JP6835424B2 - A program that controls a telephone device - Google Patents

Description

The present invention relates to a program that controls a telephone device.

Patent Document 1 describes a technique that enables a more natural call by appropriately determining the sum of the attenuation amounts of the transmitted signal and the received signal according to the environment in which the speakerphone is placed. Specifically, in Patent Document 1, first, white noise is input to the telephone line, and the white noise is input to the receiving signal path as side sound by line coupling, and the white noise between the receiving side and the transmitting side is input. Calculate the detection level difference of. Next, the acoustic coupling amount and the line coupling amount are calculated based on the detection level difference, and the sum of the attenuation amounts of the transmitted signal and the received signal is set based on the calculation results.

Japanese Unexamined Patent Publication No. 08-335976

However, as described in Patent Document 1, for example, when the earpiece volume (volume) is set to a large value when the line echo amount is large, the handset may be placed face down or the handset may be placed on the telephone at the end of a call. Then, howling will occur.

There is also a method of preventing howling by using a line echo canceller, but the echo estimation may not only deteriorate the call quality but also increase the cost.

An object of the present disclosure is to provide a telephone device and a control method for the telephone device that can more reliably prevent howling.

The telephone device according to the first aspect of the present invention includes a DTMF signal generation unit that generates a DTMF signal based on a telephone number, a line interface unit that transmits the DTMF signal to a line, and the DTMF input from the line. A line volume measuring unit that measures the volume of a signal, a side sound volume that adjusts the volume of a side sound signal, a transmission volume that adjusts the volume of a transmission signal, a reception volume that adjusts the volume of a reception signal, and the above-mentioned side. A storage that stores a sound volume, a control unit that controls the transmission volume and the reception volume, a maximum value of an acoustic echo generated in the handset, and a set value of the side sound volume, the transmission volume, and the reception volume. The control unit estimates the line echo amount based on the volume of the DTMF signal generated by the DTMF signal generation unit and the volume of the DTMF signal input from the line. A howling threshold is calculated based on the maximum value of the acoustic echo and the set values of the side sound volume, the transmission volume, and the reception volume, and when the line echo amount is larger than the howling threshold, the said The first process is performed in which the difference between the line echo amount and the howling threshold is calculated as the adjustment required amount, and the set value of the side sound volume is lowered by the adjustment required amount.

In the telephone device control method according to the second aspect of the present invention, the control unit of the telephone device is based on the volume of the DTMF signal generated based on the telephone number and the volume of the DTMF signal input from the line. The line echo amount is estimated, and the howling threshold is calculated based on the maximum value of the acoustic echo generated in the handset and the set values of the volume of the side sound signal, the volume of the transmission signal, and the volume of the reception signal. When the line echo amount is larger than the adjustment required amount, the difference between the line echo amount and the howling threshold is calculated as the adjustment required amount, and the set value of the side sound signal volume is lowered by the adjustment required amount. Perform the process of 1.

INDUSTRIAL APPLICABILITY According to the present invention, it is possible to provide a telephone device and a control method for the telephone device that can more reliably prevent howling.

It is a block diagram which shows an example of the telephone apparatus which concerns on Embodiment 1 of this invention. It is a block diagram which shows an example of the telephone apparatus which concerns on Embodiment 1 of this invention. It is a flowchart which shows an example of the control method of the telephone apparatus which concerns on Embodiment 1 of this invention. It is a flowchart which shows an example of the control method of the telephone apparatus which concerns on Embodiment 1 of this invention.

Embodiments Hereinafter, embodiments of the present invention will be described with reference to the drawings.
As shown in FIG. 1, the telephone device 100 according to the embodiment of the present invention includes at least a handset 104, a side sound volume 105, a transmission volume 106, a DTMF (Dual Tone Multi-Frequency) signal generation unit 108, and a line interface unit. It includes 109, a line volume measuring unit 110, an receiving volume 111, a control unit 113, a storage unit 114, and the like. Further, as shown in FIG. 1, the telephone device 100 is connected to the line 200 via the line interface unit 109.

Then, the control unit 113 estimates the line echo amount based on the volume of the DTMF signal generated by the DTMF signal generation unit 108 based on the telephone number and the volume of the DTMF signal input from the line 200.
Further, the control unit 113 sets the howling threshold value based on the maximum value of the acoustic echo generated in the handset stored in the storage unit 114 and the set values of the sidetone volume 105, the transmission volume 106, and the reception volume 111. calculate.
Then, when the line echo amount is larger than the howling threshold value, the control unit 113 calculates the difference between the line echo amount and the howling threshold value as the adjustment required amount, and lowers the set value of the side sound volume 105 by the adjustment required amount. Perform the first process.

According to the telephone device 100 according to the first embodiment, when the line echo amount is larger than the howling threshold value, that is, the line echo amount estimated using the DTMF signal, the maximum value of the acoustic echo amount, and the transmission volume 106. When the sum of the set value of the earpiece volume 111, the set value of the earpiece volume 111, and the set value of the side sound volume 105 becomes positive, howling is performed because the control unit 113 lowers the set value of the side sound volume 105 by the amount required for adjustment. Can be prevented. Further, since the maximum value of the acoustic echo used for calculating the howling threshold value is the maximum value of the acoustic echo generated in the handset 104, for example, howling that occurs when the handset is laid down can be prevented. This makes it possible to provide the telephone device 100 that can more reliably prevent howling.

Embodiment 1
FIG. 2 is a block diagram showing an example of the telephone device 100 according to the first embodiment of the present invention. As shown in FIG. 2, the telephone device 100 includes a dial button 101, a reception volume switching button 102, a button detection unit 103, a handset 104, a side sound volume 105, a transmission volume 106, a transmission frequency characteristic adjustment unit 107, and a DTMF signal. It includes a generation unit 108, a line interface unit 109, a line volume measurement unit 110, a reception volume 111, a reception frequency characteristic adjustment unit 112, a control unit 113, a storage unit 114, and the like. Further, as shown in FIG. 2, the telephone device 100 is connected to the line 200 via the line interface unit 109.

The dial button 101 includes buttons with numbers 0 to 9, and the button detection unit 103 detects that the button has been pressed by the user.

The receiving volume switching button 102 includes, for example, a volume up button (not shown) and a volume down button (not shown). Then, the button detection unit 103 detects that the volume up button of the receiving volume switching button 102 has been pressed.

The button detection unit 103 detects that the dial button 101 has been pressed, and inputs information regarding the telephone number specified by the user by pressing the dial button 101 to the control unit 113. Further, the button detection unit 103 detects that the receiving volume switching button 102 has been pressed, and inputs the receiving volume switching information to the control unit 113.

The handset 104 includes, for example, a microphone 104A, a speaker 104B, and the like.
The microphone 104A detects the voice on the user side, converts it into an electric signal, and inputs it to the sidetone volume 105 and the transmission volume 106 as the transmission signal S1.
The speaker 104B converts an electric signal, which is the voice of the other party of the user's call, into voice and outputs it.

The sidetone volume 105 adjusts the volume of the sidetone signal S3. Specifically, the sidetone volume 105 adjusts the volume of the sidetone signal S3 according to the set value input from the control unit 113.

The transmission volume 106 adjusts the volume (volume) of the transmission signal S1. Specifically, the transmission volume 106 adjusts the volume of the transmission signal according to the set value input from the control unit 113.

The transmission frequency characteristic adjustment unit 107 adjusts the frequency characteristic of the transmission signal S1 which is the voice on the user side. Specifically, the transmission frequency characteristic adjustment unit 107 adjusts the frequency characteristic of the transmission signal S1 according to the set value input from the control unit 113.

The DTMF signal generation unit 108 generates a DTMF signal based on the information regarding the telephone number input from the button detection unit 103 to the control unit 113. Specifically, the control unit 113 inputs information about the telephone number to the DTMF signal generation unit 108. Then, the DTMF signal generation unit 108 generates a DTMF signal based on the information about the telephone number. Further, the DTMF signal generation unit 108 adds the generated DTMF signal to the transmission signal S1 output from the transmission frequency characteristic adjustment unit 107.

The line interface unit 109 controls the connection between the telephone device 100 and the line 200. Specifically, the line interface unit 109 transmits the transmission signal S1 to which the DTMF signal generated by the DTMF signal generation unit 108 is added to the line 200. Further, the line interface unit 109 inputs the received signal S2 input from the line 200 to the line volume measuring unit 110.

The line volume measuring unit 110 measures the volume (volume) of the received signal S2 input from the line 200 via the line interface unit 109. Here, the received signal S2 is the voice of the other party of the user's call converted into an electric signal. Further, the line volume measuring unit 110 according to the first embodiment measures the volume (volume) of the DTMF signal input as the received signal S2 by the line echo on the line 200, and controls the measured volume value of the DTMF signal. Input to unit 113.

The receiving volume 111 adjusts the volume of the received signal S2 input from the line 200 via the line interface unit 109 and the line volume measuring unit 110. Specifically, the receiving volume 111 adjusts the volume of the receiving signal according to the set value input from the control unit 113.

The receiving frequency characteristic adjusting unit 112 adjusts the frequency characteristic of the received signal S2, which is the voice of the other party of the user. Specifically, the receiving frequency characteristic adjusting unit 112 adjusts the frequency characteristic of the received signal S2 according to the set value input from the control unit 113.

The control unit 113 includes a CPU (Central Processing Unit) and the like (not shown). Then, when the CPU executes the program stored in the storage unit 114, all the processing in the control unit 113 is realized. Specifically, the control unit 113 controls each unit of the telephone device 100 by executing the program stored in the storage unit 114 by the CPU. Specifically, the control unit 113 includes the sidetone volume 105, the transmission volume 106, the transmission frequency characteristic adjustment unit 107, the DTMF generation unit 108, the line volume measurement unit 110, the reception volume 111, and the reception frequency characteristic adjustment unit 112. Control.
Further, the program stored in the storage unit 114 includes a code for realizing processing in each of the control units 113 by being executed by the CPU. The storage unit 114 is configured to include, for example, this program or an arbitrary storage device capable of storing various information used for processing in the control unit 113. The storage device is, for example, a memory or the like.

More specifically, the control unit 113 compares, for example, the volume of the DTMF signal added to the transmission signal S1 by the DTMF signal generation unit 108 with the volume of the DTMF signal measured by the line volume measurement unit 110, and makes a line. The line echo amount at 200 is estimated.

Further, the control unit 113 reads out the maximum acoustic echo amount stored in the storage unit 114, and the maximum acoustic echo amount, the side sound volume 105, the transmission volume 106, the transmission frequency characteristic adjustment unit 107, and the reception volume 111. And, based on the set value of the receiving frequency characteristic adjusting unit 112, the amount of line echo in the line 200 where howling occurs is calculated as the howling threshold. Here, the set value of the sidetone volume 105 is a predetermined value indicating the volume (volume) of the sidetone signal S3. Further, the set value of the transmission volume 106 is a predetermined value indicating the volume (volume) of the transmission signal S1. Further, the set value of the receiving volume 111 is a predetermined value indicating the volume (volume) of the received signal S2. Further, the set value of the transmission frequency characteristic adjusting unit 107 is a predetermined value indicating the frequency characteristic of the transmission signal S1. Further, the set value of the receiving frequency characteristic adjusting unit 112 is a predetermined value indicating the frequency characteristic of the received signal S2. Further, here, the frequency characteristic means the relationship between the frequency and the output value at the frequency. That is, the set value of the transmission frequency characteristic adjusting unit 107 means a predetermined output value of the transmission signal S1 at a predetermined frequency. Similarly, the set value of the receiving frequency characteristic adjusting unit 112 means a predetermined output value of the received signal S2 at a predetermined frequency.

Further, the control unit 113 compares the estimated line echo amount with the calculated howling threshold value. Then, the control unit 113 performs the following processes (1) to (3).
(1) When the line echo amount is larger than the howling threshold value, the control unit 113 calculates the difference amount between the line echo amount and the howling threshold value as the adjustment required amount. Further, the control unit 113 automatically lowers the set value of the sidetone volume 105 by the amount required for adjustment (first process).
As a result, the howling threshold becomes equal to or greater than the line echo amount, and howling can be prevented. Further, even if the set value of the sidetone volume 105 is lowered, the line echo is heard as the sidetone, so that the sidetone is not lost.

(2) Further, when the adjustment required amount is large and the set value of the sidetone volume 105 is lowered by the adjustment required amount, it becomes smaller than the minimum value of the set value of the sidetone volume 105. Set the set value of the sidetone volume 105 to the minimum value. At the same time, the control unit 113 controls the transmission frequency characteristic adjustment unit 107 and the reception frequency characteristic adjustment unit 112 to adjust the frequency characteristics of the transmission signal S1 and the reception signal S2 (second process). The frequency characteristics of the transmission signal S1 and the reception signal S2 are usually a volume (output value) of 2 kHz or more and a volume of less than 2 kHz in consideration of high frequency volume (volume) attenuation due to line loss and audibility of the elderly. Output value) is set larger. Therefore, the volume (output value) of the frequency that is set to a large value is automatically lowered by the amount required for adjustment in consideration of the amount of the lowered setting value of the sidetone volume 105. Specifically, the set values of the transmitting frequency characteristic adjusting unit 107 and the receiving frequency characteristic adjusting unit 112 are lowered by the amount obtained by subtracting the amount of the lowered setting value of the sidetone volume 105 from the required adjustment amount. As a result, the howling threshold becomes equal to or greater than the line echo amount, and howling can be prevented.

(3) Further, when the required adjustment amount is further large and the adjustment amount of the frequency characteristics of the transmission frequency characteristic adjustment unit 107 and the reception frequency characteristic adjustment unit 112 exceeds a predetermined adjustable range, the control unit 113 sends. The set values of the talking volume 106 and the receiving volume 111 are automatically lowered by the adjustment required amount (third process). As a result, the howling threshold becomes equal to or greater than the line echo amount, and howling can be prevented.

When the volume up button (not shown) of the receiving volume switching button 102 is pressed during a call, the button detection unit 103 inputs the receiving volume switching information to increase the volume to the control unit 113. Then, the control unit 113 compares the estimated line echo amount with the calculated howling threshold value, and performs processing in the order of (1), (2), and (3) above. Thereby, howling can be prevented.

Further, when the volume down button (not shown) of the received volume switching button 102 is pressed during a call after the above processes (1) to (3) are performed, the button detection unit 103 lowers the volume. The received volume switching information of is input to the control unit 113. Then, after returning the set values of the transmission volume 106 and the reception volume 111 to predetermined initial values, the control unit 113 sets the setting values (frequency characteristics) of the transmission frequency characteristic adjustment unit 107 and the reception frequency characteristic adjustment unit 112. It returns to a predetermined initial value, and then returns the set value of the sidetone volume 105 to a predetermined initial value.

The storage unit 114 stores the maximum value of the acoustic echo between the microphone 104A and the speaker 104B of the telephone device 100, the set value of the sidetone volume 105, the transmission volume 106, and the reception volume 111. The control unit 113 controls the microphone 104A to measure in advance the amount of acoustic echo in a state where the amount of acoustic echo is the largest, such as when the handset is laid down, and stores the amount of acoustic echo as the maximum value of the amount of acoustic echo. It is stored in the unit 114.

Next, a control method of the telephone device according to the first embodiment will be described with reference to FIGS. 3 and 4.
First, when the telephone device 100 is activated, the control unit 113 sets the set values of the sidetone volume 105, the transmission volume 106, the transmission frequency characteristic adjustment unit 107, the reception volume 111, and the reception frequency characteristic adjustment unit 112. Set to the initial value (step S101).

Next, when the user off-hooks the handset 104, the telephone device 100 is connected to the line 200 and enters a state of waiting for telephone number input (step S102).

Next, when the user presses the dial button 101 and inputs a telephone number, the button detection unit 103 detects that the dial button 101 is pressed and inputs information about the telephone number to the control unit 113 (step). S103).

Next, the control unit 113 inputs information on the telephone number to the DTMF signal generation unit 108, and the DTMF signal generation unit 108 generates a DTMF signal based on the information on the telephone number and transmits the generated DTMF signal. It is added to the signal S1 (step S104).

Next, the line interface unit 109 transmits the transmission signal S1 to which the DTMF signal is added to the line 200 (step S105). Further, the line interface unit 109 inputs the received signal S2 input from the line 200 to the line volume measuring unit 110 (step S106). Here, the DTMF signal transmitted from the line interface unit 109 is input to the telephone device 100 as the received signal S2 by the line echo on the line 200.

Next, the line volume measuring unit 110 measures the volume of the DTMF signal input as the received signal S2, and inputs the measured volume value of the DTMF signal to the control unit 113 (step S107).

Next, the control unit 113 compares the volume of the DTMF signal added to the transmission signal S1 by the DTMF signal generation unit 108 with the volume of the DTMF signal measured by the line volume measurement unit 110, and the line echo amount in the line 200. Is estimated (step S108).

Next, the control unit 113 includes the maximum acoustic echo amount stored in the storage unit 114, the side sound volume 105, the transmission volume 106, the transmission frequency characteristic adjustment unit 107, the reception volume 111, and the reception frequency characteristic adjustment unit 112. The howling threshold value is calculated based on the set value of (step S109).

Next, the control unit 113 determines whether or not the estimated line echo amount is larger than the calculated howling threshold value (step S110).

When the estimated line echo amount is equal to or less than the calculated howling threshold value in step S110 (step S110; No), this process ends.

When the estimated line echo amount is larger than the calculated howling threshold value in step S110 (step S110; Yes), the control unit 113 calculates the difference amount between the line echo amount and the howling threshold value as the adjustment required amount (step S111). ).

Next, the control unit 113 determines whether or not the set value of the sidetone volume 105 becomes smaller than the predetermined minimum value when the set value of the sidetone volume 105 is lowered by the adjustment required amount calculated in step S110. (Step S112).

In step S112, even if the set value of the sidetone volume 105 is lowered by the amount required for adjustment, if the set value of the sidetone volume 105 is equal to or greater than a predetermined minimum value (step S112; No), the control unit 113 determines. The set value of the sidetone volume 105 is automatically lowered by the required amount for adjustment (step S113), and this process ends.

In step S112, when the set value of the sidetone volume 105 is lowered by the required adjustment amount, the set value of the sidetone volume 105 becomes smaller than the predetermined minimum value (step S112; Yes), the control unit 113 moves to the side. The set value of the sound volume 105 is set to the minimum value (step S114).

Next, when the control unit 113 adjusts the frequency characteristics of the transmission frequency characteristic adjustment unit 107 and the reception frequency characteristic adjustment unit 112 while setting the set value of the sidetone volume 105 to the minimum value, the adjustment amount is adjusted. It is determined whether or not the predetermined adjustable range is exceeded (step S115).

In step S115, when the adjustment amount of the frequency characteristics of the transmission frequency characteristic adjustment unit 107 and the reception frequency characteristic adjustment unit 112 is within a predetermined adjustable range (step S115; No), the control unit 113 sets the side sound volume 105. In addition to setting the set value of to the minimum value, the frequency characteristics of the transmission frequency characteristic adjustment unit 107 and the reception frequency characteristic adjustment unit 112 are adjusted (step S116), and this process ends.

In step S115, when the adjustment amount of the frequency characteristics of the transmission frequency characteristic adjustment unit 107 and the reception frequency characteristic adjustment unit 112 exceeds a predetermined adjustable range (step S115; Yes), the control unit 113 sets the transmission volume 106 and The set value of the receiving volume 111 is automatically lowered by the required amount for adjustment (step S117), and this process is terminated.

When the volume up button (not shown) of the receiving volume switching button 102 is pressed during a call, the control unit 113 may perform the processes of steps S110 to S117.

Further, when the volume down button (not shown) of the receiving volume switching button 102 is pressed during a call after performing the processes of steps S110 to S117, the control unit 113 first receives the transmitting volume 106 and the receiving volume 106. The set value of the volume 111 is returned to a predetermined initial value. Next, the control unit 113 returns the set values (frequency characteristics) of the transmission frequency characteristic adjustment unit 107 and the reception frequency characteristic adjustment unit 112 to predetermined initial values. Next, the control unit 113 returns the set value of the sidetone volume 105 to a predetermined initial value.

According to the telephone device 100, the control method of the telephone device 100, and the program according to the first embodiment described above, when the line echo amount is larger than the howling threshold value, that is, the line echo amount estimated using the DTMF signal. When the total of the maximum value of the acoustic echo amount, the set value of the transmitting volume 106, the set value of the receiving volume 111, and the set value of the side sound volume 105 becomes positive, the control unit 113 sets the side sound volume 105. Decrease the set value of (first process) by the amount required for adjustment. Therefore, howling can be prevented. Further, since the maximum value of the acoustic echo used for calculating the howling threshold value is the maximum value of the acoustic echo generated in the handset 104, for example, howling that occurs when the handset 104 is turned down can be prevented. .. Thereby, it is possible to provide a telephone device 100, a control method of the telephone device, and a program capable of more reliably preventing howling.

Further, when the adjustment required amount is large and the set value of the sidetone volume 105 is lowered by the adjustment required amount and becomes smaller than the minimum value of the set value of the sidetone volume 105, the control unit 113 controls the sidetone volume. Set the set value of 105 to the minimum value. At the same time, the control unit 113 controls the transmission frequency characteristic adjustment unit 107 and the reception frequency characteristic adjustment unit 112 to adjust the frequency characteristics of the transmission signal S1 and the reception signal S2 (second process). In other words, the control unit 113 lowers the set value of the frequency characteristic by the amount required for adjustment in consideration of the amount of lowering the set value of the sidetone volume 105. Specifically, the set values of the transmitting frequency characteristic adjusting unit 107 and the receiving frequency characteristic adjusting unit 112 are lowered by the amount obtained by subtracting the amount of the lowered setting value of the sidetone volume 105 from the required adjustment amount. As a result, the howling threshold becomes equal to or greater than the line echo amount, and howling can be prevented more reliably.

Further, when the required adjustment amount is further large and the adjustment amount of the frequency characteristics of the transmission frequency characteristic adjustment unit 107 and the reception frequency characteristic adjustment unit 112 exceeds a predetermined adjustable range, the control unit 113 sets the transmission volume 106. And the set value of the receiving volume 111 is automatically lowered by the adjustment required amount (third process). As a result, the howling threshold becomes equal to or greater than the line echo amount, and howling can be prevented even more reliably.

Further, since the control unit 113 performs the above processing even when the volume up button (not shown) of the receiving volume switching button 102 is pressed during a call, howling is performed even if the volume of the received signal S2 is raised. Can be prevented.

Further, when the volume down button (not shown) of the receiving volume switching button 102 is pressed during a call after the first to third processes are performed, the control unit 113 controls the transmitting volume 106 and After returning the set value of the receiving volume 111 to a predetermined initial value, the setting value (frequency characteristic) of the transmitting frequency characteristic adjusting unit 107 and the receiving frequency characteristic adjusting unit 112 is returned to a predetermined initial value, and then the side sound volume. The set value of 105 is returned to a predetermined initial value. As a result, the set values of the sidetone volume 105, the transmission volume 106, and the reception volume 111, and the setting values (frequency characteristics) of the transmission frequency characteristic adjustment unit 107 and the reception frequency characteristic adjustment unit 112 remain unnecessarily lowered. It is possible to prevent the call quality from being deteriorated.

The present invention is not limited to the above embodiment, and can be appropriately modified without departing from the spirit. For example, the processes of steps S107 to S109 may be performed in parallel.

Further, in the above-described embodiment, the present invention has been described as a hardware configuration, but the present invention is not limited thereto. The present invention can also be realized by causing a CPU (Central Processing Unit) to execute a computer program according to the processing procedure shown in the flowcharts of FIGS. 3 and 4.
In addition, the above-mentioned programs can be stored and supplied to a computer using various types of non-transitory computer readable media (non-transitory computer readable media). Non-transient computer-readable media include various types of tangible storage media (tangible storage media). Examples of non-temporary computer-readable media include magnetic recording media (eg, flexible disks, magnetic tapes, hard disk drives), magneto-optical recording media (eg, magneto-optical disks), CD-ROMs (Read Only Memory) CD-Rs, CDs. -R / W, including semiconductor memory (for example, mask ROM, PROM (Programmable ROM), EPROM (Erasable PROM), flash ROM, RAM (Random Access Memory)). The program may also be supplied to the computer by various types of temporary computer readable media (transitory computer readable media). Examples of temporary computer-readable media include electrical, optical, and electromagnetic waves. The temporary computer-readable medium can supply the program to the computer via a wired communication path such as an electric wire and an optical fiber, or a wireless communication path.

Some or all of the above embodiments may also be described, but not limited to:
(Appendix 1)
A DTMF signal generator that generates DTMF signals based on a telephone number,
A line interface unit that sends out the DTMF signal to the line,
A line volume measuring unit that measures the volume of the DTMF signal input from the line, and
The sidetone volume that adjusts the volume of the sidetone signal, and
The transmission volume that adjusts the volume of the transmission signal and
The earpiece volume that adjusts the volume of the received signal and
A control unit that controls the sidetone volume, the transmission volume, and the reception volume,
A storage unit that stores the maximum value of the acoustic echo generated in the handset, the sidetone volume, the transmission volume, and the set value of the reception volume.
With
The control unit
The line echo amount is estimated based on the volume of the DTMF signal generated by the DTMF signal generation unit and the volume of the DTMF signal input from the line.
A howling threshold is calculated based on the maximum value of the acoustic echo and the set values of the sidetone volume, the transmission volume, and the reception volume.
When the line echo amount is larger than the howling threshold value, the difference between the line echo amount and the howling threshold value is calculated as an adjustment required amount, and the set value of the sidetone volume is lowered by the adjustment required amount. To process
Telephone device.
(Appendix 2)
A transmission frequency characteristic adjustment unit that adjusts the frequency characteristics of the transmission signal,
The receiving frequency characteristic adjusting unit that adjusts the frequency characteristic of the received signal,
With more
The storage unit stores the set value of the transmitting frequency characteristic adjusting unit and the set value of the receiving frequency characteristic adjusting unit.
The control unit
Based on the maximum value of the acoustic echo, the set value of the side sound volume, the transmitted volume, and the received volume, and the set value of the transmitted frequency characteristic adjusting unit and the receiving frequency characteristic adjusting unit. Calculate the howling threshold and
When the set value of the sidetone volume is lowered by the adjustment required amount and the set value of the sidetone volume becomes smaller than a predetermined minimum value, the set value of the sidetone volume is set to the minimum value. A second method, in which the setting values of the transmission frequency characteristic adjustment unit and the reception frequency characteristic adjustment unit are reduced by the adjustment required amount in consideration of the reduction of the setting value of the sidetone volume. Do the processing,
The telephone device according to Appendix 1.
(Appendix 3)
The control unit
When the set values of the transmission frequency characteristic adjustment unit and the reception frequency characteristic adjustment unit are lowered by the adjustment required amount in consideration of the amount of the reduction of the set value of the side sound volume, the transmission frequency characteristic adjustment When the adjustment amount of the frequency characteristics of the unit and the earpiece frequency characteristic adjustment unit exceeds a predetermined adjustable range, the set value of the transmission volume and the earpiece volume is lowered by the adjustment required amount, a third process. I do,
The telephone device according to Appendix 2.
(Appendix 4)
An operation unit for inputting a signal for adjusting the volume of the received signal to the telephone device is further provided.
The control unit
When a signal for increasing the volume of the received signal is input from the operation unit during a call, the first process, the second process, and the third process are performed in this order.
The telephone device according to Appendix 3.
(Appendix 5)
The control unit
After performing the first process, the second process, and the third process in this order, when a signal for lowering the volume of the received signal is input from the operation unit during a call. After returning the set values of the transmitting volume and the receiving volume to predetermined initial values, the setting values of the transmitting frequency characteristic adjusting unit and the receiving frequency characteristic adjusting unit are returned to predetermined initial values, and then , Returning the set value of the sidetone volume to a predetermined initial value,
The telephone device according to Appendix 4.
(Appendix 6)
The control unit of the telephone device
The line echo amount is estimated based on the volume of the DTMF signal generated based on the telephone number and the volume of the DTMF signal input from the line.
The howling threshold is calculated based on the maximum value of the acoustic echo generated in the handset and the set values of the volume of the sidetone signal, the volume of the transmission signal, and the volume of the reception signal.
When the line echo amount is larger than the howling threshold value, the difference between the line echo amount and the howling threshold value is calculated as an adjustment required amount, and the set value of the side sound signal volume is lowered by the adjustment required amount. Perform the first process,
How to control a telephone device.
(Appendix 7)
The control unit
The maximum value of the acoustic echo, the set value of the volume of the side sound signal, the volume of the transmitted signal, and the volume of the received signal, and the set value of the frequency characteristic of the transmitted signal and the frequency characteristic of the received signal are set. Based on this, the Howling threshold is calculated.
When the set value of the volume of the side sound signal is lowered by the adjustment required amount and the set value of the volume of the side sound signal becomes smaller than a predetermined minimum value, the setting of the volume of the side sound signal. The value is set to the minimum value, and the set value of the frequency characteristic of the transmitted signal and the frequency characteristic of the received signal is added to the amount obtained by lowering the set value of the volume of the side sound signal. Lower the adjustment required amount, perform the second process,
The method for controlling a telephone device according to Appendix 6.
(Appendix 8)
The control unit
When the frequency characteristic of the transmission signal and the set value of the frequency characteristic of the received signal are lowered by the adjustment required amount in consideration of the amount of lowering the set value of the volume of the side sound signal, the transmission signal is transmitted. When the adjustment amount of the frequency characteristic and the frequency characteristic of the received signal exceeds a predetermined adjustable range, the set value of the volume of the transmission signal and the volume of the reception signal is lowered by the adjustment required amount. Perform the third process,
The method for controlling a telephone device according to Appendix 7.
(Appendix 9)
The control unit
When a signal for increasing the volume of the received signal is input during a call, the first process, the second process, and the third process are performed in this order.
The method for controlling a telephone device according to Appendix 8.
(Appendix 10)
The control unit
After performing the first process, the second process, and the third process in this order, when a signal for lowering the volume of the received signal is input during a call, the transmission signal. After returning the set value of the volume of the received signal and the volume of the received signal to a predetermined initial value, the frequency characteristic of the transmitted signal and the set value of the frequency characteristic of the received signal are returned to a predetermined initial value, and then , Returning the set value of the volume of the side sound signal to a predetermined initial value,
The method for controlling a telephone device according to Appendix 9.
(Appendix 11)
In the control unit of the telephone device,
The line echo amount is estimated based on the volume of the DTMF signal generated based on the telephone number and the volume of the DTMF signal input from the line.
The howling threshold is calculated based on the maximum value of the acoustic echo generated in the handset and the set values of the volume of the sidetone signal, the volume of the transmission signal, and the volume of the reception signal.
When the line echo amount is larger than the howling threshold value, the difference between the line echo amount and the howling threshold value is calculated as an adjustment required amount, and the set value of the side sound signal volume is lowered by the adjustment required amount. To execute the first process,
program.
(Appendix 12)
In the control unit
The maximum value of the acoustic echo, the set value of the volume of the side sound signal, the volume of the transmitted signal, and the volume of the received signal, and the set value of the frequency characteristic of the transmitted signal and the frequency characteristic of the received signal are set. Based on this, the Howling threshold is calculated.
When the set value of the volume of the side sound signal is lowered by the adjustment required amount and the set value of the volume of the side sound signal becomes smaller than a predetermined minimum value, the setting of the volume of the side sound signal. The value is set to the minimum value, and the set value of the frequency characteristic of the transmitted signal and the frequency characteristic of the received signal is added to the amount obtained by lowering the set value of the volume of the side sound signal. Decrease the adjustment required amount, execute the second process,
The program according to Appendix 11.
(Appendix 13)
In the control unit
When the frequency characteristic of the transmission signal and the set value of the frequency characteristic of the received signal are lowered by the adjustment required amount in consideration of the amount of lowering the set value of the volume of the side sound signal, the transmission signal is transmitted. When the adjustment amount of the frequency characteristic and the frequency characteristic of the received signal exceeds a predetermined adjustable range, the set value of the volume of the transmission signal and the volume of the reception signal is lowered by the adjustment required amount. To execute the third process,
The program described in Appendix 12.
(Appendix 14)
In the control unit
When a signal for increasing the volume of the received signal is input during a call, the first process, the second process, and the third process are executed in this order.
The program according to Appendix 13.
(Appendix 15)
In the control unit
After performing the first process, the second process, and the third process in this order, when a signal for lowering the volume of the received signal is input during a call, the transmission signal. After returning the set value of the volume of the received signal and the volume of the received signal to a predetermined initial value, the frequency characteristic of the transmitted signal and the set value of the frequency characteristic of the received signal are returned to a predetermined initial value, and then , The set value of the volume of the side sound signal is returned to a predetermined initial value.
The program described in Appendix 14.

100 Telephone device 101 Dial button 102 Earpiece volume switching button 103 Button detector 104 Handset 104A Microphone 104B Speaker 105 Side sound volume 106 Transmission volume 107 Transmission frequency characteristic adjustment unit 108 DTMF signal generation unit 109 Line interface unit 110 Line volume measurement unit 111 Earpiece volume 112 Earpiece frequency characteristic adjustment unit 113 Control unit 114 Storage unit 200 Line S1 Transmission signal S2 Reception signal S3 Side sound signal

Claims (5)

In the control unit of the telephone device,
The volume of the DTMF signal generated based on the phone number and
The line echo amount is estimated based on the volume of the DTMF signal input from the line.
The maximum value of acoustic echo generated in the handset and
The howling threshold is calculated based on the set values of the volume of the sidetone signal, the volume of the transmission signal, and the volume of the reception signal.
When the line echo amount is larger than the howling threshold,
The difference between the line echo amount and the howling threshold value is calculated as the required adjustment amount.
Decrease the set value of the volume of the sidetone signal by the adjustment required amount.
To execute the first process,
program. In the control unit
The maximum value of the acoustic echo and
The set values of the volume of the sidetone signal, the volume of the transmission signal, and the volume of the reception signal,
The howling threshold is calculated based on the frequency characteristics of the transmission signal and the set values of the frequency characteristics of the reception signal.
When the set value of the volume of the sidetone signal is lowered by the adjustment required amount,
When the set value of the volume of the sidetone signal is smaller than the predetermined minimum value,
While setting the set value of the volume of the sidetone signal to the minimum value,
The frequency characteristic of the transmitted signal and the set value of the frequency characteristic of the received signal are set.
Taking into account the amount by which the set value of the volume of the sidetone signal is lowered, the adjustment required amount is lowered.
To execute the second process,
The program according to claim 1. In the control unit
The frequency characteristic of the transmitted signal and the set value of the frequency characteristic of the received signal are set.
When the adjustment required amount is lowered in consideration of the amount of lowering the set value of the volume of the sidetone signal,
When the adjustment amount of the frequency characteristic of the transmission signal and the frequency characteristic of the reception signal exceeds a predetermined adjustable range.
The set value of the volume of the transmission signal and the volume of the reception signal is lowered by the adjustment required amount.
To execute the third process,
The program according to claim 2. In the control unit
When a signal to increase the volume of the received signal is input during a call,
The first process, the second process, and the third process are executed in this order.
The program according to claim 3. In the control unit
After performing the first process, the second process, and the third process in this order,
When a signal to lower the volume of the received signal is input during a call,
After returning the set values of the volume of the transmission signal and the volume of the reception signal to predetermined initial values,
The frequency characteristic of the transmission signal and the set value of the frequency characteristic of the received signal are returned to a predetermined initial value.
Next, the set value of the volume of the sidetone signal is returned to a predetermined initial value.
The program according to claim 4.

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