JP5966826B2 - Warning notification program, communication terminal device, and warning notification method - Google Patents

Description

  The present invention relates to a warning notification program, a communication terminal device, and a warning notification method.

  There are many cases in which a user who uses a mobile terminal makes a discomfort to others by making a loud call in a public place such as a train, a bus, a movie theater or a concert hall.

  Therefore, in order to suppress such a situation, it is conceivable that the mobile terminal is provided with a volume meter, and a warning is issued when the volume of the call is increased by the volume meter.

JP 2002-95044 A JP 2010-154388 A JP 2006-74409 A JP 2010-166406 A JP 2008-47947 A

  However, for example, in a place where the surrounding noise is large, such as in a train, if the volume meter is simply used, the surrounding noise is picked up even though the call voice is small, and the warning is erroneously determined.

  In addition, there is no means for notifying the other person who has a loud voice as well as the voice of the call from a third party, and if the third party verbally alerts another person, it may cause trouble.

  In one aspect, an object is to provide a warning notification program, a communication terminal device, and a warning notification method capable of warning a communication terminal device of another person whose voice is loud.

  In one proposal, the processor of the communication terminal apparatus requests the other communication terminal apparatus to transmit the input sound of the microphone by broadcast wireless communication according to a predetermined operation. Further, the processor collects input sounds corresponding to the transmission request from each communication terminal device, identifies an input sound having a maximum volume of a specific frequency component among the collected input sounds, and identifies the specified input sound. A warning is notified to the communication terminal device that has transmitted.

  In the disclosed aspect, a warning can be notified to a communication terminal device of another person whose voice is loud.

FIG. 1 is an explanatory diagram illustrating an example of a noise warning system according to an embodiment. FIG. 2 is an explanatory diagram illustrating an example of a mobile terminal. FIG. 3 is an explanatory diagram illustrating an example of a program function executed by a processor in the mobile terminal. FIG. 4 is an explanatory diagram showing an example of an operation when extracting a noise volume. FIG. 5 is an explanatory diagram illustrating an example of a warning display. FIG. 6 is an operation sequence showing an example of an operation related to each mobile terminal in the noise warning system. FIG. 7 is a flowchart showing an example of the processing operation of the processor of the mobile terminal on the warning request side related to the first noise warning processing. FIG. 8 is a flowchart showing an example of the processing operation of the processor of the peripheral mobile terminal involved in the noise measurement process. FIG. 9 is a flowchart illustrating an example of the processing operation of the processor of the mobile terminal that is a warning target related to the warning process. FIG. 10 is a flowchart showing an example of the processing operation of the processor of the mobile terminal on the warning request side related to the second noise warning processing. FIG. 11 is an explanatory diagram illustrating an information processing apparatus that executes a warning notification program.

  Hereinafter, embodiments of a warning notification program, a communication terminal device, and a warning notification method disclosed in the present application will be described in detail based on the drawings. The disclosed technology is not limited by the present embodiment. Moreover, you may combine suitably each Example shown below in the range which does not cause contradiction.

  FIG. 1 is an explanatory diagram illustrating an example of a noise warning system according to an embodiment. A noise warning system 1 illustrated in FIG. 1 is a system that notifies a warning from a mobile terminal 2 (2A) of a nearby user to a mobile terminal 2 (2B) of another person who is talking on the train, for example. For convenience of explanation, for example, during a telephone call in a train, that is, the mobile terminal 2B that is the source of the noise, the mobile terminal 2B that is the target of the warning, and the mobile terminal 2 of the user around the mobile terminal 2B that is the target of the warning 2C. Further, the mobile terminal 2 of the user who feels troublesome for the user of the mobile terminal 2B to be warned is assumed to be the mobile terminal 2A on the warning request side that requests the warning.

  FIG. 2 is an explanatory diagram illustrating an example of the mobile terminal 2. The mobile terminal 2 shown in FIG. 2 is a mobile phone such as a smartphone, for example. The portable terminal 2 includes an antenna 11, a wireless unit 12, a speaker 13, a microphone 14, an audio input / output unit 15, a short-range wireless unit 16, a display unit 17, and a key operation unit 18. Furthermore, the mobile terminal 2 includes a storage unit 19 and a processor 20. The storage unit 19 includes a RAM (Random Access Memory) 21 and a ROM (Read Only Memory) 22.

  The wireless unit 12 transmits and receives wireless signals of the mobile phone network via the antenna 11. The audio input / output unit 15 performs audio processing on the sound collected by the microphone 14 and performs audio processing on the audio signal in the radio signal received via the radio unit 12 to output sound from the speaker 13. The short-range wireless unit 16 communicates with, for example, the portable terminal 2 or the like within a short-range wireless system wireless area such as a wireless LAN (Local Area Network). Note that the short-range wireless unit 16 may adopt a method such as Wi-Fi (Wireless Fidelity, registered trademark, the same applies below) communication, Bluetooth (registered trademark, the same applies below) communication, infrared communication, or the like. The display unit 17 is an output interface that displays various information on the screen. The key operation unit 18 is an input interface that detects a key operation of the mobile terminal 2.

  The RAM 21 is a memory area for storing various information. The ROM 22 stores various programs such as a warning notification program. The processor 20 controls the mobile terminal 2 as a whole. Then, the processor 20 reads out the warning notification program stored in the ROM 22 and executes processes of various functions based on the read out warning notification program.

  FIG. 3 is an explanatory diagram illustrating an example of each process executed by the processor 20 in the mobile terminal 2. The processor 20 shown in FIG. 3 includes a wireless control unit 31, a call control unit 32, a short-range wireless control unit 33, a microphone control unit 34, a display control unit 35, and an input control unit 36 as processes of various functions. A noise measuring unit 37, a warning determining unit 38, and a control unit 39. The wireless control unit 31 functions as a process for controlling the wireless unit 12. The call control unit 32 functions as a process for controlling the call connection of the wireless unit 12. The short-range wireless control unit 33 functions as a process for controlling the short-range wireless unit 16. The microphone control unit 34 functions as a process for controlling ON / OFF of the microphone 14. The display control unit 35 functions as a process for controlling the display unit 17. The input control unit 36 functions as a process for controlling the key operation unit 18.

  When the noise measurement unit 37 detects a broadcast signal for starting noise measurement from the mobile terminal 2A on the warning request side, it functions as a process for measuring the input sound of the microphone 14. Note that the mobile terminal 2A on the warning request side transmits a broadcast signal for starting noise measurement by short-range wireless communication, regardless of usage conditions such as waiting, calling, and data communication. The noise measurement unit 37 turns on the microphone 14 through the microphone control unit 34 for a predetermined measurement time, for example, 10 seconds, and measures the input sound for the measurement time through the microphone 14.

  FIG. 4 is an explanatory diagram showing an example of an operation when extracting a noise volume. The noise measurement unit 37 analyzes the frequency of the input sound in units of 2 seconds out of the input sound for the measurement time (10 seconds). The noise measuring unit 37 obtains the frequency component of the input sound when there is a voice and the frequency component of the input sound when there is no voice from the frequency component of the input sound in units of 2 seconds. Then, as shown in FIG. 4, the noise measurement unit 37 determines the volume of the difference between the volume of the frequency component of the input sound at the time when there is sound and the volume of the frequency component of the input sound when there is no sound as the sound of the specific frequency. Extracted as a noise volume as a component. The audio component has a specific frequency of about 500 Hz to 2000 Hz, for example. The noise measuring unit 37 notifies the alarm requesting mobile terminal 2A of the noise volume extracted from the input sound in units of 2 seconds and the destination information of the mobile terminal 2 through the short-range wireless unit 16. The destination information is, for example, the IP address of the mobile terminal 2. Then, the noise measuring unit 37 notifies the alarm requesting mobile terminal 2A of all five 2-second unit noise volumes corresponding to the measurement time (10 seconds).

  The warning determination unit 38 functions, for example, as a process of receiving noise volume from the surrounding mobile terminal 2C and specifying destination information of the mobile terminal 2B to be warned based on the acquired noise volume. For example, when receiving the noise volume and destination information from the peripheral mobile terminal 2C, the warning determination unit 38 sequentially stores the noise volume in units of 2 seconds in the RAM 21 for each destination information of each peripheral mobile terminal 2C. The warning determination unit 38 determines, for example, that the noise level is 50 dB or more and the largest mobile terminal 2 is the warning target mobile terminal 2B from the noise level for each destination information of the mobile terminal 2 stored in the RAM 21, and the warning is given. The destination information of the target mobile terminal 2B is specified. Note that the warning determination unit 38 determines that the mobile terminal 2 with the highest noise volume is the mobile terminal 2B to be warned that the user is talking. The warning determination unit 38 notifies the warning target mobile terminal 2B of the warning through the short-range wireless unit 16 based on the specified destination information of the warning target mobile terminal 2B.

  The control unit 39 functions as a process for controlling the entire processor 20. For example, when receiving a warning from the mobile terminal 2 </ b> A on the warning request side through the short-range wireless unit 16, the control unit 39 of the mobile terminal 2 </ b> B targeted for warning displays the warning on the display unit 17 through the display control unit 35. FIG. 5 is an explanatory diagram illustrating an example of a warning display. The warning displayed on the display unit 17 is, for example, a message content such as “Please keep quiet because the surroundings are annoying”. In addition, the control unit 39 of the mobile terminal 2B to be warned performs, for example, a vibration ON operation in response to the warning. Further, when the warning is received and the current communication status is during a call, the control unit 39 interrupts and outputs the content of the warning message to the call voice. Further, when the control unit 39 receives a warning and determines that the current communication status is busy, the control unit 39 increments the number of warnings by +1. Then, when the number of warnings reaches a limit number, for example, three times, the control unit 39 turns off the power of the mobile terminal 2 and forcibly ends the call in progress.

  Next, the operation of the noise warning system 1 of the present embodiment will be described. FIG. 6 is an operation sequence showing an example of processing operations related to the portable terminal 2 in the noise warning system 1. For convenience of explanation, it is assumed that there are three portable terminals 2 within the short-range wireless area range of the wireless LAN. The mobile terminal 2A on the warning request side shown in FIG. 6 transmits a broadcast signal to each mobile terminal 2 located within the short-range wireless area range (step S1). Note that the mobile terminals 2 located within the short-range wireless area range are, for example, two mobile terminals 2 (IP-B, IP-C).

  The mobile terminal 2A on the warning request side notifies each mobile terminal 2 within the short-range wireless area range of “starting noise measurement” in SSID (Service Set Identifier) additional information by broadcasting (step S2). When the “IP-B” mobile terminal 2 receives the start of noise measurement, the microphone 14 is turned on for a certain measurement time to measure the input sound, and the noise measurement process is performed to extract the noise volume based on the measurement result. (Step S3A). Then, the portable terminal 2 of “IP-B” sequentially notifies the warning requesting portable terminal 2A of the noise volume sequentially extracted by the noise measurement process through the short-range wireless unit 16 (step S4A).

  In addition, when the “IP-C” portable terminal 2 receives the start of noise measurement, the microphone 14 is turned on for a predetermined time to measure the input sound, and the noise measurement process for extracting the noise volume based on the measurement result is executed. (Step S3B). Then, the portable terminal 2 of “IP-C” sequentially notifies the warning requesting portable terminal 2A of the noise volume sequentially extracted by the noise measurement process through the short-range wireless unit 16 (step S4B).

  The mobile terminal 2A on the warning request side, based on the noise volume acquired from each mobile terminal 2, is the mobile terminal 2B that is the source of the noise and the mobile terminal 2 that transmitted the maximum noise volume with a noise volume of 50 dB or more. Specify (step S5). In the example of FIG. 6, the mobile terminal 2A on the warning request side is “IP-C” since the mobile terminal 2 that has transmitted the maximum noise volume based on the noise volume is “IP-C”. Is identified as the mobile terminal 2B to be warned. Then, the mobile terminal 2A on the warning request side notifies the mobile terminal 2 of “IP-C”, which is the mobile terminal 2B to be warned, through the short-range wireless unit 16 (step S6).

  Next, an example of the processing operation of each mobile terminal 2 related to the noise warning system 1 will be described. FIG. 7 is a flowchart showing an example of processing operation on the processor 20 side of the portable terminal 2A on the warning request side related to the first noise warning processing. The first noise warning process shown in FIG. 7 is a process on the mobile terminal 2A side on the warning request side for notifying the mobile terminal 2 of a user who is talking or noisy within the short-range wireless area range of the wireless LAN. It is. The user of the mobile terminal 2A on the warning request side requests activation of the first noise warning process through the key operation unit 18 when there is a user who speaks loudly in the short-range wireless area range.

  The control unit 39 in the processor 20 of the mobile terminal 2A on the warning request side determines whether or not the activation operation of the first noise warning process has been detected (step S11). When the short-range wireless control unit 33 detects an activation operation (Yes at Step S11), the short-range wireless control unit 33 searches the nearby portable terminal 2C within the short-range wireless area range through the short-range wireless unit 16 (Step S12). Based on the search result, the short-range wireless control unit 33 requests communication with the portable terminal 2C in the vicinity of the short-range wireless area (step S13).

  The short-range wireless control unit 33 determines whether communication with the peripheral mobile terminal 2C has been established in response to a communication request to each peripheral mobile terminal 2C (step S14). If the short-range wireless control unit 33 has established communication with the surrounding portable terminal 2C (Yes in step S14), the short-range wireless control unit 33 determines whether communication establishment with all the surrounding portable terminals 2C in the communication request has been completed. (Step S15).

  When the communication establishment with all the surrounding mobile terminals 2C is completed (Yes at Step S15), the warning determination unit 38 adds “noise measurement start” in the additional information of the SSID, and all the communication establishments are established. Broadcast to the peripheral portable terminal 2C (step S16). As shown in the noise measurement process of FIG. 8 described later, the peripheral mobile terminal 2C adjusts the noise volume within the short-range wireless area range of the wireless LAN in response to the broadcast of “start noise measurement” from the mobile terminal 2A on the warning request side. The extracted noise volume is notified to the mobile terminal 2A on the warning request side.

  The warning determination unit 38 determines whether or not the destination information and the noise volume are received from each peripheral portable terminal 2C through the short-range wireless unit 16 (step S17). When receiving the destination information and the noise volume from the peripheral mobile terminal 2C (Yes in Step S17), the warning determination unit 38 stores the noise volume in the RAM 21 for each destination information of the peripheral mobile terminal 2C (Step S18).

  The warning determination unit 38 stores the noise volume for each destination information of the peripheral portable terminal 2C in the RAM 21, and then determines whether or not the storage of all the noise volumes within the measurement time is completed from all the peripheral portable terminals 2C. (Step S19). When the storage of all the noise volumes within the measurement time is completed (Yes at Step S19), the warning determination unit 38 sets the maximum mobile terminal 2 with the noise volume within the measurement time stored in the RAM 21 as a warning target. The mobile terminal 2B is specified (step S20). Note that the warning determination unit 38 uses five noise levels in units of 2 seconds for each portable terminal 2 when specifying the largest portable terminal 2 as a warning target portable terminal 2B with a noise volume of 50 dB or more. This is to avoid a silent state.

  After identifying the warning target mobile terminal 2B, the warning determination unit 38 notifies the warning target mobile terminal 2B through the short-range wireless unit 16 (step S21), and ends the processing operation illustrated in FIG. .

  When the activation operation is not detected (No at Step S11), the control unit 39 ends the processing operation illustrated in FIG. When the communication with the nearby portable terminal 2C is not established (No at Step S14), the short-range wireless control unit 33 determines whether the communication with the neighboring portable terminal 2C has been established. The process proceeds to step S14. If the short-range wireless control unit 33 has not completed communication establishment with all the surrounding portable terminals 2C (No at Step S15), the short-range wireless control unit 33 determines whether or not communication with the surrounding portable terminals 2C has been established. To determine, the process proceeds to step S14.

  When the destination information and the noise volume have not been received from the peripheral mobile terminal 2C (No at Step S17), the control unit 39 determines whether or not the total noise volume within the measurement time has been stored from all the peripheral mobile terminals 2C. In order to determine, the process proceeds to step S19.

  The processor 20 of the portable terminal 2A on the warning request side of the noise warning process shown in FIG. 7 broadcasts the noise measurement start to the portable terminal 2 within the short-range wireless area range according to a predetermined operation, and each portable terminal Collect noise volume from 2. Furthermore, the processor 20 collects the noise volume from each peripheral mobile terminal 2C, identifies the maximum mobile terminal 2 having a noise volume of 50 dB or more as the warning target mobile terminal 2B, and the warning target mobile terminal 2B. To alert you. As a result, the user of the mobile terminal 2A on the warning request side specifies the mobile terminal 2B to be warned without knowing the destination information of the mobile terminal 2B to be warned, and warns the mobile terminal 2B to be warned. Can be notified.

  Note that the control unit 39 performs the process of step S16 when communication establishment with all peripheral mobile terminals is completed in step S15, but is not limited to this, and the peripheral communication establishment completed within a predetermined time. The process of step S16 may be performed on the mobile terminal.

  FIG. 8 is a flowchart showing an example of the processing operation of the processor 20 on the peripheral mobile terminal 2C side related to the noise measurement process. In the noise measurement processing shown in FIG. 8, when the surrounding portable terminal 2C in the short-range wireless area range detects the start of noise measurement, the input sound of the microphone 14 is measured for a certain time, and the noise volume every 2 seconds within the measurement time. Is extracted, and the noise volume is notified to the mobile terminal 2A on the warning request side.

  In FIG. 8, the short-range wireless control unit 33 in the processor 20 on the peripheral mobile terminal 2C side determines whether or not a broadcast signal is received through the short-range wireless unit 16 (step S31). When the short-range wireless control unit 33 receives a broadcast signal (Yes at Step S31), the short-range wireless control unit 33 determines whether or not “noise measurement start” is included in the SSID additional information of the broadcast signal (Step S32).

  The noise measurement unit 37 starts the noise measurement operation (step S33) when there is “start noise measurement” in the SSID additional information (Yes in step S32). Note that the noise measurement unit 37 starts the input sound measurement operation by turning on the microphone 14 through the microphone control unit 34 for a predetermined measurement time, for example, 10 seconds. In addition, a silence state can be avoided by setting the fixed measurement time to, for example, 10 seconds.

  The noise measurement unit 37 analyzes the frequency component of the input sound in units of 2 seconds within the measurement time (10 seconds) (step S34), and for each frequency component at the time when there is sound, among the frequency components of the input sound in units of 2 seconds. Is obtained (step S35). The noise measuring unit 37 acquires the volume for each frequency component at the time of no sound among the frequency components of the input sound in units of 2 seconds (step S36). The noise measuring unit 37 extracts the difference between the volume for each frequency component at the time of voice and the volume for each frequency component at the time of no voice as a noise volume of a specific frequency that is a human voice component (step S37). As a result, the noise measurement unit 37 can extract the noise volume in units of 2 seconds within the measurement time. In addition, the silence state can be avoided by separating the measurement time in units of 2 seconds and extracting a plurality of noise volumes.

  The short-range wireless control unit 33 notifies the extracted noise volume and its destination information through the short-range wireless unit 16 to the mobile terminal 2A on the warning request side that has requested the start of noise measurement (step S38). The noise measurement unit 37 determines whether or not all notifications of noise volume in units of 2 seconds within the measurement time (10 seconds) have been completed (step S39).

  When the notification of the noise volume in units of 2 seconds within the measurement time (10 seconds) is completed (Yes at Step S39), the noise measurement unit 37 ends the processing operation illustrated in FIG. If the notification of the noise volume for the measurement time has not been completed (No at Step S39), the noise measurement unit 37 proceeds to Step S34 in order to perform frequency analysis of the next input sound in units of 2 seconds.

  When the processor 20 of the peripheral portable terminal 2C involved in the noise measurement processing shown in FIG. 8 receives the start of noise measurement from the warning requesting portable terminal 2A, the microphone 14 is turned on for a certain measurement time to measure the input sound. The input sound is analyzed in frequency every 2 seconds. The processor 20 analyzes the frequency of the input sound in units of 2 seconds, and extracts the noise volume in units of 2 seconds, which is a voice component, based on the difference between the volume of the frequency component at the time of voice and the volume of the frequency component at the time of no voice. Furthermore, the processor 20 sequentially extracts the noise volume in units of 2 seconds, and notifies the noise volume and destination information to the mobile terminal 2A on the warning request side. Then, the processor 20 notifies all of the noise volume in units of 2 seconds corresponding to the measurement time to the mobile terminal 2A on the warning request side.

  FIG. 9 is a flowchart showing an example of the processing operation of the processor 20 on the mobile terminal 2B side to be warned related to the warning processing. The warning process illustrated in FIG. 9 is a process of executing a processing operation in response to a warning when the warning-target mobile terminal 2B receives a warning from the mobile terminal 2A on the warning request side.

  In FIG. 9, the short-range wireless control unit 33 in the processor 20 on the warning target mobile terminal 2B side determines whether or not a warning is received from the mobile terminal 2A on the warning request side (step S41). When receiving a warning from the mobile terminal 2A on the warning request side (Yes in step S41), the control unit 39 displays a warning message corresponding to the warning on the display unit 17 and turns on the vibration operation corresponding to the warning (step S41). S42). As a result, the user of the mobile terminal 2B targeted for warning is aware of inconvenience to his surroundings based on the warning display and vibration.

  The control unit 39 determines whether or not the current communication status is a call (step S43). If the current communication status is during a call (Yes at Step S43), the control unit 39 interrupts and outputs the voice announcement of the warning message to the call voice (Step S44). As a result, the user of the mobile terminal 2B to be warned is aware of inconvenience to his / her surroundings through voice announcements. Further, after interrupting and outputting the voice announcement to the call voice, the control unit 39 increments the number of warnings by +1 (step S45), and determines whether the number of warnings is the limit number (step S46).

  When the number of warnings is the limit number (Yes at Step S46), the control unit 39 turns off the power and forcibly ends the call (Step S47), and ends the processing operation shown in FIG. As a result, the user of the mobile terminal 2B to be warned is aware of inconvenience to his / her surroundings by forced termination of the call. If the warning is not received (No at Step S41), or if the current communication status is not busy (No at Step S43), the control unit 39 ends the processing operation illustrated in FIG.

  If the number of warnings is not the limit number (No at Step S46), the control unit 39 determines whether or not a warning has been received from the mobile terminal 2A on the warning request side (Step S48). When receiving a warning from the mobile terminal 2A on the warning request side (Yes at Step S48), the control unit 39 proceeds to Step S43 to determine whether or not the current communication status is in communication.

  If the control unit 39 has not received a warning from the mobile terminal 2A on the warning request side (No at Step S48), the control unit 39 proceeds to Step S48 in order to determine whether or not a warning has been received.

  When receiving the warning from the mobile terminal 2A on the warning request side, the processor 20 on the warning target mobile terminal 2B related to the warning processing shown in FIG. 9 executes a warning display or a vibration operation corresponding to the warning. As a result, the user of the mobile terminal 2B targeted for warning can be aware of inconvenience to his / her surroundings by warning display or vibration.

  When receiving a warning during a call, the processor 20 interrupts and outputs a voice announcement corresponding to the warning to the call voice. As a result, the user of the mobile terminal 2 </ b> B targeted for warning can be aware of inconvenience to his / her surroundings through a warning voice announcement.

  When the number of warnings reaches the limit number, the processor 20 forcibly ends the call. As a result, it is possible to stop the call even for the partner of the mobile terminal 2B to be warned that ignores the warning and does not stop the call even though the warning has been given a plurality of times.

  The mobile terminal 2A on the warning request side in this embodiment broadcasts the noise measurement start to the peripheral mobile terminals 2C in the short-range wireless area range according to a predetermined operation, and from the peripheral mobile terminals 2C within the same measurement time. Collect the noise volume. The mobile terminal 2A on the warning request side specifies the mobile terminal 2 having the collected noise volume of 50 dB or more and the maximum as the mobile terminal 2B to be warned, and notifies the warning to the mobile terminal 2B that has been warned. As a result, the user of the mobile terminal 2A on the warning request side can warn the mobile terminal 2B to be warned without knowing the destination information of the mobile terminal 2B to be warned.

  Furthermore, when receiving a warning from the mobile terminal 2A on the warning request side, the mobile terminal 2B to be warned executes screen display and a vibration operation of a warning screen. As a result, the user of the mobile terminal 2 </ b> A on the warning request side can make the user of the mobile terminal 2 </ b> B subject to the warning aware of inconvenience to the surroundings through the warning screen or vibration.

  Further, when the peripheral portable terminal 2C receives the broadcast signal for starting noise measurement from the warning requesting portable terminal 2A, the microphone 14 is turned on for a predetermined measurement time, and the input sound for the measurement time is measured. Further, the peripheral mobile terminal 2C determines the difference between the volume of the frequency component of the input sound when there is sound and the volume of the frequency component of the input sound when there is no sound, for every 2 seconds of input sound within the measurement time. The noise volume of a specific frequency that is a voice component is extracted. As a result, the surrounding portable terminal 2 </ b> C can extract the noise volume of the surrounding voice portion using the microphone 14.

  Further, the mobile terminal 2A on the warning request side not only makes the call voice in a public place where calls are prohibited, but also uses a mobile terminal 2 of a third party whose voice is loud as the mobile terminal 2B to be warned. Can be identified based on the surrounding noise volume.

  In the first noise warning process of FIG. 7, the warning requesting mobile terminal 2 </ b> A broadcasts a wireless LAN short-range wireless communication to notify the surrounding mobile terminals 2 </ b> C in the short-range wireless area range of the start of noise measurement. . However, the noise measurement start broadcast may be executed in the tethering mode. The noise warning process in this case will be described as a second noise warning process. FIG. 10 is a flowchart showing an example of the processing operation of the processor 20 on the mobile terminal 2A side on the warning request side related to the second noise warning process.

  The control unit 39 in the processor 20 on the portable terminal 2A side on the warning request side in FIG. 10 determines whether or not the activation operation of the second noise warning process is detected (step S51). When the activation operation is detected (Yes at Step S51), the control unit 39 activates the tethering mode (Step S52).

  The warning determination unit 38 adds “noise measurement start” to the SSID additional information in the SSID broadcast message (step S53), and notifies the peripheral portable terminal 2C of the SSID broadcast message (step S54). Then, the short-range wireless control unit 33 determines whether or not there is a communication connection request from the surrounding mobile terminal 2C (step S55). When there is a communication connection request from the peripheral mobile terminal 2C (Yes in Step S55), the short-range wireless control unit 33 establishes a communication session with the peripheral mobile terminal 2C that has made the communication connection request (Step S56). ).

  The warning determination unit 38 determines whether or not the destination information and the noise volume are received from each peripheral portable terminal 2C through the short-range wireless unit 16 (step S57). When receiving the destination information and the noise volume from the peripheral mobile terminal 2C (Yes in Step S57), the warning determination unit 38 stores the noise volume in the RAM 21 for each destination information of the peripheral mobile terminal 2C (Step S58).

  The warning determination unit 38 stores the noise volume for each destination information of the peripheral portable terminal 2C in the RAM 21, and then determines whether or not the storage of all the noise volumes within the measurement time is completed from all the peripheral portable terminals 2C. Determination is made (step S59). When the storage of all noise volumes within the measurement time has been completed (Yes at step S59), the warning determination unit 38 selects the portable terminal 2 with the maximum noise volume within the measurement time stored in the RAM 21 as the warning target portable terminal 2B. (Step S60).

  After identifying the warning target mobile terminal 2B, the warning determination unit 38 notifies the warning target mobile terminal 2B through the short-range wireless unit 16 (step S61) and cancels the tethering mode (step S62). Then, the processing operation shown in FIG.

  When the activation operation is not detected (No at Step S51), the control unit 39 ends the processing operation illustrated in FIG. If there is no communication connection request from the peripheral mobile terminal 2C (No at Step S55), the short-range wireless control unit 33 proceeds to Step S55 to determine whether or not there is a communication connection request from the peripheral mobile terminal 2C. Transition.

  When the destination information and the noise volume are not received from the peripheral mobile terminal 2C (No in step S57), the control unit 39 determines whether or not all the noise volumes within the measurement time are stored from all the peripheral mobile terminals 2C. To determine, the process proceeds to step S59. In addition, when the storage of all noise volumes within the measurement time is not completed from the surrounding mobile terminal 2C (No in step S59), the control unit 39 has received the noise volume and destination information from the surrounding mobile terminal 2C. The process proceeds to step S57 to determine whether or not.

  The processor 20 of the mobile terminal 2A on the warning request side of the second noise warning process shown in FIG. 10 broadcasts the start of noise measurement to the mobile terminals 2 in the short-range wireless area range in the tethering mode according to a predetermined operation. Information is collected and the noise volume is collected from each portable terminal 2. Furthermore, the processor 20 collects the noise volume from the mobile terminals 2 in the vicinity, identifies the mobile terminal 2 having a maximum noise volume of 50 dB or more as the warning target mobile terminal 2B, and the warning target mobile terminal 2B. To alert you. As a result, the user of the mobile terminal 2A on the warning request side specifies the mobile terminal 2B to be warned without knowing the destination information of the mobile terminal 2B to be warned, and warns the mobile terminal 2B to be warned. Can be notified. Then, it is possible to make the user of the mobile terminal 2 </ b> B subject to warning aware of inconvenience around him / her.

  In the above embodiment, the measurement time of the noise measurement related to the noise measurement process of the surrounding mobile terminal 2 is 10 seconds, the noise volume is 2 seconds, and the limit number of warnings is 3. It is not limited to this, and can be changed as appropriate.

  In addition, each component of each part illustrated does not necessarily need to be physically configured as illustrated. In other words, the specific form of distribution / integration of each part is not limited to the one shown in the figure, and all or a part thereof may be functionally or physically distributed / integrated in arbitrary units according to various loads and usage conditions. Can be configured.

  Furthermore, various processing functions performed in each device are performed on a CPU (Central Processing Unit) (or a microcomputer such as an MPU (Micro Processing Unit), MCU (Micro Controller Unit), etc.) in whole or in part. You may make it perform. Various processing functions may be executed entirely or arbitrarily on a program that is analyzed and executed by a CPU (or a microcomputer such as an MPU or MCU) or hardware based on wired logic. Needless to say.

  By the way, the various processes described in the present embodiment can be realized by executing a program prepared in advance by the information processing apparatus. Therefore, in the following, an example of an information processing apparatus that executes a program having the same function as in the above embodiment will be described. FIG. 11 is an explanatory diagram illustrating an information processing apparatus that executes a warning notification program.

  The information processing apparatus 100 that executes the warning notification program illustrated in FIG. 11 includes a ROM 110, a RAM 120, a processor 130, an operation unit 140, a display unit 150, and a communication unit 160.

  The ROM 110 stores in advance a warning notification program that exhibits the same function as in the above embodiment. Note that the warning notification program may be recorded on a recording medium readable by a drive (not shown) instead of the ROM 110. Further, as the recording medium, for example, a portable recording medium such as a CD-ROM, a DVD disk, a USB memory, an SD card, or a semiconductor memory such as a flash memory may be used. As shown in FIG. 11, the warning notification program includes a request program 110A, a collection program 110B, a specific program 110C, and a notification program 110D. Note that the programs 110A, 110B, 110C, and 110D may be appropriately integrated or distributed.

  Then, the processor 130 reads these programs 110A, 110B, 110C, and 110D from the ROM 110, and executes these read programs. As shown in FIG. 11, the processor 130 functions the programs 110A, 110B, 110C, and 110D as a request process 130A, a collection process 130B, a specific process 130C, and a notification process 130D.

  The processor 130 requests another communication terminal device to transmit the input sound of the microphone by broadcast wireless communication according to a predetermined operation. The processor 130 collects input sounds corresponding to the transmission request from each communication terminal device, and identifies an input sound having a maximum volume of a specific frequency component among the collected input sounds. Furthermore, the processor 130 notifies the warning to the communication terminal device that has transmitted the specified input sound. As a result, it is possible to warn the communication terminal device of another person whose voice is loud.

  As described above, the following supplementary notes are further disclosed regarding the embodiment including the present example.

(Supplementary note 1) In the processor of the communication terminal device,
In response to a predetermined operation, request the transmission of the input sound of the microphone to the other communication terminal device by broadcast wireless communication,
Collect the input sound corresponding to the request for transmission from each communication terminal device,
From the collected input sounds, identify the input sound with the maximum volume of a specific frequency component,
A warning notification program characterized by causing each communication terminal device that has transmitted the specified input sound to execute a process for notifying a warning.

(Supplementary Note 2) The process of specifying the input sound with the maximum volume of the specific frequency component is as follows:
The supplementary note 1 is a process for identifying an input sound having a maximum volume of the specific frequency component from the volume of the specific frequency component in the input sound in the same time period collected from each communication terminal device. Warning alert program.

(Supplementary Note 3) The communication terminal device that has received the notified warning is:
The warning notification program according to appendix 1, wherein a processing operation corresponding to the warning is executed.

(Supplementary Note 4) The input sound collected from the communication terminal device is:
The volume of the frequency component of the input sound at the time when there is sound in the input sound measured within a certain measurement time in response to a request for transmission of the input sound by the communication terminal device, and the input sound measured within the measurement time The warning notification program according to supplementary note 1, which is a sound noise volume of a sound which is a difference from a volume of a frequency component of an input sound at the time of no sound.

(Additional remark 5) It is a communication terminal device which has a processor,
The processor is
In response to a predetermined operation, request the transmission of the input sound of the microphone to the other communication terminal device by broadcast wireless communication,
Collect the input sound corresponding to the request for transmission from each communication terminal device,
From the collected input sounds, identify the input sound with the maximum volume of a specific frequency component,
A communication terminal device that performs a process of notifying a warning to a communication terminal device that has transmitted the specified input sound.

(Appendix 6) A warning notification method for a communication terminal device,
The communication terminal device
In response to a predetermined operation, request the transmission of the input sound of the microphone to the other communication terminal device by broadcast wireless communication,
Collect the input sound corresponding to the request for transmission from each communication terminal device,
From the collected input sounds, identify the input sound with the maximum volume of a specific frequency component,
A warning notification method comprising: performing each process of notifying a warning to a communication terminal device that has transmitted the specified input sound.

(Appendix 7) An information processing apparatus having a processor and a memory,
The processor is
In response to a predetermined operation, request the transmission of the input sound of the microphone to the other communication terminal device by broadcast wireless communication,
Collect the input sound corresponding to the request for transmission from each communication terminal device,
From the collected input sounds, identify the input sound with the maximum volume of a specific frequency component,
An information processing apparatus that executes each process of notifying a warning to a communication terminal apparatus that has transmitted a specified input sound.

DESCRIPTION OF SYMBOLS 1 Noise warning system 2 Portable terminal 2A Warning request side portable terminal 2B Warning target portable terminal 2C Peripheral portable terminal 14 Microphone 20 Processor

Claims (6)

In the processor of the communication terminal device,
Search for other communication terminal devices in the short-range wireless communication area according to a predetermined operation, establish communication with the other communication terminal devices based on the search result, and establish other communication terminals Request the device to send the microphone input sound by broadcast ,
In response to the request for transmission for each other communication terminal device, the sound collection of the input sound within a predetermined time is started, and the input sound of the same time zone obtained for each communication terminal device and the destination information of the communication terminal device are Collect and
From the collected input sounds, identify the input sound with the maximum volume of a specific frequency component,
A warning notification program for causing a communication terminal device that has transmitted a specified input sound based on the destination information to execute a process for notifying a warning. The process of specifying the input sound having the maximum volume of the specific frequency component is as follows:
2. The processing according to claim 1, wherein the input sound having the maximum volume of the specific frequency component is specified from the volume of the specific frequency component in the input sound in the same time period collected from each communication terminal device. The warning notification program described. The communication terminal device that has received the notified warning is:
The warning notification program according to claim 1, wherein a processing operation corresponding to the warning is executed. The input sound collected from the communication terminal device is
The volume of the frequency component of the input sound at the time when there is sound in the input sound measured within a certain measurement time in response to a request for transmission of the input sound by the communication terminal device, and the input sound measured within the measurement time The warning notification program according to claim 1, which is a sound volume of a sound that is a difference from a volume of a frequency component of an input sound at the time of no sound. A communication terminal device having a processor,
The processor is
Search for other communication terminal devices in the short-range wireless communication area according to a predetermined operation, establish communication with the other communication terminal devices based on the search result, and establish other communication terminals Request the device to send the microphone input sound by broadcast ,
In response to the request for transmission for each other communication terminal device, the sound collection of the input sound within a predetermined time is started, and the input sound of the same time zone obtained for each communication terminal device and the destination information of the communication terminal device are Collect and
From the collected input sounds, identify the input sound with the maximum volume of a specific frequency component,
Based on the destination information, a communication terminal apparatus that performs a process of informing a warning to a communication terminal apparatus that has transmitted the specified input sound. A warning notification method for a communication terminal device,
The communication terminal device
Search for other communication terminal devices in the short-range wireless communication area according to a predetermined operation, establish communication with the other communication terminal devices based on the search result, and establish other communication terminals Request the device to send the microphone input sound by broadcast ,
In response to the request for transmission for each other communication terminal device, the sound collection of the input sound within a predetermined time is started, and the input sound of the same time zone obtained for each communication terminal device and the destination information of the communication terminal device are Collect and
From the collected input sounds, identify the input sound with the maximum volume of a specific frequency component,
A warning notification method, comprising: performing each process of notifying a warning to the communication terminal device that has transmitted the specified input sound based on the destination information .

Images