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JPH1023123A - Speech device - Google Patents

Speech device

Info

Publication number
JPH1023123A
JPH1023123A JP16898696A JP16898696A JPH1023123A JP H1023123 A JPH1023123 A JP H1023123A JP 16898696 A JP16898696 A JP 16898696A JP 16898696 A JP16898696 A JP 16898696A JP H1023123 A JPH1023123 A JP H1023123A
Authority
JP
Japan
Prior art keywords
sound
level
frequency component
microphone
low
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
JP16898696A
Other languages
Japanese (ja)
Other versions
JP3097901B2 (en
Inventor
Shigeaki Aoki
茂明 青木
Kazumasa Mihashi
和正 三橋
Yutaka Nishino
豊 西野
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Nippon Telegraph and Telephone Corp
Original Assignee
Nippon Telegraph and Telephone Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Nippon Telegraph and Telephone Corp filed Critical Nippon Telegraph and Telephone Corp
Priority to JP08168986A priority Critical patent/JP3097901B2/en
Publication of JPH1023123A publication Critical patent/JPH1023123A/en
Application granted granted Critical
Publication of JP3097901B2 publication Critical patent/JP3097901B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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  • Details Of Audible-Bandwidth Transducers (AREA)
  • Telephone Set Structure (AREA)

Abstract

PROBLEM TO BE SOLVED: To obtain a transmission signal with optimum sound quality in response to a surrounding noise level. SOLUTION: The device is provided with an air conduction microphone 1, a bone conduction microphone 2, a high-pass filter 6 for the air conduction microphone 1, a low-pass filter 7 for the air conduction microphone 1, and a low-pass filter 8 for a bone conduction microphone extracting each frequency component. A surrounding noise level is applied to a surrounding noise level input terminal 12 to receive a surrounding noise level. On the other hand, the surrounding noise level when a level of a high frequency component for air conduction microphone starts decreasing is set higher than the surrounding noise level when the level ratio the low frequency components for the air conduction and bone conduction microphones becomes '1'.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】本発明は送話器として気導音
用マクロホン(以下、気導マイクという)と骨導音用ピ
ックアップ(以下、骨導マイクという)を用いると共
に、耳に装着して通話を行う装置において、低騒音から
高騒音までの騒音環境で、良好な音声を送信するための
通話装置に関するものである。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention uses a microphone for air conduction sound (hereinafter referred to as air conduction microphone) and a pickup for bone conduction sound (hereinafter referred to as bone conduction microphone) as a transmitter and is attached to an ear. BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication device for transmitting good voice in a noise environment from low noise to high noise.

【0002】[0002]

【従来の技術】送話器と受話器を一体にして耳に装着し
て電話の送話・受話が行える通話装置が提供されてい
る。これらの装置の送話器としては、気導マイクと骨導
マイクがある。気導マイクの収音信号は広帯域で音質は
良好であるが、周囲騒音に影響を受けやすい。一方、骨
導マイクの収音信号は狭帯域(低域成分のみ)で音質は
悪いが、周囲騒音に対して影響を受けにくい特徴があ
る。これらの特徴を利用して、従来の通話装置では信号
を低域周波数成分と高域周波数成分に分けて処理する手
法が提案されている。すなわち、音声信号を収音すると
きに、使用者が周囲の騒音レベルに応じて、気導マイク
の収音信号の高域周波数成分と骨導マイクの収音信号の
低域周波数成分を手動で選択または混合する方法であ
る。しかし、周囲騒音が無いかまたは小さいときは、低
域成分信号が骨導音のみであるため、周波数帯域の確保
を重視して骨導音を残すと骨導音特有の音質の悪さが目
立つ。一方音質を重視して骨導音を除くと低域の周波数
帯域が確保できないといった欠点があった。
2. Description of the Related Art There has been provided a communication device capable of transmitting and receiving telephone calls by attaching a transmitter and a receiver integrally to an ear. The transmitters of these devices include air-conducting microphones and bone-conducting microphones. The sound pickup signal of the air conduction microphone has a wide band and good sound quality, but is easily affected by ambient noise. On the other hand, the sound pickup signal of the bone conduction microphone has a narrow band (only low frequency components) and poor sound quality, but has a characteristic that it is hardly affected by ambient noise. Utilizing these features, a method of processing a signal in a conventional communication device by dividing the signal into a low frequency component and a high frequency component has been proposed. That is, when picking up an audio signal, the user manually adjusts the high-frequency components of the air-borne microphone's picked-up signal and the low-frequency components of the bone-conducted microphone's picked-up signal according to the surrounding noise level. It is a method of selecting or mixing. However, when there is no or low ambient noise, the low-frequency component signal is only the bone conduction sound. Therefore, if the bone conduction sound is left with emphasis on securing the frequency band, the poor quality of the bone conduction sound is conspicuous. On the other hand, there is a disadvantage that a low frequency band cannot be secured if bone conduction sound is removed with emphasis on sound quality.

【0003】その欠点を克服するために、気導マイクま
たは骨導マイクの収音信号を帯域に分けて、その使用時
における周囲騒音環境によって、最適な音質の送話信号
に合成する方式が提案されている(特開平7−3126
34号公報参照)。
[0003] In order to overcome the drawbacks, there has been proposed a method of dividing a sound pickup signal of an air-conducting microphone or a bone-conducting microphone into bands and synthesizing it into a transmission signal having an optimum sound quality according to an ambient noise environment during use. (JP-A-7-3126)
No. 34).

【0004】[0004]

【発明が解決しようとする課題】しかし、低域成分が主
な通常の騒音に対しての、気導マイクと骨導マイクの収
音信号の混合法が十分に確立されていない。したがって
従来の技術では、使用する環境の周囲騒音の有無・大小
に応じて、高品質な送話信号を生成できるものはなかっ
た。
However, a method of mixing the sound pickup signals of the air-conducting microphone and the bone-conducting microphone for ordinary noise mainly including low-frequency components has not been sufficiently established. Therefore, in the related art, there is no one that can generate a high-quality transmission signal in accordance with the presence / absence and magnitude of ambient noise in the environment in which it is used.

【0005】本発明の目的は、送話器として気導マイク
と骨導マイクを用いて送話する装置において、周囲騒音
レベルに応じて最適な音質になるように送話信号を合成
することを実現するにある。
An object of the present invention is to synthesize a transmission signal so as to obtain an optimum sound quality in accordance with an ambient noise level in an apparatus for transmitting using an air conduction microphone and a bone conduction microphone as a transmitter. To be realized.

【0006】[0006]

【課題を解決するための手段】本発明にかかる請求項1
に記載の発明は、気導音用マイクロホンと骨導音用ピッ
クアップの二つの収音部と、該気導音用マクロホンの収
音信号の低域周波数成分と高域周波数成分並びに前記骨
導音用ピックアップの収音信号の低域周波数成分を各々
抽出する周波数成分抽出手段と、前記収音部の使用時に
おける周囲騒音レベルを入力する周囲騒音レベル入力手
段と、該周囲騒音レベルが高くなるにしたがって、前記
気導音用マイクロホンの収音信号の低域周波数成分と骨
導音用ピックアップの収音信号の低域周波数成分とのレ
ベル比を小さくし、前記気導音用マイクロホンの収音信
号の高域周波数成分のレベルを減少させるレベル制御手
段と、このレベル制御手段により調整された前記3種類
の周波数成分を送話信号として合成する合成手段を有す
る通話装置であって、前記レベル制御手段を、前記気導
音用マイクロホンの収音信号の低域周波数成分と骨導音
用ピックアップの収音信号の低域周波数成分とのレベル
比が1になる周囲騒音レベルに対して、前記気導音用マ
イクロホンの収音信号の高域周波数成分のレベルが減少
し始める周囲騒音レベルを高く設定したものである。
Means for Solving the Problems Claim 1 according to the present invention.
According to the invention described in the above, two sound collection units of an air conduction sound microphone and a bone conduction sound pickup, a low frequency component and a high frequency component of a sound pickup signal of the air conduction sound microphone, and the bone conduction sound Frequency component extracting means for respectively extracting low frequency components of a sound pickup signal of a pickup for use, an ambient noise level input means for inputting an ambient noise level when the sound pickup section is used, and when the ambient noise level becomes high. Therefore, the level ratio between the low-frequency component of the sound pickup signal of the air-conducting microphone and the low-frequency component of the sound pickup signal of the bone-conduction sound pickup is reduced, and the sound pickup signal of the air-conducting microphone is reduced. A communication apparatus comprising: level control means for reducing the level of the high frequency component; and synthesizing means for synthesizing the three types of frequency components adjusted by the level control means as a transmission signal. And controlling the level control means with respect to the ambient noise level at which the level ratio between the low-frequency component of the sound signal picked up by the air-conducting microphone and the low-frequency component of the sound signal picked up by the bone-conducting sound pickup becomes 1. The ambient noise level at which the level of the high frequency component of the sound pickup signal of the air conduction microphone starts to decrease is set high.

【0007】また、請求項2に記載の発明は、前記気導
音用マイクロホンの収音信号の低域周波数成分と骨導音
用ピックアップの収音信号の低域周波数成分の周囲騒音
レベルに対するレベルの変化の割合に比べて、前記気導
音用マイクロホンの収音信号の高域周波数成分の該レベ
ルの変化の割合を小さく前記レベル制御手段を設定した
ものである。
According to a second aspect of the present invention, the level of the low-frequency component of the sound signal picked up by the microphone for air conduction sound and the low-frequency component of the sound signal picked up by the pickup for bone conduction sound relative to the ambient noise level. The level control means is set so that the rate of change of the level of the high frequency component of the sound pickup signal of the air conduction microphone is smaller than the rate of change of the air conduction sound microphone.

【0008】[0008]

【発明の実施の形態】気導マイクの収音信号の低域周波
数成分と骨導マイクの収音信号の低域周波数成分とのレ
ベル比が1になる周囲騒音レベルと気導マイクの収音信
号の高域周波数成分のレベルが減少し始める周囲騒音レ
ベルとの関係、および気導マイクの収音信号の低域周波
数成分と骨導マイクの収音信号の低域周波数成分の周囲
騒音レベルに対するレベルの変化の割合と気導マイクの
高域周波数成分のレベルの変化の割合の関係を制御する
ことに本発明の特徴がある。
BEST MODE FOR CARRYING OUT THE INVENTION Ambient noise level and sound pickup of an air-conducting microphone when the level ratio between the low-frequency component of the sound signal collected by the air-conducting microphone and the low-frequency component of the sound signal collected by the bone-conducting microphone is 1. The relationship between the ambient noise level at which the level of the high-frequency component of the signal begins to decrease, and the ambient noise level of the low-frequency component of the sound-collected signal of the air-conducting microphone and the low-frequency component of the signal collected by the bone-conducting microphone It is a feature of the present invention to control the relationship between the rate of change of the level and the rate of change of the level of the high frequency component of the air conduction microphone.

【0009】収音信号の高域周波数成分は、骨導マイク
の収音信号の周波数帯域が狭く、低域のみなので、気導
マイクの収音信号の高域周波数成分のみからなる。気導
マイクの収音信号の高域周波数成分の音質と周囲騒音レ
ベルに対する関係(気導音として実線で示す)を図1に
示す。気導マイクの収音信号の高域周波数成分の音質
は、周囲騒音のレベルに大きく影響を受け、騒音レベル
の高い時は音質の劣化が著しい。しかし、収音信号の高
域周波数成分は、気導マイクの収音信号の高域周波数成
分のみであることから、音声周波数帯域の確保の観点か
らはなるべくそのレベルを高くすべきである。したがっ
て、気導マイクの収音信号の高域成分が減少し始める騒
音レベルをなるべく高く、そのレベルが減少する変化率
をなるべく小さく設定する。騒音レベルによって、気導
マイクの収音信号の高域周波数成分のレベルを図1の音
質−騒音レベル特性に基づいて、最適な音質になるよう
に音声信号の高域周波数成分のレベルを図2のように調
整することで、騒音レベルが高くなっても音質が確保で
きる。
The high frequency component of the picked-up signal is composed of only the high frequency component of the picked-up signal of the air-conducting microphone because the frequency band of the picked-up signal of the bone-conducting microphone is narrow and only the low band. FIG. 1 shows the relationship between the sound quality of the high frequency component of the sound pickup signal of the air-conducting microphone and the ambient noise level (indicated by solid lines as air-conducted sound). The sound quality of the high frequency component of the sound pickup signal of the air-conducting microphone is greatly affected by the level of the ambient noise, and when the noise level is high, the sound quality is significantly deteriorated. However, since the high-frequency components of the picked-up signal are only the high-frequency components of the picked-up signal of the air-conducting microphone, the level should be as high as possible from the viewpoint of securing the audio frequency band. Therefore, the noise level at which the high-frequency component of the sound pickup signal of the air-conducting microphone starts to decrease is set as high as possible, and the rate of change at which the level decreases is set as small as possible. According to the noise level, the level of the high frequency component of the sound signal collected by the air-conducting microphone is adjusted to the level of the high frequency component of the audio signal based on the sound quality-noise level characteristic of FIG. By adjusting as described above, sound quality can be ensured even when the noise level increases.

【0010】一方、収音信号の低域周波数成分につい
て、気導マイクの収音信号の低域周波数成分の音質と周
囲騒音レベルに対する関係(気導音として実線で示
す)、および骨導マイクの収音信号の低域周波数成分の
音質と周囲騒音レベルに対する関係(骨導音として点線
で示す)をそれぞれ図3に示す。気導マイクの収音信号
の低域周波数成分の音質は周囲騒音のレベルが低いとき
には良好であるが、周囲騒音のレベルに大きく影響を受
け、周囲騒音レベルが高い時は音質の劣化が著しい。
On the other hand, regarding the low-frequency components of the picked-up signal, the relationship between the sound quality of the low-frequency components of the picked-up signal of the air-conducting microphone and the ambient noise level (shown by solid lines as the air-conducted sound), FIG. 3 shows the relationship between the sound quality of the low-frequency component of the picked-up signal and the ambient noise level (indicated by dotted lines as bone-conducted sound). The sound quality of the low frequency component of the sound pickup signal of the air-conducting microphone is good when the level of the ambient noise is low, but is greatly affected by the level of the ambient noise, and when the ambient noise level is high, the sound quality is significantly deteriorated.

【0011】一方、骨導マイクの収音信号の低域周波数
成分の音質は周囲騒音のレベルが低いときには気導マイ
クの収音信号に比べて劣るが、周囲騒音のレベルに比較
的影響を受けず、騒音レベルが高い時でも音質の劣化は
比較的小さい。低域周波数成分は、気導マイクの収音信
号と骨導マイクの収音信号の二つの成分があるため、両
低域周波数成分の選択は、両者の音質の優劣が逆転した
騒音レベルにおいて素早く行ったほうが、音質の確保の
ためには良い。したがって、気導マイクの収音信号の低
域成分の減少する変化率と、骨導マイクの低域成分の増
加する変化率をなるべく大きく設定する。また、通常の
騒音は低域周波数成分を多く含んでいるため、気導マイ
クの収音信号の低域成分が減少し始め、骨導マイクの低
域成分が増加し始める騒音レベルを、気導マイクの収音
信号の高域成分が減少し始める騒音レベルより低く設定
する。騒音レベルによって、気導マイクの収音信号の低
域周波数成分と骨導マイクの収音信号の低域周波数成分
の加算時の重みを騒音レベルに対応して図4のように制
御することで、最適な音声信号の低域周波数成分を合成
することで、騒音レベルが高くなっても音質が確保でき
る。
On the other hand, the sound quality of the low-frequency component of the sound pickup signal of the bone conduction microphone is inferior to the sound pickup signal of the air conduction microphone when the ambient noise level is low, but is relatively affected by the level of the ambient noise. However, even when the noise level is high, the deterioration of the sound quality is relatively small. Since the low-frequency component has two components, the pick-up signal of the air-conducting microphone and the pick-up signal of the bone-conducting microphone, the selection of both low-frequency components is quick at the noise level where the superiority of the sound quality is reversed. It is better to go for the sound quality. Therefore, the rate of change of the low-frequency component of the sound pickup signal of the air conduction microphone and the rate of increase of the low-frequency component of the bone conduction microphone are set as large as possible. In addition, since normal noise contains many low-frequency components, the noise level at which the low-frequency component of the picked-up signal of the air-conducting microphone starts to decrease and the low-frequency component of the bone-conducting microphone starts to increase. The noise level is set lower than the noise level at which the high-frequency component of the sound pickup signal of the microphone starts to decrease. Depending on the noise level, the weight at the time of adding the low frequency component of the sound pickup signal of the air conduction microphone and the low frequency component of the sound pickup signal of the bone conduction microphone is controlled as shown in FIG. By synthesizing the optimal low frequency components of the audio signal, sound quality can be ensured even when the noise level increases.

【0012】収音信号の低域,高域成分について、図
2,図4を用いて個別に説明したが、気導マイクの収音
信号の高域周波数成分,低域周波数成分と骨導マイクの
収音信号の低域周波数成分の各レベルと騒音レベルの相
対関係を図5に示す。図示のように、気導マイクの収音
信号の低域周波数成分と骨導マイクの収音信号の低域周
波数成分とのレベル比が1になる周囲騒音レベルLAL
BLに対して、気導マイクの収音信号の高域周波数成分
のレベルが減少し始める周囲騒音レベルLALが高く、
気導マイクの収音信号の低域周波数成分と骨導マイクの
収音信号の低域周波数成分の周囲騒音レベルに対するレ
ベルの変化の割合に比べて、気導マイクの収音信号の高
域周波数成分のレベルの変化の割合を小さくすること
で、騒音レベルが高くなっても収音信号の音質を確保で
きる。
The low-frequency and high-frequency components of the picked-up signal have been described individually with reference to FIGS. 2 and 4. FIG. 5 shows the relative relationship between each level of the low-frequency component of the collected sound signal and the noise level. As shown in the figure, the ambient noise level LAL at which the level ratio between the low-frequency component of the sound signal collected by the air-conducting microphone and the low-frequency component of the sound signal collected by the bone-conducting microphone is 1
With respect to BL, the ambient noise level LAL at which the level of the high frequency component of the sound pickup signal of the air-conducting microphone starts to decrease is high,
Compared to the rate of change in the level of the low-frequency component of the sound signal collected by the air-conducting microphone and the low-frequency component of the signal collected by the bone-conducting microphone with respect to the ambient noise level, the high-frequency By reducing the rate of change of the component level, the sound quality of the picked-up signal can be ensured even when the noise level increases.

【0013】[0013]

【実施例】図6は、本発明の一実施例の構成を示すブロ
ック図である。
FIG. 6 is a block diagram showing the configuration of an embodiment of the present invention.

【0014】1は気導マイク、2は骨導マイク、3は気
導マイク用アンプ、4は骨導マイク用アンプ、5は前記
気導マイク用アンプ3からの収音信号を低域周波数成分
と高域周波数成分に分けるフィルタであり、気導マイク
用の高域通過フィルタ(HPF)6と、気導マイク用の
低域通過フィルタ(LPF)7とからなる。8は骨導マ
イク用の低域通過フィルタ(LPF)である。9は前記
高域通過フィルタ(HPF)6で取り出された気導音の
高域周波数成分のレベルを、後述する制御情報提供部1
3からの制御情報に基づいて制御するレベル制御部、1
0は前記低域通過フィルタ(LPF)7からの気導マイ
ク1の収音信号の低域周波数成分のレベルを、制御情報
提供部13からの制御情報に基づいて制御するレベル制
御部、11は前記低域通過フィルタ(LPF)8からの
骨導マイク2の収音信号の低域周波数成分のレベルを、
制御情報提供部13からの制御情報に基づいて制御する
レベル制御部であり、レベル制御部9,10,11は、
例えば制御電圧によって入力信号の増幅率が制御できる
利得制御回路で構成される。12は周囲騒音レベル入力
端子で、例えば騒音レベルに対応した電圧レベルが入力
される。13は前記気導マイク1の収音信号の高域周波
数成分のレベル制御部9及び気導マイク1の収音信号の
低域周波数成分のレベル制御部10と、骨導マイク2の
収音信号の低域周波数成分のレベル制御部11に、制御
情報を提供する制御情報提供部、14は前記レベル制御
部9からの気導マイク1の収音信号の高域周波数成分
と、レベル制御部10からの気導マイク1の収音信号の
低域周波数成分と、レベル制御部11からの骨導マイク
2の収音信号の低域周波数成分とを合成する混合回路で
ある。15は電話回線用回路への送話信号出力端子であ
る。
1 is an air conduction microphone, 2 is a bone conduction microphone, 3 is an air conduction microphone amplifier, 4 is a bone conduction microphone amplifier, and 5 is a low-frequency component of a picked-up signal from the air conduction microphone amplifier 3. And a high-pass frequency component. The filter includes a high-pass filter (HPF) 6 for an air-conducting microphone and a low-pass filter (LPF) 7 for an air-conducting microphone. 8 is a low-pass filter (LPF) for a bone conduction microphone. Reference numeral 9 denotes a control information providing unit 1 which describes a level of a high-frequency component of the air conduction sound extracted by the high-pass filter (HPF) 6, which will be described later.
A level control unit for controlling based on control information from 3;
Reference numeral 0 denotes a level control unit that controls the level of a low-frequency component of a sound signal collected by the air conduction microphone 1 from the low-pass filter (LPF) 7 based on control information from the control information providing unit 13. The level of the low-frequency component of the sound pickup signal of the bone conduction microphone 2 from the low-pass filter (LPF) 8 is
A level control unit that performs control based on control information from the control information providing unit 13, and the level control units 9, 10, and 11
For example, it is constituted by a gain control circuit capable of controlling the amplification factor of an input signal by a control voltage. Reference numeral 12 denotes an ambient noise level input terminal to which, for example, a voltage level corresponding to the noise level is input. Reference numeral 13 denotes a level control unit 9 for a high-frequency component of a sound signal collected by the air-conducting microphone 1 and a level control unit 10 for a low-frequency component of a sound signal collected by the air-conducting microphone 1; A control information providing unit for providing control information to the level control unit 11 for the low frequency component, and a high frequency component of the sound pickup signal of the air conduction microphone 1 from the level control unit 9; This is a mixing circuit for synthesizing the low-frequency component of the sound signal collected by the air-conducting microphone 1 from the microphone and the low-frequency component of the sound signal collected by the bone-conducting microphone 2 from the level controller 11. Reference numeral 15 denotes a transmission signal output terminal to a telephone line circuit.

【0015】次に、動作について説明する。Next, the operation will be described.

【0016】気導マイク1で収音された音声信号は、気
導マイク用アンプ3で増幅される。骨導マイク2で収音
された音声信号は、骨導マイク用アンプ4で増幅され
る。気導マイク用アンプ3からの収音信号は、高域通過
フィルタ(HPF)6と低域通過フィルタ(LPF)7
で高域と低域の周波数成分が取り出される。骨導マイク
2の収音信号は、低域通過フィルタ(LPF)8で低域
の周波数成分が取り出される。
The audio signal picked up by the air conduction microphone 1 is amplified by the air conduction microphone amplifier 3. The audio signal collected by the bone conduction microphone 2 is amplified by the bone conduction microphone amplifier 4. The picked-up signal from the air-conducting microphone amplifier 3 is supplied to a high-pass filter (HPF) 6 and a low-pass filter (LPF) 7.
, High frequency and low frequency components are extracted. From the sound pickup signal of the bone conduction microphone 2, a low-frequency component is extracted by a low-pass filter (LPF) 8.

【0017】まず、騒音レベルに応じて、高域の周波数
帯域のレベルを制御する方法を説明する。気導マイク1
の高域の周波数帯域の音質は、騒音レベルに依存する関
係(図1)がある。したがって、気導マイク1の収音信
号のレベルを制御するときは、図1に基づいて得られた
最適レベルの騒音レベル依存性(図2)を利用する。レ
ベル制御部9では、制御情報提供部13から騒音レベル
に応じて気導マイク1の高域周波数成分を最適レベルに
制御するための情報を受け、気導マイク1の高域通過フ
ィルタ(HPF)6からの高域周波数成分のレベルを最
適に制御する。
First, a method of controlling the level of a high frequency band according to the noise level will be described. Air conduction microphone 1
Has a relationship depending on the noise level (FIG. 1). Therefore, when controlling the level of the sound pickup signal of the air-conducting microphone 1, the noise level dependence (FIG. 2) of the optimum level obtained based on FIG. 1 is used. The level control unit 9 receives information from the control information providing unit 13 for controlling the high-frequency component of the air-conducting microphone 1 to an optimum level according to the noise level, and receives a high-pass filter (HPF) of the air-conducting microphone 1. 6 to optimally control the level of the high frequency component.

【0018】次に、騒音レベルに応じて、低域の周波数
帯域の気導音と骨導音の重みを制御する方法を説明す
る。骨導マイク2の低域の周波数帯域成分と、気導マイ
ク1の低域の周波数帯域成分の音質が、周囲騒音レベル
に依存する関係(図3)がある。したがって骨導マイク
2の収音信号と気導マイク1の収音信号の重みを制御す
るときは、図3に基づいて得られた最適混合比の騒音レ
ベル依存性(図4)を利用する。制御情報提供部13か
ら騒音レベルに応じて気導マイク1の収音信号を最適レ
ベルに制御するための情報を受け、気導マイク用の低域
通過フィルタ(LPF)7からの低域周波数成分のレベ
ルがレベル制御部10で最適に制御される。一方、骨導
マイク2の収音信号を最適レベルに制御するための情報
を受け、骨導マイク用の低域通過フィルタ(LPF)8
からの低域周波数成分のレベルがレベル制御部11で最
適に制御される。
Next, a method of controlling the weight of the air conduction sound and the bone conduction sound in the low frequency band according to the noise level will be described. There is a relationship (FIG. 3) in which the sound quality of the low frequency band component of the bone conduction microphone 2 and the sound quality of the low frequency band component of the air conduction microphone 1 depend on the ambient noise level. Therefore, when controlling the weight of the sound pickup signal of the bone conduction microphone 2 and the weight of the sound pickup signal of the air conduction microphone 1, the noise level dependence (FIG. 4) of the optimum mixing ratio obtained based on FIG. 3 is used. The control information providing unit 13 receives information for controlling the picked-up signal of the air-conducting microphone 1 to an optimum level according to the noise level, and receives a low-frequency component from a low-pass filter (LPF) 7 for the air-conducting microphone. Is optimally controlled by the level control unit 10. On the other hand, it receives information for controlling the sound pickup signal of the bone conduction microphone 2 to an optimal level, and receives a low-pass filter (LPF) 8 for the bone conduction microphone.
The level of the low-frequency component from is controlled optimally by the level control unit 11.

【0019】このように、図2,図4に基づいて、図5
に示されたような気導マイク1の収音信号の高域周波数
成分,低域周波数成分と骨導マイク2の収音信号の低域
周波数成分の各レベルと騒音レベルとの関係を用いるこ
とで、最適な音質が制御できる。気導マイク1の収音信
号の低域周波数成分と骨導マイク2の収音信号の低域周
波数成分とのレベル比が1になる周囲騒音レベルに対し
て、気導マイク1の収音信号の高域周波数成分のレベル
が減少し始める周囲騒音レベルが高くなるように各レベ
ル制御部9,10,11を設定し、また、気導マイク1
の収音信号の低域周波数成分と骨導マイク2の収音信号
の低域周波数成分の周囲騒音レベルに対するレベルの変
化の割合に比べて、気導マイク1の収音信号の高域周波
数成分のレベルの変化の割合の方が小さくなるように設
定することで、騒音レベルが高くなっても音質が確保で
きる。
Thus, based on FIGS. 2 and 4, FIG.
The relationship between the noise level and the high-frequency component and low-frequency component of the sound signal collected by the air-conducting microphone 1 and the low-frequency component of the sound signal collected by the bone-conducting microphone 2 as shown in FIG. The optimal sound quality can be controlled. For the ambient noise level at which the level ratio between the low-frequency component of the sound signal picked up by the air-conducting microphone 1 and the low-frequency component of the sound signal picked up by the bone-conducting microphone 2 is 1, the sound signal collected by the air-conducting microphone 1 The level control units 9, 10, and 11 are set so that the ambient noise level at which the level of the high-frequency component of the microphone begins to decrease becomes higher.
Compared with the rate of change in the level of the low frequency component of the sound signal collected by the bone conduction microphone 2 and the level of the low frequency component of the sound signal collected by the bone conduction microphone 2 with respect to the ambient noise level. By setting the rate of change of the level to be smaller, sound quality can be ensured even when the noise level increases.

【0020】周囲騒音レベル入力端子12の騒音レベル
に基づき、制御情報提供部13で高域信号のレベル制御
部9と低域信号のレベル制御部10,11への提供情報
が定められる。例えば、レベル制御部9,10,11が
制御電圧によって入力信号の増幅率が制御できるアンプ
の場合、周囲騒音レベルと入力端子電圧との対応をあら
かじめとっておくことで、図2,図4の特性がレベル制
御部9,10,11で反映できる。
Based on the noise level at the ambient noise level input terminal 12, the control information providing unit 13 determines the information to be provided to the high frequency signal level control unit 9 and the low frequency signal level control units 10 and 11. For example, in the case where the level control units 9, 10, and 11 are amplifiers that can control the amplification factor of the input signal by the control voltage, the correspondence between the ambient noise level and the input terminal voltage is determined in advance, so that the levels shown in FIGS. The characteristics can be reflected in the level controllers 9, 10, and 11.

【0021】レベル制御部9からの送信信号の高域周波
数成分と、レベル制御部10,11からの送話信号の低
域周波数成分は、混合回路14で混合される。混合回路
14で混合された信号は、電話回線用回路への送話信号
出力端子15へ送られる。
The high frequency component of the transmission signal from the level control unit 9 and the low frequency component of the transmission signal from the level control units 10 and 11 are mixed by a mixing circuit 14. The signal mixed by the mixing circuit 14 is sent to a transmission signal output terminal 15 for a telephone line circuit.

【0022】なお、本発明と実施例との対応を示すと下
記のようになる。
The correspondence between the present invention and the embodiment is as follows.

【0023】本発明においては、図6に示すように収音
部として気導マイク1と骨導マイク2を持ち、周波数成
分抽出手段として気導マイク用の高域通過フィルタ6と
低域通過フィルタ7と、骨導マイク用の低域通過フィル
タ8とを用いている。また、周囲騒音レベル入力手段に
は、周囲騒音レベル入力端子12が対応している。さら
にレベル制御手段として、レベル制御部9,10,11
を用いており、合成手段には混合回路14が対応してい
る。
In the present invention, as shown in FIG. 6, an air-conducting microphone 1 and a bone-conducting microphone 2 are provided as sound pickup units, and a high-pass filter 6 and a low-pass filter for the air-conducting microphone are used as frequency component extracting means. 7 and a low-pass filter 8 for a bone conduction microphone. An ambient noise level input terminal 12 corresponds to the ambient noise level input means. Further, as level control means, level control units 9, 10, 11
The mixing circuit 14 corresponds to the synthesizing means.

【0024】[0024]

【発明の効果】以上説明したように、本発明は収音部と
して気導マイクと骨導マイクを用いた通信装置におい
て、前記気導音用マイクロホンの収音信号の低域周波数
成分と骨導音用ピックアップの収音信号の低域周波数成
分とのレベル比が1になる周囲騒音レベルに対して、前
記気導音用マイクロホンの収音信号の高域周波数成分の
レベルが減少し始める周囲騒音レベルを高く設定したの
で、その使用環境において良好な音声の送話が可能にな
る。
As described above, the present invention relates to a communication device using an air conduction microphone and a bone conduction microphone as a sound collection unit, and a low frequency component of a sound pickup signal of the air conduction microphone and a bone conduction microphone. Ambient noise at which the level of the high-frequency component of the sound pickup signal of the air-conduction sound microphone begins to decrease with respect to the ambient noise level at which the level ratio of the sound pickup signal of the sound pickup to the low-frequency component becomes 1 Since the level is set high, it is possible to transmit a good voice in the usage environment.

【0025】また、前記気導音用マイクロホンの収音信
号の低域周波数成分と骨導音用ピックアップの収音信号
の低域周波数成分の周囲騒音レベルに対するレベルの変
化の割合に比べて、前記気導音用マイクロホンの収音信
号の高域周波数成分の該レベルの変化の割合を小さくレ
ベル制御手段を設定したので、気導マイクの収音信号ま
たは骨導マイクの収音信号を最適の音質になるようにレ
ベル制御または合成して送話信号を生成することが、周
囲騒音のレベルを反映して行われるため、送話信号の音
質を向上させることを可能にした。
The ratio of the change in the level of the low-frequency component of the sound signal picked up by the microphone for air-conducted sound and the low-frequency component of the signal picked up by the pickup for bone-conducted sound with respect to the ambient noise level is compared with the above-mentioned ratio. Since the level control means is set to reduce the rate of change of the level of the high frequency component of the sound signal collected by the air-conducting microphone, the sound signal collected by the air-conducting microphone or the signal collected by the bone-conducting microphone is optimally reproduced. Since the transmission signal is generated by controlling or synthesizing the transmission signal so as to reflect the ambient noise level, the sound quality of the transmission signal can be improved.

【0026】ここでは通話装置について、実施例を挙げ
て本発明の効果を説明したが、一般の電話の送受話にお
いても、使用時の周囲騒音の環境・状態において、最適
な音質になるように、気導マイクと骨導マイクを用いる
ことにより、送話信号を生成することが可能になる。
Here, the effects of the present invention have been described with reference to the embodiments of the communication device. However, even in the transmission and reception of ordinary telephones, the optimum sound quality can be obtained in the environment and condition of the ambient noise during use. By using the air conduction microphone and the bone conduction microphone, a transmission signal can be generated.

【図面の簡単な説明】[Brief description of the drawings]

【図1】収音した気導音の高域周波数成分の音質と周囲
騒音レベルとの関係を示す図である。
FIG. 1 is a diagram showing the relationship between the sound quality of a high-frequency component of a collected air-conducted sound and the ambient noise level.

【図2】収音した気導音の高域周波数成分の最適なレベ
ルと周囲騒音レベルとの関係を示す図である。
FIG. 2 is a diagram showing a relationship between an optimum level of a high-frequency component of collected air conduction sound and an ambient noise level.

【図3】収音した骨導音と気導音の低域周波数成分の各
音質と周囲騒音レベルとの関係を示す図である。
FIG. 3 is a diagram showing a relationship between each sound quality of low frequency components of collected bone conduction sound and air conduction sound and an ambient noise level.

【図4】収音した骨導音と気導音の低域周波数成分の最
適な混合比と周囲騒音レベルとの関係を示す図である。
FIG. 4 is a diagram illustrating a relationship between an optimum mixing ratio of low-frequency components of collected bone conduction sound and air conduction sound and an ambient noise level.

【図5】収音信号の高域周波数成分について示した図2
と、低域周波数成分について示した図4の相対関係を示
す図である。
FIG. 5 is a diagram illustrating a high-frequency component of a picked-up signal;
FIG. 5 is a diagram showing a relative relationship of FIG. 4 showing low frequency components.

【図6】本発明の一実施例の構成を示すブロック図であ
る。
FIG. 6 is a block diagram showing a configuration of one embodiment of the present invention.

【符号の説明】[Explanation of symbols]

1 気導マイク(気導音用マイクロホン) 2 骨導マイク(骨導音用ピックアップ) 3 気導マイク用アンプ 4 骨導マイク用アンプ 5 フィルタ 6 気導マイク用の高域通過フィルタ(HPF) 7 気導マイク用の低域通過フィルタ(LPF) 8 骨導マイク用の低域通過フィルタ(LPF) 9 高域周波数成分のレベル制御部 10 低域周波数成分のレベル制御部 11 低域周波数成分のレベル制御部 12 周囲騒音レベル入力端子 13 制御情報提供部 14 混合回路 15 送話信号出力端子 Reference Signs List 1 air conduction microphone (microphone for air conduction sound) 2 bone conduction microphone (pickup for bone conduction sound) 3 amplifier for air conduction microphone 4 amplifier for bone conduction microphone 5 filter 6 high pass filter (HPF) for air conduction microphone 7 Low-pass filter (LPF) for air conduction microphone 8 Low-pass filter (LPF) for bone conduction microphone 9 High-frequency component level control unit 10 Low-frequency component level control unit 11 Low-frequency component level Control unit 12 Ambient noise level input terminal 13 Control information providing unit 14 Mixing circuit 15 Transmission signal output terminal

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】 気導音用マイクロホンと骨導音用ピック
アップの二つの収音部と、該気導音用マクロホンの収音
信号の低域周波数成分と高域周波数成分並びに前記骨導
音用ピックアップの収音信号の低域周波数成分を各々抽
出する周波数成分抽出手段と、前記収音部の使用時にお
ける周囲騒音レベルを入力する周囲騒音レベル入力手段
と、該周囲騒音レベルが高くなるにしたがって、前記気
導音用マイクロホンの収音信号の低域周波数成分と骨導
音用ピックアップの収音信号の低域周波数成分とのレベ
ル比を小さくし、前記気導音用マイクロホンの収音信号
の高域周波数成分のレベルを減少させるレベル制御手段
と、このレベル制御手段により調整された前記3種類の
周波数成分を送話信号として合成する合成手段を有する
通話装置であって、前記レベル制御手段を、前記気導音
用マイクロホンの収音信号の低域周波数成分と骨導音用
ピックアップの収音信号の低域周波数成分とのレベル比
が1になる周囲騒音レベルに対して、前記気導音用マイ
クロホンの収音信号の高域周波数成分のレベルが減少し
始める周囲騒音レベルを高く設定したことを特徴とする
通話装置。
An air-conducting microphone and a bone-conducting sound pickup, two sound-collecting parts, a low-frequency component and a high-frequency component of a sound-collecting signal of the air-conducting sound microphone, and the bone-conducting sound. Frequency component extracting means for respectively extracting low frequency components of a pickup signal of a pickup, ambient noise level input means for inputting an ambient noise level when the sound pickup section is used, and as the ambient noise level increases, Reducing the level ratio between the low-frequency component of the sound signal picked up by the air-conducting microphone and the low-frequency component of the sound signal picked up by the bone-conducting sound pickup; A communication apparatus comprising: level control means for reducing a level of a high frequency component; and synthesis means for synthesizing the three types of frequency components adjusted by the level control means as a transmission signal, The level control means controls the ambient noise level at which the level ratio between the low frequency component of the sound signal picked up by the air-conducting microphone and the low frequency component of the sound signal picked up by the bone-conducted sound pickup becomes 1. A communication device, wherein the ambient noise level at which the level of the high frequency component of the sound pickup signal of the air conduction microphone starts to decrease is set high.
【請求項2】 請求項1記載の通話装置において、前記
気導音用マイクロホンの収音信号の低域周波数成分と骨
導音用ピックアップの収音信号の低域周波数成分の周囲
騒音レベルに対するレベルの変化の割合に比べて、前記
気導音用マイクロホンの収音信号の高域周波数成分の該
レベルの変化の割合を小さく前記レベル制御手段を設定
したことを特徴とする通話装置。
2. The communication device according to claim 1, wherein a low-frequency component of a sound signal picked up by the air-conducting microphone and a low-frequency component of a sound signal picked up by the bone-conducting sound pickup have a level relative to an ambient noise level. A communication device, wherein the level control means is set to have a smaller rate of change of the level of the high frequency component of the sound pickup signal of the air conduction microphone than a change rate of the air conduction sound microphone.
JP08168986A 1996-06-28 1996-06-28 Intercom equipment Expired - Lifetime JP3097901B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP08168986A JP3097901B2 (en) 1996-06-28 1996-06-28 Intercom equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP08168986A JP3097901B2 (en) 1996-06-28 1996-06-28 Intercom equipment

Publications (2)

Publication Number Publication Date
JPH1023123A true JPH1023123A (en) 1998-01-23
JP3097901B2 JP3097901B2 (en) 2000-10-10

Family

ID=15878241

Family Applications (1)

Application Number Title Priority Date Filing Date
JP08168986A Expired - Lifetime JP3097901B2 (en) 1996-06-28 1996-06-28 Intercom equipment

Country Status (1)

Country Link
JP (1) JP3097901B2 (en)

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JP2006215549A (en) * 2005-02-04 2006-08-17 Microsoft Corp Method and apparatus for reducing noise corruption by alternative sensor signal in multi-sensory speech enhancement
US7120477B2 (en) 1999-11-22 2006-10-10 Microsoft Corporation Personal mobile computing device having antenna microphone and speech detection for improved speech recognition
US7283850B2 (en) 2004-10-12 2007-10-16 Microsoft Corporation Method and apparatus for multi-sensory speech enhancement on a mobile device
US7406303B2 (en) 2005-07-05 2008-07-29 Microsoft Corporation Multi-sensory speech enhancement using synthesized sensor signal
US7447630B2 (en) 2003-11-26 2008-11-04 Microsoft Corporation Method and apparatus for multi-sensory speech enhancement
US7680656B2 (en) 2005-06-28 2010-03-16 Microsoft Corporation Multi-sensory speech enhancement using a speech-state model
US7930178B2 (en) 2005-12-23 2011-04-19 Microsoft Corporation Speech modeling and enhancement based on magnitude-normalized spectra

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7120477B2 (en) 1999-11-22 2006-10-10 Microsoft Corporation Personal mobile computing device having antenna microphone and speech detection for improved speech recognition
US7447630B2 (en) 2003-11-26 2008-11-04 Microsoft Corporation Method and apparatus for multi-sensory speech enhancement
US7283850B2 (en) 2004-10-12 2007-10-16 Microsoft Corporation Method and apparatus for multi-sensory speech enhancement on a mobile device
JP2006215549A (en) * 2005-02-04 2006-08-17 Microsoft Corp Method and apparatus for reducing noise corruption by alternative sensor signal in multi-sensory speech enhancement
US7680656B2 (en) 2005-06-28 2010-03-16 Microsoft Corporation Multi-sensory speech enhancement using a speech-state model
US7406303B2 (en) 2005-07-05 2008-07-29 Microsoft Corporation Multi-sensory speech enhancement using synthesized sensor signal
US7930178B2 (en) 2005-12-23 2011-04-19 Microsoft Corporation Speech modeling and enhancement based on magnitude-normalized spectra

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