the content of communication performed by the arbitrary radio unit and a control signal related to control of the communication. That is, the arbitrary radio unit includes a content transmitting unit and a content receiving unit for transmitting and receiving the data signal to and from a base station of a radio communication network corresponding to the radio unit, and a base station ID from the base station. It also serves as an ID receiving unit for receiving at least.
[0037]
The communication terminal device 1 may be capable of voice communication with other terminals using at least one of a plurality of wireless communication networks. In this case, the communication terminal device 1 further includes a microphone for inputting sound and converting it into an electric signal, so-called sound signal, and a speaker for converting the sound signal into sound. The acoustic signal output from the microphone is transmitted to the base station by the radio units 11 and 12. The acoustic signal given to the speaker is obtained by receiving the signals transmitted from the base station by the wireless units 11 and 12. In this case, the acoustic signal corresponds to the aforementioned data signal. Further, in the present embodiment, specifically, the input unit 13 is realized by, for example, at least one key button or a device that combines a tablet and a display device, and the display unit 14 is realized by, for example, a liquid crystal display device. Shall be.
[0038]
In order to describe the basic configuration of the plurality of wireless communication networks having the communication terminal device 1 as a mobile station, the basic configuration of any one wireless communication network (hereinafter referred to as “specific wireless communication network”) will be described below. . Each of the plurality of wireless communication networks includes the same basic configuration as that of the specific wireless communication network, and the detailed configuration is defined based on the standard and communication protocol specific to each wireless communication network.
[0039]
The specific wireless communication network uses a so-called cell system. That is, each base station belonging to a specific wireless communication network is a fixed station installed in a predetermined service area that is a basic area where the specific wireless communication network can be used, and each base station has a predetermined range. Each area has a standby area, so-called cell. In the specific radio communication network, the specific radio is included in the service area such that an arbitrary point in the service area of the specific radio communication network is included in a standby area of at least one base station belonging to the specific radio communication network. A standby area for each base station of the communication network is arranged. In the present embodiment, since each of the plurality of wireless communication networks has a certain area as a service area, basically any point in the area is connected to each of the plurality of wireless communication networks. Each is included in a standby area of a plurality of base stations to which it belongs. For the location registration function, the service area of the specific wireless communication network is divided into a plurality of location registration areas. Note that at least a part of the plurality of location registration areas may overlap each other. One arbitrary location registration area includes a standby area of one or more base stations.
[0040]
Each base station of each of the plurality of wireless communication networks has at least one common control channel and a plurality of communication channels in order to transmit and receive signals to and from the mobile station. The common control channel of any one base station in a specific wireless communication network is shared by all mobile stations in the standby area of the base station, and controls communication between each of the mobile stations and the base station. Used to send and receive related control signals. An arbitrary one communication channel of the arbitrary one base station is an arbitrary one when any one mobile station in the standby area of the base station communicates with a communication partner terminal. A data signal assigned to the mobile station and indicating the content of the communication is used for transmission / reception. The data signal represents, for example, sound or data that can be handled by a computer. The communication partner terminal is another mobile station in the specific wireless communication network, a mobile station belonging to another wireless communication network, or a communication terminal of a wired communication network. The wired communication network is, for example, a public switched telephone network (PSTN) and an integrated services digital network (ISDN).
[0041]
In addition to all base stations belonging to the specific radio communication network, the communication network of the specific radio communication network includes one or a plurality of switching stations for mobile communication in the specific radio communication network and all mobile stations belonging to the specific radio communication network. Each further includes one or more position control stations for storing the position of the station. In a communication network of a specific wireless communication network, a base station, an exchange station, and a position control station can transmit and receive signals to each other using wired or wireless communication. The communication network of the specific wireless communication network is connected to a communication network of another wireless communication network and a communication network of a wired communication network via a wired transmission path or a wireless transmission path. The specific wireless communication network may constitute a communication network using an exchange station other than the network instead of the mobile communication exchange station. The specific wireless communication network uses the so-called location registration function to determine the current position of all the mobile stations belonging to the communication network for the so-called tracking connection function and simultaneous call function at the time of arrival at the mobile station belonging to the communication network. Registered with the position control station.
[0042]
The tracking connection function is as follows. When the communication partner terminal tries to start communication with any one of the mobile stations belonging to the specific wireless communication network as the calling terminal, the calling terminal is connected to the communication network. A line connection with any one of the mobile stations, which is a called terminal, is requested to any one of the nearest exchanges in the communication network. The switching center nearest to the calling terminal obtains the current position of the called mobile station from the position control station, and based on the current position, the calling terminal transmits the switching station to the calling station. Connect the line to the nearest switching center of the called mobile station. The switching center nearest to the mobile station notifies the incoming of the line to at least one base station connected to the switching center. The above is the tracking connection function. The general calling function is as follows. In the tracking connection function, the mobile switching center closest to the mobile station notifies the incoming call on the line simultaneously to the base stations in a plurality of standby areas forming any one of the location registration areas including the acquired current position. To do. As a result, all the base stations in the location registration area use the common control channel, and call the mobile station on the called side in the standby area of each base station. Each signal is transmitted in parallel. The above is the general call function.
[0043]
A mobile station in a specific wireless communication network always receives a signal broadcast using a common control channel that can be received at the current position of the mobile station. When the called mobile station receives a paging signal for the mobile station, in response to the paging signal, the electromagnetic wave having the best receiving state at the current position among all the base stations in the location registration area Is selected, and a response signal of the calling signal is transmitted to the base station. As a result, the line having the calling terminal as one end sequentially passes through the nearest switching center of the terminal, the nearest switching center of the called mobile station, and any one base station selected by the mobile station. And connected to the mobile station. This enables communication between the communication partner terminal and the called mobile station. The transmission of the response signal may be performed after the operator operates the input unit 13 in response to ringing in response to the ringing signal, and the mobile station automatically executes regardless of the operation of the operator. Also good. The so-called automatic call reception of the mobile station is performed, for example, when the mobile station has an answering machine function.
[0044]
In addition, each base station of the specific wireless communication network broadcasts predetermined location registration information, for example, periodically using the common control channel for the location registration function. The location registration information broadcast from any one base station includes a base station identification signal for identifying the base station that is the source of the information. Further, for example, all base stations in a certain location registration area may broadcast the same location registration information. The mobile station of the specific wireless communication network always receives the location registration information broadcast using the common control channel, and includes at least the latest location registration information received, that is, the current location of the mobile station Location registration information from the base station in the standby area is stored in the memory 15.
[0045]
In the present embodiment, the communication terminal device 1 includes a mobile station of a so-called mobile phone (Personal Digital Cellar: hereinafter referred to as “PDC”) network and a mobile station of a so-called PHS (Personal Handyphone System). Suppose you also serve. In this embodiment, it is assumed that the configuration of the PDC network and the communication network in the PHS, and the communication sequence between the mobile station and the base station in the PDC network and the PHS are the same as those of the conventional PDC network and the PHS. Further, in the following description, “PHS” and “PDC” may be used for each base station belonging to each of the PHS and PDC networks, the standby area of each base station, and the location registration information from each base station. Based on these facts, in the present embodiment, there are two radio units 11 and 12, and the PHS radio unit 11 which is one of the two radio units performs radio communication with the PHS base station. The PDS radio unit 12, which is the other of the two radio units, includes a configuration for performing wireless communication with the PDS base station.
[0046]
FIG. 2 is a flowchart for explaining transmission control processing of the plurality of radio units 11 and 12 in the control unit 16 of the communication terminal device 1 of the present embodiment. In FIG. 2, the electromagnetic wave may be described as “radio wave”. In the description of FIG. 2, it is assumed that one location registration area includes a standby area of one base station. When at least the control unit 16 is operable, for example, when power for operation is supplied, the process proceeds from step A1 to step A2, and at least one of the plurality of radio units 11 and 12 is operable. For example, when power supply for operation is started, the process proceeds to step A3.
[0047]
In step A3, the PHS radio unit 11 receives PHS location registration information from a PHS base station having a PHS standby area including the current location of the communication terminal device 1, for example, the nearest one of all PHS base stations. . The received PHS location registration information is stored in the memory 15. After reception, in step A4, the control unit 16 determines whether or not a location registration operation for the PHS base station is necessary based on the latest received PHS location registration information. If it is determined that the location registration operation for the PHS base station is not necessary, the process proceeds from step A4 to step A9. If it is determined that the position registration operation is necessary, the process proceeds from step A4 to step A5.
[0048]
The determination of the location registration operation is performed, for example, according to the following procedure. The control unit 16 performs the previous one of the two PHS location registration information received by the latest two times of the reception processing of step A3 that is repeatedly executed, that is, the PHS location registration information stored in the memory 15. The information received in step A3 is compared with the PHS location registration information received in the latest step A3. The control unit 16 determines that the location registration operation for the PHS base station is not necessary when the two PHS location registration information matches, and the location registration operation is necessary when the two PHS location registration information is different. Judge that there is. This is because, in the former case, the communication terminal apparatus 1 moves only within the PHS location registration area that existed when the older one of the reception processes was executed during the two reception processes. This is because, in the latter case, the PHS location registration area that existed at the time of execution is moved to another PHS location registration area in the latter case. The above is the detailed determination procedure of step A4.
[0049]
In step A5, the control unit 16 determines in advance the base station ID in the received latest PHS location registration information, that is, the base station ID of the nearest PHS base station of the communication terminal device 1, relating to the PHS in the memory 15. It is determined whether or not it matches one of all base station IDs for which radio wave transmission is prohibited. If they match, the control unit 16 determines that the communication terminal device 1 is in a place where use of radio is restricted, and in this case, the process proceeds from step A5 to step A6. If they do not match, the control unit 16 determines that the communication terminal device 1 is in a place where wireless use is not restricted, and proceeds from step A5 to step A8.
[0050]
In step A6, the control unit 16 prohibits transmission of electromagnetic waves from all the radio units 11 and 12 in the communication terminal device 1. As a result, all the radio units 11 and 12 stop not only transmission of data signals indicating communication contents, but also transmission of location registration requests for location registration operations and transmission of response signals of call signals. As a result, all the radio units 11 and 12 stop the position registration operation and the signal transmission / reception operation for communication with all the communication partner terminals, and only receive the signal from the base station. Furthermore, the control part 16 displays on the display part 14 the message which shows that transmission of electromagnetic waves was prohibited by step A6.
[0051]
After the display, in step A7, the control unit 16 causes the communication terminal device 1 to start from the PHS standby area including the place where the use of the radio is restricted, to the PHS standby area including the place among all the PHS standby areas. Wait to move to other PHS standby area. Specifically, the process of step A7 is equal to the processes of steps A3 and A4. As a result, the control unit 16 determines whether the base station ID in the latest location registration information matches the base station ID in the location registration information that is one time older than the information, that is, the base station of the latest location registration information. While the ID matches the base station ID for which electromagnetic wave transmission is prohibited in step A5, the PHS location registration information reception process in the PHS radio unit 11 and the information comparison process in the control unit 16 are repeated. If the two base station IDs do not match, it is considered that the communication terminal device 7 has moved to the other PHS standby area, and the process of step A7 is terminated. After completion, the process returns from step A7 to step A3.
[0052]
In step A5, when the base station ID in the latest location registration information does not match all the base station IDs forbidden to transmit electromagnetic waves, the control unit 8 transmits the electromagnetic waves from all the radio units 11 and 12 in step A8. Allow sending. As a result, the PHS radio unit 11 transmits a location registration request to the nearest PHS base station using a common control channel. After the nearest PHS base station receives the location registration request, the PHS communication network is registered with the location control station in the communication network, that is, the so-called PHS service control station, based on the location registration request. The location information indicating the current location of the communication terminal device 1 that has transmitted the registration request is updated. As a result, all the radio units 11 and 12 can receive a line from the nearest base station belonging to the radio communication network to which each radio unit corresponds and transmit a line to the base station. At least after transmitting the location registration request, the process proceeds from step A8 to step A9.
[0053]
Compared with the processes of steps A3 to A8, the processes of steps A9 to A14 include elements related to PHS, that is, for example, PHS base station, PHS location registration information, base station ID for prohibiting electromagnetic wave transmission related to PHS, and PHS standby area. , The elements related to the PDC network, that is, for example, the PDC base station, the PDC location registration information, the base station ID of the electromagnetic wave transmission prohibition related to the PDC network, and the PDC standby area are respectively replaced with each other. The detailed description of may be omitted.
[0054]
In step A9, the PDC radio unit 12 receives PDC location registration information from the PDC base station having the PDC standby area including the current location of the communication terminal apparatus 1, for example, the nearest one of all PDC base stations. The received PDC location registration information is stored in the memory 15. After reception, in step A10, the control unit 16 determines whether or not a location registration operation for the PDC base station is necessary based on the latest received PDC location registration information. The detailed procedure and the reason for the determination are equal to, for example, the determination procedure in Step A4 and the PHS location registration information in the reason replaced with the PDC location registration information. If the location registration operation for the PDC base station is not necessary, the process proceeds from step A10 to step A11. If necessary, the process returns from step A10 to step A3.
[0055]
In step A11, the control unit 16 determines in advance the base station ID in the received latest PHS location registration information, that is, the base station ID of the nearest PHS base station of the communication terminal device 1, regarding the PDC in the memory 15. It is determined whether or not it matches one of all base station IDs for which radio wave transmission is prohibited. If they match, the control unit 16 determines that the communication terminal device 1 is in a place where use of radio is restricted, and in this case, the process proceeds from step A11 to step A12. If they do not match, the control unit 16 determines that the communication terminal device 1 is in a place where wireless use is not restricted, and proceeds from step A11 to step A14.
[0056]
In step A12, the control unit 16 prohibits all transmission of electromagnetic waves from all the radio units 11 and 12 in the communication terminal device 1 in the same manner as in step A6. As a result, all the radio units 11 and 12 stop the position registration operation and the signal transmission / reception operation for communication with all the communication partner terminals, and only receive the signal from the base station. Further, in step A12, the control unit 16 causes the display unit 14 to display a message indicating that transmission of electromagnetic waves is prohibited in the same manner as in step A6.
[0057]
After the display, in step A13, the control unit 16 causes the communication terminal apparatus 1 to start from the PDC standby area including the place where the wireless use is restricted to the PDC standby area including the place among all the PDC standby areas. Wait to move to other PDC standby area. Specifically, the process of step A13 is realized by repeating the same process as steps A9 and A10 in the same manner as the process of steps A3 and A4 in step A7. When the communication terminal device 7 has moved to the other PDC standby area, the process of step A13 is terminated and the process returns to step A3.
[0058]
When the base station ID in the latest location registration information does not match the base station ID for which electromagnetic wave transmission is prohibited for all PDC networks in step A11, the control unit 8 performs all radio units in step A14 as in step A8. Allows transmission of electromagnetic waves from 11 and 12. As a result, the PDC radio unit 12 transmits a location registration request to the nearest PDC base station using a common control channel. After the nearest PDC base station receives the location registration request, the PDC communication network transmits the location control station in the communication network, that is, the current state of the communication terminal device 1 that has transmitted the location registration request in a so-called home memory station. The position information indicating the position is updated based on the position registration request. As a result, all the radio units 11 and 12 can receive a line from the nearest base station belonging to the radio communication network to which each radio unit corresponds and transmit a line to the base station. At least after the location registration request is transmitted, the process proceeds from step A14 to step A3.
[0059]
In the transmission control process of the flowchart of FIG. 2, the processes of steps A3 to A14 are performed one or more times, for example, periodically as time elapses until all the radio units 11 and 12 stop operating. Repeated. The transmission control process is terminated halfway when all the radio units 11 and 12 are put into a state of halting operation. The above is the description of the transmission control process.
[0060]
When the transmission control process described above is performed, each of the wireless units 11 and 12 is configured so that any one of steps A6 and A12 from the time when transmission of electromagnetic waves is once permitted in either one of steps A8 and A14. Thus, during the period up to the time when the transmission is prohibited, it becomes possible to receive a line from the nearest base station belonging to the wireless communication network to which each of the wireless units 11 and 12 corresponds and to transmit a line to the base station. . Therefore, any one of all the radio units 11 and 12 may receive the nearest instruction belonging to the radio communication network corresponding to the radio unit when the operator's instruction input is given from the input unit 13 during the period. When a call signal from the base station is received, wireless communication is performed with the nearest base station for communication with the communication partner terminal in response to the input instruction or the call signal.
[0061]
In the transmission control process, the communication terminal apparatus 1 may sequentially move in a plurality of standby areas of a communication network other than the PHS standby area, for example, a plurality of PDC standby areas while the process of step A7 is performed. is there. In this case, the PDC radio unit 12 ignores the PDC location registration information from the base station in each PDC standby area. Similarly, during the process of step A13, the communication terminal device 1 may move sequentially in a plurality of standby areas other than the PDC standby area, for example, a plurality of PHS standby areas. In this case, the PHS radio unit 11 ignores the PHS location registration information from the base station in each PHS standby area. This is because the communication terminal device 1 exists in the PHS and PDC standby areas including the place where the use of the radio is restricted while the processes of steps A7 and A13 are performed. This is because it is necessary to prohibit the transmission of all electromagnetic waves from the communication terminal device 1 before leaving, regardless of the entry / exit of the standby area in other wireless communication networks.
[0062]
As described above, the communication terminal device 1 is prohibited from transmitting electromagnetic waves in any one of the steps A6 and A12 in a state where at least one of all the radio units 11 and 12 is operable. All transmissions of electromagnetic waves from all radio units 11 and 12 are prohibited from the point in time until the point at which the transmission is permitted in any one of steps A8 and A14. As a result, when the communication terminal device 1 is in the standby area of any wireless communication network including the place where wireless use is restricted under the above situation, transmission of electromagnetic waves based on the position registration operation, for example, a position registration request Is automatically stopped. As a result, when the communication terminal device 1 has an automatic incoming call function, transmission of electromagnetic waves based on the function, for example, transmission of a response signal of a call signal is automatically stopped.
[0063]
Thereby, in the above-described case, the control unit 16 reliably stops not only the transmission of electromagnetic waves that the operator consciously causes the communication terminal device 1 to execute, but also the transmission of electromagnetic waves that are not consciously involved by the operator. Can do. Therefore, for example, when the operator forgets to put all the radio units 11 and 12 of the communication terminal device into a dormant state, transmission of all electromagnetic waves from the communication terminal device 1 can be reliably stopped. Therefore, it is possible to prevent the electromagnetic waves from the communication terminal device 1 from affecting the precision electronic equipment installed in the place, for example, medical precision electronic equipment, in a place where the use of the radio is regulated. be able to.
[0064]
Further, the control unit 16 determines whether or not to prohibit transmission of electromagnetic waves from all the radio units 11 and 12 based on the base station ID in the location registration information. Therefore, the communication network of the wireless communication network including the communication terminal device 1 may have the same configuration as the communication network of the conventional technology. As a result, the transmission control of the electromagnetic wave can be easily realized by using only the communication terminal device having the above-described configuration without modifying the communication network of the wireless communication network. Furthermore, the control unit 16 causes the display unit 14 to display a message indicating that transmission of electromagnetic waves is prohibited in steps A6 and A12. As a result, the operator can easily recognize whether or not transmission of electromagnetic waves is currently prohibited, that is, whether or not communication is possible using the communication terminal device, by confirming the display content of the display unit 14. it can. Therefore, the communication terminal device 1 is easy to use.
[0065]
Furthermore, the control unit 16 includes a base station ID in the latest location registration information in any one of the plurality of wireless communication networks, and a base station ID forbidden to transmit electromagnetic waves in any one of the wireless communication networks. , The transmission of electromagnetic waves from all the radio units 11 and 12 is prohibited. In general, the area of the PHS standby area is smaller than the area of the PDC standby area. Based on these facts, the control unit 16 can perform the electromagnetic wave transmission control of the PDC radio unit 12 in both the PDC standby area unit and the PHS standby area unit. The transmission control can be performed precisely.
[0066]
Communication terminal device 1 of the present embodiment is an example of the communication terminal device of the present invention, and can be implemented in various other forms as long as the main operations are the same. In particular, detailed operations of components inside the communication terminal device 1 may be realized by other operations as long as the same processing result is obtained. Further, for example, the communication terminal apparatus 1 may have a radio unit for another radio communication network instead of the radio unit 11 for PHS and the radio unit 12 for the PDC network. Furthermore, the communication terminal device 1 may have three or more radio units. Furthermore, the communication terminal device 1 controls transmission of electromagnetic waves of all radio units based on at least the base station ID in the location registration information of the location registration function in the radio communication network corresponding to at least one of all radio units. For example, a configuration in which only steps A1 to A8 in the flowchart of FIG. 2 are performed, or a configuration in which only steps A1, A2, and A9 to A14 are performed may be employed. Furthermore, the communication terminal device 1 is configured to detect electromagnetic waves of radio units other than the radio unit based on the base station ID in the location registration information of the location registration function in the radio communication network corresponding to at least one of all radio units. A configuration for performing transmission control, for example, a configuration for performing transmission control of the PDC radio unit 11 based on a position registration function of PHS may be used, or vice versa.
[0067]
Furthermore, the communication terminal apparatus may use a control signal for wireless communication between the base station and the mobile station, instead of the base station ID of the base station of each wireless communication network. Further, the wireless communication network outputs a use restriction signal for controlling the communication terminal device 1 from each base station instead of the base station ID, and the communication terminal device 1 is based on the use restriction signal, The transmission control of the electromagnetic waves of all the radio units 11 and 12 may be performed. Furthermore, the communication terminal apparatus 1 has only a single radio unit, and the configuration is such that the transmission control of the electromagnetic wave of the radio unit is performed using the base station ID in the location registration function corresponding to the radio unit. Good. The electromagnetic waves used for communication with the base station are not limited to so-called radio waves, and may be light.
[0069]
【The invention's effect】
According to the first invention, the communication terminal apparatus has a plurality of transmission means for performing wireless communication with a plurality of base stations respectively belonging to a plurality of wireless communication networks, and from at least one base station The transmission means is controlled based on the use control signal. As a result, the communication terminal device transmits electromagnetic waves for wireless communication in other wireless communication networks other than the wireless communication network to which the at least one base station belongs in the entire wireless communication network. Based on the use restriction signal, it can be surely and automatically prohibited at the place to be prohibited.
[0070]
According to a second invention, the communication terminal device uses a usage restriction signal. But , Base station identification Number Issue Expressed in Use. As a result, the wireless communication network including the communication terminal device has the same configuration as the communication network of the general wireless communication network of the prior art while maintaining the configuration of the communication network including the base station. Transmission can be automatically and reliably suppressed at the location.
Further, according to the third invention, the communication terminal apparatus compares the received identification number of the base station with a previously stored identification number, and controls transmission of the electromagnetic wave based on the comparison result. To do. As a result, the communication terminal device can easily and reliably perform automatic control of transmission of the electromagnetic wave based on the identification number.
[0071]
According to the fourth invention, the communication terminal apparatus prohibits transmission of electromagnetic waves based on a use restriction signal from a base station belonging to a certain wireless communication network, and then from a base station belonging to the wireless communication network. Until the transmission of the electromagnetic wave is permitted based on the use restriction signal, the use restriction signal from the base station of the remaining wireless communication network is ignored. As a result, transmission control of the electromagnetic wave can be performed reliably.
Furthermore, according to the fifth aspect, the standby areas of the plurality of wireless communication networks including the communication terminal device are different in size. As a result, the communication terminal device transmits an electromagnetic wave to a base station of the other wireless communication network if, for example, the area of the standby region of a certain wireless communication network is less than the standby area of the other wireless communication network. Can be controlled more finely.
[0072]
According to a sixth aspect of the invention, the communication terminal device further includes transmission state display means for indicating whether or not transmission of electromagnetic waves by all transmission means is permitted. As a result, the operator of the communication terminal apparatus can easily recognize whether or not communication using the communication terminal apparatus is currently possible.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an electrical configuration of a communication terminal apparatus 1 according to an embodiment of the present invention.
FIG. 2 is a flowchart for explaining electromagnetic wave transmission control processing in a control unit 16 in the communication terminal device 1;
[Explanation of symbols]
1 Communication terminal device
11 PHS radio unit
12 PDC radio unit
13 Input section
14 Display section
15 memory
16 Control unit

Claims (6)

A plurality of base stations each belonging to a plurality of different wireless communication networks and having a predetermined standby area, and further transmitting a predetermined use restriction signal for electromagnetic wave transmission control, and In a communication terminal device capable of wireless connection,
Use restriction signal receiving means for receiving a use restriction signal from a base station belonging to at least one wireless communication network;
Transmitting means for transmitting electromagnetic waves to a plurality of base stations respectively belonging to at least the plurality of wireless communication networks;
When at least one of the received use restriction signals indicates prohibition of transmission of electromagnetic waves, it is determined whether or not the standby area has moved with respect to the wireless communication network to which the base station that transmitted the use restriction signal belongs, Transmission that prohibits transmission of electromagnetic waves from the transmission means to all base stations belonging to all wireless communication networks, regardless of use restriction signals from base stations belonging to other wireless communication networks, until moving in the standby area And a communication terminal apparatus. 2. The communication terminal according to claim 1, wherein the use restriction signal represents an identification number of each base station for controlling wireless connection with a wireless communication terminal existing in a standby area of each base station. apparatus. An identification number storage means for storing in advance an identification number of a base station including a point where transmission of electromagnetic waves should be prohibited in the standby area;
An identification number determination means for determining whether or not the identification number represented by the usage restriction signal received by the usage restriction signal receiving means is stored in the identification number storage means;
Said transmission control means, if the identification number represented by the received usage limit signal is determined to be stored in the identification number memory means, it is determined to be stored in the identification number storage unit identification 3. The communication terminal apparatus according to claim 2, wherein the use restriction signal representing the number is regarded as indicating prohibition of electromagnetic wave transmission. Said transmission control means, after the transmission prohibition of the electromagnetic wave, electromagnetic wave use restriction signal the use restriction signal receiving means from further belonging base station radio communication network transmitted base station belongs a use restriction signal indicating the prohibition of transmission of is received by, and only if said gain for limiting signal indicates an allowable transmission electromagnetic waves, the communication terminal apparatus according to claim 1, wherein allowing the transmission of the electromagnetic wave from the transmitting means.   The communication terminal apparatus according to claim 1, wherein the plurality of standby areas respectively possessed by the plurality of base stations respectively belonging to different wireless communication networks include the same point and have different areas. Further including a transmission state display means for displaying a transmission state of the electromagnetic wave from the transmission means,
The communication terminal apparatus according to claim 1, wherein the transmission control unit displays on the transmission state display unit whether or not transmission of electromagnetic waves from the transmission unit is prohibited.

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