JP6477741B2 - Portable electronic device, communication system, notification operation control method, and program - Google Patents

Description

  The present invention relates to a portable electronic device, a communication system between portable electronic devices, a notification operation control method for a portable electronic device, and a program.

  2. Description of the Related Art Conventionally, a portable terminal and a communication system that can communicate between portable terminals (portable electronic devices) using short-range wireless communication such as Bluetooth (registered trademark) and can transmit and receive information in substantially real time as necessary. is there. Information related to a plurality of mobile terminals can be centrally managed using short-range wireless communication, or various notification operations can be collectively performed by one mobile terminal.

  Moreover, the portable terminal which comprises such a communication system may include an electronic wristwatch. Electronic wristwatches can often be worn on the user's arm even in situations where other portable terminals cannot be held and operated. Therefore, conventionally, a function for acquiring and notifying an electronic wristwatch of an incoming status of a call or email to another mobile terminal such as a mobile phone or a smartphone, a function for causing an electronic wristwatch to perform an alarm notification operation set on a smartphone, etc. Has been developed. Patent Document 1 discloses a technique for correcting time of an electronic wristwatch by acquiring time information from a mobile phone using short-range wireless communication.

  Further, in Patent Document 2, when a wristwatch has a camera remote shutter function in a camera-equipped mobile phone, a control mode related to the remote shutter is automatically performed in the wristwatch in conjunction with mode switching in the camera-equipped mobile phone. It describes the functions to be transferred to.

JP 2009-118403 A JP 2009-118474 A

  However, in the conventional portable terminal, whether or not the notification operation of one or a plurality of portable terminals is performed and the operation mode are switched based on a user's setting input. Therefore, it is necessary for the user to change the setting every time the situation changes, the operation is complicated, the notification operation is performed in an inappropriate situation, or the user recognizes the necessary notification operation. There was a problem that it was not possible.

  An object of the present invention is to provide a portable electronic device, a communication system, a notification operation control method, and a program that can acquire necessary information easily and reliably while reducing a user's burden by an appropriate notification operation. It is in.

In order to achieve the above object, the present invention
Wireless communication means for transmitting / receiving data to / from external devices by short-range wireless communication;
A measuring means for measuring a physical quantity for determining a predetermined motion state of the own machine;
A notification means for executing a predetermined notification operation;
Notification operation setting for setting whether or not to perform the notification operation and / or operation mode based on the exercise state of the own device based on the measurement by the measurement unit and the exercise state of the external device acquired by the wireless communication unit Means,
Based on the setting of the notification operation setting unit, a notification operation control unit that causes the notification unit to perform the notification operation;
History acquisition means for requesting and acquiring the transmission of an occurrence history of a predetermined event related to the notification operation that occurred in the external device within a period in which communication with the external device was disconnected;
With
The notification operation setting means performs setting to change the output level of the notification operation by the notification means,
The notification operation control means is a portable electronic device that performs the notification operation when the occurrence history includes the occurrence of the predetermined event.

  According to the present invention, there is an effect that necessary information can be easily and reliably acquired while reducing a burden on the user by an appropriate notification operation in the portable electronic device and the communication system.

1 is an overall view showing a communication system according to an embodiment of the present invention. It is a block diagram which shows the internal structure of an electronic timepiece. It is a block diagram which shows the internal structure of a smart phone. It is a flowchart which shows the control procedure of the setting process which concerns on alerting | reporting operation mode. It is a flowchart which shows the control procedure of an alerting | reporting setting process. It is a flowchart which shows the modification of the control procedure of an alerting | reporting setting process. It is a flowchart which shows the control procedure of each process in the case of restarting communication. It is a flowchart which shows the control procedure of warning processing. It is a flowchart which shows the control procedure of warning processing. It is a flowchart which shows the control procedure of a theft warning process. It is a flowchart which shows the control procedure of a theft warning process. It is a flowchart which shows the control procedure of the warning process which concerns on a theft.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a diagram showing an entire communication system 1 according to an embodiment of the present invention.
The communication system 1 includes a smartphone 10 as an external device and an electronic timepiece 40 as a portable electronic device. The electronic timepiece 40 includes a watch body 400 and a band 401 (mounting means), and is a wristwatch type that can be worn on the user's arm. The smartphone 10 is carried by a user wearing the electronic timepiece 40 while being held by hand or in a bag or pocket. Between these electronic timepieces 40 and the smartphone 10, mutual communication by Bluetooth is possible as a short-range wireless communication function.

  FIG. 2 is a block diagram showing the internal configuration of the electronic timepiece 40. FIG. 3 is a block diagram showing the internal configuration of the smartphone 10.

  As shown in FIG. 2, the electronic timepiece 40 includes a CPU (Central Processing Unit) 41 (notification operation setting means, notification operation control means, operation condition determination means, communication disconnection means, communication resumption means, history acquisition means), ROM (Read Only Memory) 42, RAM (Random Access Memory) 43, operation unit 44, timing circuit 45, display unit 51 (display means), display driver 52 for controlling the display unit 51, and antenna AN4 Bluetooth module 53 and UART (Universal Asynchronous Receiver Transmitter) 54 as wireless communication means, acceleration sensor 55 as measurement means, vibration motor 56 and its driver 57, piezo element 58 and its driver 59, LED (light emission) Diode) 60 and its driver 61, and a bus 62 for exchanging signals between the CPU 41 and each unit. .

  The CPU 41 performs control over the entire operation of the electronic timepiece 40 and various arithmetic processes. The CPU 41 causes the display unit 51 to display the time based on the current time counted by the timer circuit 45. Further, the CPU 41 determines the movement state of the electronic timepiece 40 based on the acceleration data acquired from the acceleration sensor 55, and the determined movement state and the smartphone 10 acquired from the smartphone 10 via the Bluetooth module 53. Based on the exercise state, display on the display unit 51 according to predetermined information acquired from the smartphone 10, or operating each part of the vibration motor 56, the piezo element 58, and the LED 60 to perform notification. Is possible. Furthermore, the CPU 41 displays on the display unit 51 under a predetermined condition such as the occurrence of an event in its own device such as the coincidence with the alarm time or the reception of information related to the occurrence of a predetermined event described later on the smartphone 10. The respective parts of the vibration motor 56, the piezo element 58, and the LED 60 are operated.

  The ROM 42 stores various control programs executed by the CPU 41 and initial setting data. In this control program, a notification setting program 421 (program) related to a notification operation with a communication terminal capable of communication connection via Bluetooth communication such as the smartphone 10 is included.

  The RAM 43 provides a working memory space to the CPU 41. The RAM 43 is provided with an exercise state flag storage unit 431 that stores the exercise state of the electronic timepiece 40 and the exercise state of the smartphone 10 acquired from the smartphone 10 by Bluetooth communication. This movement state is referred to when the notification operation is set.

  The operation unit 44 includes one or a plurality of button switches, converts them into electrical signals based on operations performed by the user on the switches, and outputs them to the CPU 11 as input signals. Alternatively, the operation unit 44 is a touch panel and may be shared with the display unit 51 that performs digital display.

  The timer circuit 45 is a counter that counts and holds the current time. In the electronic timepiece 40, the current time is read and displayed on the display unit 51, or the current time data and the set time data related to various functions are compared to perform various operations.

  The display unit 51 includes, for example, a dot matrix display type liquid crystal display (LCD). The display driver 52 (liquid crystal driver) is operated by the control signal sent from the CPU 41, and the LCD is driven to display the specified contents such as the current time, the setting state, or the menu of various functions. Alternatively, the display unit 51 may include other display means, for example, an organic ELD (Electro-Luminescent Display), and the display driver 52 is appropriately selected depending on the type of display means.

  The Bluetooth module 53 is a control module for performing Bluetooth communication with an external device via the antenna AN4. As the Bluetooth module 53, a low power consumption standard (Bluetooth Low Energy) can also be used. The transmission data sent from the CPU 41 is subjected to processing such as serial / parallel conversion by the UART 54 and is sent from the Bluetooth module 53 to the external device. The received data received from the external device using the Bluetooth module 53 is subjected to processing such as serial / parallel conversion by the UART 54 and is output to the CPU 41.

  The acceleration sensor 55 is a sensor that can measure acceleration in three orthogonal directions. The acceleration sensor 55 can detect the acceleration of gravity in the direction of gravity and specify the direction. As the acceleration sensor 55, a small and light sensor is preferably used. For example, a sensor using a piezoresistive element is used.

The vibration motor 56, the piezo element 58, and the LED (light emitting diode) 60 are for performing a notification operation to the user by emitting vibration, a buzzer sound, and light, respectively, and constitute a notification means together with the display unit 51. To do. When a control signal is sent from the CPU 41 to each of the drivers 57, 59, and 61, the drivers 57, 59, and 61 convert the voltage signals necessary for operating the vibration motor 56, the piezo element 58, and the LED 60, respectively, and output them. To do. The drivers 57, 59, 61 of the electronic timepiece 40 of the present embodiment change output levels such as the vibration intensity of the vibration motor 56, the volume of the piezo element 58, and the light emission intensity of the LED 60 based on the control signal from the CPU 41, respectively. Can be output.
Among the above configurations, the CPU 41, the ROM 42, the RAM 43, the operation unit 44, the display unit 51, and the display driver 52 constitute a computer.

  As illustrated in FIG. 3, the smartphone 10 includes a CPU 11 (incoming information transmission determination unit, incoming information transmission setting unit), a ROM 12, a RAM 13, a storage unit 14, an operation unit 15, a built-in clock 16, and a display operation. Unit 17 and its driver 18, speaker 19, microphone 20, codec 21, RF transmission / reception circuit 22 as external communication means, RF transmission / reception antenna AN11, communication circuit 23, Bluetooth module 24, and UART 25 And an antenna AN12 for transmitting and receiving Bluetooth communication, an acceleration sensor 26, a vibration motor 27 and its driver 28, and a bus 29 for connecting the CPU 11 to each unit.

  The CPU 11 performs overall control of the overall operation of the smartphone 10 and various arithmetic processes. Further, the CPU 11 determines the motion state of the own machine based on the measurement value of the acceleration sensor 26. When the exercise state is changed or when the electronic timepiece 40 is charged, a control signal is sent to the Bluetooth module 24 to cause the electronic timepiece 40 to transmit the setting related to the exercise state.

  The ROM 12 stores various programs executed by the CPU 11 and initial setting data. The RAM 13 provides a work memory space to the CPU 11 and stores temporary work data. The RAM 13 includes an exercise state flag storage unit 131 that stores the exercise state of the smartphone 10 and the exercise state of the electronic timepiece 40 received via Bluetooth communication.

  The storage unit 14 is a non-volatile readable / writable memory, for example, a flash memory or an EEPROM (Electrically Erasable and Programmable Read Only Memory). The storage unit 14 stores, for example, various application programs executed by the smartphone 10 and stored data and setting data related to various functions. This application program includes a notification setting program 141 for setting a notification operation with the electronic timepiece 40 using Bluetooth communication. In addition, the storage unit 14 is provided with an incoming call history data storage unit 142 that stores voice call and e-mail data received by the smartphone 10 and an incoming call history.

  The operation unit 15 includes one or a plurality of operation keys, and outputs to the CPU 11 an input signal converted into an electric signal based on an operation performed by the user on the key.

  The built-in clock 16 is a counter that counts and holds the current time. The CPU 11 reads out the current time and displays it on the display operation unit 17. Further, the present time data and the set time data related to various functions are compared, and various operations are performed. The current time data of the internal clock 16 is corrected at any time during communication with the mobile base station by the RF transceiver circuit 22.

  The display operation unit 17 includes, for example, a liquid crystal display (LCD). A driver 18 (liquid crystal driver) is operated by a control signal sent from the CPU 11 and drives the LCD to display various functions of the smartphone 10. The display operation unit 17 may be provided with another method, for example, an organic ELD (Electro-Luminescent Display), and the driver 18 is appropriately selected depending on the display method. Further, the display operation unit 17 performs menu display for allowing the user to perform an input operation as a touch panel under the control of the CPU 11, detects a touch input operation, converts it into an electrical signal, and outputs it to the CPU 11 as an input signal.

The speaker 19 converts an electrical signal into an audio signal based on a signal from the codec 21 and outputs audio. The microphone 20 detects sound waves, converts them into electric signals, and outputs them to the codec 21. The codec 21 decodes the encoded and compressed digital audio signal and sends it as an analog signal to the speaker 19, and encodes the audio signal acquired from the microphone 20 and outputs it to the CPU 11 and the communication circuit 23.
Note that a speaker for calling and a speaker for outputting sound to the outside may be provided separately. Moreover, the structure which can output the audio | voice to an earphone may be sufficient.
In addition, the speaker 19 of the smartphone 10 according to the present embodiment can output an alarm sound or a notification melody related to a notification operation to the user. The alarm sound may be configured such that a beep sound is output by providing a piezo element or the like separately from the speaker 19.

  The RF transmission / reception circuit 22 performs transmission / reception processing of packet communication such as telephone communication and electronic mail performed with the mobile base station using the antenna AN11 for RF transmission / reception. The communication circuit 23 performs various processes of transmission / reception data transmitted / received by the RF transmission / reception circuit 22, and exchanges data with the CPU 11 and the codec 21.

  The Bluetooth module 24 is a control module for performing Bluetooth communication with a portable electronic device such as the electronic timepiece 40 via the antenna AN12. The transmission data sent from the CPU 11 is subjected to processing such as serial / parallel conversion by the UART 25 and is sent from the Bluetooth module 24 to the portable electronic device. Also, received data received from the portable electronic device using the Bluetooth module 24 is subjected to processing such as parallel / serial conversion by the UART 25 and is output to the CPU 11.

  The acceleration sensor 26 is a sensor capable of measuring accelerations in three orthogonal directions. The acceleration sensor 26 can detect the acceleration of gravity in the direction of gravity and specify the direction. As the acceleration sensor 26, a small and light sensor is preferably used. For example, a sensor using a piezoresistive element is used.

  The vibration motor 27 is for informing the user by generating vibration. When a control signal is sent from the CPU 11 to the driver 28, the driver 28 converts it into a voltage signal necessary for operating the vibration motor 27 and outputs it.

Next, the notification setting operation by the communication system 1 of the present embodiment will be described.
In the smartphone 10 and the electronic timepiece 40 configuring the communication system 1 of the present embodiment, acceleration measurement data is continuously acquired from the acceleration sensors 55 and 26, and the determination of each motion state is performed. This movement state is a movement pattern of a user holding the smartphone 10 or the electronic timepiece 40 classified based on a change pattern of acceleration, or a stationary state. In the smartphone 10 and the electronic timepiece 40 of the present embodiment, the walking state is The three types of the holding state and the stationary state are set, and the classification is determined. In the holding state, for example, a user who is not moving or moving by means of transportation such as a car or a train, holds it by hand, wears it on his arm, or holds a pocket or a bag held in his hand. It includes the state of being in a backpack. The stationary state includes, for example, a state where it is placed on a desk or a charger, or left in a stationary cage.

Judgment of the walking state is based on the acceleration change pattern in each direction, which is coordinate-transformed based on the measured triaxial acceleration based on the gravity direction (vertical direction) and the moving direction in the horizontal plane. Compared with the conventionally known acceleration change pattern, that is, the periodic change in the vertical direction, and the traveling direction generated in conjunction with this, and the pattern of the periodic change in the direction perpendicular to the traveling direction and the vertical direction. That is done.
It should be noted that the pattern of acceleration change is slightly different between the wrist-worn electronic timepiece 40 in which the influence of arm swing appears and the smartphone 10 held in a pocket or a bag, etc., so that it can be compared with both patterns. It is possible to change the setting corresponding to the product.

The determination of the stationary state is made when acceleration other than gravitational acceleration is not continuously measured. The determination of the holding state is made when another acceleration pattern that is not either the walking state or the stationary state is measured.
In addition, even if it is not a walking state, for example, when a large acceleration change is continuously observed during traveling or bicycle movement, it may be set to be included in the walking state classification as being equivalent to the walking state. I can do it.

  These determined exercise states are set by the walking state flag and the holding state flag. That is, when any one of these flags is set, it is indicated that the vehicle is in a walking state or a holding state, and any of the flags is reset and a static state is indicated.

If the movement of the electronic watch 40 (or smartphone 10) changes, Bluetooth
The changed exercise state is notified to the smartphone 10 (or the electronic timepiece 40) by communication.
Moreover, transmission of the information which concerns on the newest exercise state is requested | required of the smart phone 10 (or electronic timepiece 40) as needed.

  The exercise state of the smartphone 10 received in the electronic timepiece 40 is stored in the exercise state flag storage unit 431, and the exercise state of the electronic watch 40 received in the smartphone 10 is stored in the exercise state flag storage unit 131. In the electronic timepiece 40 and the smartphone 10 according to the present embodiment, information related to the exercise state is read from the exercise state flag storage units 431 and 131, respectively, as necessary, and the notification operation is set based on the exercise state of both. Used for the update.

  Hereinafter, specific examples relating to the availability of the notification operation and the setting of the operation mode will be described. Although the following specific examples are described as being independent of each other, parallel processing is possible for those that can be executed in parallel. Moreover, about what can change a part of each specific example and enable parallel processing, it can change suitably.

  FIG. 4 is an example of a flowchart according to the notification operation mode setting process for changing the setting of the notification operation mode when the electronic clock 40 notifies the incoming call of the smartphone 10 or the incoming e-mail.

  The notification operation mode setting process shown in FIG. 4A is activated when the electronic timepiece 40 receives information related to the change of the exercise state from the smartphone 10. When the notification operation mode setting process is started, the CPU 41 first determines whether or not the received external device, that is, the exercise state of the smartphone 10 is a walking state (step S401).

  When it is determined that the exercise state of the external device is not the walking state (specifically, the walking state flag of the external device is in the reset state in the exercise state flag storage unit 431) ("NO" in step S401) The CPU 41 sets the vibration intensity of the vibration motor 56 to “normal” (step S404). Then, the CPU 41 ends the notification operation mode setting process.

On the other hand, when it is determined that the walking state flag is set as the movement state of the external device (“YES” in step S401), the CPU 41 further determines that the movement state of the own device, that is, the electronic timepiece 40 is walking. It is determined whether or not it is in a state (step S402). If it is determined that the user is not in a walking state (“NO” in step S402), the process of the CPU 41 proceeds to step S404. If it is determined that the vehicle is in a walking state (“YES” in step S402), the CPU 41 sets the vibration intensity of the vibration motor 56 to “strong” (step S403). Then, the CPU 41 ends the notification operation mode setting process.
The notification operation mode setting process can also be activated when a change in the exercise state is detected by the electronic timepiece 40. In this case, in the determination process of step S401, the CPU 41 does not necessarily need to acquire the exercise state of the smartphone 10 from the smartphone 10 again, and may determine based on the exercise state stored in the exercise state flag storage unit 431. .

  FIG. 4B is a flowchart showing the control procedure of the exercise state transmission process showing the process at the time of changing the exercise state in the smartphone 10.

  In the smartphone 10, whether or not the exercise state has changed depends on the difference between the exercise state flag stored in the exercise state flag storage unit 131 and the latest exercise state determined based on the measurement value of the acceleration sensor 26. To be judged. When it is detected that the exercise state of the smartphone 10 has changed, this exercise state transmission process is activated, and the CPU 11 determines whether or not the exercise state has been changed to the walking state (step S101). When it is determined that the walking state has been changed (“YES” in step S101), the CPU 11 transmits a signal for setting the walking state flag to the electronic timepiece 40 by Bluetooth communication (step S102). And CPU11 complete | finishes an exercise state transmission process, after rewriting the exercise state setting of the exercise state flag memory | storage part 131. FIG.

When it is determined that the walking state has not been changed (“NO” in step S101), the CPU 11 transmits a signal for resetting the walking state flag to the electronic timepiece 40 by Bluetooth communication (step S103). And CPU11 complete | finishes an exercise state transmission process, after rewriting the exercise state setting of the exercise state flag memory | storage part 131. FIG.
In the determination process in step S101, the process branches to “NO” even when the state changes between the holding state and the stationary state. However, since the walking state flag is not originally set, the walking state flag has the reset state. Maintained. Alternatively, the CPU 41 may further perform determination in this case and not transmit information to the electronic timepiece 40 by Bluetooth communication.

  FIG. 5 is an example of a flowchart of notification setting processing showing a setting procedure related to notification of incoming calls and / or emails to the smartphone 10 in the electronic timepiece 40.

FIG. 5A shows a flowchart of notification setting processing executed by the CPU 41 of the electronic timepiece 40.
This notification setting process is started when a change in the exercise state is detected in the electronic timepiece 40. When the notification setting process is started in the electronic timepiece 40, the CPU 41 first determines whether or not the electronic timepiece 40 has been changed to a walking state or a holding state (step S411). Specifically, the CPU 41 performs a determination process depending on whether either the walking state flag or the holding state flag is set. If it is determined that the state has been changed to any state (“YES” in step S411), the CPU 41 turns on the notification function related to the incoming call to the smartphone 10 (step S412). Then, the process of the CPU 41 proceeds to step S414.

  When it is determined that it is not a change to a walking state or a holding state (that is, a change to a stationary state) (“NO” in step S411), the CPU 41 performs a notification function related to an incoming call to the smartphone 10 Is set to OFF (step S413). Then, the process of the CPU 41 proceeds to step S414.

  When the process proceeds to step S414, the CPU 41 transmits the changed exercise state to the smartphone 10. Then, the CPU 41 ends the notification setting process.

FIG. 5B is a flowchart illustrating a processing procedure of notification setting processing executed by the CPU 11 of the smartphone 10.
This notification setting process is activated when a change in the exercise state is detected based on the measurement data of the acceleration sensor 26 by the smartphone 10 or when information related to the change in the exercise state is received from the electronic timepiece 40. When the notification setting process is started, the CPU 11 first determines whether the motion state of the smartphone 10 is neither a walking state nor a holding state (that is, a stationary state) (step S111). If it is determined that the current state is either the walking state or the holding state (“NO” in step S111), the processing of the CPU 41 proceeds to step S118.

  On the other hand, when it is determined that the current state is neither the walking state nor the holding state (“YES” in step S111), the CPU 11 refers to the exercise state flag storage unit 131 and acquires the exercise state of the electronic timepiece 40 ( Step S112). The CPU 11 determines whether or not the motion state of the electronic timepiece 40 is a walking state or a holding state (step S113). If it is determined that it is neither (“NO” in step S113), the CPU 11 turns off the setting for sending incoming information to the electronic timepiece 40 (step S116), and then shifts the processing to step S118.

  In step S118, the CPU 11 turns on the incoming call notification function of the smartphone 10 itself. Then, the CPU 11 ends the notification setting process.

  When it is determined in the determination processing in step S113 that the movement state of the electronic timepiece 40 is either the walking state or the holding state (“YES” in step S113), the CPU 11 receives incoming information on the electronic timepiece 40. Is set to ON (step S114), and the incoming call notification function of the smartphone 10 itself is set to OFF (step S115). Then, the CPU 11 ends the notification setting process.

  As described above, in the notification setting process of the present embodiment, for the electronic timepiece 40 and the smartphone 10, the device in a stationary state is set so as not to perform a notification operation related to a call to the smartphone 10 or an incoming e-mail. However, when both the smartphone 10 and the electronic timepiece 40 are in a stationary state, the smartphone 10 that has received an incoming call is set to perform a notification operation.

  In FIG. 6, the modification of the flowchart which shows the control procedure of the alerting | reporting setting process which CPU11 of the smart phone 10 performs is shown.

  The flowchart of this modification is the same except that the process of step S117 is inserted between the process of step S116 and the process of step S118. The same process is described with the same reference numeral. Is omitted.

In the notification setting process of this modification, after the setting process for turning off the transmission of information related to the incoming call to the smartphone 10 is performed in the process of step S <b> 116, the CPU 11 performs Bluetooth between the smartphone 10 and the electronic timepiece 40. Processing for turning off the communication connection is performed (step S117). That is, when it is determined that the smartphone 10 is in a stationary state and the electronic timepiece 40 is also in a stationary state, the CPU 11 determines that both are not in use and the CPU 11 stops the Bluetooth communication. Specifically, the CPU 11 sends a control signal to the Bluetooth module 24 to perform an operation of disconnecting communication.
When the communication is disconnected, the CPU 11 stores the communication history such as the disconnection time in the storage unit 14.

  FIG. 7 shows a flowchart of each process executed when the Bluetooth communication is resumed after the Bluetooth communication is stopped in the notification setting process according to the above-described modification.

FIG. 7A shows a control procedure of communication resumption processing executed by the CPU 41 when the electronic timepiece 40 performs processing for resuming Bluetooth communication. This communication resumption process is started when the movement state of the electronic timepiece 40 changes from a stationary state to another state based on the measurement data of the acceleration sensor 55.
When the communication resumption process is started, the CPU 41 first determines whether or not the communication is disconnected (step S421). If it is determined that the communication is not disconnected (“NO” in step S421), the processing of the CPU 41 proceeds to step S424.

  If it is determined that the communication is disconnected (“YES” in step S421), the CPU 41 sends a control signal to the Bluetooth module 24 and executes a process of establishing a Bluetooth communication connection (step S422). When the connection of the Bluetooth communication is established between the electronic timepiece 40 and the smartphone 10, the CPU 41 requests the smartphone 10 to transmit the incoming call history for the incoming call that was in the smartphone 10 during the period in which the communication was disconnected. (Step S423). Then, the process of the CPU 41 proceeds to step S424.

When the process proceeds from the process of step S421 or step S423 to the process of step S424, the CPU 41 performs setting to turn on the notification function related to the incoming call to the smartphone 10 (step S424). And CPU41 transmits the exercise state of the present electronic timepiece 40 to the smart phone 10 (step S425).
At this time, if the received call history is not empty, that is, if there is an incoming call while communication is cut off, the CPU 41 performs a notification operation related to the incoming call in the same way as during a normal incoming call. Make it. Simultaneously with this incoming call notification operation, the CPU 41 outputs a control signal to the display driver 52 to display a list of incoming histories within a range that can be displayed on the display unit 51 as predetermined information relating to the incoming call history, Can be displayed.
Thereafter, the CPU 41 ends the communication restart process.

  FIG. 7B shows a control procedure of the communication history transmission process executed by the CPU 11 of the smartphone 10 in response to the incoming history transmission request transmitted to the smartphone 10 in step S423 of the communication resumption process in the electronic timepiece 40 described above. It is a flowchart.

  When the communication history transmission process is started, the CPU 11 refers to the incoming call history data storage unit 142 and transmits the incoming call history during the period in which the communication connection by Bluetooth communication has been disconnected to the electronic timepiece 40 (step S121). Next, the CPU 11 turns on the setting for transmitting the incoming information of the telephone call or e-mail to the smart phone 10 to the electronic timepiece 40 (step S122). Then, the CPU 11 ends the communication history transmission process.

  FIG. 7C is a flowchart showing a control procedure of communication resumption processing executed by the CPU 11 when the smartphone 10 resumes Bluetooth communication. This communication resumption process is activated when the movement state of the smartphone 10 changes from a stationary state to another movement state based on measurement data from the acceleration sensor 26 in the smartphone 10.

  When the communication resumption process is started, the CPU 11 first determines whether or not the communication with the electronic timepiece 40 by the Bluetooth communication is disconnected (step S126). When it is determined that the communication is not disconnected (“NO” in step S126), the CPU 11 ends the communication resumption process as it is. If it is determined that the communication is disconnected (“YES” in step S126), the CPU 11 sends a control signal to the Bluetooth module 24 and executes a process for establishing a communication connection with the electronic timepiece 40. (Step S127). Then, the CPU 11 ends the communication restart process.

  FIGS. 8 and 9 are flowcharts illustrating an example of a control procedure of warning processing for determining and notifying which one of the smartphone 10 or the electronic timepiece 40 is left behind.

FIG. 8A is a flowchart showing a control procedure of warning processing in the electronic timepiece 40.
This warning process is activated when the electronic timepiece 40 detects a change to the walking state. When the warning process is activated, the CPU 41 first transmits a request for transmitting the latest exercise state to the external device (smartphone 10), and receives and acquires the exercise state from the smartphone 10 (step S431).

  Next, the CPU 41 determines whether or not the acquired current motion state of the smartphone 10 is a walking state (step S432). When it is determined that the exercise state of the smartphone 10 is the walking state (“YES” in step S432), the CPU 41 ends the warning process as it is. When it is determined that the vehicle is not in the walking state (“NO” in step S432), the CPU 41 transmits a control signal to some or all of the drivers 57, 59, and 61, and the vibration motor 56 and the piezoelectric element 58 are transmitted. By operating some or all of the LEDs 60, the user is notified of the misplacement of the smartphone 10 (step S433). This misplacement notification operation may be canceled at a predetermined time, or may be continued until a stop operation is manually input by the user. When the misplacement notification operation ends, the CPU 41 ends the warning process.

  Here, a slight time lag may occur between the timing when the electronic timepiece 40 worn by the user changes to the walking state and the timing when the smartphone 10 in the bag changes to the walking state. Therefore, a predetermined delay time may be provided between the time when the movement state of the electronic timepiece 40 changes to the walking state and the time when the warning process is activated.

FIG. 8B shows a flowchart of the exercise state transmission process executed in the smartphone 10.
When the smartphone 10 receives the exercise state transmission request from the electronic timepiece 40, the CPU 11 activates the exercise state transmission process, determines the latest exercise state based on the measurement data of the acceleration sensor 26, and performs this exercise. The state is transmitted to the electronic timepiece 40 (step S131). Then, the CPU 11 ends the exercise state transmission process.
At this time, when the transmission request for the exercise state is transmitted from the electronic watch 40 to the smartphone 10, a signal indicating that it is for checking the misplaced state is included, so that the smartphone 10 sends the signal to the electronic watch 40. When the exercise state to be transmitted is not the walking state, the CPU 11 may be operated so that the notification operation is performed also on the smartphone 10 on the left side.

  FIG. 9A is a flowchart showing a control procedure of warning processing in the smartphone 10.

  Similar to the warning processing of the electronic timepiece 40 in FIG. 8A, this warning processing is activated when the exercise state changes to the walking state on the smartphone 10. When the warning process is started, the CPU 11 first transmits a request for transmitting the latest exercise state to the electronic timepiece 40, and receives and acquires the exercise state from the electronic timepiece 40 (step S141).

  Next, the CPU 11 determines whether or not the acquired movement state of the electronic timepiece 40 is a walking state (step S142). When it is determined that the vehicle is in a walking state (“YES” in step S142), the CPU 11 ends the warning process as it is. If it is determined that the user is not in a walking state (“NO” in step S142), the CPU 11 transmits a control signal to some or all of the drivers 18, 28 and the codec 21, and the display operation unit 17, speaker 19. A part or all of the vibration motor 27 is caused to perform a predetermined operation to perform a misplacement notification operation for the electronic timepiece 40 to the user (step S143). When the misplacement notification operation ends, the CPU 11 ends the warning process.

FIG. 9B shows an exercise state transmission process in the electronic timepiece 40.
In the electronic timepiece 40, when the exercise state transmission request is received from the smartphone 10, the CPU 41 activates the exercise state transmission process, determines the latest exercise state based on the measurement data of the acceleration sensor 55, and performs this exercise. The state is transmitted to the smartphone 10 (step S441). Then, the CPU 41 ends the exercise state transmission process. At this time, if the determined exercise state is not the walking state, the CPU 41 outputs a control signal to a part or all of the display driver 52 and the drivers 57, 59, 61 and performs a predetermined notification operation. It is good to make it happen.

  FIGS. 10 and 11 are flowcharts respectively showing examples of control procedures for processing for a theft warning that determines and notifies when either the smartphone 10 or the electronic timepiece 40 may be stolen.

FIG. 10A is a flowchart showing a control procedure of the exercise state transmission process executed by the CPU 41 of the electronic timepiece 40.
This movement state transmission process is started when the movement state determined based on the measurement data of the acceleration sensor 55 in the electronic timepiece 40 changes.

  When the exercise state transmission process is started, the CPU 41 determines whether or not the exercise state transmission process has been changed to either the holding state or the walking state (step S451). If it is determined that the state is neither the holding state nor the walking state (still state) (“NO” in step S451), the CPU 41 ends the exercise state transmission process as it is.

  When it is determined that the exercise state has been changed to any one of the exercise states (“YES” in step S451), the CPU 41 transmits the exercise state after the change to the smartphone 10 (step S452). Then, the CPU 41 ends the exercise state transmission process.

FIG. 10B is a flowchart illustrating a control procedure of a theft warning process executed by the CPU 11 in the smartphone 10.
This theft warning process is started when the smartphone 10 receives the exercise state transmitted in step S452 of the exercise state transmission process from the electronic timepiece.

  When the theft warning process is started, the CPU 11 determines whether or not the exercise state of the smartphone 10 is the holding state (step S151). When it is determined that it is in the holding state (“YES” in step S151), the CPU 41 determines whether or not the exercise state acquired from the electronic timepiece 40 is the walking state (step S152).

  When it is determined that the vehicle is not in a walking state (“NO” in step S152), the CPU 11 ends the theft warning process as it is. When it is determined that the vehicle is in the walking state (“YES” in step S152), the CPU 11 outputs a control signal to some or all of the drivers 18, 28 and the codec 21, and the display operation unit 17, A warning operation is performed on some or all of the vibration motor 27 and the speaker 19 (step S155). Further, the CPU 11 transmits a warning signal to the electronic timepiece 40 (step S156). Then, the CPU 11 ends the theft warning process.

  On the other hand, when it is determined in the determination process in step S151 that the exercise state of the smartphone 10 is not in the holding state (“NO” in step S151), the CPU 41 determines whether the exercise state of the smartphone 10 is in the walking state. Is determined (step S153). If it is determined that the vehicle is not in a walking state (“NO” in step S153), the CPU 41 ends the theft warning process as it is.

  When it is determined that the user is in the walking state (“YES” in step S153), the CPU 41 determines whether the exercise state acquired from the electronic timepiece 40 is the holding state (step S154). When it is determined that it is not in the holding state (“NO” in step S154), the CPU 41 ends the theft warning process as it is.

  If it is determined that it is in the holding state (“YES” in step S154), the processing of the CPU 11 proceeds to step S155, and the CPU 11 performs a warning operation and transmits warning information to the electronic timepiece 40 ( Step S156).

  FIG. 11A is a flowchart illustrating a control procedure of the exercise state transmission process executed by the CPU 11 when the exercise state changes in the smartphone 10, contrary to FIG. 10A. FIG. 11B is a flowchart showing a control procedure of a theft warning process executed by the CPU 41 of the electronic timepiece 40 based on the exercise state transmission process.

  As shown in FIG. 11A, when the exercise state transmission process is started in the smartphone 10, the CPU 11 determines whether or not the movement state has been changed to either the holding state or the walking state (step S161). If it is determined that the exercise state is not any, that is, it has been changed to the stationary state (“NO” in step S161), the CPU 11 ends the exercise state transmission process as it is.

  When it is determined that the state has been changed to either the holding state or the walking state (“YES” in step S161), the CPU 11 transmits the exercise state after the change to the electronic timepiece 40 (step S162). Then, the CPU 11 ends the exercise state transmission process.

  As shown in FIG. 11B, when the exercise state transmitted from the smartphone 10 in step S162 of the exercise state transmission process is received by the electronic timepiece 40 and the theft warning process is started, the CPU 41 It is determined whether or not the exercise state is a holding state (step S461). When it is determined that it is in the holding state (“YES” in step S461), the CPU 41 determines whether or not the exercise state acquired from the smartphone 10 is the walking state (step S462).

  When it is determined that the exercise state of the smartphone 10 is not the walking state (“NO” in step S462), the CPU 41 ends the theft warning process as it is. When it is determined that the vehicle is in a walking state (“YES” in step S462), the CPU 41 outputs a control signal to some or all of the display driver 52 and the drivers 57, 59, 61, and displays the display unit. 51, some or all of the vibration motor 56, the piezo element 58, and the LED 60 are caused to perform a warning operation (step S465). Moreover, CPU41 transmits a warning signal to the smart phone 10 (step S466). Then, the CPU 41 ends the theft warning process.

  On the other hand, if it is determined in step S461 that the movement state of the electronic timepiece 40 is not in the holding state ("NO" in step S461), the CPU 41 indicates that the movement state of the electronic timepiece 40 is the walking state. Whether or not (step S463). If it is determined that the vehicle is not in a walking state (“NO” in step S463), the CPU 41 ends the theft warning process as it is.

  When it is determined that the exercise state of the electronic timepiece 40 is the walking state (“YES” in step S463), the CPU 41 determines whether or not the exercise state acquired from the smartphone 10 is the holding state ( Step S464). If it is determined that it is not in the holding state (“NO” in step S464), the CPU 41 ends the theft warning process as it is.

  When it is determined that the exercise state of the smartphone 10 is the holding state (“YES” in step S464), the processing of the CPU 41 proceeds to step S465, and the CPU 41 performs a warning operation and displays warning information on the smartphone. 10 (step S466).

  FIG. 12 is a flowchart showing an operation procedure of a warning operation based on theft warning information received by Bluetooth communication.

  As shown in FIG. 12A, when warning information is received from the smartphone 10 in the electronic timepiece 40, the CPU 41 performs a warning operation (step S471). The content of the warning operation is the same as that in step S465, and detailed description thereof is omitted. Then, the CPU 41 ends the warning process.

  On the other hand, as shown in FIG. 12B, when warning information is received from the electronic timepiece 40 in the smartphone 10, the CPU 11 performs a warning operation (step S171). The content of the warning operation is the same as the processing in step S155, and detailed description thereof is omitted. Then, the CPU 11 ends the warning process.

  As described above, the electronic timepiece 40 of the present embodiment includes the Bluetooth module 53 that performs Bluetooth communication, the acceleration sensor 55, the vibration motor 56 that performs a notification operation, the piezo element 58, and the LED 60. The CPU 41 determines whether or not to execute the notification operation based on the exercise state of the own device determined based on the measurement of the acceleration sensor 55 and the exercise state of the smartphone 10 which is an external device acquired by Bluetooth communication. The mode change is set, and the notification operation is performed based on this setting. Accordingly, since a necessary notification operation can be automatically executed in an appropriate situation without any user operation, necessary information related to the notification operation can be obtained while reducing the burden on the user.

  In addition, when the movement state of the electronic watch 40 and the movement state of the smartphone 10 are different, the combination of the different movement states can give a misplacement warning or a theft warning, thus preventing loss. The electronic watch 40 and the smartphone 10 can be securely held.

  Conventionally, a warning of misplacement has been given due to a broken link when the distance between the electronic watch 40 and the smartphone 10 is long, but when the reach of a short-range wireless communication radio wave is large, such as when the line of sight is good In some cases, it may take time until a warning is issued, and such a situation can be avoided, so that loss of the smartphone 10 or the like can be prevented more easily, reliably and smoothly.

  Further, in addition to the movement states of the electronic timepiece 40 and the smartphone 10, by setting conditions for performing the notification operation, it is troublesome for the user to determine which device performs the notification operation regarding various notification operations. Can be set easily and appropriately.

  In addition, since it is possible to appropriately determine a situation in which it is difficult for the smartphone 10 itself to notify the occurrence of an event such as a call to the smartphone 10 or an incoming e-mail, the electronic watch 40 can notify the user appropriately. It can be acquired at any timing.

  In particular, when the movement state of the electronic timepiece 40 and the movement state of the smartphone 10 are different, an appropriate standby time (delay time) can be set, so that an unnecessary and excessive warning is not given to the user. In addition, a necessary warning can be performed at an appropriate timing.

  In addition, since it is possible to individually set whether or not the notification operation is possible and the operation mode for each condition related to the notification operation, various notification operations can be performed at optimal notification means and notification timing, respectively. .

  Further, when the user is difficult to detect the notification operation such as in a walking state, the user can be surely set to know by increasing the output level related to the notification operation.

  In addition, when the movement state of the electronic timepiece 40 changes, the latest movement state of the smartphone 10 is acquired, so that notification is also given when the communication connection with the smartphone 10 is temporarily disconnected due to poor timing. Whether or not the operation is necessary can be determined.

  In addition, when both the electronic timepiece 40 and the smartphone 10 are in a stationary state, it can be determined that the electronic timepiece 40 and the smartphone 10 are in a non-use state. Therefore, unnecessary power consumption can be suppressed by disconnecting the Bluetooth communication. In this case, the notification operation associated with the occurrence of the event only needs to be performed by the electronic watch 40 (or the smartphone 10) on the side where the event has occurred, so the other, that is, the smartphone 10 (or the electronic device) via Bluetooth communication. There is no need to make a notification by the clock 40).

  In addition, when either the electronic watch 40 or the smartphone 10 leaves the stationary state, it is only necessary to restart the Bluetooth communication connection at that time, so that the communication connection when necessary can be appropriately maintained. .

  Further, when the connection of the Bluetooth communication is resumed, if the portable electronic device on the side where the stationary state is maintained is a communication device such as a smartphone 10 or a mobile phone, the portable type device on the side that has left the stationary state Since the incoming call history is transmitted to the electronic device, the incoming call information can be obtained easily and reliably without operating the communication device.

  Further, when the display unit 51 of the portable electronic device that has left the stationary state is configured to display the acquired incoming call history, the incoming call history can also be displayed, so that the stationary state is maintained. The portable electronic device is operated only when necessary, saving the user's trouble.

  Moreover, since the wristwatch equipped with the band 401 enables the wristwatch to be worn on the electronic timepiece 40, it is possible to hold the smartphone 10 or the mobile phone in a situation where both hands are blocked and the smartphone 10 or the mobile phone cannot be held. You can get the information you need even in formal seats where you don't like it.

  In addition, since the notification operation setting can be exchanged between a portable electronic device capable of supporting a plurality of Bluetooth communications desired by the user and an external device, a user who uses a plurality of electronic watches 40 depending on the situation, A notification operation can be performed easily and accurately to a user who uses both the smartphone 10 and the mobile phone. Therefore, the user can obtain necessary information at an appropriate timing without performing complicated settings.

  In addition, in an external device that causes a portable electronic device to notify the occurrence of an event such as an incoming call or e-mail, an event occurrence notification is sent to the external device depending on whether or not a notification operation is possible in the portable electronic device. Since transmission / non-transmission can be switched, there is no need to perform unnecessary data transmission that is not notified.

  In addition, by enabling the program related to the control of the notification operation to be installed in a desired portable electronic device, the notification operation can be flexibly controlled between the user-desired portable electronic device and an external device. I can do it.

The present invention is not limited to the above-described embodiment, and various modifications can be made.
For example, in the above-described embodiment, the exercise state has been described using three examples of the walking state, the holding state, and the stationary state, but other divisions may be used. Alternatively, a larger number of sections may be determined.

  In the above-described embodiment, the electronic wristwatch has been described as an example. However, another portable watch such as a pocket watch may be used. In addition, the communication system 1 of the present invention is not limited to the combination of the electronic timepiece 40 and the smartphone 10, but the combination of the smartphones 10, the combination of the smartphone 10 and the mobile phone, PDA (Personal Digital Assistant), various tablet terminals, and the like. May be included. With these appropriate combinations, for example, incoming information can be managed by one smartphone 10 or a mobile phone.

  In the above embodiment, the communication system 1 between the portable electronic device and the external device that are connected by Bluetooth is described as an example. However, the combination of three or more devices is also described. It can be applied.

  In the above embodiment, Bluetooth communication is used for short-range wireless communication. However, as long as necessary information can be exchanged, other methods such as optical communication, infrared communication, UWB (Ultra Wide band communication may be used.

  Moreover, although the said embodiment gave and demonstrated as an example the case where the vibration intensity of a vibration motor was raised in the case of a walk state as a change of the operation mode based on an exercise state, it is not restricted to this. For example, a notification operation is usually performed only with a vibration motor, and in the walking state, a notification operation is performed using voice output together, a volume of sound output is increased, a display brightness of the display unit is increased In other words, the display can be switched to a display with a large contrast, a display with a large character size or graphic size, or the like. Further, not only when the output level is raised in the walking state, but conversely, the output level in the walking state or the holding state may be set as a normal output, and the output level in the stationary state may be lowered.

  In the above embodiment, the case where the acceleration sensor is used for the determination of the motion state has been described as an example. However, other measurement devices such as a gyro sensor or a combination with a direction sensor may be used. good.

  In the above embodiment, the display unit or the display operation unit screen, the vibration motor, the piezo element, the LED, and the speaker have been described as examples of the configuration for performing the notification operation. May be used.

  In the above-described embodiment, an incoming call or e-mail has been described as an example of an event in the smartphone 10 that performs notification using the electronic timepiece 40. However, the present invention is not limited to this. For example, it may be coincident with the alarm time set on the smartphone 10, elapse of a timer setting time, operation or situation detection based on measurement values of other measurement sensors included in the smartphone 10, or the like.

Moreover, although the said embodiment disclosed the example which used the memory | storage part 14 which consists of ROM42 and a non-volatile memory as a computer-readable medium of the program based on this invention, it is not limited to this example. As other computer-readable media, portable recording media such as a CD-ROM and a USB memory can be applied. A carrier wave is also applied to the present invention as a medium for providing program data according to the present invention via a communication line.
In addition, details, numerical values, control procedures, and the like of the specific configuration shown in the above embodiment can be changed as appropriate without departing from the spirit of the present invention.

Although several embodiments of the present invention have been described, the scope of the present invention is not limited to the above-described embodiments, but includes the scope of the invention described in the claims and equivalents thereof.
The invention described in the scope of claims attached to the application of this application will be added below. The item numbers of the claims described in the appendix are as set forth in the claims attached to the application of this application.

[Appendix]
<Claim 1>
Wireless communication means for transmitting and receiving data by short-range wireless communication with a set external device;
A measuring means for measuring a physical quantity for determining a predetermined motion state of the own machine;
A notification means for executing a predetermined notification operation;
Notification operation setting for setting whether or not to perform the notification operation and / or operation mode based on the exercise state of the own device based on the measurement by the measurement unit and the exercise state of the external device acquired by the wireless communication unit Means,
A portable electronic apparatus comprising: a notification operation control unit that causes the notification unit to perform the notification operation based on the setting of the notification operation setting unit.
<Claim 2>
An operation condition determining means for determining whether or not a predetermined condition for executing the notification operation is satisfied;
The notification operation control unit performs the notification operation when the notification operation setting unit permits the execution of the notification operation and the operation condition determination unit determines that the predetermined condition is satisfied. The portable electronic device according to claim 1, wherein:
<Claim 3>
The portable electronic device according to claim 2, wherein the notification operation setting unit performs the setting separately for each of the plurality of predetermined conditions.
<Claim 4>
4. The portable type according to claim 2, wherein the predetermined condition includes that a predetermined event occurs in the external device and information indicating the occurrence is received from the external device. Electronic equipment.
<Claim 5>
The notification operation setting means permits the notification operation by the notification means when the exercise state of the external device is different from the exercise state of the own device. The portable electronic device as described.
<Claim 6>
The portable electronic device according to claim 1, wherein the notification operation setting unit performs setting to change an output level of a notification operation by the notification unit.
<Claim 7>
The notification operation setting means requests the external device to transmit information related to the latest exercise state when the exercise state of the own device changes, and acquires the latest exercise state and the own exercise state of the own device. The portable electronic device according to any one of claims 1 to 6, wherein the setting related to the notification operation is updated based on the information.
<Claim 8>
When both the exercise state of the external device and the exercise state of the own device are stationary, a communication disconnecting unit that disconnects communication by the wireless communication unit with the external device;
The mobile device according to any one of claims 1 to 7, further comprising: a communication resuming unit that reconnects the communication when the own device leaves the stationary state with the communication disconnected. Type electronic device.
<Claim 9>
Operating condition determining means for determining whether or not a predetermined condition for executing the notification operation is satisfied;
When the communication resuming unit reconnects communication with the external device, requesting transmission of a predetermined event occurrence history related to the notification operation that occurred in the external device within a period in which communication was disconnected History acquisition means to acquire;
With
The notification operation control means is generated when the notification operation setting means permits execution of the notification operation and the operation condition determination means determines that the predetermined condition is satisfied or has been acquired. The portable electronic device according to claim 8, wherein the notification operation is performed in any case where the occurrence of the predetermined event is included in a history.
<Claim 10>
10. The portable electronic device according to claim 9, further comprising display means for displaying predetermined information relating to the occurrence history acquired by the history acquisition means.
<Claim 11>
The portable electronic device according to claim 1, further comprising mounting means for mounting on a user's arm.
<Claim 12>
A plurality of portable electronic devices according to any one of claims 1 to 11, comprising the plurality of portable electronic devices based on mutual movement states transmitted and received by the short-range wireless communication between the plurality of portable electronic devices. A communication system for setting and controlling the notification operation in each portable electronic device.
<Claim 13>
At least one of the portable electronic devices is
External communication means for transmitting and receiving telephone voice data and / or e-mail data;
Incoming information transmission determination means for determining whether information permitting an incoming notification operation is received from the other portable electronic device;
When it is determined by the incoming information transmission determination means that the information permitting the incoming call notification operation has been received, the incoming call is received to the other portable electronic device when a call and / or e-mail is received. 13. The communication system according to claim 12, further comprising: incoming information transmission setting means for performing setting for transmitting information.
<Claim 14>
A wireless communication means for transmitting / receiving data to / from a set external device by short-range wireless communication, a measurement means for measuring a physical quantity for determining a predetermined motion state of the own device, and a predetermined notification operation A notification operation control method in a portable electronic device comprising:
Notification operation setting for setting whether or not to perform the notification operation and / or operation mode based on the exercise state of the own device based on the measurement by the measurement unit and the exercise state of the external device acquired by the wireless communication unit Step,
A notification operation control method comprising: a notification operation control step for causing the notification means to perform the notification operation based on the setting in the notification operation setting step.
<Claim 15>
A wireless communication means for transmitting / receiving data to / from a set external device by short-range wireless communication, a measurement means for measuring a physical quantity for determining a predetermined motion state of the own device, and a predetermined notification operation A computer used for a portable electronic device comprising:
Notification operation setting for setting whether or not to perform the notification operation and / or operation mode based on the exercise state of the own device based on the measurement by the measurement unit and the exercise state of the external device acquired by the wireless communication unit means,
A program for causing the notification unit to function as a notification operation control unit based on the setting of the notification operation setting unit.

1 Communication System 10 Smartphone 11 CPU
12 ROM
13 RAM
131 exercise state flag storage unit 14 storage unit 141 notification setting program 142 incoming history data storage unit 15 operation unit 16 built-in clock 17 display operation unit 18 driver 19 speaker 20 microphone 21 codec 22 RF transmission / reception circuit 23 communication circuit 24 Bluetooth module 25 UART
26 Acceleration sensor 27 Vibration motor 28 Driver 29 Bus 40 Electronic clock 41 CPU
42 ROM
421 Notification setting program 43 RAM
431 Exercise state flag storage unit 44 Operation unit 45 Timing circuit 51 Display unit 52 Display driver 53 Bluetooth module 54 UART
55 Acceleration sensor 56 Vibration motor 57 Driver 58 Piezo element 59 Driver 60 LED
61 Driver 62 Bus AN11 Antenna AN12 Antenna AN4 Antenna

Claims (13)

Wireless communication means for transmitting / receiving data to / from external devices by short-range wireless communication;
A measuring means for measuring a physical quantity for determining a predetermined motion state of the own machine;
A notification means for executing a predetermined notification operation;
Notification operation setting for setting whether or not to perform the notification operation and / or operation mode based on the exercise state of the own device based on the measurement by the measurement unit and the exercise state of the external device acquired by the wireless communication unit Means,
Based on the setting of the notification operation setting unit, a notification operation control unit that causes the notification unit to perform the notification operation;
History acquisition means for requesting and acquiring the transmission of an occurrence history of a predetermined event related to the notification operation that occurred in the external device within a period in which communication with the external device was disconnected;
With
The notification operation setting means performs setting to change the output level of the notification operation by the notification means,
The notification operation control means causes the notification operation to be performed when the occurrence of the predetermined event is included in the acquired occurrence history. Wireless communication means for transmitting / receiving data to / from external devices by short-range wireless communication;
A measuring means for measuring a physical quantity for determining a predetermined motion state of the own machine;
A notification means for executing a predetermined notification operation;
Notification operation setting for setting whether or not to perform the notification operation and / or operation mode based on the exercise state of the own device based on the measurement by the measurement unit and the exercise state of the external device acquired by the wireless communication unit Means,
Based on the setting of the notification operation setting unit, a notification operation control unit that causes the notification unit to perform the notification operation;
History acquisition means for requesting and acquiring the transmission of an occurrence history of a predetermined event related to the notification operation that occurred in the external device within a period in which communication with the external device was disconnected;
With
The notification operation setting means requests the external device to transmit information related to the latest exercise state when the exercise state of the own device changes, and acquires the latest exercise state and the own exercise state of the own device. Update the settings related to the notification operation based on
The notification operation control unit causes the notification operation to be performed when the acquired occurrence history includes the occurrence of the predetermined event.
A portable electronic device. 3. The portable electronic device according to claim 1, wherein the notification operation setting unit permits the notification operation by the notification unit when the exercise state of the external device is different from the exercise state of the own device. apparatus. The portable electronic device according to any one of claim 1 to 3, characterized in that it comprises display means for displaying the predetermined information relating to the occurrence history acquired by the history acquisition unit. The portable electronic device according to any one of claims 1 to 4 , further comprising mounting means for mounting on a user's arm. The portable electronic device according to any one of claims 1 to 5 and an external device, wherein the mobile electronic device and the external device are in a state of mutual movement transmitted and received by the short-range wireless communication. A communication system for setting and controlling the notification operation in each of the portable electronic device and the external device. Wireless communication means for transmitting / receiving data to / from external devices by short-range wireless communication;
A measuring means for measuring a physical quantity for determining a predetermined motion state of the own machine;
A notification means for executing a predetermined notification operation;
Notification operation setting for setting whether or not to perform the notification operation and / or operation mode based on the exercise state of the own device based on the measurement by the measurement unit and the exercise state of the external device acquired by the wireless communication unit Means,
Based on the setting of the notification operation setting unit, a notification operation control unit that causes the notification unit to perform the notification operation;
A history acquisition means for requesting and acquiring transmission of an occurrence history of a predetermined event related to the notification operation that has occurred in the external device within a period in which communication with the external device has been disconnected,
The notification operation control means includes: a portable electronic device that performs the notification operation when the occurrence history includes the occurrence of the predetermined event;
The external device is
External communication means for transmitting and receiving telephone voice data and / or e-mail data;
Incoming information transmission determination means for determining whether an exercise state is received from the portable electronic device;
Incoming information transmission for performing settings for transmitting incoming information to the portable electronic device when a call and / or e-mail is received when it is determined by the incoming information transmission determining means that the exercise state has been received. And setting means ,
Setting and controlling the notification operation in each of the portable electronic device and the external device based on the movement state of each other transmitted and received by the short-range wireless communication between the portable electronic device and the external device. Communication system to perform. Wireless communication means for transmitting / receiving data to / from an external device by short-range wireless communication, measurement means for measuring a physical quantity for determining a predetermined motion state of the own device, and notification means for executing a predetermined notification operation A notification operation control method in a portable electronic device comprising:
Notification operation setting for setting whether or not to perform the notification operation and / or operation mode based on the exercise state of the own device based on the measurement by the measurement unit and the exercise state of the external device acquired by the wireless communication unit Step,
A notification operation control step for causing the notification means to perform the notification operation based on the setting in the notification operation setting step;
A history acquisition step for requesting and acquiring a transmission history of a predetermined event related to the notification operation that occurred in the external device within a period in which communication with the external device was disconnected;
Including
The notification operation setting step performs setting to change the output level of the notification operation by the notification means,
In the notification operation control step, the notification operation is performed when the occurrence of the predetermined event is included in the acquired occurrence history. Wireless communication means for transmitting / receiving data to / from an external device by short-range wireless communication, measurement means for measuring a physical quantity for determining a predetermined motion state of the own device, and notification means for executing a predetermined notification operation A notification operation control method in a portable electronic device comprising:
Notification operation setting for setting whether or not to perform the notification operation and / or operation mode based on the exercise state of the own device based on the measurement by the measurement unit and the exercise state of the external device acquired by the wireless communication unit Step,
A notification operation control step for causing the notification means to perform the notification operation based on the setting in the notification operation setting step;
A history acquisition step for requesting and acquiring a transmission history of a predetermined event related to the notification operation that occurred in the external device within a period in which communication with the external device was disconnected;
Including
In the notification operation setting step, when the exercise state of the own device changes, the external device is requested to transmit information related to the latest exercise state, and the acquired latest exercise state and the exercise state of the own device Update the settings related to the notification operation based on
In the notification operation control step, the notification operation is performed when the occurrence of the predetermined event is included in the acquired occurrence history. Wireless communication means for transmitting / receiving data to / from an external device by short-range wireless communication, measurement means for measuring a physical quantity for determining a predetermined motion state of the own device, and notification means for executing a predetermined notification operation A computer used in a portable electronic device comprising:
Notification operation setting for setting whether or not to perform the notification operation and / or operation mode based on the exercise state of the own device based on the measurement by the measurement unit and the exercise state of the external device acquired by the wireless communication unit means,
Based on the setting of the notification operation setting means, notification operation control means for causing the notification means to perform the notification operation;
Function as history acquisition means for requesting and acquiring the transmission history of a predetermined event related to the notification operation that occurred in the external device within a period in which communication with the external device was disconnected,
The notification operation setting means performs setting to change the output level of the notification operation by the notification means,
The notification operation control means is a program for causing the notification operation to be performed when the acquired occurrence history includes the occurrence of the predetermined event. Wireless communication means for transmitting / receiving data to / from an external device by short-range wireless communication, measurement means for measuring a physical quantity for determining a predetermined motion state of the own device, and notification means for executing a predetermined notification operation A computer used in a portable electronic device comprising:
Notification operation setting for setting whether or not to perform the notification operation and / or operation mode based on the exercise state of the own device based on the measurement by the measurement unit and the exercise state of the external device acquired by the wireless communication unit means,
Based on the setting of the notification operation setting means, notification operation control means for causing the notification means to perform the notification operation;
History acquisition means for requesting and acquiring a transmission history of a predetermined event related to the notification operation that has occurred in the external device within a period in which communication with the external device has been disconnected
Function as
The notification operation setting means requests the external device to transmit information related to the latest exercise state when the exercise state of the own device changes, and acquires the latest exercise state and the own exercise state of the own device. Update the settings related to the notification operation based on
The notification operation control means is a program for causing the notification operation to be performed when the acquired occurrence history includes the occurrence of the predetermined event. A notification means for executing a predetermined notification operation;
Notification operation setting means for setting the availability of the notification operation and / or the operation mode based on the exercise state of the own device based on the measurement by the measurement means and the exercise state of the external device acquired by the wireless communication means; With
The portable electronic device according to claim 1, wherein the notification operation setting unit performs setting to change an output level of a notification operation by the notification unit. A notification means for executing a predetermined notification operation;
Notification operation setting means for setting the availability of the notification operation and / or the operation mode based on the exercise state of the own device based on the measurement by the measurement means and the exercise state of the external device acquired by the wireless communication means; With
The notification operation setting means requests the external device to transmit information related to the latest exercise state when the exercise state of the own device changes, and acquires the latest exercise state and the own exercise state of the own device. The setting which concerns on alerting | reporting operation | movement is updated based on this, The portable electronic device characterized by the above-mentioned.

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