JP3779643B2 - Portable communication device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a mobile communication device and a communication method thereof that can communicate with another person's mobile communication device by contacting an antenna of a mobile communication device such as a mobile phone.
[0002]
[Prior art]
2. Description of the Related Art In recent years, technological development related to mobile phones has been remarkable, and various functions such as browsing the Internet, sending and receiving e-mails, and exchanging address information with other mobile phones have come to be provided.
[0003]
In particular, as a mobile phone having a communication function with other mobile phones, Japanese Patent Laid-Open No. 2001-298780 discloses a short-range wireless data communication technique, separately from a wireless communication unit that mainly performs voice information communication, that is, a telephone call. An apparatus including an applied wireless communication unit has been proposed.
[0004]
In addition, mobile phones equipped with other types of wireless communication means such as infrared communication and specific low-power wireless communication have also been proposed.
[0005]
According to these communication means, communication between mobile phones can be performed without taking the trouble of connecting with an accessory such as a cable.
[0006]
[Problems to be solved by the invention]
However, when communication is performed using the wireless communication means as described above, there is a problem in that it is difficult to determine whether or not the connection is made because the connection state cannot be visually observed while the labor for connecting the cable can be saved.
[0007]
In particular, when sending personal information such as name, address, telephone number, mail address, etc. stored in the memory of a mobile phone to a specific user, whether the user is really connected only to that communication partner or not However, I couldn't feel it, and I was worried.
[0008]
Therefore, in view of such a situation, the present invention provides a mobile communication device and a communication method for the mobile communication device that can communicate with other mobile communication devices easily and without causing anxiety to the user. For the purpose.
[0009]
[Means for Solving the Problems]
A portable communication device and a communication method of the portable communication device according to the present invention include a portable communication device having an antenna that transmits and receives radio waves for communication with a wireless base station, and a wireless communication unit that performs communication via the antenna. Then, it is detected that the antenna has come into contact with an antenna of another mobile communication device, and communication with the other mobile phone is started with the contact of the antenna as a trigger.
[0010]
This makes it possible to communicate easily without connecting with a special accessory such as a cable, and it is connected to a predetermined communication partner by communicating with the partner that touched the antenna. To prevent the user from being anxious.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0012]
(First embodiment)
FIG. 1 is a block diagram showing a mobile phone device (mobile communication device) according to an embodiment of the present invention.
As shown in FIG. 1, the cellular phone device 1 of the present embodiment receives an antenna 11 that transmits and receives radio waves (800 MHz in this example) for communication with a radio base station (not shown), and the antenna 11 receives the radio waves. A radio circuit unit (radio communication means) 12 that demodulates radio waves to generate reception data, modulates transmission data to a predetermined frequency and outputs a modulation signal to the antenna 11, and a demodulation generated by the radio circuit unit 12 The control circuit unit 13 decodes the signal and outputs the encoded transmission data to the radio circuit unit 12 to perform communication, and the display unit 14 that is formed of an LCD and displays information.
[0013]
In addition, the mobile phone device 1 includes a storage device unit 15 in which user data and received data are stored, a key operation unit 16 in which an input (key operation) for executing a function desired by the user is performed, and a user An incoming call notification circuit unit 17 for notifying an incoming call, and voice data decoded by the control circuit unit 13 are decoded in accordance with the specification of the voice encoding method, and then converted into an analog signal to generate a voice signal and the input voice signal Is converted into a digital audio signal and encoded by the audio encoding method and output to the control circuit unit 13 as audio data, an audio output unit 19 including, for example, a speaker and an amplifier, and an audio input unit 20 including, for example, a microphone. And a short-range communication means 21 that communicates with other mobile phone devices in a short distance and a change in electrical characteristics when the antenna is brought into contact Container 11 is configured having a detection means 22 for detecting the contact with the antenna of another mobile phone device (contact state of the antenna).
[0014]
As the incoming call notification in the incoming call notification circuit unit 17, for example, notification by sound of a ringer or the like, notification by light of LED blinking or LCD display, or notification by vibration such as vibrator driving is performed.
[0015]
In the mobile phone device 1 having such a configuration, a call (sending and receiving) with the mobile phone device 2 having the same configuration is performed as follows.
[0016]
First, when the user on the transmission side operates the key operation unit 16 to set the telephone number of the transmission destination and presses a call button (not shown), the control circuit unit 13 controls the radio circuit unit 12 to control the radio base station. Communication is started, and a signal corresponding to the telephone number (so-called tone signal) is transmitted.
[0017]
In response to this, the radio base station transmits a signal notifying the incoming call to the mobile phone device of the transmission destination. The destination mobile phone receives this signal via the antenna 11, decodes this signal by the radio circuit unit 12, and determines that the incoming signal is received by the control circuit unit 13, the incoming call notification circuit unit 17 causes the incoming side user to receive the signal. Notify incoming calls.
[0018]
When the user on the receiving side presses the call button and a signal indicating that the call button has been pressed is notified to the radio base station, the line between the mobile phone devices is established and the call is started.
[0019]
At this time, the voice is input when the user of the mobile phone device 1 speaks to the voice input unit 20 and the voice input by the voice input unit 20 is converted into a voice signal (electric signal). Output to the codec 18. The audio codec 18 digitally converts the audio signal input from the audio input unit 20, further encodes the audio signal according to the specifications of the audio encoding method, and outputs the encoded signal to the control circuit unit 13. The control circuit unit 13 encodes the audio data input from the audio codec 18 as transmission data, and outputs this to the radio circuit unit 12. The wireless circuit unit 12 modulates the transmission data input from the control circuit unit 13 and outputs the modulated transmission data to the antenna 11. The antenna 11 outputs the modulation signal input from the radio circuit unit 12 as a radio wave to a radio base station (not shown).
[0020]
In reception, the antenna 11 receives a radio wave from a radio base station (not shown) and inputs a modulation signal to the radio circuit unit 12. The radio circuit unit 12 demodulates the modulation signal input from the antenna 11 and outputs the demodulated signal to the control circuit unit 13. The control circuit unit 13 decodes the demodulated signal input from the radio circuit unit 12 as received data, and inputs the received data to the audio codec 18. The audio codec 18 decodes the audio data input from the control circuit unit 13 according to the specification of the audio encoding method, further converts it into an analog signal, and outputs it as an audio signal to the audio output unit 19. The sound output unit 19 outputs the input sound signal as sound.
[0021]
In addition, the mobile phone device 1 of the present embodiment can communicate with other mobile phone devices at a short distance by the short-range communication means.
[0022]
FIG. 2 shows information such as name, telephone number, and address stored in each mobile phone device so that a user at a short distance exchanges business cards (hereinafter, these information are referred to as business card information for convenience). FIG. 3 is an explanatory diagram of a short-range communication procedure (mobile phone communication method according to the present invention). Since the mobile phone device 2 has substantially the same configuration as the device 1 described above, the same reference numerals are given to the same elements, and the description thereof is omitted. Since the mobile phone device 1 and the mobile phone device 2 perform the same operation, the mobile phone device 1 will be mainly described, and a part of the description of the mobile phone 2 will be omitted.
[0023]
First, when an instruction of “exchange of business card information” is input from the key operation unit 16 by a user's operation (step 1, hereinafter abbreviated as S1), the control circuit unit 13 of the mobile phone device 1 The unit 12 is controlled to output intermittent radio waves (800 MHz) shown in FIG. 4A (S2).
[0024]
In addition, the control circuit unit 13 starts detecting the contact state of the antenna 11 by the detection unit 22 (S3).
[0025]
The detection means 22 has a coil (not shown) arranged close to the antenna 11. When a communication radio wave is transmitted to the antenna 11, a current is generated in the coil by electromagnetic induction. Thus, the state of the antenna 11 is detected.
[0026]
At this time, when the mutual users bring the antenna 11 into contact with each other as shown in FIG. 2, a current is generated in the coil of the detecting means 22 due to the radio wave transmitted from the mobile phone device 2 as the communication partner. The contact state of the antenna 11 can be detected by the presence or absence of electric current (change in electrical characteristics from a state where there is no current derived from the communication partner to a state where there is current).
[0027]
That is, when the antenna 11 of the mobile phone device 1 that outputs radio waves shown in FIG. 4A and the antenna 11 of the mobile phone device 2 that outputs radio waves shown in FIG. The waveform shown in FIG. 4C is detected by the detection means 22. And the detection means 22 detected the signal component from the mobile telephone apparatus 2 as shown in FIG.4 (D) except the waveform of the period currently output from the mobile telephone apparatus 1 shown in FIG.4 (A) among these. In this case, it is detected that the antennas are in contact with each other, and if there is no signal component from the cellular phone device 2, it is detected that the antennas are not in contact with each other.
[0028]
Depending on the sensitivity of the detection means 22, an induced current is generated by radio waves from the cellular phone device 2 even when the antennas are close to each other. Since it is remarkably large, a threshold value is provided between these current values, and an induction current is set to be detected only when contact is made, so that it can be detected whether or not the antennas are in contact with each other.
[0029]
When the detection means 22 detects that the antennas are in contact with each other (Yes), the control circuit unit 13 starts communication by the short-range communication means 21 (S4). When it is detected that the antennas are not in contact with each other (No), the control circuit unit 13 repeats this detection until it detects that the antennas are in contact with each other to enter a standby state.
[0030]
When the start of communication is instructed, the short-range communication means 21 reads the business card information from the storage device unit 15, modulates it according to a predetermined protocol, and transmits it to the mobile phone device 2 (S5).
[0031]
Further, the short-range communication means 21 decodes the signal received from the mobile phone device 2 to obtain the business card information of the communication partner, and stores this in the storage device unit 15 (S6).
[0032]
As described above, according to the present embodiment, since communication is performed with the other party that is in contact with the antenna, it is possible to visually grasp who is communicating with the user, and to worry that information is transmitted to an unintended party. Don't make it happen. In addition, the present mobile phone does not need to be connected using an accessory such as a cable, and can easily communicate.
[0033]
In this embodiment, the contact state of the antenna is detected only at the time of short-range communication. In addition to this, the detection is performed at a predetermined interval after the short-range communication, and at the time when it is detected that there is no contact. It is good also as a structure which terminates near field communication.
[0034]
Further, in this embodiment, the contact of the antenna is detected by electromagnetic induction. However, the detection is not limited to this as long as the contact state can be detected, and a change in potential or a change in capacitance when the antenna is brought into contact is detected. It may be.
[0035]
Further, in the present embodiment, the short distance is a distance (for example, 100 m) at which communication can be performed with a specific power-saving radio, infrared rays, or the like, and is a distance at which the antennas can be contacted at least at the start of communication.
[0036]
(Second Embodiment)
FIG. 5 is a schematic view of a second embodiment according to the present invention. This embodiment is different from the above-described embodiment in that the short-range communication means is omitted, and communication after antenna contact is performed via a radio base station in the same manner as a telephone call, and other configurations are substantially the same. . In addition, about the same element as the above-mentioned embodiment, the description is abbreviate | omitted by attaching | subjecting the same code | symbol.
[0037]
When the data communication is selected, the cellular phone devices 3 and 4 of the present embodiment establish a line via the radio base station 40 as shown in FIG. 6 and detect the contact state.
[0038]
Then, when detecting that the antenna 11 is touched, the control circuit unit 13 reads the business card information stored in the storage device unit 15, and transmits it to the radio base station 40 as a modulation signal by the radio circuit unit 12.
[0039]
The radio base station 40 receives the modulated signal by the data server 41 and transmits it to the mobile phone device that is the communication partner.
[0040]
The mobile phone device that has received the modulation signal from the radio base station 40 demodulates it and stores it in the storage device 15 as business card information.
[0041]
As described above, according to the present embodiment, information can be exchanged relative to the communication partner even if the short-range communication means is not provided.
[0042]
<Other embodiments>
[0043]
The portable communication device and the communication method thereof according to the present invention are not limited to the illustrated examples described above, and it is needless to say that various changes can be made without departing from the gist of the present invention.
[0044]
For example, even with the configurations shown in the following items, the same effects as those of the above-described embodiment can be obtained.
[0045]
[1]:
An antenna for transmitting and receiving radio waves for communication with a wireless base station;
In a portable communication device having radio communication means for demodulating radio waves received by the antenna to generate reception data and modulating transmission data to a predetermined frequency and outputting a modulation signal to the antenna,
Detecting means for detecting that the antenna is in contact with an antenna of another portable communication device;
Communication control means for controlling the wireless communication means to start communication with the other mobile phone when the detection means detects contact;
A portable communication device comprising:
[0046]
[2]:
An antenna for transmitting and receiving radio waves for communication with a wireless base station;
In a portable communication device having radio communication means for demodulating radio waves received by the antenna to generate reception data and modulating transmission data to a predetermined frequency and outputting a modulation signal to the antenna,
A short-range communication means for performing wireless communication with another mobile communication device at a short distance and a detection means for detecting that the antenna is in contact with an antenna of the other mobile communication device;
Communication control means for controlling the short-range communication means to start communication with the other mobile phone when the detection means detects contact;
A portable communication device comprising:
[0047]
[3]:
The portable communication device according to [1] or [2], wherein the detection unit detects a change in electrical characteristics when the antenna is brought into contact with the antenna to detect a contact state of the antenna.
[0048]
[4]:
Storage means for storing predetermined information, and when the contact of the antenna is detected, the communication control means transmits the predetermined information stored in the storage means to the other portable communication device and / or The portable communication device according to any one of [1] to [3], wherein predetermined information from another portable communication device is received and stored in the storage means.
[0049]
[5]:
[4] The mobile communication device according to [4], further comprising display means for displaying a reception result when predetermined information is received from the other mobile communication device.
[0050]
[6]:
A communication method of a portable communication device, comprising: an antenna that transmits and receives radio waves for communicating with a radio base station; and a radio communication unit that performs communication via the antenna,
A detection step of detecting that the antenna is in contact with an antenna of another mobile communication device;
Communication of a portable communication device including the step of detecting contact of the antenna and controlling the wireless communication means to start communication with the other mobile phone when detecting contact of the antenna Method.
[0051]
[7]:
Mobile communication having an antenna that transmits and receives radio waves for communication with a wireless base station, wireless communication means that performs communication via the antenna, and short-range communication means that performs wireless communication with other mobile communication devices at a distance A device communication method comprising:
A detection step of detecting that the antenna is in contact with an antenna of another mobile communication device;
A step of detecting contact of the antenna when the contact of the antenna is detected, and controlling the short-range communication means to start communication with the other mobile phone. Communication method.
[0052]
In the present invention, the above-described configurations can be combined as much as possible.
[0053]
【The invention's effect】
As described above, the portable communication device and the communication method of the present invention are simple and can communicate with other portable communication devices without causing anxiety to the user. An apparatus communication method can be provided.
[Brief description of the drawings]
FIG. 1 is a schematic diagram of a mobile phone device as a first embodiment according to the present invention. FIG. 2 is an explanatory diagram when business card information is exchanged by short-range communication means. FIG. 4 is an explanatory diagram for detecting a contact state of an antenna. FIG. 5 is a schematic diagram of a mobile phone device as a second embodiment according to the present invention. Illustration for exchanging information between devices [Explanation of symbols]
1, 2, 3, 4 Mobile phone device (mobile communication device)
11 antenna 12 radio circuit unit 13 control circuit unit 14 display unit 15 storage device unit 16 key operation unit 17 incoming call notification circuit unit 18 voice codec 19 voice output unit 20 voice input unit 21 near field communication unit 22 detection unit 40 wireless base station 41 Data server

Claims (7)

An antenna for transmitting and receiving radio waves for communication with a wireless base station;
In a portable communication device having radio communication means for demodulating radio waves received by the antenna to generate reception data and modulating transmission data to a predetermined frequency and outputting a modulation signal to the antenna,
Detecting means for detecting that the antenna is in contact with an antenna of another portable communication device;
Communication control means for controlling the wireless communication means to start communication with the other mobile phone when the detection means detects contact;
A portable communication device comprising: An antenna for transmitting and receiving radio waves for communication with a wireless base station;
In a portable communication device having radio communication means for demodulating radio waves received by the antenna to generate reception data and modulating transmission data to a predetermined frequency and outputting a modulation signal to the antenna,
Short-range communication means for performing wireless communication with another mobile communication device at a short distance and detection means for detecting that the antenna is in contact with the antenna of the other mobile communication device;
Communication control means for controlling the short-range communication means to start communication with the other mobile phone when the detection means detects contact;
A portable communication device comprising: The portable communication device according to claim 1, wherein the detection unit detects a contact state of the antenna by detecting a change in electrical characteristics when the antenna is contacted. Storage means for storing predetermined information, and when the contact of the antenna is detected, the communication control means transmits the predetermined information stored in the storage means to the other portable communication device and / or 4. The mobile communication device according to claim 1, wherein predetermined information from another mobile communication device is received and stored in the storage means. 5. The mobile communication device according to claim 4, further comprising a display unit that displays a reception result when predetermined information is received from the other mobile communication device. A communication method for a portable communication device, comprising: an antenna that transmits and receives radio waves for communication with a wireless base station; and wireless communication means that performs communication via the antenna,
A detection step of detecting that the antenna is in contact with an antenna of another mobile communication device;
Communication of a portable communication device, comprising: detecting the contact of the antenna, and controlling the wireless communication means to start communication with the other mobile phone when the contact of the antenna is detected Method. Mobile communication having an antenna for transmitting and receiving radio waves for communication with a wireless base station, wireless communication means for performing communication via the antenna, and short-range communication means for performing wireless communication with other portable communication devices at a distance A device communication method comprising:
A detection step of detecting that the antenna is in contact with an antenna of another mobile communication device;
A step of detecting contact of the antenna when the contact of the antenna is detected, and controlling the short-range communication means to start communication with the other mobile phone. Communication method.

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