JP6559226B2 - Information processing apparatus, control method, and control program - Google Patents

Description

  The present invention relates to an information processing apparatus, a control method, and a control program for controlling an apparatus that notifies a user of information using physical contact.

  The mobile phone (information processing apparatus) notifies the user that there is an incoming call by a notification method such as a ring tone, vibration, or blinking of an LED. However, when the user puts the mobile phone in his / her bag, these notification methods cannot make the user aware of the incoming call.

  Therefore, in recent years, a notification device has been developed for notifying the user that there is an incoming call to the mobile phone. In general, a notification device has a structure that can be easily and easily worn by a user (for example, a band type wound around a user's arm). Since the user usually wears a notification device, even if the user is not aware of the notification by the mobile phone, the user can notice that the mobile phone has received an incoming call by the notification by the notification device. An example of a notification device is described in Patent Document 1.

  The incoming call notification terminal (notification device) described in Patent Document 1 is configured to be able to wirelessly communicate with a mobile phone. The incoming call notification terminal includes a ringing unit, a vibrating unit, and a light emitting unit. When an incoming call is received by the mobile phone, the mobile phone notifies the incoming call notification terminal that the mobile phone has received an incoming call by wireless communication. The incoming call notification terminal that has received the notification from the mobile phone notifies the user that the mobile phone has received an incoming call using a predetermined notification method (for example, ringing of the ringing unit, vibration of the vibrating unit, light emission of the light emitting unit). .

Japanese Patent Document “Japanese Patent Laid-Open No. 2010-213137 (published on September 24, 2010)”

  Depending on the state of the user, the user may be difficult to notice the notification by the notification device. For example, when the notification method of the notification device is vibration and the user is exercising vigorously, the user may not notice the notification due to vibration.

  Therefore, it is conceivable that the information processing apparatus causes the notification apparatus to perform an auxiliary operation for assisting the notification so that the user can easily notice the notification. For example, when the notification method is vibration, the information processing apparatus causes the notification apparatus to closely contact the user and vibrates the notification apparatus. This makes it easier for the user to notice the notification due to the vibration of the notification device.

  However, even if the notification device performs an auxiliary operation, the user may not be able to notice the notification by the notification device depending on the notification method, the state of the user, and the like. For example, when the user does not wear the notification device, even if the notification device performs an assisting operation, the user cannot notice the vibration of the notification device. Therefore, when the user does not wear the notification device and the information processing device causes the notification device to perform an auxiliary operation, power is wasted.

  The present invention has been made in view of the above-described problems, and an object of the present invention is to make a notification device perform appropriate notification according to the state of the user and the content of information.

  In order to solve the above-described problem, an information processing apparatus according to an aspect of the present invention is an information processing apparatus that controls a notification apparatus, and the notification apparatus causes vibration to a user who wears the notification apparatus. The information processing apparatus includes an information acquisition unit that acquires information to be notified to the user, and the information acquisition unit includes the vibration unit that performs notification and an expansion unit that expands so as to press the body of the user. A first notification control unit that notifies the user using at least one of vibration of the vibration unit and expansion of the expansion unit according to at least one of the state of the user and the content of the information when the information is acquired; It is equipped with.

In order to solve the above problem, a control method according to an aspect of the present invention is a control method for an information processing device that controls a notification device, and
The notification device is a control method of an information processing device that controls the notification device, and the notification device compresses the user's body by a vibration unit that notifies the user wearing the notification device by vibration. The control method includes an information acquisition step of acquiring information to be notified to the user, and when the information is acquired in the information acquisition step, the user status and the information A notification control step of notifying a user using at least one of the vibration of the vibration part and the expansion of the expansion part according to at least one of the contents.

  According to one aspect of the present invention, it is possible to cause the notification device to perform appropriate notification according to the state of the user and the content of the information.

It is a block diagram which shows the structure of the information processing apparatus which concerns on Embodiment 1, and an incoming call alerting | reporting apparatus. (A) (b) is sectional drawing of the incoming call alerting device concerning Embodiment 1, and is a figure explaining operation | movement of the incoming call alerting device with which the user's arm (body) was mounted | worn. It is a figure explaining operation | movement of the information processing apparatus which concerns on Embodiment 1, and an incoming call alerting | reporting apparatus. 4 is a flowchart illustrating a flow of notification control processing executed by a control unit of the information processing apparatus according to the first embodiment. It is a block diagram which shows the structure of the information processing apparatus which concerns on Embodiment 2, and an incoming call alerting | reporting apparatus. 10 is a flowchart illustrating a flow of notification control processing executed by a control unit of the information processing apparatus according to the second embodiment.

Embodiment 1
Hereinafter, embodiments of the present invention will be described in detail. For convenience of explanation, members having the same functions as those shown in the embodiments are denoted by the same reference numerals, and description thereof is omitted as appropriate.

  An embodiment of the present invention will be described with reference to FIGS. In the following embodiments, the incoming call notification device 20 (notification device) will be described as a bracelet-type device (see FIG. 3) that can be worn on the user's arm (wrist). The incoming call notification device 20 may be any device that can be worn on the user's body, such as an anklet type that can be worn on the user's ankle, a headphone type, a headband type, or a ring type.

(Incoming call notification device 20; band-type device)
FIG. 2 is a cross-sectional view showing a state (see FIG. 3) in which the incoming call notification device 20 according to Embodiment 1 of the present invention is worn on the user's arm (body) AR. As shown in FIG. 2, the incoming call notification device 20 includes a band unit 21, a balloon (inflating unit) 3, a blower unit 25, a sensor unit 22, and a vibrating unit 23. The band unit 21 holds the incoming call notification device 20 on an arm AR that is a user's body. Inside the band portion 21 (on the side in contact with the arm AR of the user wearing the incoming call notification device 20), a balloon portion 24 (inflatable portion), a blower portion 25, a sensor portion 22 and a vibrating portion 23 are arranged.

  The balloon part 24 is a bag-like member that can be inflated and deflated. The balloon part 24 is inflated by injecting a fluid (for example, air) into the balloon part 24 and contracted by discharging the fluid from the balloon part 24. The blower part 25 injects fluid into the balloon part 24 or discharges fluid from the balloon part 24. For example, the blower unit 25 adjusts the amount of fluid in the balloon unit 24 according to the detection result by the sensor unit 22. The sensor unit 22 detects the degree of adhesion between the arm (body) AR of the user wearing the incoming call notification device 20 and the vibration unit 23. For example, the sensor unit 22 is a pressure value inside the balloon unit 24. It is a pressure sensor for detecting.

  The vibration unit 23 applies vibration to the user's arm AR. As shown in the figure, the vibration part 23 is arranged at a position opposite to the balloon part 24 with the arm AR interposed therebetween. The number of vibration parts 23 may be plural or one. When there are a plurality of vibration parts 23, the plurality of vibration parts 23 are arranged so as not to give vibration to each other.

  (A) of FIG. 2 is sectional drawing which shows the incoming call alerting device 20 before the balloon part 24 expand | swells. As shown in FIG. 2A, since the band portion 21 has a length that is wide with respect to the outer periphery of the arm AR, a gap is generated between the vibrating portion 23 and the arm AR. . For example, immediately after the user wears the incoming call notification device 20 on the arm AR, the incoming call notification device 20 is in the state shown in FIG.

  FIG. 2B is a cross-sectional view showing the incoming call notification device 20 after the balloon portion 24 is inflated. As shown in FIG. 2B, the balloon portion 24 is inflated from the state of the balloon portion 24 shown in FIG. For this reason, the vibration part 23 is in the state closely_contact | adhered with the arm AR. Therefore, when the vibration part 23 vibrates, the vibration of the vibration part 23 is reliably transmitted to the arm AR.

  The vibrating unit 23 vibrates when the vibrating unit 23 and the arm AR are in close contact with each other. Further, as shown in FIG. 2B, if the vibrating portion 23 and the arm AR are in close contact with each other, the balloon portion 24 is adjusted in the amount of fluid in the balloon portion 24 by the blower portion 25. As a result, it may expand or contract. For this reason, the incoming call notification device 20 is configured to allow the user to experience the vibration by the vibration unit 23 with the strength corresponding to the expansion of the balloon unit 24. For example, the timing of vibration by the vibration unit 23, the timing of expansion / contraction of the balloon unit 24, and the degree of expansion / contraction of the balloon unit 24 are linked to the music that the user wearing the incoming call notification device 20 is listening to. Determined.

(Operation as a premise of the present invention)
The operations of the information processing apparatus 10 and the incoming call notification apparatus 20 that are the premise of the present invention will be described with reference to FIG. FIG. 3 is a diagram for explaining operations of the information processing apparatus 10 and the incoming call notification apparatus 20 according to the present embodiment. The information processing apparatus 10 is a smartphone, for example. As described above, the incoming call notification device 20 is a bracelet type device that a user can wear on the body (for example, the arm AR). The information processing apparatus 10 and the incoming call notification apparatus 20 can perform wireless communication.

  When the information processing apparatus 10 receives an incoming call and the information processing apparatus 10 is in a pocket or a bag, the user is notified by the information processing apparatus 10 (for example, a ringing tone, blinking of an LED, etc.). You may not notice.

  Therefore, as shown in FIG. 3, when the information processing apparatus 10 receives an incoming call (such as an email or a phone call), the information processing apparatus 10 notifies the incoming call notification apparatus 20 that the incoming call has been received using a predetermined notification method. Instruct to inform. In the present embodiment, the incoming call notification device 20 notifies the information processing device 10 of an incoming call by vibration. Here, the information processing apparatus 10 may cause the incoming call notification apparatus 20 to notify any information as long as it is information other than that the incoming call has been received, as long as the information should be notified immediately to the user. For example, when the time of the schedule alarm set in the information processing apparatus 10 is reached, the information processing apparatus 10 may instruct the incoming call notification apparatus 20 to notify the arrival of the schedule alarm time. . When the information processing apparatus 10 informs the incoming call notification apparatus 20 that an incoming call has been received, the information processing apparatus 10 itself may or may not notify that an incoming call has been received.

  According to the above operations by the information processing device 10 and the incoming call notification device 20, the user receives an incoming call to the information processing device 10 by the notification by the incoming call notification device 20 (even if the user has not noticed the notification by the information processing device 10). I can know that.

(Information processing apparatus 10; smartphone)
The configuration of the information processing apparatus 10 will be described with reference to FIG. FIG. 1 is a block diagram illustrating configurations of the information processing apparatus 10 and the incoming call notification apparatus 20.

  As illustrated in FIG. 1, the information processing apparatus 10 includes a reception unit 11 (information acquisition unit), a first state information acquisition unit 12, a second state information acquisition unit 13, a control unit 14, and a communication unit 15. ing.

  The receiving unit 11 receives incoming call information indicating that the information processing apparatus 10 has received an incoming call such as an email or a telephone call. The reception unit 11 transmits the received incoming call information to a first state determination unit 141 (described later) of the control unit 14.

  The first state information acquisition unit 12 is related to a user's carrying state (the user is wearing / not wearing the incoming call notification device 20, the user is wearing / not wearing the incoming call notification device 20). Get status information for.

  For example, the first state information acquisition unit 12 acquires the pressure information of the band unit 21 from the sensor unit 22 of the incoming call notification device 20 as information related to whether or not the user is wearing the incoming call notification device 20. May be. When the user wears the incoming call notification device 20, the pressure of the band unit 21 detected by the sensor unit 22 becomes a non-zero value due to the contact between the band unit 21 and the arm AR of the user. On the other hand, when the user is not wearing the incoming call notification device 20, the pressure of the band unit 21 detected by the sensor unit 22 is zero or a value close thereto.

  The first state information acquisition unit 12 receives information from an acceleration sensor (not shown) included in the information processing apparatus 10 as information related to whether or not the user is wearing the information processing apparatus 10. The acceleration information of the device 10 may be acquired. When the user wears the information processing apparatus 10, the acceleration detected by the acceleration sensor of the information processing apparatus 10 becomes a non-zero value as the user moves. On the other hand, when the user is not wearing the information processing apparatus 10, the acceleration detected by the acceleration sensor of the information processing apparatus 10 is zero or a value close thereto.

  Alternatively, the first state information acquisition unit 12 may use, as information related to whether or not the user is wearing the information processing apparatus 10, a touch sensor (not shown) included in the information processing apparatus 10 as a touch sensor. The touch information detected by may be acquired. When the user wears the information processing apparatus 10, when the user performs a touch operation or touches the touch sensor, the touch sensor detects the operation or contact.

  The first state information acquisition unit 12 transmits the acquired first state information to a first state determination unit 141 (described later) of the control unit 14.

  The second state information acquisition unit 13 is a second state indicating the user's exercise state (for example, position, amount of exercise, moving means) from various sensors and GPS receivers (not shown) provided in the information processing apparatus 10. Get or calculate status information.

  Specifically, the second state information acquisition unit 13 may acquire acceleration information of the user (and the information processing device 10) from the acceleration sensor of the information processing device 10 as the second state information. The second state information acquisition unit 13 can calculate the amount of exercise of the user as the second state information using the acceleration detected by the acceleration sensor of the information processing device 10. Alternatively, the second state information acquisition unit 13 acquires acceleration information of the user (and the incoming call notification device 20) detected by the sensor unit 22 of the incoming call notification device 20, and calculates the user's exercise amount as the second state information. It can also be calculated.

  The second state information acquisition unit 13 transmits the acquired (or calculated) second state information to a second state determination unit 142 (described later) of the control unit 14.

  The control unit 14 notifies the incoming call notification device 20 using the first state information acquired from the first state information acquisition unit 12 and the second state information acquired from the second state information acquisition unit 13. The notification control process α (see FIG. 4) for determining whether or not to perform is performed. The flow of the notification control process α will be described later.

(Configuration of control unit 14)
As shown in FIG. 1, the control unit 14 includes a first state determination unit 141, a second state determination unit 142, and a notification control unit 143. The notification control unit 143 includes a first notification control unit 143a and a second notification control unit 143b.

  The first state determination unit 141 uses the first state information acquired from the first state information acquisition unit 12 to determine whether or not the user can notice the notification by the incoming call notification device 20. In addition, the first state determination unit 141 may determine whether the user can notice the notification by the information processing apparatus 10 using the first state information.

  For example, the first state determination unit 141 uses the pressure of the band unit 21 acquired as the first state information to determine whether the pressure applied to the band unit 21 is greater than or equal to the first threshold value. To do. When the pressure applied to the band unit 21 is equal to or higher than the first threshold, the first state determination unit 141 determines that the user can notice the notification by the incoming call notification device 20. As described above, when the user wears the incoming call notification device 20, pressure is applied to the band unit 21 of the sensor unit 22. Therefore, when the pressure applied to the band unit 21 is equal to or larger than a sufficiently large value (first threshold or more), the user wears the incoming call notification device 20, so that the incoming call notification device 20 can notify the user. You can notice. On the other hand, when the pressure applied to the band unit 21 is zero or a value close to it (less than the first threshold value), the user does not wear the incoming call notification device 20, so that the incoming call notification device 20 is notified. I can't notice.

  Moreover, the 1st state determination part 141 acquires the acceleration which the acceleration sensor with which the information processing apparatus 10 was equipped detects as 1st state information. When the acquired acceleration of the information processing apparatus 10 is equal to or greater than the second threshold, the first state determination unit 141 determines that the user can notice the notification by the information processing apparatus 10. Alternatively, when the information processing apparatus 10 detects a user operation, the first state determination unit 141 may determine that the user cannot notice the notification by the information processing apparatus 10. As described above, when the user wears the information processing apparatus 10, acceleration occurs in the information processing apparatus 10 as the user moves. Therefore, when the acceleration generated in the information processing apparatus 10 is not less than a sufficiently large value (second threshold or more), the user notices the notification by the information processing apparatus 10 because the user is wearing the information processing apparatus 10. be able to. On the other hand, when the acceleration generated in the information processing apparatus 10 is zero or a value close to that (less than the second threshold), the user is not wearing the information processing apparatus 10 and notices the notification by the information processing apparatus 10. I can't.

  The first state determination unit 141 outputs the determination result (first determination result) to the first notification control unit 143a and the second notification control unit 143b.

  The second state determination unit 142 uses the second state information acquired from the second state information acquisition unit 13 to determine whether or not the user is unlikely to notice the vibration of the vibration unit 23. Specifically, the second state determination unit 142 acquires information on the user's exercise amount as the second state information. Next, the 2nd state determination part 142 determines whether a user's exercise amount is more than a 3rd threshold value. When the amount of exercise of the user is equal to or greater than the third threshold, the second state determination unit 142 determines that the user is unlikely to notice the vibration of the vibration unit 23. This is because the user is less likely to notice the vibration of the vibration unit 23 when performing an intense exercise with a large amount of exercise. The second state determination unit 142 outputs the determination result (second determination result) to the first notification control unit 143a.

  The first notification control unit 143a is configured to process the information processing apparatus according to the first determination result input from the first state determination unit 141 and the second determination result input from the second state determination unit 142. 10 determines a notification method for notifying that there is an incoming call. Specifically, the first notification control unit 143a determines whether to notify the incoming call notification device 20 that the information processing device 10 has received an incoming call, or not to notify the incoming call notification device 20.

  More specifically, when the user can notice the notification by the incoming call notification device 20 (and the first state determination unit 141 determines), the first notification control unit 143a operates the vibration unit 23 and the blower unit 25. That is, the incoming call notification device 20 is controlled so that the incoming call notification device 20 performs notification by vibration and compression (for the arm AR).

  On the other hand, when the user cannot notice the notification by the incoming call notification device 20 (and the first state determination unit 141 determines), the first notification control unit 143a does not operate the vibration unit 23 and the blower unit 25. Then, it is determined not to notify the incoming call notification device 20. Thereby, the electric power consumed by the blower part 25 injecting air into the balloon part 24 can be reduced.

  When the second notification control unit 143b obtains a determination result from the first state determination unit 141 that the user does not wear the incoming call notification device 20 and cannot notice the notification by the incoming call notification device 20, The incoming call notification device 20 is controlled so as to perform notification (non-specific notification) using means other than the vibration of the vibration unit 23 or the inflation of the balloon unit 24. For example, the second notification control unit 143b may cause the incoming call notification device 20 to perform notification by voice or alarm sound.

  If the user can notice the notification by the information processing device 10 (and the first state determination unit 141 determines), even if the user can notice the notification by the incoming call notification device 20, The first notification control unit 143a may determine that the incoming call notification device 20 is not notified. Thereby, the electric power consumed by the blower part 25 injecting air into the balloon part 24 can be reduced. In addition, it is possible to reduce consumption of parts (for example, the balloon unit 24) and the battery (battery) of the incoming call notification device 20.

  Here, depending on the user's motion state, there are cases where the user is likely to notice vibration of the vibration unit 23 and may be difficult to notice vibration. For example, as described above, when the user is exercising vigorously with a large amount of exercise, it is difficult for the user to notice the vibration of the vibration unit 23.

  Therefore, in the case where the user can notice the notification by the incoming call notification device 20 (and the first state determination unit 141 determines), the user is less likely to notice the vibration of the vibration unit 23 (and the second). 1), the first notification control unit 143a controls the blower unit 25 to inject air into the balloon unit 24 until the pressure in the balloon unit 24 reaches a normal value. Thereby, the balloon part 24 is expanded to a relatively large size. As a result, since the band unit 21 strongly tightens the arm AR, the user's arm AR is pressed against the vibration unit 23 side of the band unit 21 (see (b) in FIG. 2, specific notification). Therefore, the user can easily notice that the vibration unit 23 is vibrating.

  On the other hand, in a case where the user can notice the notification by the incoming call notification device 20 (and the first state determination unit 141 determines), and the user is highly likely to notice the notification by vibration of the vibration unit 23. If there is (and the second state determination unit 142 determines), the first notification control unit 143a injects air into the balloon unit 24 until the pressure in the balloon unit 24 becomes a predetermined value lower than the normal value. Thus, the blower unit 25 is controlled. Thereby, the balloon part 24 is expanded to a relatively small size. As a result, the band unit 21 tightens the arm AR weaker than usual (not-reinforced notification). However, since the user is not violently exercising, the user can notice the vibration of the vibration unit 23. Further, since the amount of air injected into the balloon unit 24 is smaller than a normal value, the power consumed by the blower unit 25 for injecting air into the balloon unit 24 can be reduced. In addition, it is possible to reduce consumption of parts (for example, the balloon unit 24) and the battery (battery) of the incoming call notification device 20. In particular, when the lightness of the incoming call notification device 20 is important, the battery capacity of the incoming call notification device 20 is often small. In this case, it is important to reduce the power consumed by the incoming call notification device 20.

(Notification control processing α)
The flow of the notification control process α executed by the control unit 14 of the information processing apparatus 10 will be described with reference to FIG. FIG. 4 is a flowchart showing the flow of the notification control process α.

  As shown in FIG. 4, in the notification control process α, first, the receiving unit 11 of the information processing apparatus 10 receives an incoming call (S101, information acquisition step). The first state determination unit 141 acquires incoming call information from the reception unit 11.

  Next, the first state determination unit 141 uses the first state information acquired by the first state information acquisition unit 12 (for example, pressure information of the band unit 21) to notify the user by the incoming call notification device 20. It is determined whether or not the user can notice, specifically, whether or not the user is wearing the incoming call notification device 20 (S102).

  When the user does not wear the incoming call notification device 20 (NO in S102), the second notification control unit 143b causes the incoming call notification device 20 to perform non-specific notification (that is, notification other than specific notification). In this case, a notification that does not depend on the vibration unit 23 and the blower unit 25 is made (S105C, notification control step). Then, the notification control process α ends.

  On the other hand, when the user wears the incoming call notification device 20 (YES in S102), the first notification control unit 143a causes the incoming call notification device 20 to perform reinforced notification (specific notification). Determines to activate the vibration part 23 and the blower part 25.

  When the first notification control unit 143a determines that the incoming call notification device 20 performs reinforced notification, the second state determination unit 142 receives the second state information acquisition unit 13 from the second state information acquisition unit 13 and indicates the user's exercise state. It is determined whether or not the state information of 2 can be acquired (S103).

  When the second state determination unit 142 cannot acquire the second state information from the second state information acquisition unit 13 (NO in S103), the first notification control unit 143a operates the vibration unit 23 and the balloon unit. The blower unit 25 is controlled so as to inject air into the balloon unit 24 until the pressure of 24 reaches a normal (high) value (S105A, notification control step). Then, the notification control process α ends.

  On the other hand, if the second state determination unit 142 can acquire the second state information from the second state information acquisition unit 13 (YES in S103), whether or not the user is exercising vigorously is described in more detail. Then, it is determined whether or not the user's exercise amount is greater than or equal to the third threshold (S104).

  When the user is exercising vigorously (YES in S104), the first notification control unit 143a activates the vibration unit 23 and keeps the balloon unit 24 in contact with the balloon unit 24 until the pressure of the balloon unit 24 reaches a normal (high) value. The blower unit 25 is controlled so as to inject air (S105A, notification control step). Then, the notification control process α ends.

  On the other hand, when the user is not exercising vigorously (NO in S104), the first notification control unit 143a activates the vibration unit 23 and the balloon unit 24 until the pressure of the balloon unit 24 becomes a predetermined value lower than normal. The blower unit 25 is controlled so as to inject air into 24 (S105B, notification control step). Alternatively, in this case (NO in S104), the first notification control unit 143a may operate only the vibration unit 23. Then, the notification control process α ends.

(Modification)
The first notification control unit 143a may cause the incoming call notification device 20 to perform notification by a method other than vibration. For example, in a modification of the present embodiment, the first notification control unit 143a may cause the incoming call notification device 20 to output a ring tone or cause the LED provided in the incoming call notification device 20 to emit light. Alternatively, the first notification control unit 143a may cause the incoming call notification device 20 to generate heat (at a temperature at which a user wearing the incoming call notification device 20 can notice).

[Embodiment 2]
The following will describe another embodiment of the present invention with reference to FIG. 5 and FIG. 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.

  Depending on the content or type of incoming call to the information processing apparatus 10 (see FIG. 3) (telephone, mail, alarm), it may be necessary to notify the user of the incoming call urgently, or the incoming call May not be urgently notified to the user. In other words, the urgency of incoming calls varies depending on the content and type of the incoming call. For example, the urgency level for telephones and alarms is high, but the urgency level for emails is low. When the degree of urgency is low, it is not necessary for the user to immediately notice that the information processing apparatus 10 has received an incoming call, so that the notification by the incoming call notification apparatus 20 is unnecessary.

  Therefore, in the present embodiment, a configuration in which notification by the incoming call notification device 20 is not performed when the emergency level of incoming calls is low (not high) will be described. According to this configuration, the power consumed by the incoming call notification device 20 can be reduced. In addition, it is possible to reduce consumption of parts (for example, the balloon unit 24) and the battery (battery) of the incoming call notification device 20.

(Configuration of information processing apparatus 10 ')
The configuration of the information processing apparatus 10 ′ according to the present embodiment will be described with reference to FIG. FIG. 5 is a block diagram illustrating configurations of the information processing apparatus 10 ′ and the incoming call notification apparatus 20.

  As illustrated in FIG. 1, the information processing apparatus 10 ′ is different from the configuration of the information processing apparatus 10 according to the first embodiment in that the information processing apparatus 10 ′ does not include the second state information acquisition unit 13 (see FIG. 1). Yes. In addition, the control unit 14 ′ of the information processing apparatus 10 ′ includes the urgency determination unit 144 and does not include the second state determination unit 142 (see FIG. 1). The configuration of the portion 14 is different. Note that the configuration of the incoming call notification device 20 according to the present embodiment is the same as the configuration described in the first embodiment.

(Notification control processing β)
The flow of the notification control process β executed by the control unit 14 ′ of the information processing apparatus 10 ′ will be described with reference to FIG. FIG. 6 is a flowchart showing the flow of the notification control process β.

  As shown in FIG. 6, in the notification control process β, first, the reception unit 11 of the information processing apparatus 10 ′ receives an incoming call (S201, information acquisition step). The first state determination unit 141 acquires incoming call information from the reception unit 11. Next, the first state determination unit 141 uses the first state information (for example, pressure information of the band unit 21) acquired by the first state information acquisition unit 12, and the user wears the incoming call notification device 20. It is determined whether or not it is worn (S202).

  When the user is not wearing the incoming call notification device 20 (NO in S202), the second notification control unit 143b causes the incoming call notification device 20 to perform non-specific notification (S204B, notification control step). Then, the notification control process β ends.

  On the other hand, when the user wears the incoming call notification device 20 (YES in S202), the urgency determination unit 144 determines whether the content (type) of the incoming call to the information processing device 10 ′ is high urgency content. It is determined whether or not (S203).

  When the content (type) of the incoming call to the information processing apparatus 10 ′ is content with high urgency (YES in S 203), the first notification control unit 143 a activates the vibration unit 23 and the pressure of the balloon unit 24 is increased. The blower unit 25 is controlled so as to inject air into the balloon unit 24 until a normal (high) value is reached (S204A, notification control step). Then, the notification control process β ends.

  On the other hand, when the content (type) of the incoming call to the information processing device 10 ′ is content with low urgency (NO in S203), the second notification control unit 143b causes the incoming call notification device 20 to perform non-specific notification (S204B). , Notification control step). Then, the notification control process β ends.

[Embodiment 3]
Another embodiment of the present invention will be described. 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 and second embodiments, the configuration in which the control units 14 and 14 ′ of the information processing devices 10 and 10 ′ control notification by the incoming call notification device 20 (that is, the operation of the vibration unit 23 and the blower unit 25) has been described. . However, the present invention is not limited to this configuration. In the present invention, the incoming call notification device 20 itself may control the notification by the incoming call notification device 20.

  In this embodiment, when the information processing apparatus 10 receives an incoming call, the control unit 14 of the information processing apparatus 10 receives the incoming information received by the receiving unit 11 by wireless communication (without performing the notification control processes α and β). Is notified to the control unit of the incoming call notification device 20. When the incoming information is received from the information processing apparatus 10, the control unit of the incoming call notification apparatus 20 executes the notification control process α or the notification control process β. And the control part of the incoming call alerting | reporting apparatus 20 determines whether to alert | report by the incoming alerting | reporting apparatus 20 or not to alert | report by the incoming alerting | reporting apparatus 20 by controlling the vibration part 23 and the blower part 25. FIG.

[Example of software implementation]
The control unit 14 of the information processing apparatus 10 may be realized by a logic circuit (hardware) formed in an integrated circuit (IC chip) or the like, or may be realized by software using a CPU (Central Processing Unit). Good.

  In the latter case, the information processing apparatus 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). Alternatively, a storage device (these are referred to as “recording media”), a RAM (Random Access Memory) that expands the program, and the like are provided. 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]
An information processing device (10) according to aspect 1 of the present invention is an information processing device that controls a notification device (incoming notification device 20), and the notification device vibrates a user wearing the notification device. An information acquisition unit that includes a vibration unit (23) that performs notification and an expansion unit (balloon unit 24) that expands so as to press the user's body, and the information processing apparatus acquires information to be notified to the user. When the (receiving unit 11) and the information acquisition unit acquire the information, at least one of vibration of the vibration unit and expansion of the expansion unit according to at least one of the state of the user and the content of the information A first notification control unit (143a) that notifies the user using

  According to said structure, according to a user's state and the content of information, whether to alert | report a notification using at least one of the vibration of a vibration part and the expansion | swelling of an expansion part is determined. Therefore, it is possible to cause the notification device to perform appropriate notification according to the state of the user and the content of the information.

  In the information processing apparatus according to aspect 2 of the present invention, in the aspect 1, the first notification control unit may cause the notification device to notify the user when the user wears the notification device.

  According to the above configuration, when the user is wearing the notification device and is highly likely to notice the notification by the notification device, the notification device is notified by at least one of vibration and expansion. Therefore, the user can notice the notification by the notification device with high probability.

  In the information processing apparatus according to aspect 3 of the present invention, in the aspect 2, when the user is wearing the notification apparatus and the user is exercising, the first notification control unit is You may inflate the said expansion | swelling part rather than the case where it is not exercising.

  According to the above configuration, since the user is exercising, when the possibility of noticing the notification is low, the user expands the expansion portion more than when the user is not exercising. Make it easier to notice swelling. Therefore, even when the user is exercising, the user can notice the notification by the notification device. On the other hand, when the user is not exercising, the power consumption of the notification device can be reduced by not inflating the inflating part so much.

  The information processing apparatus according to aspect 4 of the present invention further includes an emergency level determination unit (144) that determines the emergency level of the content of the information in the mode 1 or 2, and the first notification control unit includes the emergency information control unit. The higher the degree of urgency determined by the degree determination unit, the more the expansion unit may be expanded.

  According to said structure, when information urgency is high, a user can be made to be alert | reported easily by expanding an expansion | swelling part rather than the case where information urgency is low. On the other hand, when the urgency level of the information is low, the power consumption of the notification device can be reduced by not expanding the expansion portion so much.

  The information processing apparatus according to Aspect 5 of the present invention, in any one of Aspects 1 to 4, when the user does not wear the notification apparatus, notifies other than the vibration of the vibration part or the expansion of the expansion part. You may further provide the 2nd alerting | reporting control part made to make the said alerting | reporting apparatus.

  According to the above configuration, when the user does not wear the notification device and is less likely to notice the notification using vibration or expansion, the user can perform notification using other means. The possibility of noticing the notification can be improved.

  A control method according to aspect 6 of the present invention is a control method of an information processing device that controls a notification device, and the notification device includes a vibration unit that notifies a user wearing the notification device by vibration; An inflating section that inflates to compress the user's body, and the control method obtains information to be notified to the user, and when the information is obtained in the information obtaining step, A notification control step of notifying a user using at least one of the vibration of the vibration unit and the expansion of the expansion unit according to at least one of the state and the content of the information.

  According to said structure, there can exist an effect similar to the information processing apparatus which concerns on aspect 1. FIG.

  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. The control program for the information processing apparatus to be realized in this way and a computer-readable recording medium on which the control program is recorded also fall within the scope of the present invention.

  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.

  The present invention can be used for an information processing apparatus such as a mobile phone.

10, 10 'information processing apparatus 11 receiving part (information acquisition part)
20 Incoming call notification device (notification device)
23 Vibrating part 24 Balloon part (inflatable part)
143 Notification control unit 143a First notification control unit 143b Second notification control unit 144 Urgency determination unit

Claims (5)

An information processing device that controls a notification device,
The notification device includes a vibration unit that notifies the user wearing the notification device by vibration, and an expansion unit that expands to press the user's body,
The information processing apparatus
An information acquisition unit for acquiring information to be notified to the user;
When the information acquisition unit acquires the information, and the user wears the notification device , the vibration of the vibration unit and the expansion unit according to at least one of the state of the user and the content of the information a first notification control unit that the notification using at least one of the expansion Ru is in the notification apparatus,
A second notification control unit that causes the notification device to perform notification by voice or alarm sound when the information acquisition unit acquires the information and the user does not wear the notification device;
An information processing apparatus comprising: When the user wears the notification device,
The information processing apparatus according to claim 1 , wherein when the user is exercising, the first notification control unit expands the expansion unit more than when the user is not exercising. An urgency level determination unit that determines the urgency level of the content of the information is further provided,
The information processing apparatus according to claim 1, wherein the first notification control unit expands the expansion unit as the urgency level determined by the urgency level determination unit is higher. A method for controlling an information processing device for controlling a notification device, comprising:
The notification device includes a vibration unit that notifies the user wearing the notification device by vibration, and an expansion unit that expands to press the user's body,
The above control method is
An information acquisition step of acquiring information to be notified to the user;
When the information is acquired in the information acquisition step and the user wears the notification device , the vibration of the vibration unit and the expansion unit according to at least one of the state of the user and the content of the information a first notification control step of Ru is in the notification device a notification using at least one of the expansion,
A second notification control step of acquiring the information in the information acquisition step and causing the notification device to notify by voice or an alarm sound when the user does not wear the notification device. Control method. A control program for causing a computer to function as the information processing apparatus according to claim 1, wherein the control program causes the computer to function as the first notification control unit and the second notification control unit .

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