JP4078946B2 - Environment-sensitive notification control device, environment-sensitive notification control method, and environment-sensitive notification control program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an environment-sensitive notification control device, an environment-sensitive notification control method, and an environment-sensitive notification control program that control a notification operation in accordance with a setting condition or an environmental condition of a device, for example, ambient temperature, humidity, etc. The present invention relates to an environment-sensitive notification control apparatus, an environment-sensitive notification control method, and an environment-sensitive notification control program that automatically adjusts a notification operation according to environmental conditions.
[0002]
[Prior art]
Conventionally, as a method of adjusting the volume of the ringing tone of the mobile phone, there is a method of setting the volume of the ringing tone to be small at first and then gradually increasing it. According to this method, when the mobile phone is in a quiet place, it is possible to respond to the ringing tone with a small volume.
Therefore, there is no possibility of disturbing the surroundings with a loud ringing tone.
In addition, when the mobile phone is in a noisy place, a ringing sound is produced with a large volume after a predetermined time has elapsed from the ringing sound, so that it is possible to respond to an incoming call regardless of the surrounding noise.
[0003]
As a conventional technique that improves the method of setting the ringer volume to a low value at the beginning and then gradually increasing it, the surrounding noise level is recognized using a microphone, and the notification sound such as the ringtone volume, sound quality, and incoming pattern is received. There is a way to change. Some of the methods prevent the notification sound volume from being too low to notice the notification sound, or the notification sound volume is too high to disturb the surroundings (see Patent Document 1).
[0004]
Further, as a conventional technique similar to the present invention, there is one that corrects a sound level corresponding to a frequency band in accordance with setting conditions and environmental conditions of an acoustic device for an electric / electronic musical instrument. Thereby, there is one that always maintains the same sound without being affected by environmental conditions such as temperature, humidity, performance place, output destination, and performance conditions (see Patent Document 2).
[0005]
[Patent Document 1]
Japanese Patent Application Laid-Open No. 10-075485
[Patent Document 2]
JP-A-9-62272
[0006]
[Problems to be solved by the invention]
However, Patent Document 1 has the following two problems.
The first problem is that the ambient noise level of the mobile phone is not reflected in the incoming call operation as it is, and the notification volume corresponding to the ambient noise level may not be set.
The reason is that it is not known whether or not the mobile phone is present at the user's hand, and may be stored in an inner pocket of clothes or the like.
The second problem is that the sound may continue to be loud at any time.
The reason is that the user may leave the mobile phone and cannot respond.
[0007]
The present invention has been made in view of the above circumstances, and is an environment-sensitive notification control device and environment-sensitive notification that change notification operations such as volume of incoming notification sound, incoming pattern and blinking pattern according to the surrounding environment. It is an object to provide a control method and an environment sensitive notification control program.
[0008]
[Means for Solving the Problems]
  In order to achieve this object, the present invention has the following features.
[0009]
  The environment sensitive notification control apparatus according to the present invention is:
  An external temperature sensor that detects the ambient temperature and an acoustic sensor that detects the ambient sound, and based on the temperature change detected by the external temperature sensor and the acoustic change detected by the acoustic sensor, An environment-sensitive notification control device that controls a notification operation,
  The external temperature sensor is mounted on an earphone microphone,
  When starting the notification operationWhen the temperature change detected by the external temperature sensor mounted on the earphone microphone does not exceed a predetermined threshold, the notification sound is notified with a loud sound and detected by the external temperature sensor mounted on the earphone microphone. When the temperature change exceeds a predetermined threshold, the environment sensitive notification control device is set to a vibration function, and a notification sound is notified with a small sound,After notifying the notification sound, when the sound of the notification sound is detected by the acoustic sensor, and the signal detected by the acoustic sensor includes the reverberation sound of the notification sound, or the notification sound of the low frequency component Is included, the low frequency component of the notification sound is increased for notification.
[0011]
  In addition, the environment sensitive notification control device according to the present invention,
  After notifying the notification sound,Installed in the earphone microphoneWhen the temperature change detected by the external temperature sensor exceeds a predetermined threshold, control is performed to reduce the total volume of the notification sound.
[0013]
  In addition, the environmentally sensitive notification control method according to the present invention includes:
  An external temperature sensor that detects the ambient temperature and an acoustic sensor that detects the ambient sound, and based on the temperature change detected by the external temperature sensor and the acoustic change detected by the acoustic sensor, An environment-sensitive notification control method performed in an environment-sensitive notification control device that controls a notification operation,
  The external temperature sensor is mounted on an earphone microphone,
  When starting the notification operationWhen the temperature change detected by the external temperature sensor mounted on the earphone microphone does not exceed a predetermined threshold, the notification sound is notified with a loud sound and detected by the external temperature sensor mounted on the earphone microphone. When the temperature change exceeds a predetermined threshold, the environment sensitive notification control device is set to a vibration function, and a notification sound is notified with a small sound,After notifying the notification sound, when the sound of the notification sound is detected by the acoustic sensor, and the signal detected by the acoustic sensor includes the reverberation sound of the notification sound, or the notification sound of the low frequency component Is included, the environment-sensitive notification control device performs the step of increasing the low frequency component of the notification sound for notification.
[0015]
  In addition, the environmentally sensitive notification control method according to the present invention includes:
  After notifying the notification sound,Installed in the earphone microphoneWhen the temperature change detected by the external temperature sensor exceeds a predetermined threshold, control is performed to reduce the total volume of the notification sound.
[0017]
  Moreover, the environment sensitive notification control program according to the present invention is
  An external temperature sensor that detects the ambient temperature and an acoustic sensor that detects the ambient sound, and based on the temperature change detected by the external temperature sensor and the acoustic change detected by the acoustic sensor, An environment-sensitive notification control program to be executed in an environment-sensitive notification control device that controls a notification operation,
  The external temperature sensor is mounted on an earphone microphone,
  When starting the notification operationWhen the temperature change detected by the external temperature sensor mounted on the earphone microphone does not exceed a predetermined threshold, the notification sound is notified with a loud sound and detected by the external temperature sensor mounted on the earphone microphone. When the temperature change exceeds a predetermined threshold, the environment sensitive notification control device is set to a vibration function, and a notification sound is notified with a small sound,After notifying the notification sound, when the sound of the notification sound is detected by the acoustic sensor, and the signal detected by the acoustic sensor includes the reverberation sound of the notification sound, or the notification sound of the low frequency component Is included, the environment-sensitive notification control device is caused to execute processing for increasing the low-frequency component of the notification sound for notification.
[0019]
  Moreover, the environment sensitive notification control program according to the present invention is
  After notifying the notification sound,Installed in the earphone microphoneWhen the temperature change detected by the external temperature sensor exceeds a predetermined threshold, control is performed to reduce the total volume of the notification sound.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
Next, an embodiment of an environment-sensitive notification control device, an environment-sensitive notification control method, and an environment-sensitive notification control program according to the present invention will be described in detail with reference to the accompanying drawings. 1 to 8 show an embodiment of an environment sensitive notification control apparatus, an environment sensitive notification control method, and an environment sensitive notification control program of the present invention. 1 to 3 show a first embodiment, and FIGS. 4 and 5 show a second embodiment. 2 and 3 show a third embodiment, FIG. 6 shows a fourth embodiment, and FIGS. 7 and 8 show a fifth embodiment.
[0024]
(First embodiment)
First, the first embodiment will be described in detail with reference to FIGS. 1 to 3.
FIG. 1 is a conceptual diagram for explaining the function of the environment-sensitive notification control device according to the first embodiment.
Hereinafter, the environment-sensitive notification control apparatus will be described by applying it to a mobile phone.
In connection with the user 10 who uses the mobile phone, the mobile phone receives an incoming call notification operation storage unit 11, an external temperature sensor 12, an incoming call notification control unit 13, an external temperature setting storage unit 14, and an incoming call notification ringing. The unit 15 and the functional units are configured.
[0025]
The incoming call notification operation storage unit 11 includes an incoming call volume at a reference temperature and a maximum change temperature, an incoming call volume control signal corresponding to each of an incoming call pattern and a blinking pattern, an incoming call pattern control signal, and a blinking pattern control signal. It is a storage unit for setting a control signal.
The external temperature sensor 12 is a sensor that detects an ambient temperature, converts the detected temperature into an electrical signal, and monitors the detected temperature.
[0026]
The incoming call notification control unit 13 converts the electrical signal obtained from the external temperature sensor 12 into a digital value. The converted digital value is set in accordance with the temperature change setting operation from the reference temperature to the maximum change temperature, and the set value is transmitted to the external temperature setting storage unit 14 and stored.
The incoming call notification control unit 13 manages the change temperature of the external temperature obtained from the external temperature sensor 12. Next, the incoming call notification control unit 13 calculates using the managed change temperature and the set value stored in the external temperature setting storage unit 14, and receives an incoming call control signal of an appropriate operation level when the incoming call notification is sounded. Set from the operation storage unit 11.
That is, the incoming call notification control unit 13 uses the set value (threshold value) set in accordance with the temperature change setting operation from the reference temperature to the maximum change temperature stored in the external temperature setting storage unit 14 to change the temperature change. Is determined to exceed the set value (threshold value) set in the external temperature setting storage unit 14, and an incoming call control signal having an appropriate operation level is set from the incoming call notification operation storage unit 11 when the incoming call notification is sounded. To do. The set incoming control signal is then notified to the incoming notification ringing unit 15.
The incoming call notification sounding unit 15 performs a notification operation based on a control signal instructed using the incoming call control signal notified from the incoming call notification control unit 13.
[0027]
With the environment-sensitive notification control apparatus having the above-described configuration, the mobile phone uses the set value stored in the external temperature setting storage unit 14 for the electrical signal obtained from the external temperature sensor 12 to perform a notification operation according to the temperature change. An incoming call control signal is set, and a notification operation based on the set incoming call control signal is executed.
As a result, the notification operation can be performed by changing the volume of the incoming notification sound to the ambient temperature change, the incoming pattern, the blinking pattern, and the like.
[0028]
Next, a configuration example of a mobile phone applied to the environment-sensitive notification control device will be described with reference to FIG.
Referring to FIG. 2, the environment-sensitive notification control device outputs a thermosensor 1, a level measurement unit 2, a notification control unit 3, an incoming call volume / pattern setting unit 4, a volume adjustment unit 5, and an incoming call notification sound. And a speaker 6 to be generated.
[0029]
The thermosensor 1 detects the ambient temperature and converts it into an electrical signal. Then, the converted electric signal is transmitted to the level measuring unit 2.
The level measuring unit 2 converts the electrical signal received from the thermosensor 1 into a digital value corresponding to the ambient temperature level. Then, the converted digital value is transmitted to the notification control unit 3.
The notification control unit 3 sets the incoming call notification sound incoming call pattern, incoming call volume, and blinking pattern according to the digital value level received from the level measurement unit 2. Then, the incoming call notification pattern, incoming call volume, and blinking pattern of the incoming call notification sound are transmitted to the incoming call volume / pattern setting unit 4.
The incoming call volume / pattern setting unit 4 generates an incoming call pattern control signal, an incoming call volume control signal, and a blinking pattern control signal corresponding to the incoming call pattern, the incoming call volume, and the blinking pattern set by the notification control unit 3. Then, the generated incoming pattern control signal and incoming call volume control signal are transmitted to the volume adjuster 5.
The volume adjustment unit 5 uses the incoming pattern control signal and the incoming volume control signal received from the incoming volume / pattern setting unit 4 to control the incoming notification sound signal of the incoming pattern that is controlled and set by the incoming volume control signal. Adjust the level.
The speaker 6 generates an incoming call notification sound based on the incoming call notification sound signal whose level has been adjusted by the volume adjusting unit 5.
[0030]
With the environment-sensitive notification control device provided in the mobile phone configured as described above, the notification control unit 3 uses the variable setting value set in advance in the data setting unit 7 to change the ambient temperature detected by the thermosensor 1. From the corresponding digital value, set the incoming pattern, incoming volume and blinking pattern of the incoming notification sound, decrease or increase the setting value of the incoming notification sound based on the set incoming pattern and incoming volume, An incoming call pattern and a blinking pattern corresponding to the magnitude of the incoming call notification sound are set.
The variable setting value set in the data setting unit 7 can be changed for each season and individual. This change can be changed by a user operation.
[0031]
(Processing operation)
Next, the processing operation of the environment-sensitive notification control apparatus having the above configuration will be described with reference to FIG.
First, the thermosensor 1 measures the ambient temperature of the mobile phone (step S1), and converts the measured temperature value into an electrical signal (step S2). Next, the converted electrical signal is sent to the level measuring unit 2. The level measuring unit 2 converts this electrical signal and generates a digital value of a level corresponding to the ambient temperature (step S3). Next, the generated digital value is transmitted to the notification control unit 3.
[0032]
When receiving the digital value, the notification control unit 3 refers to the variable setting value held in the data setting unit 7 and controls the increase / decrease amount of the incoming call volume (step S4). Then, the notification control unit 3 sets the incoming call notification sound incoming call pattern, incoming call volume, and blinking pattern from the variable setting values held in the data setting unit 7 according to the level of the digital value received from the level measurement unit 2. (Step S5).
The incoming call pattern, incoming call volume, and blinking pattern set by the notification control unit 3 are received by the incoming call volume / pattern setting unit 4 and received call pattern control signal and incoming call volume control corresponding to the incoming call pattern, incoming call volume, and blinking pattern, respectively. A signal and a blinking pattern control signal are set (step S6). The volume adjusting unit 5 adjusts the level of the incoming call notification sound signal using the incoming call volume control signal (step S7). The incoming call notification sound signal whose level is adjusted by the volume adjusting unit 5 is amplified by the speaker 6 and becomes an incoming call notification sound for the operator of the mobile phone (step S8). Further, the notification operation is performed with the incoming call pattern and the blinking pattern corresponding to the incoming call control signal and the blinking pattern control signal set by the incoming call volume / pattern setting unit 4.
[0033]
As described above, the ambient temperature change is measured, and the incoming call notification sound incoming call pattern, incoming call volume, and blinking pattern are set in advance according to the measured changed temperature. Has the following effects.
The first effect is that the incoming operation can be varied when the mobile phone is separated from the body. The reason is that the incoming operation can be changed by the external temperature change.
This is because the temperature detected by the thermosensor 1 of the mobile phone body is different between when the mobile phone is held and when the mobile phone is not held. The incoming call operation can be changed by setting the incoming call volume, blinking pattern, and the like.
Therefore, the owner who has noticed the incoming call can reduce the volume of the ringing tone by touching the cellular phone, so that the ringing tone will be heard at a high volume when the cellular phone is taken out from a bag or pocket. Therefore, it is possible to efficiently handle incoming calls without causing discomfort to people around the mobile phone.
[0034]
The second effect is that the ringing operation can be minimized when the mobile phone cannot be answered. The reason is that the incoming operation can be changed by the external temperature change.
This is done by setting the incoming pattern, incoming volume, blinking pattern, etc. according to the temperature change sensed by the thermosensor 1 of the mobile phone, for example, when the mobile phone is not carried or If you have a telephone, set the ringing action to a minimum. As a result, the ringing operation can be minimized when the mobile phone cannot be held and the telephone cannot be answered. Further, even when the mobile phone is carried, the ringing operation can be minimized when the telephone cannot be answered.
[0035]
A third effect is that the ringing operation can be maximized when it is difficult to hear the incoming call of the mobile phone without having the mobile phone. The reason is that the incoming operation can be varied by temperature change.
This is done by setting the incoming pattern, incoming volume, blinking pattern, etc. according to the temperature change sensed by the thermosensor 1 of the mobile phone. Set the operation to maximum. As a result, the ringing operation can be maximized when the mobile phone cannot be carried and the incoming call cannot be heard.
[0036]
(Second Embodiment)
Next, a second embodiment will be described in detail.
The second embodiment is an environment-sensitive notification control device that controls a notification operation using a thermo sensor and a humidity sensor.
First, the configuration of the environment-sensitive notification control device according to the second embodiment will be described with reference to FIG.
[0037]
The environment-sensitive notification control device according to the second embodiment includes a thermosensor 1 that detects an ambient temperature and converts it into an electrical signal when an incoming call is received, and a humidity sensor 8 that detects ambient humidity and converts it into an electrical signal. A level measuring unit 2 for converting the level of the electric signal into a digital value, and a notification control unit 3 for calculating the incoming pattern, incoming volume and blinking pattern of the incoming notification sound according to the magnitude of the digital value when receiving the digital value. An incoming volume / pattern setting unit 4 for generating an incoming pattern control signal, an incoming volume control signal, and a blinking pattern control signal corresponding to each of the incoming pattern, incoming volume, and blinking pattern from the notification control unit 3; The volume is adjusted by the volume adjusting unit 5 and the volume adjusting unit 5 that adjusts the level of the incoming notification sound signal of the incoming pattern that is controlled and set by the incoming volume control signal. A speaker 6 for causing incoming call alert sound from Shin informing sound signal, configured to have a.
[0038]
The notification control unit 3 decreases or increases the setting value of the incoming notification sound according to the change in the digital value using the value of the data setting unit 7 set in advance, and sets the incoming notification sound to the loudness level. Set the corresponding incoming call pattern and blinking pattern.
[0039]
Next, the processing operation of the entire system in the second exemplary embodiment will be described in detail with reference to FIG.
First, the thermo sensor 1 measures the ambient temperature of the mobile phone, and the humidity sensor 8 measures humidity (step S11). Next, the thermosensor 1 converts the measured temperature value into an electric signal, and transmits the converted electric signal to the level measuring unit 2. Similarly, the humidity sensor 8 converts the measured humidity value into an electric signal, and transmits the converted electric signal to the level measuring unit 2 (step S12).
Here, the level measuring unit 2 converts the electrical signal received from the thermo sensor 1 and the humidity sensor 8 into a digital value corresponding to the level of the received electrical signal (step S12), and the converted digital value is converted to the digital value. The notification control unit 3 is sent.
[0040]
The notification control unit 3 performs an operation when receiving a digital value from the level measurement unit 2, and sets an incoming call notification sound incoming call pattern, incoming call volume, and blinking pattern in accordance with the digital value level. At that time, referring to the variable setting value held in the data setting unit 7, the amount of increase / decrease in the incoming call volume is controlled. Next, the incoming call pattern, the incoming call volume and the blinking pattern set by the notification control unit 3 are received by the incoming call volume / pattern setting unit 4 and the incoming call pattern control signal and incoming call volume corresponding to the incoming call pattern, incoming call volume and blinking pattern, respectively. The control signal and the blinking pattern control signal are set (step S16).
[0041]
The volume adjusting unit 5 is controlled using the incoming volume control signal set by the incoming volume / pattern setting unit 4 and adjusts the level of the incoming notification sound signal (step S17). Next, the incoming call notification sound signal whose level is adjusted by the volume adjusting unit 5 is amplified by the speaker 6 and becomes an incoming call notification sound to the operator of the cellular phone (step S18). Further, the incoming call notification operation is performed with the incoming call pattern and the blinking pattern according to the incoming call pattern control signal and the blinking pattern control signal set by the incoming call volume / pattern setting unit 4.
[0042]
In this way, the values of the ambient temperature and humidity of the mobile phone are measured, and the control signals for the incoming volume, incoming pattern and blinking pattern are set according to the magnitude of the change in the measured value. Then, the level of the incoming notification sound is adjusted based on the set control signal, and notification is made using a speaker. Further, a notification operation is performed based on the set control signal.
[0043]
In addition, in the data stored in the data setting unit 7, when setting the body separation condition depending on the rainy season / dry season or summer / winter season, an inverse proportional prediction may be required, but a humidity measurement function should be added. This makes it possible to accurately determine the reference value.
[0044]
(Third embodiment)
Next, a third embodiment will be described.
The third embodiment is an example in which a portion (thermosensor) for sensing a temperature change in the first embodiment is used for an earphone microphone.
An earphone microphone of a mobile phone is used for a hands-free call while driving or working. By using this earphone microphone, external sounds are blocked and it is possible to talk by hand in a high sound quality environment. By providing a temperature sensing part for this earphone microphone, the volume of incoming call notification sound, incoming call pattern, blinking pattern, etc. can be changed depending on whether the earphone microphone is attached or not. To provide a configuration that can operate.
Hereinafter, the third embodiment will be described in detail with reference to FIGS.
[0045]
First, the configuration of the environment-sensitive notification control device included in the earphone microphone according to the third embodiment will be described.
As in the first embodiment, the earphone microphone includes a thermosensor 1, a level measuring unit 2, a notification control unit 3, an incoming volume / pattern setting unit 4, a volume adjusting unit 5, and a speaker 6. It is configured.
[0046]
The thermosensor 1 detects the ambient temperature and converts the detected temperature into an electrical signal.
For example, the temperature when the earphone microphone is attached to the ear or when the earphone microphone is not attached to the ear is detected.
[0047]
The level measuring unit 2 converts the electrical signal converted by the thermosensor 1 into a digital signal value.
The notification control unit 3 sets an incoming call notification sound incoming call pattern, incoming call volume, and blinking pattern according to the digital signal value converted by the level measurement unit 2.
Further, the notification control unit 3 decreases or increases the set value of the incoming notification sound based on a digital value obtained by a change in ambient temperature. Also, an incoming call pattern and a blinking pattern are set according to the volume of the incoming call notification sound.
The incoming call volume / pattern setting unit 4 generates an incoming call pattern control signal, an incoming call volume control signal, and a blinking pattern control signal corresponding to the incoming call pattern, the incoming call volume, and the blinking pattern set by the notification control unit 3.
The volume adjusting unit 5 adjusts the level of the incoming notification sound signal generated by the incoming call volume / pattern setting unit 4.
The speaker 6 generates an incoming call notification sound from the incoming call notification sound signal whose level has been adjusted by the volume adjusting unit 5.
[0048]
Next, an incoming call notification processing operation using the earphone microphone configured as described above will be described with reference to FIG.
First, the thermosensor 1 detects the temperature around the earphone microphone (step S1), and converts the detected temperature into an electrical signal (step S2). Next, the thermosensor 1 transmits the converted electric signal to the level measuring unit 2.
Here, the level measuring unit 2 converts the electrical signal received from the thermosensor 1 into a digital value corresponding to the ambient temperature (step S3). Next, the level measuring unit 2 transmits the converted digital value to the notification control unit 3.
[0049]
The notification control unit 3 sets the incoming pattern of the incoming notification sound, the incoming call volume, and the blinking pattern according to the level of the digital value received from the level measuring unit 2 (step S5).
At this time, the notification control unit 3 refers to the variable setting value set in the data setting unit 7 (step S4), and controls the increase / decrease of the incoming call volume.
That is, the notification control unit 3 determines whether or not the digital value received from the level measurement unit 2 exceeds the threshold set in the data setting unit 7, and whether to increase the volume of the incoming notification sound based on the determination. Decide whether to reduce the volume.
[0050]
Next, the notification control unit 3 transmits the set incoming call pattern, incoming call volume, and blinking pattern to the incoming call volume / pattern setting unit 4. The incoming call volume / pattern setting unit 44 receives an incoming pattern received from the notification control unit 3, an incoming call volume, and a blinking pattern, an incoming pattern control signal, an incoming volume control signal, and a blinking pattern control signal, (Step S6). Next, the volume adjusting unit 5 adjusts the level of the incoming call notification sound signal using the incoming call volume control signal set by the incoming call volume / pattern setting unit 4 (step S7). Then, the volume adjustment unit 5 transmits the incoming call notification sound signal whose level has been adjusted to the speaker 6. The speaker 6 is amplified using the incoming call notification sound signal received from the volume control unit 5 and is output to the outside as an incoming call notification sound (step S8).
[0051]
Thus, the value of the change temperature is measured using the temperature detected by the thermosensor 1 provided in the earphone microphone, and it is determined whether or not the measured change temperature value exceeds a predetermined threshold value. Based on the determination result, the notification operation according to the temperature change is made possible by performing the notification operation using the ring volume, the incoming call pattern, and the blinking pattern set in advance according to the determination result.
[0052]
It is also possible to provide a temperature sensing portion (thermosensor 1) on both the earphone microphone and the mobile phone, and by detecting the temperature change by attaching the earphone microphone or holding the mobile phone, The notification operation according to the temperature change is enabled.
Further, when the earphone microphone is not attached and the mobile phone is not held, the user can quickly detect the incoming call notification sound by increasing the volume of the incoming call notification sound from the beginning.
[0053]
The configuration of the environment-sensitive notification control device is not particularly limited as long as the configuration is provided in the earphone microphone and the mobile phone, and the configuration shown in FIG.
For example, the earphone microphone includes all the components shown in FIG. 2 (thermosensor 1, level measurement unit 2, notification control unit 3, incoming volume / pattern setting unit 4, volume adjustment unit 5, and incoming notification sound. The earphone microphone includes the thermosensor 1, the volume control unit 5, and the speaker 6 that generates an incoming call notification sound, and the mobile phone includes the level measuring unit 2, A configuration including the notification control unit 3, the incoming call volume / pattern setting unit 4, and the data setting unit 7 is also possible.
In addition, the earphone microphone includes the thermo sensor 1 and the humidity sensor 8 and can have the same configuration as that of the second embodiment.
[0054]
(Fourth embodiment)
Next, a fourth embodiment will be described in detail.
In the fourth embodiment, an earphone microphone is provided with a pressure sensor that senses pressure. This is because, in the third embodiment, the temperature change is measured by providing the earphone microphone with the thermo sensor 1 and the incoming notification sound is controlled, but the change in pressure when the earphone microphone is attached to the ear is controlled. Is used to control the incoming call notification sound.
Hereinafter, the fourth embodiment will be described in detail with reference to FIG.
The earphone microphone includes a pressure-sensitive sensor 9, a level measurement unit 2, a notification control unit 3, an incoming volume / pattern setting unit 4, a volume adjustment unit 5, a speaker 6, and a data setting unit 7. Configured. Hereinafter, the processing operation of the case configuration will be described.
[0055]
The pressure sensor 9 senses the pressure when the earphone microphone is attached to the ear and converts it into an electrical signal. Further, the converted electric signal is transmitted to the level measuring unit.
The level measuring unit 2 converts the level of the electrical signal received from the pressure sensor 9 into a digital value, and transmits the converted digital value to the notification control unit 3.
The notification control unit 3 sets the incoming call notification tone, incoming volume, and blinking pattern according to the level of the digital value received from the level measuring unit 2, and sets the received incoming pattern, incoming volume, and blinking pattern. It transmits to the ring volume / pattern setting unit 4.
The incoming call volume / pattern setting unit 4 generates an incoming call pattern control signal corresponding to the incoming call pattern, the incoming call volume and the blinking pattern received from the notification control unit 3, the incoming call volume control signal, and the blinking pattern control signal. The generated incoming pattern control signal and incoming call volume control signal are transmitted to the volume adjustment unit 5.
The volume adjustment unit 5 adjusts the level of the incoming call notification sound signal based on the incoming call pattern control signal and the incoming call volume control signal received from the incoming call volume / pattern setting unit 4 and transmits them to the speaker 6.
The speaker 6 generates an incoming call notification sound based on the incoming call notification sound signal adjusted by the volume adjusting unit 5.
[0056]
The environment-sensitive notification control device provided in the earphone microphone having the above-described configuration takes the same process as the processing operation in the third embodiment, and the value of the pressure change measured from the digital value detected by the pressure sensor 9 is Then, it is determined whether or not a preset value (threshold value) set in advance in the data setting unit 7 is exceeded, and the set value of the incoming notification sound is decreased or increased according to the determination result. An incoming pattern and a blinking pattern are set according to the size.
As a result, the environment-sensitive notification control device senses a pressure change, and when the detected pressure change exceeds a predetermined threshold (when the earphone microphone is attached), the incoming call notification operation is automatically performed. It becomes possible to change to.
For example, if you have an earphone microphone attached, you can automatically set the vibration function to the volume and set the volume of the earphone microphone to a low volume so that the location of the mobile phone body can be notified by vibration when an incoming call is received. It becomes.
[0057]
(Fifth embodiment)
Next, a fifth embodiment will be described.
The fifth embodiment includes a thermosensor that senses temperature and an acoustic sensor that senses a change in sound in the environment-sensitive notice control device, and controls the notice operation using the temperature change and the sound change. Take composition.
Hereinafter, the configuration of the environment-sensitive notification control device according to the fifth embodiment will be described in detail with reference to FIG.
[0058]
The environmentally sensitive notification control device includes a thermosensor 20, a temperature state holding unit 21, a temperature state comparison unit 22, an acoustic sensor 23, a notification operation control unit 24, an echo state detection unit 25, and a tone generation control unit. 26 and a speaker 27.
[0059]
The thermosensor 20 detects the temperature around the mobile phone and converts the detected temperature into an electrical signal.
The temperature state holding unit 21 holds the temperature around the mobile phone detected by the thermosensor 20.
The temperature state comparison unit 22 compares the ambient temperature detected by the thermosensor 20 with the ambient temperature held in the temperature state holding unit 21. More specifically, a temperature difference (temperature change) between the ambient temperature detected by the thermosensor 20 and the ambient temperature held in the temperature state holding unit 21 is detected, and the detected temperature difference (temperature change) is detected. It is determined whether or not a predetermined threshold value is exceeded. Note that the threshold value can be freely set by a setting operation from the user. It is also possible to use a threshold value set in advance in the device.
[0060]
The acoustic sensor 23 includes a microphone and the like, and detects surrounding sounds.
The reverberation state detection unit 25 compares the first sound detected by the acoustic sensor 23 with the second sound obtained by detecting the reverberation sound of the first sound by the acoustic sensor 23.
The notification operation control unit 24 controls the temperature state comparison unit 22 and the echo state detection unit 25 when notification operation control such as an incoming call or an alarm is started. With this control, the notification operation control unit 24 instructs the tone generation control unit 26 to generate a notification sound based on output signals output from the temperature state comparison unit 22 and the echo state detection unit 25.
The notification operation control unit 24 controls notification operations such as a notification sound pattern, a notification volume, and a blinking pattern based on output signals output from the temperature state comparison unit 22 and the echo state detection unit 25.
The tone generation control unit 26 generates a notification sound from the speaker 27 according to an instruction from the notification operation control unit 24.
[0061]
Next, the notification operation of the environment-sensitive notification control device having the above configuration will be described with reference to FIG.
When the notification operation is started by an incoming call, an alarm, or the like, the notification operation control unit 24 controls the temperature state comparison unit 22 and the echo state detection unit 25 to start processing. By this control, the temperature state comparison unit 22 compares the ambient temperature of the mobile phone detected by the thermosensor 20 with the ambient temperature of the mobile phone held in the temperature state holding unit 21 (step S30). The state comparison unit 22 detects and detects the temperature difference (temperature change) between the ambient temperature of the mobile phone detected by the thermosensor 20 and the ambient temperature of the mobile phone held in the temperature state holding unit 21. It is determined whether the temperature difference (temperature change) exceeds a predetermined threshold value set in advance. The notification operation control unit 24 starts generating the notification sound with a loud sound when the predetermined threshold is not exceeded by the comparison determination by the temperature state comparison unit 22 (step S31). On the other hand, if the predetermined threshold value is exceeded, generation of the notification sound is started with a small sound (step S32).
[0062]
When the generation of the notification sound is started, the echo state detection unit 25 detects the sound of the notification sound by the acoustic sensor 23 by the start control from the notification operation control unit 24, and the first sound detected by the acoustic sensor 23 is detected. Are compared with the second sound that is the first reverberation sound (step S33).
As a result of the comparison, when the signal detected by the acoustic sensor 23 includes a high-volume reverberation sound of the notification sound, or when a low-frequency component notification sound is included, the notification operation control unit 24 The tone generation control unit 26 is controlled to increase the low frequency component of the notification sound (step S34).
As a result, a ringing tone having a frequency component (bass) that does not cause discomfort to surrounding people is generated.
[0063]
Next, the notification operation control unit 24 transmits a control signal for maintaining the ambient temperature of the mobile phone at the time of notification to the temperature state holding unit 21. When the notification sound is generated from the speaker 27, the temperature state comparison unit 22 manages whether or not there is a change in the temperature detected by the thermosensor 20 (step S35).
[0064]
When the temperature difference (change temperature) obtained from the temperature detected by the thermosensor 20 exceeds a predetermined threshold value by the management, the temperature state comparison unit 22 notifies the tone generation control unit 26 of the total volume of the notification sound. Is controlled to decrease (step S36).
[0065]
Thus, using the thermo sensor 20 and the acoustic sensor 23,
It is determined whether or not the temperature difference (temperature change) detected by the thermosensor 20 exceeds a predetermined threshold value. If the threshold value exceeds the threshold value as a result of the determination, the volume of the notification sound is reduced and notification is made. If the threshold is not exceeded, the notification sound volume is increased for notification.
Further, when the signal detected by the acoustic sensor 23 includes a high-volume reverberation sound of the notification sound or when a low-frequency component notification sound is included, the low-frequency component of the notification sound is increased. Let me know.
Thereby, when the notification sound is generated, the notification sound can be notified without causing discomfort to surrounding people.
[0066]
This is because, for example, when the mobile phone is stored in a bag or pocket, the acoustic sensor 23 is used to detect the echo sound of the notification sound and not simply increase the notification sound, By increasing only the area (bass), it is possible to provide an efficient notification sound without causing discomfort to people around the mobile phone.
Further, by using the thermosensor 20, the temperature of the human body is sensed when the mobile phone is carried from a bag or pocket. As a result, it is possible to provide efficient notification sound without causing discomfort to people around the mobile phone by reducing the volume of the notification sound by using a temperature change with the outside (temperature difference). It becomes.
[0067]
The above-described embodiment is an example of a preferred embodiment of the present invention. However, the present invention is not limited to this, and various modifications can be made without departing from the scope of the present invention.
For example, the environment-sensitive notification control apparatus according to the first to fifth embodiments may store a program in advance and execute the processing operation of each of the above embodiments, using a recording medium on which the program is recorded. The processing operation of each of the above embodiments may be executed by storing a program in the environment sensitive notification control device.
In addition, the notification operation is not only a processing operation to be performed at the time of incoming call, but also an operation for prompting a user who uses the mobile communication terminal device, such as an alarm sound at a specified time, through hearing. If it is, it will not specifically limit.
[0068]
【The invention's effect】
As is clear from the above description, the present invention has the following effects.
It is obtained from an external temperature sensor that detects the ambient temperature, an incoming call notification operation storage unit that stores a control signal at the time of an incoming call notification that performs a notification operation according to a change in the ambient temperature, and an ambient temperature detected by the external temperature sensor. An incoming call notification control unit that is set to a control signal at the time of incoming call notification ringing according to a temperature change, and an incoming call notification ringing unit that performs incoming call notification based on the control signal set by the incoming call notification control unit, It is possible to perform a notification operation according to a change in ambient temperature.
Thereby, it is possible to efficiently deal with the notification sound without causing discomfort to surrounding people.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram for explaining functions of an embodiment of an environment-sensitive notification control device according to the present invention.
FIG. 2 is a block diagram showing a configuration example of a mobile phone applied to the environment sensitive notification control device.
FIG. 3 is a flowchart illustrating an operation example of the embodiment.
FIG. 4 is a block diagram illustrating a configuration example of a mobile phone applied to the second embodiment.
FIG. 5 is a flowchart showing an operation example in the second embodiment;
FIG. 6 is a block diagram illustrating a configuration example of a microphone applied to a fourth embodiment.
FIG. 7 is a block diagram showing a configuration example applied to the fifth embodiment.
FIG. 8 is a flowchart showing an operation example applied to the fifth embodiment;
[Explanation of symbols]
1,20 Thermo sensor
2 Level measurement unit
3 Notification control unit
4 Ring volume / pattern setting section
5 Volume adjuster
6, 27 Speaker
7 Data setting part
8 Humidity sensor
9 Pressure sensor
11 Incoming call notification operation storage unit
12 External temperature sensor
13 Incoming call notification controller
14 External temperature setting memory
15 Incoming call alert ring
21 Temperature state holding part
22 Temperature state comparator
23 Acoustic sensor
24 Notification Operation Control Unit
25 Echo state detector
26 Tone generation controller

Claims (6)

An external temperature sensor that detects the ambient temperature and an acoustic sensor that detects the ambient sound, and based on the temperature change detected by the external temperature sensor and the acoustic change detected by the acoustic sensor, An environment-sensitive notification control device that controls a notification operation,
The external temperature sensor is mounted on an earphone microphone,
When the notification operation is started, if the temperature change detected by the external temperature sensor mounted on the earphone microphone does not exceed a predetermined threshold value, the notification sound is notified with a loud sound, and is mounted on the earphone microphone. When the temperature change detected by the external temperature sensor exceeds a predetermined threshold, the environment sensitive notification control device is set to a vibration function, a notification sound is notified with a small sound, and the notification sound is notified. Then, when the sound of the notification sound is detected by the acoustic sensor and the signal detected by the acoustic sensor includes the reverberation sound of the notification sound, or a low-frequency component notification sound is included. In the case, the environment-sensitive notification control device is characterized by increasing the low frequency component of the notification sound for notification. After notifying the notification sound, if the temperature change detected by an external temperature sensor mounted on the earphone microphone exceeds a predetermined threshold, control is performed to reduce the total volume of the notification sound. The environment-sensitive notification control device according to claim 1 . An external temperature sensor that detects the ambient temperature and an acoustic sensor that detects the ambient sound, and based on the temperature change detected by the external temperature sensor and the acoustic change detected by the acoustic sensor, An environment-sensitive notification control method performed in an environment-sensitive notification control device that controls a notification operation,
The external temperature sensor is mounted on an earphone microphone,
When the notification operation is started, if the temperature change detected by the external temperature sensor mounted on the earphone microphone does not exceed a predetermined threshold value, the notification sound is notified with a loud sound, and is mounted on the earphone microphone. When the temperature change detected by the external temperature sensor exceeds a predetermined threshold, the environment sensitive notification control device is set to a vibration function, a notification sound is notified with a small sound, and the notification sound is notified. Then, when the sound of the notification sound is detected by the acoustic sensor and the signal detected by the acoustic sensor includes the reverberation sound of the notification sound, or a low-frequency component notification sound is included. In this case, the environment-sensitive notification control method is characterized in that the environment-sensitive notification control device performs the step of increasing the low-frequency component of the notification sound for notification. After notifying the notification sound, if the temperature change detected by an external temperature sensor mounted on the earphone microphone exceeds a predetermined threshold, control is performed to reduce the total volume of the notification sound. The environmentally sensitive notification control method according to claim 3 . An external temperature sensor that detects the ambient temperature and an acoustic sensor that detects the ambient sound, and based on the temperature change detected by the external temperature sensor and the acoustic change detected by the acoustic sensor, An environment-sensitive notification control program to be executed in an environment-sensitive notification control device that controls a notification operation,
The external temperature sensor is mounted on an earphone microphone,
When the notification operation is started, if the temperature change detected by the external temperature sensor mounted on the earphone microphone does not exceed a predetermined threshold value, the notification sound is notified with a loud sound, and is mounted on the earphone microphone. When the temperature change detected by the external temperature sensor exceeds a predetermined threshold, the environment sensitive notification control device is set to a vibration function, a notification sound is notified with a small sound, and the notification sound is notified. Then, when the sound of the notification sound is detected by the acoustic sensor and the signal detected by the acoustic sensor includes the reverberation sound of the notification sound, or a low-frequency component notification sound is included. In the case, the environment-sensitive notification control program causes the environment-sensitive notification control device to execute a process of increasing the low-frequency component of the notification sound for notification. After notifying the notification sound, if the temperature change detected by an external temperature sensor mounted on the earphone microphone exceeds a predetermined threshold, control is performed to reduce the total volume of the notification sound. The environment sensitive notification control program according to claim 5 .

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