JP2004080312A - Communication terminal device and receiving method - Google Patents

Abstract

[PROBLEMS] A single communication terminal device can perform communication in both a wide area network and a narrow area network, is not bulky when carrying, and has good reception quality by using a communication network with a good communication environment. Good communication.
A switch 401 outputs a received signal from a wide area network received by an antenna 101b to a demodulation unit 111b, and outputs a received signal from a narrow range network received by the antenna 101c to the demodulation unit 111b. Switch between routes. The demodulation unit 111b demodulates a reception signal from one of the reception signal received by the antenna 101b and the reception signal received by the antenna 101c, which is connected by the switch 401. When the received data demodulated by demodulation section 111a and the received data demodulated by demodulation section 111b are input, baseband section 112 selects the one with the higher reception intensity and outputs it to display section 117 or the like. .
[Selection diagram] Fig. 4

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a communication terminal device and a receiving method.
[0002]
[Prior art]
Conventional communication terminal devices include a communication terminal such as a mobile phone that communicates over a wide area network in a wide area such as Japan and a communication terminal that communicates via a wireless LAN or the like over a narrow area network such as a room. There is. A communication terminal device used in a wide area network is used only in a wide area network, and a communication terminal device used in a narrow area network is used only in a narrow area network.
[0003]
In addition, there is known a conventional communication terminal device which is carried by a visually impaired person and has a desired guidance displayed or sounded to notify the user. For example, when a visually impaired person comes to a store, a guidance processing management device in the store may notify the communication terminal device carried by the visually impaired person of the shop guidance information.
[0004]
[Problems to be solved by the invention]
However, in the conventional communication terminal apparatus and receiving method, when communication is performed in both the wide area network and the narrow area network, the communication terminal apparatus used in the wide area network and the communication terminal apparatus used in the narrow area network are not used. Since two communication terminals are required, there is a problem that the communication terminal is bulky when it is carried. Further, when a communication terminal device used in a narrow area network is not carried, there is a problem that communication in a narrow area network cannot be performed even if a communication terminal device used in a wide area network is carried. In addition, when only a communication terminal device dedicated to a wide area network is carried, even if the communication environment in the wide area network is not good, only communication over the wide area network can be performed. When there is an error, there is a problem that efficient communication cannot be performed because a retransmission request needs to be made.
[0005]
The present invention has been made in view of the above circumstances, and a single communication terminal device can perform communication in both a wide area network and a narrow area network, and is not bulky when carried and has a good communication environment. An object of the present invention is to provide a communication terminal device and a receiving method capable of performing efficient communication with good reception quality by using a network.
[0006]
[Means for Solving the Problems]
A communication terminal device according to the present invention comprises: a narrow-area network signal receiving means for receiving a narrow-area network signal transmitted via a narrow-area network; a narrow-area network signal demodulating means for demodulating the narrow-area network signal; And a wide-area network signal demodulating means for demodulating the wide-area network signal, which receives a wide-area network signal transmitted through the network.
[0007]
According to this configuration, since both the wide-area network signal and the narrow-area network signal can be demodulated by the same communication terminal device, it is not bulky when carrying, and both the wide-area network and the narrow-area network can communicate in the communication environment. , Communication can be performed using a communication network with good reception quality, and efficient communication can be performed.
[0008]
In the communication terminal device according to the present invention, the wide area network signal receiving means receives a first wide area network signal and a second wide area network signal, and selects one of the first wide area network signal and the second wide area network signal. A configuration is adopted in which one having better reception quality is selected to obtain reception data.
[0009]
According to this configuration, diversity reception can be performed in communication using a wide-area network, and thus reception data can be obtained by selecting a reception signal with good reception quality that is not affected by fading or the like.
[0010]
In the communication terminal device of the present invention, the wide area network signal demodulating means individually demodulates the first wide area network signal and the second wide area network signal received by the wide area network signal receiving means, and Using the wide area network demodulating means for demodulating one of the wide area network signal and the second wide area network signal. A configuration is employed in which the signal is switched and demodulated with the narrow range network signal received by the network signal receiving means.
[0011]
According to this configuration, the demodulation circuit for demodulating one of the first wide-area network signal and the second wide-area network signal and the demodulation circuit for demodulating the narrow-area network signal can be shared. The scale can be reduced, and the entire device can be reduced in size.
[0012]
The communication terminal device of the present invention has a notifying unit for notifying received data demodulated by the narrow-range network signal demodulating unit, and the notifying unit adopts a configuration of notifying the same information as the information of the wide-area network signal.
[0013]
According to this configuration, the same information is broadcast using both the wide-area network and the narrow-area network, so that the elderly and the hearing-impaired can obtain the information by a method available to themselves, and Can be obtained reliably.
[0014]
The communication terminal device according to the present invention employs a configuration including a transmission unit that switches between a signal transmitted using the wide area network and a signal transmitted using the narrow area network and transmits the signal.
[0015]
According to this configuration, since a circuit for processing a transmission signal is shared between transmission using a wide area network and transmission using a narrow area network, the circuit scale can be reduced, and the entire apparatus can be reduced in size. Can be
[0016]
In the communication terminal device according to the present invention, the narrow-area network signal is configured to be a signal transmitted and received by a wireless LAN system.
[0017]
According to this configuration, since communication is performed using the wireless LAN system suitable for communication in a small area, communication can be performed in a system suitable for different environments such as outdoors and indoors.
[0018]
The receiving method of the present invention comprises the steps of receiving a first wide area network signal transmitted over a wide area network, receiving a second wide area network signal transmitted over a wide area network, Receiving the narrow-area network signal transmitted over the network, demodulating the received first wide-area network signal, and selecting one of the received second wide-area network signal and the received narrow-area network signal. And demodulating by switching either one of them.
[0019]
According to this method, both the wide-area network signal and the narrow-area network signal can be demodulated by the same communication terminal device. , Communication can be performed using a communication network with good reception quality, and efficient communication can be performed. Further, since the demodulation circuit for demodulating either one of the first wide area network signal and the second wide area network signal and the demodulation circuit for demodulating the narrow area network signal can be shared, the circuit scale is reduced. As a result, the size of the entire apparatus can be reduced.
[0020]
BEST MODE FOR CARRYING OUT THE INVENTION
The gist of the present invention is that a single communication terminal device mainly performs transmission / reception over a wide area network for performing communication by a mobile phone and transmission / reception over a narrow range network for performing communication in a narrow area such as a wireless LAN. It is. Further, two demodulation circuits are provided for diversity reception of the wide-area network reception signal, and one demodulation circuit for the wide-area network reception signal and one for the narrow-range network reception signal are switched and shared by a switch. That is.
[0021]
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0022]
(Embodiment 1)
FIG. 1 is a diagram showing a configuration of a communication terminal device according to Embodiment 1 of the present invention. Communication terminal apparatus 100 according to the present embodiment includes demultiplexing section 102, amplification sections 103a to 103c, filter sections 104a to 104c, amplification sections 105a to 105c, intermediate frequency conversion sections 106a to 106c, synthesizers 107a and 107b, and filter section 108a. To 108c, amplification units 109a to 109c, amplification units 110a to 110c, demodulation units 111a to 111c, baseband unit 112, demultiplexing unit 113, demultiplexing unit 114, transmission unit 116, display unit 117, input unit 118, and vibration unit. 119, an audio unit 120, a storage unit 121, a camera 122, and a video input / output terminal unit 123.
[0023]
The splitter 102, the amplifier 103a, the filter 104a, the amplifier 105a, the intermediate frequency converter 106a, the synthesizer 107a, the filter 108a, the amplifier 109a, the amplifier 110a, and the demodulator 111a form a first reception system. And processes signals received from a wide area network such as a mobile phone. The transmission unit 116 and the demultiplexing unit 102 form a first transmission system, and perform processing of a transmission signal transmitted to a wide area network such as a mobile phone. Further, the demultiplexing unit 113, the amplification unit 103b, the filter unit 104b, the amplification unit 105b, the intermediate frequency conversion unit 106b, the synthesizer 107a, the filter unit 108b, the amplification unit 109b, the amplification unit 110b, and the demodulation unit 111b are connected to the second reception system. And processes signals received from a wide area network such as a mobile phone. Further, the demultiplexing unit 114, the amplification unit 103c, the filter unit 104c, the amplification unit 105c, the intermediate frequency conversion unit 106c, the synthesizer 107b, the filter unit 108c, the amplification unit 109c, the amplification unit 110c, and the demodulation unit 111c are connected to a third reception system. And processes signals received from a narrow range network such as a wireless LAN. Diversity reception such as spatial diversity can be performed by the first reception system and the second reception system. The amplification units 103a to 103b, the filter units 104a to 104c, the amplification units 105a to 105c, the intermediate frequency conversion units 106a to 106c, the filter units 108a to 108c, the amplification units 109a to 109c, the amplification units 110a to 110c, and the demodulation units 111a to 111c. Each of 111c has the same operation except that the type of signal to be processed is different in all of the first, second, and third receiving systems, and will be described together.
[0024]
In the present invention, two types of signal processing circuits, a circuit for processing a wide-area network signal comprising a first receiving system and a second receiving system, and a circuit for processing a narrow-range network signal comprising a third receiving system There is a feature in the configuration having Note that a wide area network is a communication network capable of wireless communication provided in a wide area where an unspecified or specific public can communicate with each other, and a narrow area network is a train, a bus, a department store, It is a communication network provided in a small area such as a building and capable of wireless communication.
[0025]
The demultiplexing unit 102 converts a reception signal that is a wide-area network signal received by the antenna 101a that is a first wide-area network signal reception unit and a transmission unit, and a transmission signal that is a wide-area network signal input from a transmission unit 116 described below. The signal is demultiplexed, a received signal received by antenna 101a is output to amplifying section 103a, and a transmission signal input from transmitting section 116 is transmitted from antenna 101a.
[0026]
Amplifying sections 103a to 103c amplify the received signals input from demultiplexing sections 102, 113 and 114, and output the amplified signals to filter sections 104a to 104c.
[0027]
Filter sections 104a to 104c perform spurious suppression processing on the reception signals input from amplification sections 103a to 103c and output the signals to amplification sections 105a to 105c.
[0028]
Amplifying sections 105a to 105c amplify received signals input from filter sections 104a to 104c and output the signals to intermediate frequency converting sections 106a to 106c.
[0029]
Intermediate frequency converters 106a to 106c modulate the received high-frequency signals input from amplifiers 105a to 105c into intermediate frequencies using local signals input from synthesizers 107a and 107b, and output the modulated signals to filter units 108a to 108c.
[0030]
Synthesizers 107a and 107b generate local signals and output them to intermediate frequency converters 106a to 106c.
[0031]
Filter sections 108a to 108c perform spurious suppression processing on the intermediate frequency modulated reception signals input from intermediate frequency conversion sections 106a to 106c, and output the resulting signals to amplification sections 109a to 109c.
[0032]
Amplifying sections 109a to 109c amplify the received signals input from filtering sections 108a to 108c and output the amplified signals to amplifying sections 110a to 110c.
[0033]
Amplifying sections 110a to 110c further amplify the received signals input from amplifying sections 109a to 109c and output the signals to demodulating sections 111a to 111c.
[0034]
Demodulation sections 111a to 111c demodulate the received signals input from amplification sections 110a to 110c and output the demodulated signals to baseband section 112. The demodulation units 111a and 111b serving as wide-area network signal demodulation units individually demodulate wide-area network signals. The demodulation unit 111c, which is a narrow-range network demodulation unit, demodulates a narrow-range network signal.
[0035]
The baseband unit 112 performs reception processing of the demodulated baseband reception signals input from the demodulation units 111a to 111c, and displays the display unit 117, the input unit 118, the vibration unit 119, the audio unit 120, the storage unit 121, the camera 122, Output to the video input / output terminal unit 123. In addition, the baseband unit 112 selects one having a higher reception intensity from the reception signals of the demodulation units 111a and 111b, and uses it as reception data in a wide area network.
[0036]
The demultiplexing unit 113 demultiplexes an arbitrary signal from a received signal that is a wide area network signal received by the antenna 101b that is a second wide area network signal receiving unit, and outputs the signal to the amplification unit 103b.
[0037]
The demultiplexing unit 114 demultiplexes an arbitrary signal from a received signal that is a narrow-area network signal received by the antenna 101c that is a narrow-area network signal receiving unit, and outputs the signal to the amplification unit 103c.
[0038]
Transmitting section 116 modulates the transmission signal input from baseband section 112 into a radio frequency and outputs the result to demultiplexing section 102. In this embodiment, since transmission is performed using 800 MHz or 1.5 GHz PDC or the like, the transmission signal is output from transmission section 116 to demultiplexing section 102 without being subjected to processing such as amplification.
[0039]
Display section 117 displays information based on the received signal input from baseband section 112. The information displayed on the display unit 117 is information transmitted on both the wide area network and the narrow area network, and can be displayed on any communication network. Therefore, the elderly person and the hearing-impaired person can obtain desired information by carrying one communication terminal device without carrying two communication terminal devices.
[0040]
Input section 118 outputs information to baseband section 112. The vibration section 119 vibrates based on the reception signal input from the baseband section 112.
[0041]
The audio unit 120 generates audio from the received signal input from the baseband unit 112 and outputs audio to the baseband unit 112. The storage unit 121 records video, audio, character data, and the like based on the reception signal input from the baseband unit 112.
[0042]
The camera 122 displays an image based on the received signal input from the baseband unit 112. The video input / output terminal unit 123 outputs audio and video signals to a television, a display, and the like based on the reception signal input from the baseband unit 112.
[0043]
Next, applications of the communication terminal device 100 will be described. First, the first application will be described with reference to FIG. In the first application, a communication terminal device 100, a home gateway 201, a video camera 202, and an interphone 203 are provided. The video input to the camera 202 is transmitted from the camera 202 to the home gateway 201 via the narrow area network 206. The video input to the interphone 203 is transmitted from the interphone 203 to the home gateway 201 via the narrow area network 207. Home gateway 201 processes video signals input from camera 202 and interphone 203. Then, the home gateway 201 transmits the video signal to the communication terminal device 100 through the narrow-area network 205 in an environment where transmission is possible through the narrow-area network 205, and the wide-area network 204 when there is no environment in which transmission is possible through the narrow-area network 205 To the communication terminal device 100.
[0044]
Here, as an environment in which transmission can be performed by the narrow-area network 205, a case where communication is performed in a relatively small area such as an indoor room when a person using the communication terminal device 100 is at home. In this case, communication is performed using a wireless LAN or the like. Further, as a case where there is no environment in which transmission can be performed by the narrow range network 205, a case where a person using the communication terminal device 100 communicates outdoors due to going out or the like is considered.
[0045]
The video signal thus received by the communication terminal device 100 is output from the baseband unit 112 to the display unit 117, and is displayed as a guide as shown in FIG. For example, when the sleeping baby has an action in the video of the camera 202, the video can be transmitted to the communication terminal device 100 to know the baby in real time. Also, if there is a sudden visitor in the video of the interphone 203, it can be immediately known. In addition, it can be used to prevent theft and intrusion.
[0046]
Next, a second application will be described with reference to FIG. In the second application, a communication terminal device 100, a home gateway 301, a microphone 302, and an interphone 303 are provided. The voice input to the microphone 302 is transmitted to the home gateway 301 via the narrow area network 304. The voice input to the interphone 303 is transmitted to the home gateway 301 via the narrow area network 305. Home gateway 301 processes audio signals input from microphone 302 and interphone 303. Then, the home gateway 301 transmits the voice signal to the communication terminal device 100 via the narrow-range network 306 in an environment where transmission is possible through the narrow-range network 306, and transmits the voice signal to the communication terminal device 100 in an environment where transmission is not possible through the narrow-range network 306. An audio signal is transmitted to the communication terminal device 100 via the network 307.
[0047]
The audio signal received by the communication terminal device 100 in this manner is input from the baseband unit 112 to the display unit 117, and is displayed as character information corresponding to the audio as guidance as shown in FIG. For example, when a baby's cry is input to the installed microphone 302, the cry is recorded and the cry is transmitted to the communication terminal device 100, so that the baby's condition can be known in real time. When a sound of knocking on the door is input to the installed microphone 302, the knocking sound is recorded, and the knocking sound is transmitted to the communication terminal device 100, whereby it is possible to know that there is a sudden visitor. . When there is a visitor, the microphone is operated from the button 309 of the interphone 303, and the voice of the visitor is transmitted to the communication terminal device 100, so that the voice message from the visitor can be confirmed. In addition, it can be used to prevent theft and intrusion. The voices input to the microphone 302 and the interphone 303 are analyzed, and a voice recognition process is performed for a human voice, and a type of sound is classified for a sound generated from life, and the type of the sound is displayed on the display unit 117. can do. This makes it possible to realize a communication configuration that can be used by a hearing-impaired person with peace of mind.
[0048]
As described above, according to the present embodiment, communication can be performed by one communication terminal device for both transmission and reception of information signals in a wide area network and reception of information signals in a narrow area network. Communication can be performed efficiently. Also, the visually impaired person or the like can obtain necessary information. Also, since diversity reception is performed using two antennas, the antenna 101a and the antenna 101b, it is possible to obtain received data with good reception quality. Further, in the processing of the narrow range network signal, only the receiving circuit is provided and the transmitting circuit is not provided, so that the circuit scale can be reduced, and the communication terminal device 100 can be downsized.
[0049]
(Embodiment 2)
FIG. 4 shows a configuration of communication terminal apparatus 400 according to Embodiment 2 of the present invention. Communication terminal device 400 according to the present embodiment includes switch 401, a configuration in which a transmission signal and a reception signal are separated by branching unit 402, filter unit 108b, amplification unit 109b, amplification unit 110b, and demodulation unit 111b. The configuration common to the processing of the received signal received by the antenna 101b and the processing of the received signal received by the antenna 101c and the configuration in which the transmission unit 116b is provided are different from those in FIG. Parts having the same configuration as in FIG. 1 are denoted by the same reference numerals, and description thereof will be omitted.
[0050]
The switch 401 switches the connection between the intermediate frequency conversion unit 106b and the filter unit 108b and the connection between the intermediate frequency conversion unit 106c and the filter unit 108b. By switching the switch 401, one of the received signal received by the antenna 101b and the received signal received by the antenna 101c is input to the filter unit 108b, and the received signal to be demodulated can be selected.
[0051]
The demultiplexing unit 402 demultiplexes the reception signal received by the antenna 101c and the transmission signal input from the transmission unit 116b, outputs the reception signal to the amplification unit 103c, and transmits the transmission signal from the antenna 101c.
[0052]
Transmitting section 116b modulates the transmission signal input from baseband section 112 to a radio frequency and outputs the result to demultiplexing section 402.
[0053]
As described above, according to the present embodiment, a single communication terminal device can perform communication in both transmission and reception of a signal in a wide area network and transmission and reception of a signal in a narrow area network, so that portability is excellent. Communication can be performed efficiently. Also, the visually impaired person or the like can obtain necessary information. Also, since diversity reception is performed using two antennas, the antenna 101a and the antenna 101b, it is possible to obtain received data with good reception quality. The processing of the received signal received by the antenna 101b and the processing of the received signal received by the antenna 101c can be performed using the same filter unit 108b, amplifying unit 109b, amplifying unit 110b, and demodulating unit 111b. Therefore, the circuit configuration can be simplified, and the entire device can be downsized. Further, the processing of the reception signal received by the antenna 101b and the processing of the reception signal received by the antenna 101c are made into a common circuit, and the processing circuit for the transmission signal in the narrow area network is provided in the vacant space. And can be transmitted and received on both wide-area and narrow-area networks.
[0054]
(Embodiment 3)
FIG. 5 is a diagram showing a configuration of the communication terminal device 500 according to Embodiment 3 of the present invention. Communication terminal apparatus 500 according to the present embodiment is different from FIG. 1 in the configuration in which demultiplexing section 501 demultiplexes a transmission / reception signal and the configuration in which transmission section 502 is provided. Parts having the same configuration as in FIG. 1 are denoted by the same reference numerals, and description thereof will be omitted.
[0055]
The demultiplexing unit 501 demultiplexes the reception signal received by the antenna 101c and the transmission signal input from the transmission unit 502, and outputs the reception signal received by the antenna 101c to the amplification unit 103c. Is transmitted from the antenna 101c.
[0056]
Transmitting section 502 modulates the transmission signal input from baseband section 112 into a radio frequency and outputs the signal to demultiplexing section 501.
[0057]
Next, applications of the communication terminal device 500 will be described. First, the first application will be described with reference to FIG. In the first application, a communication terminal device 500 and a television 602 are provided. Then, by turning on the switch 601 of the television 602, an audio signal and a video signal can be transmitted and received between the communication terminal device 500 and the television 602 via the narrow area network 603.
[0058]
For example, video data displayed on the display unit 117 of the communication terminal device 500 is output as a video signal from the display unit 117 to the baseband unit 112 and transmitted to the television 602, so that the video data is displayed on the large display 605 of the television 602. The same display as that on the display unit 117 can be seen. Conversely, the video signal on the display 605 of the television 602 is transmitted to the communication terminal device 500, and the communication terminal device 500 that has received the transmitted video signal outputs the video signal from the baseband unit 112 to the display unit 117. Thus, the same image as the display 605 can be viewed on the display unit 117. Note that transmission and reception between the television 602 and the communication terminal device 500 are performed by switching a switch 601 of the television 602 and a switch 606 of the communication terminal device 500. In addition, the present invention is also applicable to a case where information data received by the receiving device of the car navigation system through the wide area network and the narrow area network is transmitted to the display of the receiving device of the car navigation system and displayed.
[0059]
Next, a second application will be described with reference to FIG. In the second application, a video camera 701 and two communication terminal devices 500a and 500b are provided. The video camera 701 sends the captured video to the communication terminal device 500b via the narrow area network 702. The communication terminal device 500b can view a video or the like captured by the video camera 701 by outputting the received video signal from the video camera 701 to the display unit 117 from the baseband unit 112.
[0060]
Further, the communication terminal device 500b sends a video signal captured by the video camera 701 to another communication terminal device 500a via the wide area network 703. The communication terminal device 500a outputs the received video signal from the baseband unit 112 to the display unit 117, so that the video captured by the video camera 701 can be viewed on the distant communication terminal device 500a. The audio information and the video information received by the communication terminal device 500a can be viewed on the display 605 of the television 602 by using the system described in the first application.
[0061]
Next, a third application will be described with reference to FIG. In the third application, a video camera 801, a communication terminal device 500, and a video recording device 802 are provided. Audio and video captured by the video camera 801 are transmitted from the video camera 801 to the communication terminal device 500 via the narrow area network 803, and transmitted to the video recording device 802 via the video input / output terminal 123. As described above, the audio information and the video information captured by the video camera 801 are recorded by the video recording device 802.
[0062]
Next, a fourth application will be described with reference to FIG. In the fourth application, a video camera 901, two communication terminal devices 500a and 500b, and a video recording device 902 are provided. The video camera 901 transmits the captured video signal and audio signal to the communication terminal device 500b via the narrow range network 903, and the communication terminal device 500b receiving the video signal and the audio signal transmits the video signal and the audio signal from the baseband unit 112 to the display unit 117. The video signal and the audio signal are output to the display unit 117 so that they can be viewed.
[0063]
Further, by operating the switch 53, the communication terminal device 500b outputs the video signal and the audio signal received from the display unit 117 to the baseband unit 112, and the communication terminal device 500b transmits another video signal and another audio signal through the wide area network 904. The video signal and the audio signal are transmitted to the communication terminal device 500a. The communication terminal device 500a that has received the video signal and the audio signal outputs the video signal and the audio signal from the baseband unit 112 to the video input / output terminal unit 123, and is output from the video input / output terminal unit 123 to the video recording device 902, The video recording device 902 records the received video signal and audio signal.
[0064]
Next, a fifth application will be described with reference to FIG. In the fifth application, two communication terminal devices 500a and 500b are provided. The communication terminal devices 500a and 500b include call buttons 1001 and 1002 and lamps 1003 and 1004. When a call button 1001 of the communication terminal device 500a is pressed, a call signal is transmitted from the communication terminal device 500a to the communication terminal device 500b via the wide area network 1005 or the narrow area network 1006, and the communication terminal device 500b that has received the call signal is turned on by the lamp. Since 1004 is turned on, the calling party can be noticed.
[0065]
Next, a sixth application will be described with reference to FIG. In the sixth application, two communication terminal devices 500a and 500b are provided. The communication terminal devices 500a and 500b include call buttons 1101 and 1102. When a call button 1101 of the communication terminal device 500a is pressed, a call signal is transmitted from the communication terminal device 500a to the communication terminal device 500b via the wide area network 1104 or the narrow area network 1105, and the display of the communication terminal device 500b that has received the call signal Since the color of the portion 117 is inverted, the calling party can be noticed.
[0066]
Next, a seventh application will be described with reference to FIG. In the seventh application, two communication terminal devices 500a and 500b are provided. The communication terminal devices 500a and 500b include call buttons 1201 and 1202. When a call button 1201 of the communication terminal device 500a is pressed, a call signal is transmitted from the communication terminal device 500a to the communication terminal device 500b via the wide area network 1203 or the narrow area network 1204, and the communication terminal device 500b that has received the call signal A calling signal is output from the baseband unit 112 to the vibrating unit 119, and the vibrating unit 119 vibrates, so that the calling party can be noticed.
[0067]
Next, an eighth application will be described with reference to FIG. In the eighth application, the communication terminal device 500 includes a removable narrow-range network transmitting / receiving device 1301. The communication terminal device 500 can communicate with another communication terminal device via the wide-area network 1302, and when the narrow-area network transmitting / receiving device 1301 is attached, the narrow-area network transmitting / receiving device 1301 and the narrow-area network Transmission and reception with another communication terminal device can be performed via 1303. On the other hand, when narrow-area network transmitting / receiving apparatus 1301 is detached from communication terminal apparatus 500, narrow-area network transmitting / receiving apparatus 1301 can perform transmission / reception via narrow-area network 1303 alone. For example, the narrow-area network transmitting / receiving apparatus 1301 can be connected to a personal computer or a mobile terminal by itself, and can communicate via the narrow-area network 1303, so that various communication means can be achieved.
[0068]
Next, a ninth application will be described with reference to FIG. In the ninth application, when the communication terminal device 500a is set to the waiting mode, when the switch 1401 is pressed, a fixed transmission power is transmitted from the communication terminal device 500a via the narrow range network 1403 or the wide range network 1402. Transmit with the signal. The communication terminal device 500b that has received the signal transmitted by the communication terminal device 500a calculates the distance value from the received electric field strength of the received signal, and displays the distance value on the display unit 117 of the communication terminal device 500b.
[0069]
When the switch 68 is pressed to notify the communication terminal device 500a of the distance value, the communication terminal device 500b transmits information on the distance value from the communication terminal device 500b to the communication terminal device 500a via the wide area network 1402 or the narrow area network 1403. Is transmitted. The communication terminal device 500a that has received the distance value information from the communication terminal device 500b can output the distance value information from the baseband unit 112 to the display unit 117 and display the distance value on the display unit 117. In this way, it is possible to know the situation of the other party while meeting with the other party. It is also useful for searching for opponents.
[0070]
Next, a tenth application will be described with reference to FIG. In the tenth application, when the communication terminal device 500 sets a position to be searched and presses a target grasp button 1501, a constant transmission power is transmitted from the communication terminal device 500 via the wide area network 1502 or the narrow area network 1503. . The transceiver installed in the target building 1504 receives the signal transmitted by the communication terminal device 500, and the transceiver in the target building 1504 calculates the distance value from the received electric field strength of the received signal. The transceiver of the target building 1504 transmits a transmission signal including information on the calculated distance value to the communication terminal device 500 via the wide area network 1502 or the narrow area network 1503. The communication terminal device 500 that has received the signal including the distance value outputs the information on the distance value from the baseband unit 112 to the display unit 117, and can display the distance value on the display unit 117. Thus, the distance to the target can be known, and the vehicle can be smoothly guided to the target. It is also useful for searching for opponents.
[0071]
Next, an eleventh application will be described with reference to FIG. In the eleventh application, the communication terminal device 500 includes a camera (not shown). When the emergency mode switch 1601 is pressed when an emergency situation occurs, the camera 122 automatically enters the shooting mode and reflects the situation at the site. . The projected video is output from the camera 122 to the baseband unit 112 and transmitted from the communication terminal device 500 to the contact center 1602 via the wide area network 1606 or the narrow area network 1607.
[0072]
In addition, the communication terminal device 500 automatically enters the character input mode, and can notify the contact center 1602 of a selection method and a character input method suitable for the situation. The contact center 1602 that has received the emergency contact can grasp the site with the video data received from the communication terminal device 500 and give an accurate answer. Further, by transmitting the position information of the narrow range network 1607 from the communication terminal device 500 to the contact center 1602, the contact center 1602 can automatically know the address of the place where the caller is located without knowing the address. In addition, the hearing-impaired person can input characters to the communication terminal device 500 and transmit the characters to the contact center 1602 via the wide area network 1606 or the narrow area network 1607, so that the contact center 1602 can grasp the situation. it can. Thus, the elderly, hearing-impaired, and visually impaired can easily make an emergency contact, and by showing a video of a scene that is difficult to explain, the contact center 1602 can grasp the situation of the site in a short time, and the police 1603, Firefighting 1604 and emergency services 1605 can be dispatched. The guidance displayed on the display unit 117 may be as shown in FIG.
[0073]
As described above, according to the present embodiment, communication can be performed by one communication terminal device for both transmission and reception of information signals in a wide area network and reception of information signals in a narrow area network. Communication can be performed efficiently. Also, the visually impaired person or the like can obtain necessary information. Also, since diversity reception is performed using two antennas, the antenna 101a and the antenna 101b, it is possible to obtain received data with good reception quality. Further, since transmission can be performed in a narrow-range network environment, an easy-to-use communication terminal device can be provided.
[0074]
In the present embodiment, the filter units 180b to the demodulation unit 111b and the filter units 108c to the demodulation unit 111c are provided separately. However, the filter unit 180b to the demodulation unit 111b and the filter unit 108c to the demodulation unit 111c are provided separately. The signals may be collectively and commonly used, and a received signal of a wide area network and a received signal of a narrow area network may be switched by a switch and demodulated.
[0075]
(Embodiment 4)
FIG. 17 shows the configuration of communication terminal apparatus 1700 according to Embodiment 4 of the present invention. Communication terminal apparatus 1700 in this embodiment has a configuration including modulation section 1701, amplification section 103d, filter section 104d, amplification section 105d, frequency conversion section 106d, filter section 108d, amplification section 109d, amplification section 110d, and demodulation section 111d. And a configuration in which the amplifiers 103b and 103c, the filters 104b and 104c, the amplifiers 105b and 105c, the frequency converters 106b and 106c, the switch 401, the filter 108b, the amplifier 109b, and the amplifier 110b are used for transmission signal processing. Is different from the configuration of FIG. 1 and 4 are denoted by the same reference numerals and description thereof is omitted.
[0076]
The demultiplexer 102, the amplifier 103a, the filter 104a, the amplifier 105a, the frequency converter 106a, the synthesizer 107a, the filter 108a, the amplifier 109a, the amplifier 110a, and the demodulator 111a process received signals in a wide area network. The demultiplexer 102, the amplifier 103b, the filter 104b, the amplifier 105b, the frequency converter 106b, the synthesizer 107a, the filter 108b, the amplifier 109b, the amplifier 110b, and the modulator 1701 operate in a wide area network. It performs processing of a transmission signal, and includes a demultiplexer 402, an amplifier 103c, a filter 104c, an amplifier 105c, a frequency converter 106c, a synthesizer 107b, a filter 108b, an amplifier 109b, an amplifier 110b, and a modulator 1701. Is the transmission signal in the narrow range network The demultiplexer 402, the amplifier 103d, the filter 104d, the amplifier 105d, the frequency converter 106d, the synthesizer 107b, the filter 108d, the amplifier 109d, the amplifier 110d, and the demodulator 111d have a narrow width. It processes received signals in the range network. The filter unit 108b, the amplifying unit 109b, the amplifying unit 110b, and the modulating unit 1701 perform processing of both transmission signals in the wide area network and the narrow area network. In the narrow-area network according to the present embodiment, since transmission is performed using a 5 GHz wireless LAN or the like, the transmission signal modulated by modulation section 1701 is transmitted after being amplified a plurality of times.
[0077]
Amplifying section 103b amplifies the transmission signal input from filter section 104b and outputs the amplified signal to demultiplexing section 102. Filter section 104b performs spurious suppression processing on the transmission signal input from amplification section 105b, and outputs the result to amplification section 103b.
[0078]
Amplifying section 105b amplifies the transmission signal input from frequency converting section 106b and outputs the amplified signal to filter section 104b. Frequency conversion section 106b modulates a high-frequency reception signal input from filter section 108b to an intermediate frequency by a local signal input from synthesizer 107a, and outputs the intermediate frequency to amplification section 105b.
[0079]
Filter section 108b performs spurious suppression processing on the transmission signal input from amplification section 109b, and outputs the result to frequency conversion section 106b or frequency conversion section 106c. Amplifier 109b amplifies the transmission signal input from amplifier 110b and outputs the amplified signal to filter 108b.
[0080]
Amplifying section 110b amplifies the transmission signal input from modulating section 1701 and outputs the amplified transmission signal to amplifying section 109b. Modulating section 1701 modulates a transmission signal input from baseband section 112 and outputs the result to amplifying section 110b.
[0081]
Amplifying section 103c amplifies the transmission signal input from filter section 104c and outputs the amplified signal to demultiplexing section 402. Filter section 104c performs spurious suppression processing on the transmission signal input from amplification section 105c, and outputs the result to amplification section 103c.
[0082]
The amplification section 105c amplifies the transmission signal input from the frequency conversion section 106c and outputs the amplified transmission signal to the filter section 104c. Frequency conversion section 106c modulates the high-frequency reception signal input from filter section 108b to an intermediate frequency with a local signal input from synthesizer 107b, and outputs the intermediate frequency to amplification section 105c.
[0083]
The switch 401 switches so that the transmission signal output from the filter unit 108b is output to the amplification unit 105b when transmitting over a wide area network, and is output from the filter unit 108b when transmitting over a narrow range network. Is switched to output the transmission signal to the amplifying unit 105c.
[0084]
As described above, according to the present embodiment, a single communication terminal device can perform communication in both transmission and reception of a signal in a wide area network and transmission and reception of a signal in a narrow area network, so that portability is excellent. Communication can be performed efficiently. Also, the visually impaired person or the like can obtain necessary information. Further, since the circuit for processing the transmission signal in the wide area network and the circuit for processing the transmission signal in the narrow area network are shared, the circuit scale can be reduced, and the communication terminal device 1700 can be downsized.
[0085]
In the present embodiment, transmission and reception in a wide area network and transmission and reception in a narrow area network may be performed by using two or more antennas to perform diversity reception and diversity transmission.
[0086]
In the first to third embodiments, diversity reception is performed by two antennas 101a and 101b. However, diversity reception may be performed by three or more antennas. And one of the antennas 101b may be used to receive signals by a normal reception method other than diversity reception.
[0087]
【The invention's effect】
As described above, according to the present invention, a single communication terminal device can perform communication in both a wide area network and a narrow area network. By using this, efficient communication with good reception quality can be performed.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a communication terminal device according to Embodiment 1 of the present invention.
FIG. 2 is a diagram showing an application of the communication terminal device according to Embodiment 1 of the present invention.
FIG. 3 is a diagram showing an application of the communication terminal device according to Embodiment 1 of the present invention.
FIG. 4 is a block diagram showing a configuration of a communication terminal device according to Embodiment 2 of the present invention.
FIG. 5 is a block diagram showing a configuration of a communication terminal device according to Embodiment 3 of the present invention.
FIG. 6 is a diagram showing an application of a communication terminal apparatus according to Embodiment 3 of the present invention.
FIG. 7 is a diagram showing an application of a communication terminal apparatus according to Embodiment 3 of the present invention.
FIG. 8 is a diagram showing an application of a communication terminal apparatus according to Embodiment 3 of the present invention.
FIG. 9 is a diagram showing an application of a communication terminal apparatus according to Embodiment 3 of the present invention.
FIG. 10 is a diagram showing an application of a communication terminal apparatus according to Embodiment 3 of the present invention.
FIG. 11 is a diagram showing an application of a communication terminal apparatus according to Embodiment 3 of the present invention.
FIG. 12 is a diagram showing an application of a communication terminal apparatus according to Embodiment 3 of the present invention.
FIG. 13 is a diagram showing an application of a communication terminal apparatus according to Embodiment 3 of the present invention.
FIG. 14 is a diagram showing an application of a communication terminal apparatus according to Embodiment 3 of the present invention.
FIG. 15 is a diagram showing an application of a communication terminal apparatus according to Embodiment 3 of the present invention.
FIG. 16 is a diagram showing an application of a communication terminal apparatus according to Embodiment 3 of the present invention.
FIG. 17 is a block diagram showing a configuration of a communication terminal device according to Embodiment 4 of the present invention.
[Explanation of symbols]
100, 400, 500, 1700 Communication terminal device
102, 113, 114, 501 Demultiplexer
103a, 103b, 103c Amplifier
104a, 104b, 104c Filter section
105a, 105b, 105c Amplifier
106a, 106b, 106c Intermediate frequency converter
107a, 107b synthesizer
108a, 108b, 108c Filter section
109a, 109b, 109c Amplifier
110a, 110b, 110c Amplifier
111a, 111b, 111c demodulation unit
112 Baseband section
401 switch

Claims (7)

A narrow-area network signal receiving means for receiving a narrow-area network signal transmitted via the narrow-area network, a narrow-area network signal demodulating means for demodulating the narrow-area network signal, and a wide-area network transmitted via the wide-area network A communication terminal device comprising: a wide area network signal receiving means for receiving a signal; and a wide area network signal demodulating means for demodulating the wide area network signal. The wide area network signal receiving means receives a first wide area network signal and a second wide area network signal, and determines which of the first wide area network signal and the second wide area network signal has better reception quality. 2. The communication terminal device according to claim 1, wherein the received data is selected. The wide-area network signal demodulating means individually demodulates the first wide-area network signal and the second wide-area network signal received by the wide-area network signal receiving means, and outputs the first wide-area network signal and the second wide-area network signal. The first wide area network signal and the second wide area network signal are received by the narrow area network signal receiving means using the wide area network demodulating means for demodulating one of the two wide area network signals. 3. The communication terminal apparatus according to claim 2, wherein the communication terminal apparatus demodulates by switching between the narrow-area network signal and the demodulated signal. 4. The broadcast system according to claim 1, further comprising: a broadcast unit that broadcasts the received data demodulated by the narrow range network signal demodulation unit, wherein the broadcast unit broadcasts the same information as the information of the wide area network signal. The communication terminal device according to any one of the above. The communication terminal according to any one of claims 1 to 4, further comprising a transmitting unit configured to switch between a signal transmitted using the wide area network and a signal transmitted using the narrow area network. apparatus. The communication terminal device according to any one of claims 1 to 5, wherein the narrow range network signal is a signal transmitted and received by a wireless LAN system. Receiving a first wide area network signal transmitted over the wide area network; receiving a second wide area network signal transmitted over the wide area network; Receiving the range network signal; demodulating the received first wide area network signal; and switching and demodulating one of the received second wide area network signal and the received narrow range network signal. And a receiving method.

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