JP2017200148A - Information processing apparatus, mobile terminal, function execution method, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To realize an information processing apparatus in which a function not intended by a user is not likely to be executed.SOLUTION: A function execution control unit (10) includes a function execution determination unit (12) for determining to execute a preset function when, after an absolute value of an angular velocity of a first polarity of a Y axis acquired by an angular velocity information acquiring unit (11) exceeds a first threshold value, an absolute value of an angular velocity of a second polarity exceeds a second threshold value and absolute values of angular velocities of a first polarity and a second polarity of a Z axis are within a predetermined range of time and within a numerical value.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an information processing apparatus mounted on a mobile terminal such as a smartphone.

  With the spread of mobile terminals such as smartphones, demands for use in various scenes are increasing. For example, in use on a train or commuting train, operation with one hand is often desired. For example, Patent Document 1 discloses a predetermined operation for moving the terminal by tilting it back. Techniques for performing the specified functions are disclosed. In the technique disclosed in Patent Document 1, in the angular velocity sensor that detects the angular velocity generated in the housing, the negative angular velocity is detected after detecting the positive angular velocity, or the positive angular velocity is detected after detecting the negative angular velocity. In some cases, a preset function is executed.

JP 2012-230593 A (published on November 22, 2012)

  However, in the conventional technology as described above, for example, an operation for receiving a call, that is, a case where the display unit is moved in front of the user's face from a state where the housing is held in the hand, and the original state after the call ends. If the sensor that detects the angular velocity at which the housing rotates is detected after detecting a positive angular velocity, or detects a positive angular velocity after detecting a negative angular velocity It is determined that it corresponds, and a preset function is executed. That is, a function not intended by the user is executed.

  The present invention has been made in view of the above problems, and its purpose is to appropriately determine whether or not the operation of the housing is an operation for executing a preset function, and is not intended by the user. An object of the present invention is to realize an information processing apparatus that does not cause a function to be executed.

  In order to solve the above-described problem, an information processing apparatus according to one embodiment of the present invention obtains the angular velocity from an angular velocity sensor that detects angular velocities around the first axis and the second axis of the housing. The absolute value of the angular velocity of the first polarity around the first axis indicated by the angular velocity information acquired by the angular velocity information acquired by the angular velocity information acquisition unit and the angular velocity information acquired by the angular velocity information acquisition unit exceeds a preset first threshold value. Then, the absolute value of the angular velocity of the second polarity that is opposite to the first polarity indicated by the angular velocity information exceeds a preset second threshold value, and the second axis is indicated by the angular velocity information. A function execution determination unit that determines to execute a preset function if the absolute value of the angular velocity of the surrounding first polarity and the absolute value of the angular velocity of the second polarity are within a preset numerical range; With features To have.

  In order to solve the above problem, a function execution method according to an aspect of the present invention provides angular velocity information indicating the angular velocity from an angular velocity sensor that detects angular velocities at least around the first axis and around the second axis that occur in the housing. After the absolute value of the angular velocity of the first polarity around the first axis indicated by the angular velocity information acquired in the angular velocity information acquisition step and the angular velocity information acquired in the angular velocity information acquisition step exceeds a preset first threshold, the angular velocity The absolute value of the angular velocity of the second polarity, which is opposite to the first polarity indicated by the information, exceeds a preset second threshold value, and is different from the first axis indicated by the angular velocity information. If the absolute value of the angular velocity of the first polarity around the two axes and the absolute value of the angular velocity of the second polarity are within a preset numerical range within a preset time, it is determined to execute a preset function. It is characterized in that it comprises function execution determination step.

  Advantageous Effects of Invention According to one aspect of the present invention, it is possible to appropriately determine whether or not the body movement is an action for performing a preset function, and there is no possibility that a function not intended by the user is executed. Play.

It is a schematic block diagram of the portable apparatus which concerns on Embodiment 1 of this invention. It is a figure for demonstrating 3 axis | shafts (X, Y, Z axis | shaft) which detect the angular velocity in a portable device. It is a wave form diagram of the angular velocity around the Y-axis of the portable device shown in FIG. 3 is a flowchart showing a flow of twist detection processing in the mobile device shown in FIG. 1. It is a wave form chart of angular velocity at the time of twist detection. It is a figure which shows the image at the time of performing twist detection with a portable apparatus. It is a flowchart for the flow of the process of twist detection in the portable device according to the second embodiment of the present invention.

  Hereinafter, embodiments of the present invention will be described in detail.

  In one embodiment of the present invention, an example in which the information processing apparatus of the present invention is applied to a mobile device such as a smartphone having a call function as a mobile terminal will be described.

(Mobile device)
FIG. 1 is a schematic block diagram of a mobile device 101 according to the present embodiment. The mobile device 101 is a mobile terminal having a call function such as a smartphone, and includes a display unit 1, a gyro sensor (angular velocity sensor) 2, and a control unit 3. In the embodiment mobile phone, the call function of the mobile device 101 is not the essence of the invention, and a detailed description thereof will be omitted.

  The display unit 1 displays various information such as images such as telephone numbers and photographs, and is composed of an LCD (Liquid Crystal Display). The display unit 1 is not limited to the LCD, and may be another display panel such as an organic EL (Electroluminescence).

  The gyro sensor 2 is an angular velocity sensor that detects an angular velocity around the axis of the portable device (housing) 101 at predetermined time intervals. For example, as shown in FIG. 2A, the display surface of the display unit 1 of the portable device 101 is the front surface, the horizontal axis is the X axis, the vertical axis is the Y axis, and the direction perpendicular to the display surface is When the axis is the Z axis, the gyro sensor 2 detects the angular velocity around the X axis, the angular velocity around the Y axis, and the angular velocity around the Z axis in the portable device 101 as shown in FIG. It is. Then, the gyro sensor 2 converts the detected angular velocity around each axis into an electrical signal (angular velocity information) and sends it to the control unit 3.

  The control unit 3 includes a function execution control unit (information processing device) 10, a function execution unit 20, and a timer unit 30. The function execution control unit 10 acquires in advance an angular velocity information acquisition unit 11 that acquires an electrical signal (angular velocity information) from the gyro sensor 2, the angular velocity information acquired by the angular velocity information acquisition unit 11, and the time measured by the timer unit 30 in advance. A function execution determination unit 12 that determines whether to execute the set function is included. Details of the determination processing by the function execution determination unit 12 will be described later.

  The function execution unit 20 receives the result determined by the function execution determination unit 12 to execute the preset function and executes the preset function. In the present embodiment, a preset function will be described as a function for turning pages of an electronic book displayed on the display unit 1. Accordingly, the function execution unit 20 instructs the display unit 1 to execute page turning of the electronic book, which is a preset function. Here, the preset function is associated with, for example, a twist having the Y axis of the mobile device 101 as the central axis. This twist is an operation in which a user holding the mobile device 101 rotates the mobile device 101 in one direction around the Y axis and then rotates it in the opposite direction.

  Thus, by twisting the mobile device 101, the page of the electronic book displayed on the display unit 1 of the mobile device 101 is turned. When the twist of the mobile device 101 starts clockwise, the page of the electronic book is turned right, and when the twist starts counterclockwise, the page turning function is set so that the page of the electronic book is turned left. Is preferred. Thereby, the operation | movement which turns the page of an electronic book can be performed intuitively. Hereinafter, detection of twist associated with the portable device 101 in order to execute a preset function will be described.

(Determination of twist)
FIG. 5 shows a waveform diagram of the angular velocity detected by the gyro sensor 2 when the mobile device 101 performs twisting. FIG. 6 is a diagram illustrating an image in which the mobile device 101 is twisted around the Y axis. Here, in this embodiment, the polarity of the angular velocity obtained by rotating the mobile device 101 clockwise around the Y axis is positive (first polarity), and the polarity of the angular velocity obtained by rotating counterclockwise is the negative polarity. (Second polarity). The polarity setting may be the reverse of the above setting. That is, the polarity of the angular velocity obtained by rotating the mobile device 101 counterclockwise around the Y axis is positive (first polarity), and the polarity of the angular velocity obtained by rotating clockwise is negative (second polarity). It is good.

  The twist of the portable device 101 is determined by the function execution determination unit 12 described above. That is, when the twist of the mobile device 101 starts clockwise, as shown in FIG. 5A, the absolute value of the angular velocity of the first polarity indicated by the angular velocity information acquired by the angular velocity information acquisition unit 11 is set in advance. After the upper waveform detection threshold value S1a, which is the first threshold value, is exceeded, the absolute value of the angular velocity of the second polarity opposite to the first polarity indicated by the angular velocity information is the second threshold value set in advance. If the waveform detection threshold value S1b is exceeded, it is determined that the mobile device 101 has been twisted.

  On the other hand, when the twist of the mobile device 101 starts counterclockwise, as shown in FIG. 5B, the absolute value of the angular velocity of the second polarity indicated by the angular velocity information acquired by the angular velocity information acquisition unit 11 is set in advance. After the lower waveform detection threshold value S1b, which is the second threshold value, is exceeded, the absolute value of the angular velocity of the first polarity opposite to the second polarity indicated by the angular velocity information is the first threshold value set in advance. If the waveform detection threshold S1a is exceeded, it is determined that the mobile device 101 has been twisted.

  Here, it is preferable that the above condition is satisfied within a preset time (twist determination time t1) regardless of whether the twist of the mobile device 101 starts clockwise or starts counterclockwise. That is, after the absolute value of the angular velocity of the first polarity (positive or negative polarity) exceeds a preset first threshold (upper waveform detection threshold S1a or lower waveform detection threshold S1b), the angular velocity of the second polarity The time (waveform detection time t) required for the absolute value of the signal to exceed the preset second threshold (lower waveform detection threshold S1b or upper waveform detection threshold S1a) is within a preset time (twist determination time t1). If there is, it is determined that the mobile device 101 has been twisted.

  By the way, depending on the operation of the mobile device 101, a function that is determined as a twist and is not intended by the user may be executed. For example, when the user turns the portable device 101 back so that the display screen of the display unit 1 of the portable device 101 can be seen, the gyro sensor 2 detects the angular velocity around the Y axis, and FIG. The waveforms as shown in (a) and (b) are obtained and determined as a twist, and there is a possibility that a function not intended by the user is executed.

(Response operation judgment)
In the present embodiment, in order to distinguish between the twist of the mobile device 101 for executing a preset function (hereinafter referred to as the original twist) and the twist of the mobile device 101 when making a telephone response, the original twist is used. Whether or not the absolute value of the angular velocity around the Z axis (see FIG. 2) different from the Y axis of the portable device 101 for detection exceeds a preset numerical range within the twist determination time t1 (within a preset time) Determine. Here, if the absolute value of the angular velocity around the Z axis exceeds the preset numerical range within the twist determination time t1, it is determined that the twist is for performing a response operation of the portable device 101. Conversely, if the absolute value of the angular velocity around the Z axis does not exceed the preset numerical range within the twist determination time t1, it is not the twist for performing the response operation of the mobile device 101 but the original twist. judge.

  3A is a waveform diagram of the angular velocity around the Y axis of the mobile device 101 when it is determined that the operation of the mobile device 101 is the original twist, and FIG. 3B is a mobile device. FIG. 10 is a waveform diagram of angular velocities around the Z axis of the mobile device 101 when it is determined that the operation of 101 is the original twist. FIG. 3C is a waveform diagram of the angular velocity around the Z axis of the portable device 101 when it is determined that the operation of the portable device 101 is a twist for performing a response operation.

  Specifically, as shown in FIG. 3A, during the twist determination time t <b> 1 in which the twist determination is performed from the angular velocity around the Y axis of the mobile device 101, as shown in FIG. If the absolute value of the angular velocity of the first polarity around the Z axis of the device 101 and the absolute value of the angular velocity of the second polarity are within the preset numerical range of the upper waveform detection threshold S2a and the lower waveform detection threshold S2b, the response operation is performed. As shown in FIG. 3C, the absolute value of the angular velocity of the first polarity and the absolute value of the angular velocity of the second polarity around the Z axis of the portable device 101 are set in advance as shown in FIG. If the numerical range between the waveform detection threshold value S2a and the lower waveform detection threshold value S2b is exceeded, it is determined that the twist is for performing a response operation. Even if both the absolute value of the angular velocity of the first polarity and the absolute value of the angular velocity of the second polarity around the Z-axis of the portable device 101 do not exceed the above numerical range, the absolute value of the angular velocity of at least one polarity will exceed. It may be determined that the response operation is a twist. Here, the preset numerical range is a numerical range for determining whether or not a response operation which is a function other than the preset function (electronic book page turning function) has been executed.

  The upper waveform detection threshold S2a and the lower waveform detection threshold S2b used for determining that the response operation is a twist are the upper waveform detection threshold S1a and the lower waveform detection threshold S1b used for determining the twist. The same value or different values may be used as long as the value can be appropriately determined as the original twist for performing the response operation.

(Twist detection process)
The flow of the twist operation detection process of the mobile device 101 will be described below with reference to the flowchart shown in FIG. The twist of the portable device 101 detected in this process is a twist (original twist) for executing a preset function, that is, a function of turning a page of an electronic book. In the following description, the terminal indicates the portable device 101, and the gyro indicates the gyro sensor 2.

  First, the angular velocity information acquisition unit 11 acquires angular velocity information at regular intervals from the gyro (Y axis) and (Z axis) of the terminal (step S11: angular velocity information acquisition step). Specifically, the angular velocity information acquisition unit 11 acquires angular velocity information indicating the angular velocity around the Y axis and the angular velocity around the Z axis of the portable device 101 from the gyro sensor 2 at predetermined time intervals.

  Next, the function execution determination unit 12 determines whether or not the value of the gyro (Y axis) satisfies the first waveform detection condition (step S12). Specifically, the function execution determination unit 12 satisfies the first waveform detection condition from the angular velocity value obtained from the angular velocity information acquired by the angular velocity information acquisition unit 11 and the waveform diagram showing the passage of time, that is, in FIG. It is determined whether the absolute value of the indicated angular velocity of the first polarity has exceeded the upper waveform detection threshold. If it is determined that the value of the gyro (Y axis) satisfies the first waveform detection condition (YES), the process proceeds to step S13.

  In step S13, the function execution determination unit 12 determines whether or not a predetermined time has elapsed. Specifically, the function execution determination unit 12 determines whether or not a certain time (twist determination time t1) has elapsed since the time (waveform detection time t) determined as YES in step S12 measured by the timer unit 30. judge. Here, if it is determined (YES) that the predetermined time (twist determination time t1) has elapsed, the process proceeds to step S12 again, and if it is determined (NO) that the predetermined time (twist determination time t1) has not elapsed, step S14. Migrate to

  In step S14, the function execution determination unit 12 determines whether or not the value of the gyro (Z axis) has exceeded the Z axis threshold value. That is, it is determined whether or not there is a movement for the response operation of the mobile device 101. Specifically, the function execution determination unit 12 has an angular velocity of the first polarity around the Z axis detected by the gyro sensor 2 during the twist judgment time t1 in which the twist judgment is performed from the angular velocity around the Y axis of the mobile device 101. And the absolute value of the angular velocity of the second polarity are determined whether or not the numerical value range (Z-axis threshold) between the upper waveform detection threshold S2a and the lower waveform detection threshold S2b set in advance is exceeded. Here, if it is determined (YES) that the absolute value of the angular velocity of the first polarity around the Z axis and the absolute value of the angular velocity of the second polarity exceed the numerical range, the process proceeds to step S12. On the other hand, if it is determined that the absolute value of the angular velocity of the first polarity around the Z axis and the absolute value of the angular velocity of the second polarity do not exceed the numerical range (NO), the process proceeds to step S15 (function execution determination step). .

  In step S15, the function execution determination unit 12 determines whether or not the gyro (Y axis) value satisfies the second waveform detection condition. Specifically, the function execution determination unit 12 determines that the second waveform detection condition is satisfied from the angular velocity value obtained from the angular velocity information acquired by the angular velocity information acquisition unit 11 and the waveform diagram showing the passage of time, that is, in FIG. It is determined whether or not the absolute value of the angular velocity of the second polarity shown exceeds the lower waveform detection threshold S1b. Here, if it is determined that the value of the gyro (Y axis) satisfies the second waveform detection condition, that is, the absolute value of the angular velocity of the second polarity has exceeded the lower waveform detection threshold S1b (YES), the process proceeds to step S16, Twist detection is complete. On the other hand, if it is determined in step S15 that the gyro (Y-axis) value does not satisfy the second waveform detection condition and the absolute value of the angular velocity of the second polarity does not exceed the lower waveform detection threshold value S1b (NO), again. The process proceeds to step S13.

  As described above, the function execution determination unit 12 has three conditions, that is, (1) the absolute value of the angular velocity of the first polarity of the first axis of the housing exceeds the first threshold, and (2) the first of the housing. The absolute value of the angular velocity of the first axis of the second polarity exceeds the second threshold, and (3) the absolute values of the first axis and the second polarity of the angular velocity of the second axis of the housing are within a preset numerical range. When a certain condition is satisfied, it is determined to execute a preset function (electronic book page turning function). In this manner, it is possible to appropriately determine whether or not the operation of the mobile device 101 is an operation (original twist) for executing a preset function.

  In addition to the above three conditions, the function execution determination unit 12 determines whether the absolute value of the angular velocity of the first polarity is the first threshold value (the upper waveform detection threshold value S1a or the lower waveform detection threshold value) in step S13. After exceeding S1b), the time (waveform detection time t) required until the absolute value of the angular velocity of the second polarity exceeds a preset second threshold (lower waveform detection threshold S1b or upper waveform detection threshold S1a) Since the condition for determining that the mobile device 101 has performed the original twist within the preset time (twist determination time t1) is added to the condition for executing the preset function, It is possible to more appropriately determine whether or not the operation is an operation for executing a preset function.

  In this way, it is possible to more appropriately determine whether the operation of the mobile device 101 is an operation for executing a preset function, that is, whether the operation is the original twist. There is no possibility that a function unintended by the user is executed by the operation for the response operation.

[Embodiment 2]
Another embodiment of the present invention will be described as follows. For convenience of explanation, members having the same functions as those described in the embodiment are given the same reference numerals, and descriptions thereof are omitted.

  In the first embodiment, an example of appropriately determining the twist of the mobile device 101 by adding a fourth condition (whether or not a fixed time has elapsed: S14 in FIG. 4) in the processing executed by the function execution determination unit 12 The above fourth condition may not be necessary. In the present embodiment, twist detection processing is performed when there is no fourth condition.

(Twist detection process)
FIG. 7 is a flowchart showing a flow of twist detection processing according to the present embodiment. This flowchart is basically the same as the flowchart shown in FIG. 4 of the first embodiment, but step S13 is omitted. That is, in the flowchart shown in FIG. 7, the process for determining whether or not the fourth condition is satisfied is omitted.

  After the fourth condition, step S13 in FIG. 4, that is, after the absolute value of the angular velocity of the first polarity exceeds the preset first threshold value (upper waveform detection threshold value S1a or lower waveform detection threshold value S1b). The time (waveform detection time t) required until the absolute value of the angular velocity of the second polarity exceeds the preset second threshold (lower waveform detection threshold S1b or upper waveform detection threshold S1a) is a preset time ( If it is within the twist determination time t1), it is determined whether or not the portable device 101 is a twist for performing a response operation even if the determination that the portable device 101 has performed the original twist is omitted. Is sufficient to determine whether the operation of the mobile device 101 is an operation (original twist) for executing a preset function.

[Embodiment 3: Implementation by software]
The control blocks (particularly the angular velocity information acquisition unit 11 and the function execution determination unit 12) of the function execution control unit 10 may be realized by a logic circuit (hardware) formed in an integrated circuit (IC chip) or the like, or a CPU It may be realized by software using (Central Processing Unit).

  In the latter case, the function execution control unit 10 includes a CPU that executes instructions of a program that is software that implements each function, and a ROM (Read Only Memory) in which the program and various data are recorded so as to be readable by a computer (or CPU). ) Or a storage device (these are referred to as “recording media”), a RAM (Random Access Memory) for expanding the program, and the like. And the objective of this invention is achieved when a computer (or CPU) reads the said program from the said recording medium and runs it. As the recording medium, a “non-temporary tangible medium” such as a tape, a disk, a card, a semiconductor memory, a programmable logic circuit, or the like can be used. The program may be supplied to the computer via an arbitrary transmission medium (such as a communication network or a broadcast wave) that can transmit the program. The present invention can also be realized in the form of a data signal embedded in a carrier wave in which the program is embodied by electronic transmission.

[Summary]
The information processing apparatus according to aspect 1 of the present invention provides an angular velocity about at least the first axis (Y axis) and the second axis (Z axis) of the casing (mobile device 101) that occurs in the casing (mobile device 101). An angular velocity information acquisition unit 11 that acquires angular velocity information indicating the angular velocity from an angular velocity sensor (gyro sensor 2) that detects the angular velocity, and the first axis (Y axis) indicated by the angular velocity information acquired by the angular velocity information acquisition unit 11 After the absolute value of the angular velocity of the first polarity exceeds a preset first threshold value (upper waveform detection threshold value S1a or lower waveform detection threshold value S1b), the polarity is opposite to the first polarity indicated by the angular velocity information. The absolute value of the angular velocity of a certain second polarity exceeds a preset second threshold (lower waveform detection threshold S1b or lower waveform detection threshold S1a), and is indicated by the angular velocity information, the second axis (Z axis) Around If the absolute value of the angular velocity of the first polarity and the absolute value of the angular velocity of the second polarity are within a preset time (twist determination time) and within a preset numerical range (S2a-S2b), a preset function And a function execution determination unit 12 that determines that is executed.

  According to the above configuration, the function execution determination unit sets in advance the absolute value of the angular velocity of the first polarity around the first axis (Y axis) of the casing indicated by the angular velocity information acquired by the velocity information acquisition unit. After exceeding the first threshold, the absolute value of the angular velocity of the second polarity, which is opposite to the first polarity indicated by the angular velocity information, exceeds the preset second threshold and is indicated by the angular velocity information. The absolute value of the angular velocity of the first polarity and the second polarity around the second axis (Z axis) different from the first axis of the housing is within a preset numerical range within a preset time. For example, it is determined that a preset function is executed. On the other hand, the function execution determination unit has a preset absolute value of the angular velocity of the first polarity around the first axis (Y-axis) of the housing indicated by the angular velocity information acquired by the velocity information acquisition unit. After exceeding one threshold, the absolute value of the angular velocity of the second polarity, which is opposite to the first polarity indicated by the angular velocity information, exceeds the preset second threshold and is indicated by the angular velocity information. If the absolute value of the angular velocity of the first polarity and the second polarity around the second axis (Z axis) different from the first axis of the casing exceeds the preset numerical range S, it is set in advance. It is determined that the function is not executed.

  Thereby, the function execution determination unit has three conditions, that is, (1) the absolute value of the angular velocity of the first polarity of the first axis of the casing exceeds the first threshold, and (2) the first axis of the casing. That the absolute value of the angular velocity of the second polarity exceeds the second threshold, and (3) that the absolute values of the angular velocity of the first polarity and the second polarity of the second axis of the housing are within a preset numerical range. If it is satisfied, it is determined that the preset function is to be executed, and therefore it is possible to appropriately determine whether the operation of the housing is an operation for executing the preset function.

  In the information processing device according to aspect 2 of the present invention, in the aspect 1, the function execution determination unit 12 is configured such that the absolute value of the angular velocity of the first polarity of the first axis (Y axis) is a preset first threshold value. After exceeding (upper waveform detection threshold S1a or lower waveform detection threshold S1b), the absolute value of the angular velocity of the second polarity exceeds a preset second threshold (lower waveform detection threshold S1b or upper waveform detection threshold S1a). If the time required until the time (waveform detection time t) is within a preset time (twist determination time t1), it may be determined that a preset function is executed.

  According to the above configuration, after the absolute value of the angular velocity of the first polarity exceeds the preset first threshold value, the function execution determining unit determines that the absolute value of the angular velocity of the second polarity is the preset second threshold value. Since the condition for whether or not the time required to exceed the time is within a preset time is added to the condition for executing the preset function, the operation of the casing is for executing the preset function. It is possible to more appropriately determine whether or not the operation.

  In the information processing apparatus according to aspect 3 of the present invention, in the above aspect 1 or 2, the preset numerical range t2 is a numerical range for determining whether or not a function other than the preset function is executed. Also good.

  According to the above configuration, the preset numerical range is a numeric range for determining whether or not a function other than the preset function has been executed. Even if the absolute value of the angular velocity of the first polarity around the axis exceeds the first threshold and the absolute value of the angular velocity of the second polarity exceeds the second threshold, the first around the second axis of the housing If the absolute value of the angular velocity of the polarity and the second polarity exceeds the numerical value range for determining whether or not a function other than the preset function has been executed, the preset function is not executed. As a function other than the preset function, for example, an operation in which the screen of the housing is directed toward the user in order to perform a response operation is assumed. Therefore, when the user performs an operation that turns the screen of the casing toward the user, a function that is set in advance does not operate, and thus a function that is not intended by the user is not executed.

  The portable terminal which concerns on aspect 4 of this invention is provided with the information processing apparatus as described in any one aspect of the said aspects 1-3, It is characterized by the above-mentioned. According to said structure, there exists an effect similar to the information processing apparatus as described in any one aspect of the said aspects 1-3.

  The function execution method according to aspect 5 of the present invention includes an angular velocity sensor that detects angular velocities around the first axis (Y axis) and the second axis (Z axis) of the casing (portable device 101). An angular velocity information acquisition step (step S11) for acquiring angular velocity information indicating the angular velocity from the (gyro sensor 2), and the first axis (Y axis) indicated by the angular velocity information acquired in the angular velocity information acquisition step (step S11). After the absolute value of the angular velocity of the surrounding first polarity exceeds a preset first threshold (upper waveform detection threshold S1a or lower waveform detection threshold S1b), the polarity is opposite to the first polarity indicated by the angular velocity information. The absolute value of the angular velocity of the second polarity that exceeds the second threshold value (the lower waveform detection threshold value S1b or the upper waveform detection threshold value S1a) that is set in advance and is indicated by the angular velocity information. If the absolute value of the angular velocity of the first polarity around the second axis and the absolute value of the angular velocity of the second polarity are within a preset time and within a preset numerical range, the preset function is executed. Then, a function execution determination step (steps S12 to S15) to be determined is included. According to said structure, there exists an effect similar to the information processing apparatus of the said aspect 1.

  The information processing apparatus according to each aspect of the present invention may be realized by a computer. In this case, the information processing apparatus is operated on each computer by causing the computer to operate as each unit (software element) included in the information processing apparatus. A function execution control program to be realized in this way and a computer-readable recording medium on which the function execution control program is recorded also fall within the scope of the present invention.

[Additional Notes]
The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope shown in the claims, and embodiments obtained by appropriately combining technical means disclosed in different embodiments. Is also included in the technical scope of the present invention. Furthermore, a new technical feature can be formed by combining the technical means disclosed in each embodiment.

DESCRIPTION OF SYMBOLS 1 Display part, 2 Gyro sensor (angular velocity sensor), 3 Control part, 10 Function execution control part (information processing apparatus), 11 Angular speed information acquisition part, 12 Function execution determination part, 20 Function execution part, 30 Timer part, 101 Mobile Device (housing), S numerical range, S1a upper waveform detection threshold, S1b lower waveform detection threshold, S2 numerical range, S2a upper waveform detection threshold, S2b lower waveform detection threshold, t1 twist determination time, t2 numerical range

Claims (6)

An angular velocity information acquisition unit that acquires angular velocity information indicating the angular velocity from an angular velocity sensor that detects angular velocities around at least the first axis and the second axis of the casing generated in the casing;
After the absolute value of the angular velocity of the first polarity around the first axis indicated by the angular velocity information acquired by the angular velocity information acquisition unit exceeds a preset first threshold, the first polarity indicated by the angular velocity information The absolute value of the angular velocity of the second polarity, which is the opposite polarity, exceeds the preset second threshold value and is indicated by the angular velocity information, and the absolute value of the angular velocity of the first polarity around the second axis and the first value A function execution determination unit that determines to execute a preset function if the absolute value of the angular velocity of two polarities is within a preset time and within a preset numerical range;
An information processing apparatus comprising: The function execution determination unit
After the absolute value of the angular velocity of the first polarity around the first axis (Y axis) of the casing exceeds the preset first threshold, the absolute value of the angular velocity of the second polarity is set to the preset second value. The information processing apparatus according to claim 1, wherein if the time required to exceed the threshold is within a preset time, it is determined to execute a preset function.   The information processing apparatus according to claim 1, wherein the preset numerical range is a numerical range for determining whether a function other than the preset function has been executed.   A portable terminal provided with the information processing apparatus according to claim 1. An angular velocity information acquisition step of acquiring angular velocity information indicating the angular velocity from an angular velocity sensor that detects angular velocities around at least the first axis and the second axis of the casing generated in the casing;
After the absolute value of the angular velocity of the first polarity around the first axis indicated by the angular velocity information acquired in the angular velocity information acquisition step exceeds a preset first threshold, the first polarity indicated by the angular velocity information The absolute value of the angular velocity of the second polarity, which is the opposite polarity, exceeds the preset second threshold value and is indicated by the angular velocity information, and the absolute value of the angular velocity of the first polarity around the second axis and the first value A function execution determination step for determining to execute a preset function if the absolute value of the angular velocity of the two polarities is within a preset time and within a preset numerical range;
Function execution method including   A function execution control program for causing a computer to function as the information processing apparatus according to claim 1, wherein the function execution control program causes the computer to function as the angular velocity information acquisition unit and the function execution determination unit.

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