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JP2766887B2 - Echo canceller - Google Patents

Echo canceller

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Publication number
JP2766887B2
JP2766887B2 JP2063357A JP6335790A JP2766887B2 JP 2766887 B2 JP2766887 B2 JP 2766887B2 JP 2063357 A JP2063357 A JP 2063357A JP 6335790 A JP6335790 A JP 6335790A JP 2766887 B2 JP2766887 B2 JP 2766887B2
Authority
JP
Japan
Prior art keywords
signal
band
echo
pseudo
path
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 - Fee Related
Application number
JP2063357A
Other languages
Japanese (ja)
Other versions
JPH03265300A (en
Inventor
宣夫 小泉
昭二 牧野
陽一 羽田
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 JP2063357A priority Critical patent/JP2766887B2/en
Publication of JPH03265300A publication Critical patent/JPH03265300A/en
Application granted granted Critical
Publication of JP2766887B2 publication Critical patent/JP2766887B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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  • Soundproofing, Sound Blocking, And Sound Damping (AREA)
  • Circuit For Audible Band Transducer (AREA)
  • Cable Transmission Systems, Equalization Of Radio And Reduction Of Echo (AREA)

Description

【発明の詳細な説明】 「産業上の利用分野」 この発明は、主として会議用拡声通話に適用され、ハ
ウリングの原因および聴覚上の障害となる反響を消去す
る反響消去装置、特に信号を周波数帯域分割して各帯域
ごとに反響を消去する帯域分割形反響消去装置に関する
ものである。
Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is mainly applied to a conference loudspeaker call, and is a reverberation canceling device for canceling a reverberation causing a howling and a hearing impairment. The present invention relates to a band-division type echo canceller that divides an echo for each band.

「従来の技術」 音声会議装置の普及に伴い、同時通話性が確保され、
反響感の少ない拡声通話装置の提供が望まれる。
"Conventional technology" With the spread of audio conference equipment, simultaneous callability has been secured,
It is desired to provide a loudspeaker device with less reverberation.

第5図に従来の帯域分割形反響消去装置の一例を示
す。受話信号x(t)を受ける受話入力端1から、受話
信号x(t)を周波数帯域別のN個の信号xi(t)(i
=1,...,N)に分割する周波数帯域分割回路2、これら
分割された信号xi(t)を再び受話信号x(t)に合成
する周波数帯域合成回路3を順次経てスピーカ4に至る
受話系と、マイクロホン5から、その出力信号z(t)
を周波数帯域分割回路2と同様にN個の信号zi(t)に
分割する周波数帯域分割回路6、その各信号zi(t)か
ら推定反響信号yi(t)を差引く引算回路qi、これら引
算回路qiの出力を合成する周波数帯域合成回路7を経
て、送話出力端8に至る送話系とからなる通話系におい
て、スピーカ4からマイクロホン5に至る反響路11を経
て回り込む受話信号x(t)の反響信号y(t)と、近
端送話音声である目的信号v(t)とがマイクロホン5
で合成されて送話信号z(t)が形成される。一方、帯
域分割された受話信号xi(t)はFIRフィルタ(FIRはfi
nite impulse response,有限長インパルスレスポンスの
略で、このフィルタはフィードバック回路を含まず、し
たがって極は存在しない)による帯域別の疑似反響路10
iを経て帯域別推定反響信号y′(t)を生成する。
帯域分割された送話信号z(t)より推定反響信号y′
(t)を引算回路qiで差し引くことにより反響信号を
取り除いた帯域別信号ei(t)が得られ、これらを帯域
合成回路7で合成した信号e(t)は、FIRフィルタの
係数がスピーカ4からマイクロホン5に至る反響路11の
帯域別のインパルスレスポンスの係数に等しければ、近
端送話音声(目的信号)v(t)に等しく、反響信号の
消去という目的が達せられる。原理的には帯域分割の必
要はないが(N=1)、ディジタル信号処理の実時間処
理を実現するためにこの方法が用いられる。
FIG. 5 shows an example of a conventional band division type echo canceller. From the receiving input terminal 1 receiving the receiving signal x (t), the receiving signal x (t) is converted into N signals x i (t) (i
= 1,..., N) and a frequency band synthesizing circuit 3 for synthesizing these divided signals x i (t) again into the reception signal x (t) to the speaker 4. And the output signal z (t) from the microphone 5
Is divided into N signals z i (t) in the same manner as the frequency band division circuit 2, and a subtraction circuit for subtracting the estimated echo signal y i (t) from each of the signals z i (t). q i , through a frequency band synthesizing circuit 7 for synthesizing the outputs of the subtraction circuits q i , and a speech system including a transmission system reaching a transmission output terminal 8, a reverberation path 11 from the speaker 4 to the microphone 5 is transmitted. The echo signal y (t) of the received signal x (t) wrapping around and the target signal v (t), which is the near-end transmitted voice, are transmitted through the microphone 5.
And a transmission signal z (t) is formed. On the other hand, the band-divided reception signal x i (t) is an FIR filter (FIR is fi
nite impulse response, abbreviated as a finite length impulse response, this filter does not include a feedback circuit and therefore has no poles.
Via i , an estimated echo signal y ′ i (t) for each band is generated.
Estimated echo signal y 'from band-divided transmission signal z (t)
i band-by-band signal to remove the echo signal by subtracting (t) by subtraction circuit q i e i (t) is obtained, it was synthesized by band synthesis circuit 7 signal e (t) of the FIR filter If the coefficient is equal to the impulse response coefficient for each band of the echo path 11 from the speaker 4 to the microphone 5, it is equal to the near-end transmitted voice (target signal) v (t), and the purpose of canceling the echo signal is achieved. Although there is no need for band division in principle (N = 1), this method is used to realize real-time processing of digital signal processing.

「発明が解決しようとする課題」 さて、FIRフィルタのタップ数(係数の数)はこれに
入力される信号のサンプリング周波数fとインパルスレ
スポンスの時間長Tの積で表される。ところが音声会議
装置のように反響路11が音場である場合のインパルスレ
スポンスは一般に長く、例えば0.5秒であり、fを8kHz
としてもタップ数は4000と膨大になる欠点があった。タ
ップ数が大きいとハードウェアの経済的な構成が困難に
なるほか、インパルスレスポンスの変動に追従する適応
性能も劣化する問題が生じる。
"Problems to be Solved by the Invention" The number of taps (the number of coefficients) of the FIR filter is represented by the product of the sampling frequency f of the signal input thereto and the time length T of the impulse response. However, when the reverberation path 11 is a sound field such as a voice conference apparatus, the impulse response is generally long, for example, 0.5 seconds, and f is 8 kHz.
However, there was a drawback that the number of taps was enormous at 4,000. If the number of taps is large, it becomes difficult to economically configure the hardware, and there is a problem that the adaptive performance for following the fluctuation of the impulse response also deteriorates.

この発明の目的は疑似反響路を構成するディジタルフ
ィルタに一部IIR形フィルタを導入することにより、全
体のタップ数の合計数を減らし、ハードウェアの経済化
と適応性能の向上を実現する反響消去装置を提供するこ
とである。
An object of the present invention is to reduce the total number of taps by introducing a part of an IIR type filter into a digital filter constituting a pseudo echo path, thereby realizing economical hardware and improved adaptive performance. It is to provide a device.

「課題を解決するための手段」 この発明は帯域分割形反響消去装置において、複数の
帯域別の疑似反響路のうち、いくつかの疑似反響路には
FIRフィルタの替わりに帰還ループのあるIIRフィルタ
(IIRはinfinite impulse response,無限長インパルス
レスポンスの略で、極を有する)を用いる。この構成に
より、全体のタップ数の合計数を減らし、ハードウェア
の経済化と適応性能の向上を実現する。従来の技術とは
帯域分割した疑似反響路のセットの一部分にIIRフィル
タを用いる点が異なる。音場の物理的特徴に着目し、帯
域分割した、ある帯域でのスピーカからマイクロホンに
至る音場の伝達関数の極と零点の数が、その帯域につい
てFIRフィルタで疑似反響路を構成する場合のFIRフィル
タのタップ数よりも少ない場合にはFIRフィルタよりもI
IRフィルタで疑似反響路を構成することにより、タップ
数を減らすことができる。したがって全帯域にわたって
合計したフィルタのタップ数を従来よりも削減すること
ができる。また、逆に、ある帯域でのスピーカからマイ
クロホンに至る音場の伝達関数の極と零点の数が、その
帯域についてFIRフィルタで疑似反響路を構成する場合
のFIRフィルタのタップ数よりも少なくなるように、帯
域を選んで帯域分割することにより、全帯域にわたって
合計したフィルタのタップ数を削減することができる。
[Means for Solving the Problems] The present invention relates to a band split type echo canceller, in which some of the multiple echo reverberations for each band are included.
Instead of the FIR filter, an IIR filter having a feedback loop (IIR is an abbreviation of infinite impulse response, which has a pole) is used. With this configuration, the total number of taps is reduced, and hardware economics and adaptive performance are improved. The difference from the prior art is that an IIR filter is used for a part of a set of pseudo echo paths that are band-divided. Focusing on the physical characteristics of the sound field, the number of poles and zeros of the transfer function of the sound field from a loudspeaker to a microphone in a certain band is divided into bands, and the number of poles and zeros in the band constitutes a quasi-echo path with an FIR filter for that band. If the number of taps is less than the FIR filter, I
By configuring a pseudo echo path with an IR filter, the number of taps can be reduced. Therefore, the number of taps of the filter summed over the entire band can be reduced as compared with the related art. Conversely, the number of poles and zeros of the transfer function of the sound field from the speaker to the microphone in a certain band is smaller than the number of taps of the FIR filter when a pseudo echo path is configured by the FIR filter for that band. As described above, by selecting a band and dividing the band, it is possible to reduce the total number of filter taps over the entire band.

「実施例」 第1図にこの発明の実施例を示し、第5図と対応する
部分に同一信号を付けてある。この例ではN分割された
周波数帯域中の低周波側のM個の帯域についてはIIRフ
ィルタで構成した疑似反響路(IIR形疑似反響路12i(t
=1,...,M)を用い、残りの高域側のN−M個の帯域に
ついてはFIRフィルタで構成した疑似反響路(FIR形疑似
反響路10j(j=M+1,...,N))を用いる。
"Embodiment" FIG. 1 shows an embodiment of the present invention, and the same signals are assigned to the portions corresponding to those in FIG. In this example, for the M bands on the low frequency side in the frequency bands divided into N, a pseudo echo path (IIR pseudo echo path 12i (t)
= 1,..., M), and for the remaining NM bands on the high frequency side, a pseudo echo path (FIR type pseudo echo path 10j (j = M + 1,. N)).

これを動作するには、受話信号X(t)を受ける受話
入力端1から帯域別のN個の信号xi(t)(i=1,...,
N)に分割する周波数帯域分割回路2、再び受話信号x
(t)を合成する周波数帯域合成回路を経てスピーカ4
に至る受話系と、マイクロホン5から周波数帯域分割回
路6、周波数帯域合成回路7を経て、送話出力端8に至
る送話系とからなる通話系において、スピーカ4からマ
イクロホン5に至る反響路11を経て回り込む受話信号x
(t)の反響信号y(t)と、近端送話信号である目的
信号v(t)とがマイクロホン5で合成され送話信号z
(t)が形成される。一方帯域分割された受話信号のう
ちxi(t)(i=1,...,M)と、周波数帯域分割回路6
によって帯域分割された送話信号zi(t)(i=1,...,
M)とが、IIR形疑似反響路12iへ供給されて帯域別推定
反響信号y′(t)(i=1,...,M)が生成される。
また、帯域分割された受話信号のうちxj(t)(j=M
+1,...,N)はFIR形疑似反響路10jへ供給されて帯域別
推定反響信号y′j(t)(j=M+1,...,N)が生成
される。i=1からNまでの帯域をそれぞれにおいて、
帯域分割された送話信号zi(t)より帯域別推定信号
y′(t)を引算回路qiで差し引くことにより反響信
号を取り除いた帯域別信号ei(t)が得られ、これらは
帯域合成回路7で合成され、その合成出力信号e(t)
は、各疑似反響路(121〜12M,10M+1〜10N)がスピーカ
4からマイクロホン5に至る音場の帯域別の反響路に等
しければ、近端送話音声である目的信号v(t)に等し
く、反響信号の消去という目的が達せられる。FIR形疑
似反響路10jのフィルタ特性は で表される。ここで、zは遅延要素、bnは遅延タップ
数、bkはタップ係数である。
To operate this, N signals x i (t) (i = 1,...,...) For each band are received from the receiving input terminal 1 receiving the receiving signal X (t).
N), the frequency band division circuit 2 again divides the reception signal x
Speaker 4 through a frequency band synthesizing circuit for synthesizing (t)
, And a transmission system from the microphone 5 via the frequency band dividing circuit 6 and the frequency band synthesizing circuit 7 to the transmission output end 8 in the echo path 11 from the speaker 4 to the microphone 5. Received signal x wrapping around
The echo signal y (t) of (t) and the target signal v (t) which is a near-end transmission signal are synthesized by the microphone 5 and the transmission signal z
(T) is formed. On the other hand, x i (t) (i = 1,..., M) of the band-divided reception signal and the frequency band
The transmission signal z i (t) (i = 1,...,
M) is supplied to the IIR type pseudo echo path 12i to generate an estimated echo signal y ′ i (t) (i = 1,..., M) for each band.
Further, x j (t) (j = M) among the band-divided reception signals.
+1... N) are supplied to the FIR pseudo echo path 10j to generate band-wise estimated echo signals y'j (t) (j = M + 1,..., N). In each of the bands from i = 1 to N,
Band split transmission signal z i (t) from the band-by-band estimation signal y 'i (t) a subtraction circuit q band-by-band signal to remove the echo signal by subtracting at i e i (t) is obtained, These are combined by the band combining circuit 7, and the combined output signal e (t)
Is a target signal which is a near-end transmitted voice if each pseudo echo path (12 1 to 12 M , 10 M + 1 to 10 N ) is equal to an echo path for each band of the sound field from the speaker 4 to the microphone 5. Equal to v (t), the goal of canceling the echo signal is achieved. The filter characteristics of the FIR pseudo echo path 10 j are It is represented by Here, z is a delay element, bn is the number of delay taps, b k is the tap coefficients.

第2図にIIR形疑似反響路12iの具体例を示す。帰還ル
ープのフィルム201と直列フィルタ202とよりなり、帰還
ループのフィルタ201に帯域分割回路6の出力であるzi
(t)が入力され、そのフィルタ特性は で表される。ここでは、zは遅延要素、anは遅延タップ
数、akはタップ係数である。直列フィルタ202の特性は で表され、帯域分割回路2の出力xi(t)が入力され
る。直列フィルタ202の出力から帰還ループのフィルタ2
01の出力が引算回路203で差し引かれ、その出力が推定
反響信号yi(t)として引算回路9iへ供給される。な
お、このJJR形疑似反響路は、帯域分割しない従来のIIR
形疑似反響路と同様なものである。
Specific examples of the IIR type pseudo echo path 12 i in Figure 2. It becomes more and film 201 series filter 202 of the feedback loop is the output of the band dividing circuit 6 to the filter 201 in the feedback loop z i
(T) is input, and its filter characteristic is It is represented by Here, z is a delay element, an is the number of delay taps, and a k is a tap coefficient. The characteristics of the series filter 202 And the output x i (t) of the band division circuit 2 is input. Filter 2 of feedback loop from output of series filter 202
The output of 01 is subtracted by the subtraction circuit 203, and the output is supplied to the subtraction circuit 9 i as an estimated echo signal y i (t). This JJR type pseudo echo path is a conventional IIR without band division.
This is similar to the shape echo path.

またこの発明の構成は第1図の代わりに第3図の構成
としてもよい。第1図と第3図との差異はIIR形疑似反
響路12iの入力信号であり、これには信号xi(t)のみ
が供給され、そのIIR形疑似反響路12iの詳細構成は第2
図の代わりに第4図が用いられる。第2図と第4図との
違いは帰還ループフィルタ201の入力で、第4図の構成
では疑似反響路自身の出力y′(t)をフィルタ201
の入力として用いる点である。
Further, the configuration of the present invention may be the configuration of FIG. 3 instead of FIG. The difference between the first figure and FIG. 3 is an input signal of the IIR type pseudo echo path 12 i, which the only signal x i (t) is supplied, detailed configuration of the IIR type estimated echo path 12i is first 2
FIG. 4 is used instead of the figure. The difference between FIG. 2 and FIG. 4 is the input of the feedback loop filter 201. In the configuration of FIG. 4, the output y ′ i (t) of the pseudo echo path itself is filtered by the filter 201.
It is used as an input for

帯域分割したN個の帯域のうち、IIR形疑似反響路を
用いる帯域1からMの選び方としては、音場の物理的特
徴に着目し、帯域分割した、ある帯域でのスピーカから
マイクロホンに至る音場の伝達関数の極と零点の数がそ
の帯域でのFIRフィルタのタップ数よりも少ない場合に
はFIRフィルタの代わりにIIRフィルタを用いる。あるい
は、ある帯域でのスピーカからマイクロホンに至る音場
の伝達関数の極と零点の数がその帯域でのFIRフィルタ
のタップ数よりも少なくなるように、かつ全帯域の帯域
分割数が増えないように帯域を選んで帯域分割し、その
帯域にはFIRフィルタの代わりにIIRフィルタを用いる。
As a method of selecting bands 1 to M using the IIR type pseudo-echo path from the N bands divided into bands, paying attention to the physical characteristics of the sound field, the band divided sound from a speaker to a microphone in a certain band is focused. If the number of poles and zeros of the field transfer function is smaller than the number of taps of the FIR filter in that band, an IIR filter is used instead of the FIR filter. Alternatively, the number of poles and zeros of the transfer function of the sound field from the loudspeaker to the microphone in a certain band should be smaller than the number of taps of the FIR filter in that band, and the number of band divisions in the entire band should not increase. A band is selected and the band is divided, and an IIR filter is used in that band instead of the FIR filter.

いま反響路のおかれる室内の容積をV(m3)、音速を
c(m/s)とすると0からfHzまでに含まれる音場モード
数は で与えられる(例えば、R.Lyon,“Machinery Noise and
Diagnostics",Butterworth,1987)。この反響路をIIR
フィルタで構成しようとするとこのモード数だけ極が必
要で、さらに同数の零点を見込む必要があるから、IIR
フィルタの必要次数(タップ数)はこのモード数の2倍
として見積れる。そこで例えば帯域400Hzの反響消去装
置を50m3、残響時間0.5秒の部屋に適用することを考え
る。サンプリング周波数を800Hzに設定し(サンプリン
グ周波数は少なくとも必要帯域幅の2倍必要であるか
ら)、帯域分割を行わないで一つのFIRフィルタで構成
しようとすると、0.5(sec)×400(Hz)=400のタップ
数が必要である。次に0Hzから200Hzまでと、200Hzから4
00Hzまでの周波数に帯域分割し、共にFIRフィルタを用
いると、0.5(sec)×40(Hz)×2=400で、タップ数
の総数は代わらない。次に共にIIRフィルタで構成しよ
うとすると、0Hzから200Hzまでの帯域で42(モード数)
×2=84、200Hzから400Hzまでの帯域で294(モード
数)×2=588、合計タップ数は672となり、FIRフィル
タで構成するより大きくなる。ところが0Hzから200Hzま
での帯域ではIIRフィルタ、200Hzから400Hzまでの帯域
ではFIRフィルタを適用すれば、タップ数の総数は84+2
00=284となり、前述したいずれの構成よりも全体のタ
ップ数を削減することができる。
If the volume of the room where the reverberation path is placed is V (m 3 ) and the sound velocity is c (m / s), the number of sound field modes included from 0 to fHz is (Eg, R. Lyon, “Machinery Noise and
Diagnostics ", Butterworth, 1987).
In order to construct a filter, the number of poles is necessary for this number of modes, and it is necessary to expect the same number of zeros.
The required order (the number of taps) of the filter can be estimated as twice the number of modes. Therefore, for example, consider applying an echo canceller with a band of 400 Hz to a room with a reverberation time of 50 m 3 and a reverberation time of 0.5 seconds. If the sampling frequency is set to 800 Hz (since the sampling frequency must be at least twice the required bandwidth) and if one FIR filter is used without band division, 0.5 (sec) x 400 (Hz) = 400 taps are required. Next, from 0 Hz to 200 Hz, and 200 Hz to 4
If the frequency band is divided into frequencies up to 00 Hz and both FIR filters are used, 0.5 (sec) × 40 (Hz) × 2 = 400, and the total number of taps does not change. Next, if you try to configure both with IIR filters, 42 in the band from 0Hz to 200Hz (the number of modes)
× 2 = 84, 294 (the number of modes) × 2 = 588 in the band from 200 Hz to 400 Hz, and the total number of taps is 672, which is larger than that constituted by the FIR filter. However, if the IIR filter is applied in the band from 0 Hz to 200 Hz and the FIR filter is applied in the band from 200 Hz to 400 Hz, the total number of taps is 84 + 2.
00 = 284, and the total number of taps can be reduced as compared with any of the above-described configurations.

なお、この例のように一般的には低域側でIIR形疑似
反響路を用い、高域側ではFIR形疑似反響路を用いる
が、高域側においても、帯域幅を狭くすることによりII
R形疑似反響路を用いることもある。
In general, as in this example, an IIR type pseudo echo path is used on the low frequency side and an FIR type pseudo echo path is used on the high frequency side, but the II bandwidth is also reduced by reducing the bandwidth on the high frequency side.
Sometimes an R-shaped pseudo echo path is used.

以上から明らかなように、従来のように帯域分割した
疑似反響路にFIRフィルタのみを用いる構成に比べて、
全体のタップ数の合計数を減らし、ハードウェアの経済
化と適応性能の向上を実現する装置を提供することが可
能となった。
As is clear from the above, compared to the conventional configuration in which only the FIR filter is used for the pseudo echo path divided into bands,
This makes it possible to provide a device that reduces the total number of taps and realizes economical hardware and improved adaptive performance.

「発明の効果」 以上説明したように、この発明によれば、信号を帯域
分割して、並列に複数の疑似反響路を具備する帯域分割
反響消去装置において、上記疑似反響路のいくつかは帰
還ループを持つIIR形疑似反響路で構成し、残りの疑似
反響路は帰還ループのないFIR形疑似反響路で構成する
ことにより、全体のタップ数の合計数を減らし、ハード
ウェアの経済化と適応性能の向上を実現する装置を提供
できる利点がある。
[Effects of the Invention] As described above, according to the present invention, in a band split echo canceller having a plurality of pseudo echo paths in parallel by dividing a signal into bands, some of the pseudo echo paths are fed back. Comprising an IIR pseudo-echo path with a loop and the remaining pseudo-echo path with no feedback loop, reducing the total number of taps, making the hardware economical and adaptable There is an advantage that a device that achieves improved performance can be provided.

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

第1図はこの発明装置の実施例を示すブロック図、第2
図は第1図中のIIR形疑似反響路12i(i=1,...,M)の
詳細図、第3図はこの発明装置の他の実施例を示すブロ
ック図、第4図は第3図中のIIR形疑似反響路12i(i=
1,...,M)の詳細図、第5図は従来の反響消去装置を示
すブロック図である。
FIG. 1 is a block diagram showing an embodiment of the apparatus of the present invention.
FIG. 3 is a detailed view of the IIR pseudo echo path 12 i (i = 1,..., M) in FIG. 1, FIG. 3 is a block diagram showing another embodiment of the apparatus of the present invention, and FIG. The IIR pseudo echo path 12 i (i =
1, M), and FIG. 5 is a block diagram showing a conventional echo canceller.

───────────────────────────────────────────────────── フロントページの続き (51)Int.Cl.6 識別記号 FI H04B 3/23 G10K 11/16 H (56)参考文献 特開 昭64−29094(JP,A) 特開 平1−114150(JP,A) 特開 昭64−16030(JP,A) 特開 昭62−51836(JP,A) 特開 平3−106208(JP,A) 特開 平1−125113(JP,A)──────────────────────────────────────────────────の Continuation of the front page (51) Int.Cl. 6 Identification symbol FI H04B 3/23 G10K 11/16 H (56) References JP-A-64-29094 (JP, A) JP-A-1-114150 ( JP, A) JP-A-64-16030 (JP, A) JP-A-62-51836 (JP, A) JP-A-3-106208 (JP, A) JP-A-1-125113 (JP, A)

Claims (1)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】受話信号を入力する受話系と、その受話系
の出力が反響路を経由して反響信号として入力されると
共に目的信号が入力され、送話信号を出力する送話系か
らなる通話系に用いられ、上記反響路への受話信号と上
記反響信号とから、上記反響路の伝達特性を推定して疑
似反響路を生成し、上記受話信号を上記疑似反響路の入
力とすることにより得られる推定反響信号を生成し、上
記送話信号から上記推定反響信号を差し引くことによ
り、上記反響信号を消去し、上記送話系に加わる目的信
号を抽出するようにした反響消去装置でかつ、 信号を周波数帯域分割して、並列に複数の疑似反響路を
具備する帯域分割形反響消去装置において、 上記疑似反響路のいくつかは帰還ループを持つIIR形疑
似反響路で構成され、残りの上記疑似反響路は帰還ルー
プを持たないFIR形疑似反響路で構成されることを特徴
とする反響消去装置。
1. A receiving system for receiving a receiving signal, and a transmitting system for receiving the output of the receiving system via a reverberation path as an echo signal, receiving a target signal, and outputting a transmitting signal. It is used in a speech system, and generates a pseudo echo path by estimating a transfer characteristic of the echo path from the received signal to the echo path and the echo signal, and uses the received signal as an input of the pseudo echo path. By generating an estimated reverberation signal obtained by subtracting the estimated reverberation signal from the transmission signal, the reverberation signal is eliminated, and a reverberation elimination device configured to extract a target signal added to the transmission system and In a band-division echo canceller that divides a signal into frequency bands and includes a plurality of pseudo echo paths in parallel, some of the pseudo echo paths are constituted by an IIR type pseudo echo path having a feedback loop, and the remaining The above pseudo counter Road is echo canceller characterized in that it is composed of a FIR type estimated echo path which does not have a feedback loop.
JP2063357A 1990-03-14 1990-03-14 Echo canceller Expired - Fee Related JP2766887B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2063357A JP2766887B2 (en) 1990-03-14 1990-03-14 Echo canceller

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2063357A JP2766887B2 (en) 1990-03-14 1990-03-14 Echo canceller

Publications (2)

Publication Number Publication Date
JPH03265300A JPH03265300A (en) 1991-11-26
JP2766887B2 true JP2766887B2 (en) 1998-06-18

Family

ID=13226920

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2063357A Expired - Fee Related JP2766887B2 (en) 1990-03-14 1990-03-14 Echo canceller

Country Status (1)

Country Link
JP (1) JP2766887B2 (en)

Also Published As

Publication number Publication date
JPH03265300A (en) 1991-11-26

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