JP2002291047A - Portable communication terminal provided with acceleration detection means - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mobile communication terminal that can realize a password function with higher security while simplifying password entry operations. SOLUTION: The portable communication terminal 10 is provided with a wireless communication means, a wireless unit main body is configured with an acceleration sensor section 20 that senses an acceleration exerted to the wireless unit main boy to provide an output of a prescribed acceleration signal, a storage section 14 that stores in advance the acceleration sensed and outputted by the acceleration sensor section 20 as a password, and a control section 13 that permits the use of the communication terminal 10 when the control section 13 collates the acceleration signal outputted from the acceleration sensor section 20 with the password signal stored in the storage section 14 and the collation indicates the coincidence of both the signals.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable telephone, PHS,
A portable communication terminal, such as a pager, is complex and expensive because it includes an acceleration detection unit that detects an acceleration signal generated by moving and vibrating the wireless device body and uses the acceleration signal as a password. The present invention relates to a portable communication terminal which realizes a more secure password function while simplifying a password input operation without requiring a structure or the like.

[0002]

2. Description of the Related Art In recent years, portable communication terminals provided with a wireless communication unit for performing wireless communication with the outside in a portable wireless device main body have become widespread. In recent years, in particular, from the viewpoint of further improving the convenience and merchantability of such a portable communication terminal, a multi-function type having various additional functions in addition to the wireless communication function inherent in the communication terminal has been developed. Mobile communication terminals have been proposed. Here, as one of the additional functions of the multifunctional mobile communication terminal, a password function for preventing unauthorized use of the communication terminal by a person other than an authorized user is known.

[0003] The password function of a conventionally proposed portable communication terminal is such that when a user inputs a password by operating a key or a switch of the radio unit, the entered password is replaced with a preset password. Collation and determination of whether or not they match are performed, and only when the two match, the communication terminal becomes usable.

FIG. 8 is a block diagram showing a configuration of a conventional portable communication terminal having a password function. As shown in FIG. 1, a conventional portable communication terminal having a password function includes a transmitting / receiving antenna 111, a radio unit 112, a control unit 113, a storage unit 114, a microphone 11
5, speaker 116, display unit 117 and key input unit 11
8 is provided.

[0005] The control unit 113 is a control means for controlling each unit of the wireless device. The control unit 113 transmits and receives radio signals to and from the outside through the radio unit 112 and the transmission / reception antenna 111, and controls the sound through the microphone 115 and the speaker 116. And a signal conversion process, a process of displaying predetermined data and information on the display unit 117, a process of inputting data from the key input unit 118, and the like. Then, under the control of the control unit 113, a password collation process based on a password preset in the storage unit 114 is performed.

[0006] In this password collation processing, when a password (personal identification number) composed of a predetermined combination of letters, numbers and symbols is input from key input section 118 by a user operation, control section 113 stores information in storage section 114. A password signal set and stored in advance is read out, and collation is performed to determine whether or not a combination of inputted numbers, characters, and the like matches the password stored in the storage unit 114.

[0007] When the password and the input signal match, it is determined that the password is used by a legitimate user, the use of the terminal is permitted, and the terminal can be used (call, data input / output, etc.). State controlled. On the other hand, if the password and the input signal do not match, it is determined that the terminal is used illegally, and the terminal is kept in an unusable state.

As described above, in the conventional portable communication terminal having the password function having the password function, the user operates the key input unit 118 to input a predetermined password, thereby obtaining the password stored in advance. Are compared with each other, and whether or not the communication terminal is used by a legitimate user is determined and confirmed, thereby determining whether or not the communication terminal can be used. As a result, unauthorized use of the communication terminal by a third party who does not originally know the password, other than the authorized user, is prevented.

[0009]

However, in a conventional portable communication terminal having a password function, it is determined whether or not the user is a legitimate user only with a password consisting of a combination of numbers and characters entered by a key. Had certain limitations in safety. In other words, in a password consisting of a series of numbers and the like, the combination is limited to a certain range, and moreover, in general, the user often selects a combination based on a date of birth or a telephone number that is easy to memorize. There has been a problem that a password can be estimated and predicted by an unauthorized user.

[0010] In addition, if only a password consisting of a sequence of numbers or the like is used, the input operation to the key input unit becomes complicated, and it is difficult to immediately use the communication terminal due to the password input. For example, even if you want to use the communication terminal immediately with a minimum number of operations, such as in an emergency, it is necessary to operate the key input unit and enter the password. There is a problem that it takes time to start using the terminal.

Here, in order to solve the problem of the password function in the conventional portable communication terminal, for example, Japanese Patent Laid-Open Publication No. Hei 8-223281 discloses a "mobile phone" which uses a user's voiceprint as a password. Has been proposed. However, this mobile phone requires voice conversion means and storage means for inputting and holding the user's voice and voiceprint processing means for collating and determining voiceprints, in addition to ordinary wireless communication means. there were. For this reason, the entire mobile phone becomes larger, more complicated, and more expensive, and there is a possibility that it may not be possible to meet the recent demand for smaller, lighter, and less expensive portable terminals.

Heretofore, there has been proposed a technique in which a signal is input to a terminal device by a method other than a key input operation to perform a certain operation. For example, Japanese Patent Application Laid-Open No. 9-2612
Japanese Patent Application Laid-Open No. 99-99475 discloses a “mobile communication portable terminal device” that responds to an incoming call by swinging down the terminal device while holding it with a hand. A “mobile phone” for stopping a ring tone and a “mobile communication terminal device” in which mode (function) switching is performed by tilting the terminal device are disclosed in Japanese Patent Application Laid-Open No. H11-313367. ing.

[0013] However, these technologies simply apply a vibration or shock to the terminal device to simply perform a specific operation such as answering an incoming call or stopping a ringtone, and input a predetermined password. Also, it is not possible to store and change the input password, and it cannot solve the above-mentioned problems with the portable terminal having the password function.

The present invention has been proposed in order to solve the problems of the prior art, and detects an acceleration signal generated by moving and vibrating a wireless communication device, and detects the acceleration signal. A portable type that can realize a more secure password function while simplifying the password input operation without requiring a complicated and expensive structure by providing an acceleration detecting means that uses the password as a password. The purpose is to provide communication terminals.

According to a first aspect of the present invention, there is provided a portable communication terminal provided with an acceleration detecting means, comprising a portable radio main body having a wireless communication means for performing wireless communication with the outside. A portable communication terminal, comprising: an acceleration detecting means for detecting an acceleration applied to the radio main body and outputting a predetermined acceleration signal; and an acceleration signal detected and output by the acceleration detecting means. A storage unit that stores at least one acceleration signal in advance, and an acceleration signal output from the acceleration detection unit and an acceleration signal stored in the storage unit are collated. Control means for controlling a predetermined operation of the terminal,
Is provided.

More specifically, in the portable communication terminal provided with the acceleration detecting means according to the second aspect, the storage means comprises:
At least one of the acceleration signals detected and output by the acceleration detection means is stored in advance as a password signal, and the control means stores the acceleration signal output from the acceleration detection means and the storage signal in the storage means. The password signal is collated, and when the two signals match, use of the communication terminal is permitted.

According to the portable communication terminal having the acceleration detecting means of the present invention having the above-described structure, since the wireless communication apparatus is provided with the acceleration detecting means, the mobile communication apparatus is caused to move and vibrate. The acceleration signal can be detected, and the acceleration signal can be stored and controlled to be used as a password.

Thus, the password can be input simply by moving and vibrating the wireless communication device in a predetermined manner, so that the password input operation can be simplified, and the password can be compared with a password consisting of only a combination of numerals and the like. A complicated and unpredictable password using acceleration can be set, and an extremely secure password function can be realized. In addition, since the acceleration detecting means can be realized only with a simple configuration such as a piezoelectric element, a complicated and expensive structure and device as in the conventional terminal are not required, and the communication terminal can be reduced in size and weight. It is possible to sufficiently respond to the demand for lower prices.

According to a third aspect of the present invention, in the portable communication terminal including the acceleration detecting means, the storage means stores two or more different acceleration signals as one password signal, and the control means controls the acceleration Two or more different acceleration signals output from the detecting means are compared with the password signal stored in the storage means, and when both signals match, use of the communication terminal is permitted.

In the portable communication terminal provided with the acceleration detecting means according to the fourth aspect, the storage means stores the acceleration signal and another input signal as one password signal, and the control means controls the control means. The acceleration signal and other input signals output from the acceleration detection means are compared with the password signal stored in the storage means, and when the two signals match, use of the communication terminal is permitted.

In the portable communication terminal having the acceleration detecting means according to the fifth aspect, the acceleration detecting signal stored in the storage means can be arbitrarily set and changed.

According to the portable communication terminal having the acceleration detecting means of the present invention having such a configuration, a password is set and used by a combination of two or more different acceleration signals or a combination of an acceleration signal and a key input signal. Can be
Further, a complicated and highly secure password function can be realized. In addition, the password can be set and changed arbitrarily by the control of the control unit, and the user can set and change the password at any time by using an arbitrary acceleration signal or a key input signal, thereby providing more security. , A highly convenient password function can be provided.

Further, in the portable communication terminal provided with the acceleration detecting means according to the sixth aspect, the radio unit has an acceleration detecting mode switching means for turning on / off the acceleration detecting means.

According to the portable communication terminal having the acceleration detecting means of the present invention having the above-described structure, the acceleration detecting mode switching means for arbitrarily turning on / off the acceleration detecting means is provided. For example, the acceleration detection means can be turned on only when it is necessary to detect and input an acceleration signal, and otherwise, the acceleration signal can be prevented from being detected. As a result, the acceleration detecting means does not detect unnecessary acceleration signals at all, and the provision of the acceleration detecting means according to the present invention can reliably prevent the occurrence of a malfunction, thereby improving the convenience and reliability. A highly reliable portable communication terminal can be provided.

[0025]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A preferred embodiment of a portable communication terminal having an acceleration detecting means according to the present invention will be described below with reference to the drawings. [First Embodiment] First, a first embodiment of a portable communication terminal provided with the acceleration detecting means of the present invention will be described with reference to FIGS. FIG. 1 is a block diagram illustrating a configuration of a portable communication terminal including an acceleration detection unit according to the first embodiment of the present invention. FIG. 2 is a perspective view illustrating an appearance of a portable communication terminal including the acceleration detection unit according to the embodiment. FIG. 3 is a flowchart illustrating a password setting operation in the portable communication terminal including the acceleration detection unit according to the present embodiment. FIG. 4 is a flowchart illustrating a password collation operation in the portable communication terminal including the acceleration detection unit according to the present embodiment.

As shown in FIG. 1, the portable communication terminal provided with the acceleration detecting means according to the present embodiment comprises a portable radio unit having a wireless communication means for performing wireless communication with the outside. It is a portable communication terminal used as a portable communication means such as a telephone, a PHS, and a pager. Specifically, the portable communication terminal includes a transmitting / receiving antenna 11, a radio unit 12, a control unit 13, a storage unit 14, a microphone 15, a speaker 16, a display unit 17, a key input unit 18, and an acceleration sensor A section 20 is provided.

The transmission / reception antenna 11 is connected to the radio section 12, and as shown in FIG.
The transmission and reception processing of the wireless signal is performed through the wireless unit 12. The control unit 13 is a control unit that controls each unit of the portable communication terminal 10 according to the present embodiment, and includes necessary components such as a storage unit and an audio signal processing unit (not shown). In the present embodiment, the control unit 13 performs a password setting process and a collation process using an acceleration signal described later.

The storage section 14 is a storage section for storing predetermined data, information, and programs required for the portable communication terminal 10. Data and information are written and read under the control of the control section 13. ing. In this embodiment, as described later, a predetermined acceleration signal input from the acceleration sensor unit 20 is stored in the storage unit 14 as a password.

The microphone 15 and the speaker 16 are connected to the control unit 1
3, the audio signal received via the antenna 2, the radio unit 12, and the control unit 13 is D / A converted,
The sound is output from the speaker 16 as sound. The audio input from the microphone 15 is A / D converted, and
3, transmitted to the other party via the radio unit 12 and the antenna 2.

The display unit (display) 17 is composed of display means such as a liquid crystal display screen (LCD), and displays necessary information such as telephone numbers and destination information in characters, symbols, figures, and the like. . Therefore, the user operates the display unit 17.
Required information can be obtained by confirming the display contents of.
Can be performed without error in accordance with the display contents of.
Predetermined information is also displayed on the display unit 17 for a password setting operation and a collation processing result described later.

The key input unit 18 is composed of a plurality of key buttons indicating numbers, characters, symbols, and the like.
The operation and information of a desired radio function, such as inputting, calling and receiving operations of a destination telephone number, and writing various data such as telephone numbers and schedule information to the storage unit 14 by performing an input operation using You can make input. The key input unit 1 is also used for password input and setting operations described later.
8 can be operated as needed.

The acceleration sensor section 20 is an acceleration detecting means for detecting an acceleration generated by the movement or vibration of the wireless device main body and outputting a predetermined acceleration signal. In the present embodiment, the acceleration sensor section 20 outputs a password signal. Is generated and input. As shown in FIG. 2, the acceleration sensor unit 20 vibrates and moves in a predetermined direction (the direction of the arrow shown in FIG. 2) while the user holds the wireless device body with his / her hand. Detects the acceleration of the wireless device main body and outputs a predetermined acceleration signal.

The acceleration signal detected and generated by the acceleration sensor unit 20 is output to the control unit 13,
As will be described later, under the control of the control unit 13, a password setting process and a collation process are performed. That is, during the password setting process, the desired acceleration signal is stored in the storage unit 1.
4 and set as a password,
During the password collation processing, the password stored and set in the storage unit 14 is collated with the acceleration signal output from the acceleration sensor unit 20.

Here, the acceleration sensor section 20 is configured using a piezoelectric element in the present embodiment. The acceleration sensor unit 20 composed of a piezoelectric element, for example, is provided with a piezoelectric element along the X-axis direction. When the wireless device body moves and vibrates in the X-axis direction, the piezoelectric element detects the acceleration. , And a predetermined acceleration signal waveform. Note that the acceleration sensor unit 20 may include an amplifier for amplifying the acceleration signal waveform and a filter for controlling the waveform, if necessary. The acceleration sensor section 20 may detect acceleration accompanying movement and vibration of the wireless device main body and generate and output an acceleration signal, in addition to the piezoelectric element according to the present embodiment, for example, a bearing sensor, a gyro. It is also possible to use well-known sensor means such as a sensor.

The password set and input by using the acceleration sensor unit 20 can be set and used by a combination of two or more different acceleration signals or a combination of an acceleration signal and a key input signal. . That is, two or more different acceleration signals detected by the acceleration sensor unit 20 are set as one password in the storage unit 14 (for example, a password that slowly moves in the left-right direction and then vibrates quickly in the vertical direction) or an acceleration sensor. Part 2
Along with the acceleration signal from 0, input signals such as numbers, characters, and symbols input from the key input unit 18 are set as one password in the storage unit 14 (for example, after vibrating right and left quickly, four numbers are input). Password). As described above, by setting and using a password by a combination of two or more different acceleration signals or a combination of an acceleration signal and a key input signal, a more complicated and highly secure password function can be realized.

Here, as the acceleration sensor unit 20 for generating and outputting two or more different acceleration signals, for example,
Piezoelectric element is moved in two directions (three directions) of X axis, Y axis (and Z axis)
Can be configured by disposing along. Thereby, when the wireless device body is moved and vibrated in each of the X-axis and Y-axis (and Z-axis), different accelerations are detected by the respective piezoelectric elements, and two or more different acceleration signal waveforms are output. It becomes possible.

As described later, the user operates the key input unit 18 of the wireless device main body to apply acceleration to the wireless device main body at any time, as described later. An arbitrary password can be generated, input, and set. That is, the password setting operation can be performed at any time according to the user's judgment.
Any password can be set and changed. In this way, the password can be set and changed arbitrarily, so that the user can select and adopt an arbitrary acceleration signal or key input signal, and can set and change the password at any time, which is more secure and convenient. It is possible to realize a highly reliable password function.

Next, in the portable communication terminal having the acceleration detecting means of the present embodiment having the above configuration,
A password setting operation method will be described with reference to FIG. First, when setting a password, the power of the wireless device is turned on (S301), and the key input unit 18 is operated to set a predetermined password input mode (S302). In this state, a password can be input. In this state, if the wireless communication device is moved and vibrated in a predetermined direction at an arbitrary speed or mode (for example, after slowly moving left and right, then vibrating rapidly in the vertical direction), the acceleration sensor unit 20 detects acceleration. Then, a predetermined acceleration signal is generated (S303).

The generated acceleration signal is output to the control unit 13, and when the acceleration signal is set and registered as a password (S304), the acceleration signal is stored in the storage unit 14 by a predetermined key operation or the like. (S305).
In addition, it is also possible to set an input signal such as a number or a character input from the key input unit 18 as a password together with the acceleration signal from the acceleration sensor unit 20 (for example, after vibrating right and left quickly, four numbers are displayed). In this case, numbers and characters are key-input together with generation and input of an acceleration signal (S303), and stored in the storage unit 14 (S305).

As a result, the password is stored and set in the storage unit 14 (S305). After that, if the password has not been changed (S306), the password setting operation is completed, and the power of the wireless device is turned off. The operation ends. If there is a change in the password (S306), S
By repeating the operations from 303 to S305, the already stored password can be changed to another arbitrary password. Thus, the password setting process is completed.

Next, a description will be given, with reference to FIG. 4, of a password collating operation in the portable communication terminal of the present embodiment in which a password has been set as described above. First, when the power of the wireless device is turned on (S401), the control unit 1
3 is entered into the password collation mode (S40).
2) The system enters a password input standby state. In this state,
When the radio unit is moved and vibrated, the acceleration sensor unit 2
0 detects the acceleration and a predetermined acceleration signal is generated (S
403), the generated acceleration signal is output to the control unit 13. When the input signal from the key input unit 18 is set as a password together with the acceleration signal, numbers and characters are key-input along with the generation and input of the acceleration signal and output to the control unit 13 (S403). .

When the acceleration signal (and the key input signal) is input, the control unit 13 reads out the password signal set and stored in the storage unit 14 in advance, and reads the input acceleration signal (and the key input signal). A check is performed to determine whether the password signal read from the storage unit 14 matches the password signal (S
404). If the passwords match (S
405), the control unit 13 regards the use as a legitimate user, permits the use of the terminal, and controls the terminal so that it can be used (call, input / output of data, etc.) (S406).
Therefore, after that, the user can freely use the portable communication terminal 10 (S406), and the operation ends with the power supply 0FF.

On the other hand, if the passwords do not match (S405), the control section 13 determines that the terminal is used improperly and performs control to maintain the terminal in an unusable state (S40).
8). Therefore, a person who inputs an acceleration signal (and a key input signal) that does not match the password is input to the portable communication terminal 10.
Cannot be used (S408), and the operation ends when the power is turned off.

As described above, according to the portable communication terminal provided with the acceleration detecting means according to the present embodiment, the main body of the wireless device is provided with the acceleration sensor section 20 so that the main body of the wireless device can be moved and vibrated. Can be detected, and the acceleration signal can be used as a password by storing and controlling the acceleration signal.

Thus, the password can be input only by moving and vibrating the wireless communication device in a predetermined manner, and the password input operation can be simplified. A complicated and unpredictable password using acceleration can be set, and an extremely secure password function can be realized. Moreover, the acceleration sensor unit 20
Since it can be realized only with a simple configuration such as a piezoelectric element, there is no need for complicated and expensive structures and devices, etc., which are conventionally provided in terminals. Can be adequately dealt with.

[Second Embodiment] Next, a second embodiment of a portable communication terminal equipped with the acceleration detecting means of the present invention will be described with reference to FIGS. FIG. 5 is a block diagram illustrating a configuration of a portable communication terminal including an acceleration detection unit according to the second embodiment of the present invention. FIG. 6 is a flowchart illustrating a password setting operation in the portable communication terminal including the acceleration detection unit according to the present embodiment. FIG. 7 is a flowchart illustrating a password collation operation in the portable communication terminal including the acceleration detection unit according to the present embodiment.

As shown in these figures, the portable communication terminal provided with the acceleration detecting means according to the present embodiment is a modified embodiment of the above-described first embodiment, and is a modification of the portable communication terminal shown in the first embodiment. An acceleration detection mode switching unit (acceleration detection mode switch 21) that can arbitrarily turn on / off the acceleration detection unit (acceleration sensor unit 20) is added to the terminal. Therefore, other components are the same as those of the first embodiment, and the same components are denoted by the same reference numerals in the drawings as those of the first embodiment, and detailed description is omitted.

That is, the portable communication terminal 1 of the present embodiment
Reference numeral 0 denotes an acceleration detection mode switch 21 for arbitrarily turning on / off the acceleration sensor unit 20 in the wireless communication device main body. Specifically, as shown in FIG. 5, one of a plurality of keys provided in a key input unit 18 in the wireless communication device is assigned as an acceleration detection mode switch 21. When the acceleration detection mode switch 21 is pressed, the acceleration sensor unit 20 is turned on / off.

That is, the acceleration detection mode switch 21
Is pressed and the acceleration sensor unit 20 is turned on, the movement and vibration of the wireless device main body can be detected. When an acceleration signal is detected and generated, the acceleration signal is transmitted to the control unit 13.
Will be output to On the other hand, when the acceleration sensor mode switch 21 is pressed and the acceleration sensor unit 20 is turned off, no acceleration is detected and no acceleration signal is generated no matter how the wireless device body is moved or vibrated.
In the present embodiment, any one of the keys of the key input unit 18 is assigned to the acceleration detection mode switch 21.
It can also be configured by providing a sensor or the like.

Next, a password setting operation method in the portable communication terminal of the present embodiment having the above-described acceleration detection mode switch 21 will be described with reference to FIG. First, when setting a password,
The power of the wireless device is turned on (S401), and the key input unit 18 is operated to enter the password input mode (S40).
2). Next, the acceleration sensor mode switch 21 is operated to turn on the acceleration sensor unit 20 (acceleration detection mode) (S603). In this state, when the wireless device body is moved and vibrated, the acceleration sensor unit 20 detects the acceleration, generates a predetermined acceleration signal (S303), and outputs the acceleration signal to the control unit 13. If the acceleration detection mode (ON of the acceleration sensor unit 20) is not selected in step 603, the password cannot be set using the acceleration signal.

When the acceleration signal input to the control unit 13 is set as a password (S605), the acceleration signal is registered in the storage unit 14 by a predetermined key operation or the like (S606). Here, as in the case of the first embodiment,
It goes without saying that, together with the acceleration signal from the acceleration sensor unit 20, input signals such as numbers and characters input from the key input unit 18 can be set as a password.

When a password is set in the storage unit 14,
If there is no change in the password thereafter (S607),
By operating the acceleration detection mode switch 21, the acceleration sensor unit 20 is turned off (S608) so that no acceleration is detected. Thereafter, the power of the wireless device is turned off, and the operation ends. At this time, it is also possible to operate the acceleration detection mode switch 21 to turn on the acceleration sensor unit 20 (S608). If the password is changed (S607), the operations of S604 to S606 are repeated. Allows the password to be changed. Thus, the password setting process is completed.

Next, a password collating operation in the portable communication terminal of the present embodiment in which a password is set as described above will be described with reference to FIG. First, when the power of the wireless device is turned on (S701), the control unit 1
3 is set to the password verification mode (S70).
2) The system enters a password input standby state. Next, the acceleration sensor 2 is operated by operating the acceleration detection mode switch 21.
0 is turned on (acceleration detection mode) (S703). In this state, when the main body of the wireless device is moved and vibrated, the acceleration is detected by the acceleration sensor unit 20, a predetermined acceleration signal is generated (S704), and the signal is output to the control unit 13.

On the other hand, if the acceleration detection mode (the acceleration sensor unit 20 is turned on) is not selected in step 703, the password cannot be input using the acceleration signal.
Therefore, in this state, the acceleration sensor unit 20 is in an off state to be in a standby state for incoming calls, no matter how the radio device is moved or vibrated, no acceleration is detected, and no acceleration signal is generated. .

When the main body of the wireless device is moved and vibrated while the acceleration sensor unit 20 is turned on, the acceleration sensor unit 20 detects the acceleration, generates a predetermined acceleration signal, and outputs it to the control unit 13. (S704), a password collation process is performed. The control unit 13 reads a password signal set in advance in the storage unit 14 and checks whether or not the password signal matches the input acceleration signal (S705). If the result of the comparison is that the passwords match (S706),
The control unit 13 controls the terminal so that it can be used (S70).
7) If the passwords do not match (S706),
The control unit 13 maintains the terminal in an unusable state (S
710).

Thereafter, the acceleration detection mode switch 21
Is operated to turn off the acceleration sensor section 20 (S708), so that no acceleration is detected and no acceleration signal is generated no matter how the wireless communication device is moved or vibrated. At this time, the acceleration detection mode switch 21 is operated to operate the acceleration sensor unit 20.
Can be turned on (S708). Thereafter, the power of the wireless device is turned off, and the operation ends.

As described above, according to the portable communication terminal provided with the acceleration detecting means according to the present embodiment, the provision of the acceleration detection mode switch 21 for arbitrarily turning on / off the acceleration sensor section 20 enables the password to be obtained. The acceleration sensor unit 20 can be turned on only when it is necessary to detect and input an acceleration signal such as an input, and can be turned off otherwise. Thereby, the acceleration sensor unit 2
0 can reliably prevent detection of an unnecessary acceleration signal in a call waiting state or the like, and the provision of the acceleration sensor unit 20 does not cause any malfunction, thereby improving convenience and reliability. It is possible to realize a highly reliable portable communication terminal.

It should be noted that the portable communication terminal provided with the acceleration detecting means of the present invention is not limited to the above-described embodiment, and that various modifications can be made within the scope of the present invention. Needless to say. For example, in the above-described embodiment, the acceleration signal detected and generated by the acceleration detecting means is used only as the password signal. However, it is needless to say that the acceleration signal can be used as a control signal and a drive signal other than the password.

That is, a predetermined acceleration signal may be stored in the storage unit, and the signal may be used as, for example, a call signal, an incoming call response signal, a function switching signal, etc. of the communication terminal. As a result, the terminal can perform a calling operation and a response operation simply by moving and vibrating the wireless device body in a predetermined manner. In particular, in the present invention, since the acceleration signal can be stored and set in the storage unit, different operations can be performed by moving and vibrating the wireless device body in different modes by storing and setting a plurality of acceleration signals. Can be performed, and a more versatile and highly convenient portable communication terminal can be provided.

[0060]

As described above, according to the portable communication terminal provided with the acceleration detecting means of the present invention, the acceleration signal generated by moving and vibrating the radio body is detected and the acceleration signal is detected. By providing the acceleration detecting means using the password as a password, a password function with higher security can be realized while simplifying the password input operation without requiring a complicated and expensive structure.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a configuration of a portable communication terminal including an acceleration detection unit according to a first embodiment of the present invention.

FIG. 2 is a perspective view illustrating an appearance of a portable communication terminal including an acceleration detection unit according to the first embodiment of the present invention.

FIG. 3 is a flowchart illustrating a password setting operation in the portable communication terminal including the acceleration detection unit according to the first embodiment of the present invention.

FIG. 4 is a flowchart illustrating a password collation operation in the portable communication terminal including the acceleration detection unit according to the first embodiment of the present invention.

FIG. 5 is a block diagram illustrating a configuration of a portable communication terminal including an acceleration detection unit according to a second embodiment of the present invention.

FIG. 6 is a flowchart illustrating a password setting operation in a portable communication terminal including an acceleration detecting unit according to the second embodiment of the present invention.

FIG. 7 is a flowchart illustrating a password collating operation in a portable communication terminal including an acceleration detecting unit according to the second embodiment of the present invention.

FIG. 8 is a block diagram showing a configuration of a conventional portable communication terminal having a password function.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Radio | wireless main body 11 Transmission / reception antenna 12 Radio | wireless part 13 Control part 14 Storage part 15 Microphone 16 Speaker 17 Display part 18 Key input part 20 Acceleration sensor part 21 Acceleration detection mode switch

Claims (6)

[Claims] 1. A portable communication terminal comprising a portable wireless device main body and a wireless communication means for performing wireless communication with the outside, wherein the wireless device main body detects acceleration applied to the wireless device main body. Acceleration detection means for outputting a predetermined acceleration signal; storage means for storing at least one acceleration signal among acceleration signals detected and output by the acceleration detection means; and acceleration output from the acceleration detection means Control means for comparing a signal with an acceleration signal stored in the storage means, and when both signals match, control means for controlling a predetermined operation of the communication terminal. Portable communication terminal. 2. The storage means stores in advance at least one acceleration signal among acceleration signals detected and output by the acceleration detection means as a password signal, and the control means outputs the acceleration signal from the acceleration detection means. 2. A portable communication terminal comprising acceleration detection means according to claim 1, wherein said acceleration signal is compared with a password signal stored in said storage means, and when both signals match, use of said communication terminal is permitted. 3. The storage means stores two or more different acceleration signals as one password signal, and the control means stores two or more different acceleration signals output from the acceleration detection means and the storage means. 3. A portable communication terminal comprising acceleration detection means according to claim 2, wherein the stored password signal is collated, and when the two signals match, use of the communication terminal is permitted. 4. The storage means stores the acceleration signal and another input signal as one password signal, and the control means outputs an acceleration signal and another input signal output from the acceleration detection means. 4. A portable communication terminal comprising acceleration detecting means according to claim 2, wherein the password signal stored in said storage means is collated, and when the two signals match, use of the communication terminal is permitted. 5. The acceleration detection signal stored in the storage means can be arbitrarily set and changed.
A portable communication terminal comprising the acceleration detecting means according to the above. 6. The portable communication device according to claim 1, further comprising an acceleration detection mode switching means for turning on / off the acceleration detection means in the radio device main body. Terminal.