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JP2523366B2 - Audio playback method - Google Patents

Audio playback method

Info

Publication number
JP2523366B2
JP2523366B2 JP5147589A JP5147589A JP2523366B2 JP 2523366 B2 JP2523366 B2 JP 2523366B2 JP 5147589 A JP5147589 A JP 5147589A JP 5147589 A JP5147589 A JP 5147589A JP 2523366 B2 JP2523366 B2 JP 2523366B2
Authority
JP
Japan
Prior art keywords
speaker
sound
frequency band
omnidirectional
directional
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.)
Expired - Lifetime
Application number
JP5147589A
Other languages
Japanese (ja)
Other versions
JPH02230898A (en
Inventor
直文 印牧
敏晴 田邊
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 JP5147589A priority Critical patent/JP2523366B2/en
Publication of JPH02230898A publication Critical patent/JPH02230898A/en
Application granted granted Critical
Publication of JP2523366B2 publication Critical patent/JP2523366B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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  • Circuit For Audible Band Transducer (AREA)
  • Obtaining Desirable Characteristics In Audible-Bandwidth Transducers (AREA)

Description

【発明の詳細な説明】 「産業上の利用分野」 この発明は例えば通信会議システムに用いられる音声
再生方式に関する。
DETAILED DESCRIPTION OF THE INVENTION "Industrial field of application" The present invention relates to a voice reproduction system used in a communication conference system, for example.

「従来の技術」 音声会議、テレビ会議等の通信会議システムを実現す
る際には、会議の性格上、再生装置を長時間使用するこ
とが多く、受話器やイヤホンを用いると受聴者に対して
重圧感、圧迫感を生じさせるという第1の問題が発生す
る。
“Conventional technology” When implementing communication conference systems such as voice conferences and video conferences, the playback device is often used for a long time due to the nature of the conference, and using a handset or earphones puts a heavy burden on the listener. The first problem of causing a feeling of pressure and a feeling of pressure occurs.

他方、受話器やイヤホンを用いず拡声スピーカを使う
方式が考えられるが、この場合は受話器やイヤホンでは
問題視されなかった欠点が生じる。即ち、会議とは無関
係な人間(非当事者)が周囲にいる環境の中で、通信会
議を行う場合、再生される会議内容が当該非当事者に受
聴されてしまうという第2の問題点が生じる。
On the other hand, a method of using a loudspeaker without using a receiver or earphones is conceivable, but in this case, there arises a drawback that is not regarded as a problem with the receivers or earphones. That is, when a communication conference is held in an environment in which people (non-parties) unrelated to the conference are present, a second problem arises in that the content of the reproduced conference is heard by the non-party.

この点に対処するために、拡声スピーカに狭指向性を
持たせる再生方式が考えられる。狭指向性によって小さ
くさせた受聴範囲内に当事者だけが位置すると、会議と
は無関係な非当事者の受聴が困難になるということを利
用している。ところが、この従来方式では音の波長が大
きい低音域の指向性については実現が難しく、無理に実
現するとスピーカ口径が大きくなり装置の大型化という
問題が生じる。
In order to deal with this point, a reproduction method in which the loud speaker has narrow directivity is considered. It takes advantage of the fact that if only the parties are located within the listening range reduced by the narrow directivity, it is difficult for non-parties who are unrelated to the conference to listen. However, with this conventional method, it is difficult to realize directivity in the low sound range where the wavelength of sound is large, and if it is forcibly realized, the speaker aperture becomes large and the device becomes large.

この問題を解決するために、会話内容の了解性に影響
を与える周波数帯域(例えばホルマント周波数帯域)に
対して狭指向性スピーカで再生し、それ以外の周波数帯
域に対して無指向性スピーカで再生する方式が提案され
ている。この発明はこの方式を改良し、周囲の当該非当
事者への会話内容の了解性を更に低減させる、即ち、周
囲への会話内容のもれを防止するものである。
In order to solve this problem, a narrow directional speaker is used for the frequency band that affects the intelligibility of the conversation (for example, formant frequency band), and an omnidirectional speaker is used for the other frequency bands. The method of doing is proposed. The present invention improves this method and further reduces the intelligibility of the conversation contents to the concerned non-parties in the surroundings, that is, prevents the leakage of the conversation contents to the surroundings.

この発明の目的は、上記従来の欠点を除去するため、
会話内容の了解性に影響を与える周波数帯域に対して狭
指向性スーピカで再生し、マスキング効果を活用して周
囲の当該非当事者への会話内容の了解性を低減させるた
めのマスキング音を無指向性スピーカで再生する音声再
生方式を提供することにある。
The object of the present invention is to eliminate the above-mentioned conventional drawbacks.
Non-directed masking sound to reduce the intelligibility of the conversation content to the surrounding non-parties by utilizing the masking effect by playing with narrow directivity to the frequency band that affects the intelligibility of the conversation content. The purpose of the present invention is to provide a sound reproduction method of reproducing with a sex speaker.

「課題を解決するための手段」 この発明は、会話内容の了解性に影響する度合いによ
って周波数帯域を2分割し、その了解性に影響する周波
数帯域(指向性周波数帯域)の音声を狭指向性スピーカ
で再生し、前記了解性に影響を与えない周波数帯域(無
指向性周波数帯域)の音声に、前記狭指向性スピーカよ
り再生される音声をマスキングするマスキング音を加え
て合成し無指向性スピーカで再生することを最も主要な
特徴とする。会話内容の了解性に影響する周波数帯域と
しては、日本語の5母音を特徴づける成分音であるホル
マントの周波数帯域や個人を判別できる周波数帯域等が
ある。
"Means for Solving the Problem" The present invention divides a frequency band into two parts according to the degree of affecting the intelligibility of conversation content, and narrows the directivity of a voice in a frequency band (directional frequency band) that affects the intelligibility. An omnidirectional speaker that is synthesized by adding a masking sound for masking the sound reproduced from the narrow directional speaker to a sound in a frequency band (omnidirectional frequency band) that is reproduced by a speaker and does not affect the intelligibility. Playing in is the most important feature. The frequency bands that affect the intelligibility of the conversation include the frequency band of formants, which are the component sounds that characterize the Japanese 5 vowels, and the frequency band that allows individual discrimination.

「実施例」 第1図は、この発明の特徴を示す第1のシステム例で
ある。入力端子10から転送されてくるモノラル音X(=
A+B)のオーディオ信号に対して周波数分割回路11で
周波数の帯域分割(AとBとの分割)を行い、例えば着
目するホルマント周波数(その付近の周波数を含む)の
音声Aを指向性スピーカ12により再生し、それ以外の周
波数の音声Bをマスキング音付加部25に転送する。マス
キング音付加部25は、マスキング音用入力端子15から転
送されてくる“Aに対するマスキング音C"を音声Bに付
加して、この合成音(B+C)を無指向性スピーカ13よ
り再生する。マスキング音Cは例えば音声Aと類似した
他の音声である。
"Embodiment" FIG. 1 is a first system example showing the features of the present invention. Monaural sound X (=
A + B) audio signal is frequency-divided by the frequency division circuit 11 (division between A and B), and for example, the voice A of the formant frequency of interest (including frequencies in the vicinity thereof) is output by the directional speaker 12. Playback is performed, and the voice B having other frequencies is transferred to the masking sound adding unit 25. The masking sound addition unit 25 adds the “masking sound C for A” transferred from the masking sound input terminal 15 to the sound B, and reproduces this synthesized sound (B + C) from the omnidirectional speaker 13. The masking sound C is, for example, another voice similar to the voice A.

指向性スピーカ12は、会話内容が周囲の非当事者14に
聞えず(理解されずに)、当事者15に聞えるようにする
役割を有し、無指向性スピーカ13は、音の拡がり感、厚
み感等を出す役割を有する。即ち、当事者15はスピーカ
12とスピーカ13から再生される音声X+C(=A+B+
C)を聞き、非当事者14はスピーカ13から再生させる音
声B+Cを聞くことにより、マスキング音Cの音量を適
宜制御することによって、非当事者14への当事者15の会
話内容の了解性を低減させることが出来る。
The directional speaker 12 has a role of allowing the non-parties 14 in the surroundings to hear (without being understood) the surrounding non-parties 14 and the parties 15, and the omnidirectional speaker 13 has a feeling of sound spread and thickness. It has a role to issue etc. That is, the party 15 is a speaker
Audio played from 12 and speaker 13 X + C (= A + B +
C) and the non-party 14 listens to the voice B + C reproduced from the speaker 13 to appropriately control the volume of the masking sound C, thereby reducing the intelligibility of the conversation content of the party 15 to the non-party 14. Can be done.

第2図はこの発明の特徴を示す第2のシステム例であ
る。入力端子10から転送されてくるステレオ音のオーデ
ィオ信号(L信号,R信号)に対して、L信号とR信号
は、それぞれ第1図で述べた再生動作に従って、例えば
ホルマント周波数帯域の音声とそれ以外の周波数帯域の
音声とに分割され、前者の音声はL信号用指向性スピー
カ12LとR信号用指向性スピーカ12Rとからそれぞれ再生
され、後者の音声(L信号,R信号)は、マスキング音付
加部25へ転送される。マスキング音付加部は、マスキン
グ音用入力端子15から転送されてくるマスキングするス
テレオ音と周波数分割回路11から転送されるステレオ音
とを対応するL信号、R信号毎に合成し、この合成音を
それぞれL信号用無指向性スピーカ13LとR信号用無指
向性スピーカ13Rとから再生する。当事者15は会話内容
を音像定位して聞くことができる。
FIG. 2 is a second system example showing the features of the present invention. With respect to the stereo audio signals (L signal, R signal) transferred from the input terminal 10, the L signal and the R signal are, for example, the voice in the formant frequency band and the voice according to the reproduction operation described in FIG. The voice of the former is reproduced by the directional speaker 12L for the L signal and the directional speaker 12R of the R signal respectively, and the voice of the latter (L signal, R signal) is divided into the masking sound. It is transferred to the addition unit 25. The masking sound adding unit synthesizes the masking stereo sound transferred from the masking sound input terminal 15 and the stereo sound transferred from the frequency division circuit 11 for each corresponding L signal and R signal, and synthesizes this synthesized sound. The reproduction is performed from the L signal omnidirectional speaker 13L and the R signal omnidirectional speaker 13R, respectively. The parties 15 can hear the conversation content by sound localization.

従来の技術では、全周波数帯域に指向性を持たせたた
め、スピーカが大型化する傾向にあったが、この発明で
は、会話内容の了解性に影響を与える周波数帯域に対し
て指向性を高め、更に、マスキング効果を活用して、了
解性の効果を高める点が従来との大きな相違点である。
In the conventional technology, since the directivity is given to the entire frequency band, the speaker tends to be large, but in the present invention, the directivity is increased with respect to the frequency band that affects the intelligibility of the conversation content, Furthermore, the point that the intelligibility effect is enhanced by utilizing the masking effect is a big difference from the conventional one.

第3図はこの発明の実施例の構成を示すブロック図で
ある。制御部24の指令により、周波数帯域設定部33は、
男声、女声、会話の効果音等を考慮して予め定められた
指向性帯域設定データと無指向性帯域設定データとをそ
れぞれ指向性帯域抽出再生部21と無指向性帯域抽出再生
部22とに転送する。指向性帯域抽出再生部21は、その指
向性帯域設定データに基づき、初期設定を行い、その制
定完了後、その完了通知を周波数帯域設定部23に転送す
る。同時に、無指向性帯域抽出再生部22は、前記無指向
性帯域設定データに基づき、初期設定を行い、その設定
完了後、その完了通知を周波数帯域設定部23に転送す
る。周波数帯域設定部23は指向性帯域抽出再生部21から
受信する前記完了通知と無指向性帯域抽出再生部22から
受信する前記完了通知とを受けとった後、起動開始指令
を指向性帯域抽出再生部21と無指向性帯域抽出再生部22
とに通知する。その通知完了後、指向性帯域抽出再生部
21は、入力端子10から送られてくるオーディオ信号に対
して初期設定された音声の帯域のみ抽出し、その音声を
指向性スピーカ12を介して再生する。他方、無指向性帯
域抽出再生部22は、初期設定された音声のみ抽出し、そ
の音声をマスキング音付加部25に転送する。マスキング
音付加部25は、無指向性帯域抽出再生部22から転送され
てくる音声に、マスキング音用入力端子15から入力され
るマスキング音を加えて合成し、その合成音を無指向性
スピーカ13を介して再生する。
FIG. 3 is a block diagram showing the configuration of the embodiment of the present invention. In response to a command from the control unit 24, the frequency band setting unit 33,
The directional band setting data and the omnidirectional band setting data, which are predetermined in consideration of a male voice, a female voice, a sound effect of conversation, etc., are respectively input to the directional band extracting / reproducing unit 21 and the omnidirectional band extracting / reproducing unit 22. Forward. The directional band extracting / reproducing unit 21 performs initial setting based on the directional band setting data, and transfers the completion notification to the frequency band setting unit 23 after the establishment is completed. At the same time, the omnidirectional band extraction / reproduction unit 22 performs initial setting based on the omnidirectional band setting data, and after completion of the setting, transfers the completion notification to the frequency band setting unit 23. The frequency band setting unit 23 receives the completion notification received from the directional band extraction / playback unit 21 and the completion notification received from the omnidirectional band extraction / playback unit 22, and then issues a start command to the directional band extraction / playback unit. 21 and omnidirectional band extraction / playback unit 22
And notify. After the notification is completed, the directional band extraction / playback unit
Reference numeral 21 extracts only the band of the voice that is initially set for the audio signal sent from the input terminal 10, and reproduces the voice through the directional speaker 12. On the other hand, the omnidirectional band extraction / reproduction unit 22 extracts only the initially set voice and transfers the voice to the masking sound addition unit 25. The masking sound adding unit 25 adds the masking sound input from the masking sound input terminal 15 to the voice transferred from the omnidirectional band extraction reproducing unit 22, synthesizes the synthesized sound, and the synthesized sound is generated by the omnidirectional speaker 13 To play through.

「発明の効果」 以上説明したように、この発明による音声再生方式に
よれば、会話内容の了解性に影響する例えばホルマント
周波数帯域(その付近の周波数を含む)の音声に対し
て、指向性スピーカを介して再生し、それ以外の周波数
帯域の音声に対してはマスキング音を加えて合成し、そ
の合成音に対して無指向性スピーカを介して再生するこ
とから、受聴者がハンドフリーとなる利点があるととも
に、マスキング効果によって会話内容が当事者だけに聞
こえ、周囲の非当事者には聞こえないという利点があ
る。更に、人間の発生範囲の100Hz〜8000Hzの全周波数
に対して指向性を与えるのではなく、中域の300Hz〜200
0Hzのうちのいくつかの周波数帯域のみに指向性を与え
ることから、スピーカ(スピーカ口径)の小型化が図れ
るとともに経済化が図れるという利点がある。また無指
向性スピーカを用いることによって音の拡がり感や厚み
感を出すことが出来るという利点もある。
[Advantages of the Invention] As described above, according to the voice reproduction method of the present invention, a directional speaker is provided for voices in the formant frequency band (including frequencies in the vicinity thereof) that affect the intelligibility of conversation content. The listener is hands-free because the sound is played back through the voice, the masking sound is added to the sound in other frequency bands, and the synthesized sound is played back through the omnidirectional speaker. In addition to the advantage, the masking effect has the advantage that the conversation content can be heard only by the parties and not by the non-parties around. Furthermore, instead of giving directivity to all frequencies of 100 Hz to 8000 Hz in the human generation range, 300 Hz to 200 in the middle range
Since directivity is given only to some frequency bands of 0 Hz, there is an advantage that the speaker (speaker diameter) can be downsized and the economy can be achieved. There is also an advantage in that the use of an omnidirectional speaker can provide a feeling of sound spread and a feeling of thickness.

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

第1図はこの発明の特徴を示す第1のシステム例を示す
ブロック図、第2図はこの発明の特徴を示す第2のシス
テム例を示すブロック図、第3図はこの発明の実施例の
構成を示すブロック図である。
FIG. 1 is a block diagram showing a first system example showing the features of the present invention, FIG. 2 is a block diagram showing a second system example showing the features of the present invention, and FIG. 3 is an embodiment of the present invention. It is a block diagram which shows a structure.

Claims (1)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】指向性を持つ指向性スピーカと無指向性を
持つ無指向性スピーカとを有する音声再生システムであ
って、 入力されたオーディオ信号に対して再生する際に指向性
を持たせる指向性周波数帯域と指向性を持たせない無指
向性周波数帯域とを設定する手段と、 上記入力オーディオ信号から上記指向性周波数帯域のオ
ーディオ信号を抽出して上記指向性スピーカを用いて再
生する手段と、 上記入力オーディオ信号から上記無指向性周波数帯域の
オーディオ信号を抽出する手段と、 上記指向性周波数帯域のオーディオ信号をマスキングす
るオーディオ信号を上記無指向性周波数帯域のオーディ
オ信号に加えて、上記無指向性スピーカを用いて再生す
る手段とを具備することを特徴とする音声再生方式。
1. A voice reproduction system having a directional speaker having directivity and an omnidirectional speaker having omnidirectionality, wherein directivity is provided when reproducing an input audio signal. Means for setting a directional frequency band and an omnidirectional frequency band having no directivity, and means for extracting an audio signal in the directional frequency band from the input audio signal and reproducing the audio signal using the directional speaker. Means for extracting the audio signal in the omnidirectional frequency band from the input audio signal, and an audio signal for masking the audio signal in the directional frequency band added to the audio signal in the omnidirectional frequency band, And a means for reproducing using a directional speaker.
JP5147589A 1989-03-03 1989-03-03 Audio playback method Expired - Lifetime JP2523366B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP5147589A JP2523366B2 (en) 1989-03-03 1989-03-03 Audio playback method

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP5147589A JP2523366B2 (en) 1989-03-03 1989-03-03 Audio playback method

Publications (2)

Publication Number Publication Date
JPH02230898A JPH02230898A (en) 1990-09-13
JP2523366B2 true JP2523366B2 (en) 1996-08-07

Family

ID=12887978

Family Applications (1)

Application Number Title Priority Date Filing Date
JP5147589A Expired - Lifetime JP2523366B2 (en) 1989-03-03 1989-03-03 Audio playback method

Country Status (1)

Country Link
JP (1) JP2523366B2 (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US9743186B2 (en) 2010-09-08 2017-08-22 Panasonic Intellectual Property Management Co., Ltd. Sound reproduction device

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPWO2005076661A1 (en) 2004-02-10 2008-01-10 三菱電機エンジニアリング株式会社 Super directional speaker mounted mobile body
JP4680099B2 (en) * 2006-03-03 2011-05-11 グローリー株式会社 Audio processing apparatus and audio processing method
US8472652B2 (en) 2007-08-14 2013-06-25 Koninklijke Philips Electronics N.V. Audio reproduction system comprising narrow and wide directivity loudspeakers
JP5598211B2 (en) * 2010-09-29 2014-10-01 ヤマハ株式会社 Maska sound output control device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US9743186B2 (en) 2010-09-08 2017-08-22 Panasonic Intellectual Property Management Co., Ltd. Sound reproduction device

Also Published As

Publication number Publication date
JPH02230898A (en) 1990-09-13

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