JPH0955778A - Bandwidth widening device for sound signal - Google Patents
Bandwidth widening device for sound signalInfo
- Publication number
- JPH0955778A JPH0955778A JP7207994A JP20799495A JPH0955778A JP H0955778 A JPH0955778 A JP H0955778A JP 7207994 A JP7207994 A JP 7207994A JP 20799495 A JP20799495 A JP 20799495A JP H0955778 A JPH0955778 A JP H0955778A
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- Prior art keywords
- signal
- band
- linear prediction
- fundamental frequency
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Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は、電話回線等に於ける狭
帯域音声信号を受信して広帯域化する音声信号の広帯域
化装置に関する。人間の音声の生成は、例えば、声帯が
50〜500Hz程度の基本周波数(ピッチ周波数)で
振動してパルス状の音波(声帯波)を発生し、これが声
道を通過する時の声道の共振周波数に近い成分が強調さ
れて外部に送出されるのであり、バスの低音側からソプ
ラノの高音側までは、例えば、50〜9000Hz程度
の帯域となる。又通常の電話回線は300〜3400H
zの帯域を有するものである。通話内容を識別する為に
は、この電話回線の帯域でも充分であるが、例えば、マ
ルチメディア通信システムに適用する場合には、自然な
音声に近づけることが必要となる。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a voice signal band broadening device for receiving a narrow band voice signal on a telephone line or the like to broaden the band. In the production of human voice, for example, the vocal cords vibrate at a fundamental frequency (pitch frequency) of about 50 to 500 Hz to generate pulse-shaped sound waves (vocal cord waves), and when the vocal cords pass through the vocal tract resonance of the vocal tract. The component close to the frequency is emphasized and sent to the outside, and the band from the bass side of the bass to the treble side of the soprano is, for example, about 50 to 9000 Hz. Ordinary telephone line is 300-3400H
It has a band of z. Although the band of this telephone line is sufficient for identifying the content of the call, when it is applied to, for example, a multimedia communication system, it is necessary to bring it closer to a natural voice.
【0002】[0002]
【従来の技術】通常の電話回線による通信システムは、
例えば、図9に示すように、一方のハンドセット(送話
器)91と、狭帯域音声送信器92と、加入者線や交換
機等を含む伝送路93と、狭帯域音声受信器94と、他
方のハンドセット(受話器)95とを含む構成であり、
ハンドセット91,95間は、狭帯域音声送信器92,
伝送路93,狭帯域音声受信器94による帯域に従って
300〜3400Hzの音声信号が伝送される。2. Description of the Related Art A communication system using an ordinary telephone line is
For example, as shown in FIG. 9, one handset (speaker) 91, a narrow band voice transmitter 92, a transmission line 93 including a subscriber line, an exchange, etc., a narrow band voice receiver 94, and the other hand. And a handset (handset) 95 of
A narrow band voice transmitter 92,
An audio signal of 300 to 3400 Hz is transmitted according to the band by the transmission path 93 and the narrow band audio receiver 94.
【0003】図10は受話器の音響周波数特性曲線図で
あり、通常の電話機のハンドセットの受話器の特性の一
例を示し、電話回線の帯域の300〜3400Hzより
広い再生出力帯域を有するものである。なお、ISDN
回線は、通常のアナログの電話回線に比較して広帯域で
あり、例えば、50〜7000Hzの音声信号を64k
bpsでディジタル符号化して伝送することができる。FIG. 10 is an acoustic frequency characteristic curve diagram of a handset, showing an example of the characteristics of the handset of a normal telephone handset, which has a reproduction output band wider than 300 to 3400 Hz of the telephone line band. In addition, ISDN
The line has a wider band than an ordinary analog telephone line, for example, a voice signal of 50 to 7000 Hz is 64k.
It can be digitally encoded at bps and transmitted.
【0004】[0004]
【発明が解決しようとする課題】音声のみの通信に於い
ては、前述の狭帯域音声信号による通信システムでも通
話内容を識別できるから、大きな問題は生じないが、画
像を見ながらの対話や、遠隔会議を行う場合等のマルチ
メディア通信システムに於いては、狭帯域音声通信で
は、臨場感や自然性に乏しくなり、サービス性に問題が
ある。なお、前述のISDN回線を適用して広帯域音声
通信を行うことが考えられるが、音声信号のディジタル
化処理等の音声符号器や復号器を備える必要があり、回
線使用料金も高いから、全体として通信コストが高くな
る問題がある。本発明は、狭帯域音声信号を受信して広
帯域化することを目的とする。In voice-only communication, since the contents of the call can be identified even in the communication system using the narrow band voice signal described above, no serious problem arises, but it is possible to have a conversation while seeing an image, In a multimedia communication system such as a teleconference, narrow band voice communication has a poor sense of presence and naturalness, and has a problem in serviceability. Wideband voice communication may be performed by applying the above-mentioned ISDN line, but since it is necessary to provide a voice encoder and a decoder for digitizing voice signals and the like, and the line usage fee is high, overall There is a problem that the communication cost becomes high. It is an object of the present invention to receive a narrow band voice signal and widen its band.
【0005】[0005]
【課題を解決するための手段】本発明の音声信号の広帯
域化装置は、図1を参照して説明すると、(1)狭帯域
音声信号の基本周波数を検出する基本周波数抽出部1
と、狭帯域音声信号の線形予測残差信号を求め、この線
形予測残差信号を基本周波数の整数倍高域側と低域側と
の何れか一方又は両方に周波数をシフトして合成する帯
域拡張部2と、この帯域拡張部2により拡張された音声
信号と狭帯域音声信号とを加算して広帯域音声信号を出
力する加算部3とを備えている。An apparatus for broadening a voice signal according to the present invention will be described with reference to FIG. 1. (1) A fundamental frequency extraction unit 1 for detecting a fundamental frequency of a narrowband speech signal.
And a linear prediction residual signal of a narrow band speech signal is obtained, and the linear prediction residual signal is an integral multiple of the fundamental frequency. A band in which the frequency is shifted to either one or both of the high band side and the low band side and combined. The expansion unit 2 and the addition unit 3 that adds the audio signal expanded by the band expansion unit 2 and the narrowband audio signal and outputs a wideband audio signal are provided.
【0006】(2)又受信した狭帯域音声信号の線形予
測分析により線形予測残差信号を求める線形予測分析部
及び逆フィルタと、狭帯域音声信号の基本周波数を抽出
する基本周波数抽出部と、線形予測残差信号を基本周波
数の整数倍だけ周波数軸方向にシフトするシフト部と、
このシフト部によりシフトされた線形予測残差信号を用
いて線形予測合成を行う線形予測合成部と、この線形予
測合成部により合成された音声信号と受信した狭帯域音
声信号とを加算して広帯域音声信号とする加算器とを備
えている。(2) Further, a linear prediction analysis unit and an inverse filter for obtaining a linear prediction residual signal by linear prediction analysis of the received narrow band speech signal, a fundamental frequency extraction unit for extracting a fundamental frequency of the narrow band speech signal, A shift unit for shifting the linear prediction residual signal in the frequency axis direction by an integer multiple of the fundamental frequency,
A linear prediction synthesis unit that performs linear prediction synthesis using the linear prediction residual signal shifted by the shift unit, and a wideband by adding the speech signal synthesized by this linear prediction synthesis unit and the received narrowband speech signal And an adder for converting the audio signal.
【0007】(3)又受信した狭帯域音声信号の線形予
測分析により線形予測残差信号を求める線形予測分析部
及び逆フィルタと、狭帯域音声信号の基本周波数を抽出
する基本周波数抽出部と、線形予測残差信号を基本周波
数の整数倍だけ周波数軸方向にシフトするシフト部と、
線形予測残差信号とシフト部によりシフトされた線形予
測残差信号とを加算した広帯域の線形予測残差信号とし
て予測合成する線形予測合成部とを備えている。(3) A linear prediction analysis unit and an inverse filter for obtaining a linear prediction residual signal by linear prediction analysis of the received narrow band speech signal, a fundamental frequency extraction unit for extracting a fundamental frequency of the narrow band speech signal, A shift unit for shifting the linear prediction residual signal in the frequency axis direction by an integer multiple of the fundamental frequency,
A linear prediction synthesis unit that performs prediction synthesis as a wideband linear prediction residual signal obtained by adding the linear prediction residual signal and the linear prediction residual signal shifted by the shift unit.
【0008】(4)又基本周波数抽出部は、線形予測残
差信号から狭帯域音声信号の基本周波数を抽出する構成
とすることができる。(4) Further, the fundamental frequency extraction unit may be configured to extract the fundamental frequency of the narrow band speech signal from the linear prediction residual signal.
【0009】(5)又基本周波数抽出部は、受信した狭
帯域音声信号の波形から狭帯域音声信号の基本周波数を
抽出する構成とすることができる。(5) Further, the fundamental frequency extraction unit can be configured to extract the fundamental frequency of the narrow band speech signal from the waveform of the received narrow band speech signal.
【0010】(6)又基本周波数抽出部は、基本周波数
をパラメータの一つとして符号化した狭帯域音声信号の
復号器から、狭帯域音声信号の基本周波数を抽出する構
成とすることができる。(6) Further, the fundamental frequency extraction unit can be configured to extract the fundamental frequency of the narrowband speech signal from the decoder of the narrowband speech signal encoded with the fundamental frequency as one of the parameters.
【0011】(7)合成出力された広帯域音声信号を、
受話器の音響周波数特性を補正する補正回路を設けるこ
とができる。(7) The synthesized and output wideband audio signal is
A correction circuit for correcting the acoustic frequency characteristic of the handset can be provided.
【0012】[0012]
(1)狭帯域の電話回線を介して狭帯域の音声信号を、
狭帯域音声受信器4により受信し、基本周波数抽出部1
により狭帯域音声信号の基本周波数を抽出する。帯域拡
張部2は、狭帯域音声信号の線形予測残差信号を求め、
この線形予測残差信号を基本周波数の整数倍だけ、狭帯
域音声信号の高域側又は低域側又は両側へシフトする。
そして、それぞれの線形予測残差信号を線形予測合成し
て、その音声信号の拡張した帯域部分と、狭帯域音声信
号とを加算部3により加算し、広帯域音声信号としてハ
ンドセット(受話器)5に加える。又は周波数シフト処
理した線形予測残差信号の拡張部分を狭帯域残差信号に
加算して、広帯域残差信号とし、この広帯域残差信号を
線形予測合成して広帯域音声信号とすることもできる。(1) A narrowband voice signal is transmitted via a narrowband telephone line.
Received by the narrow band voice receiver 4, and the fundamental frequency extraction unit 1
The fundamental frequency of the narrow band speech signal is extracted by. The band extension unit 2 obtains a linear prediction residual signal of a narrow band speech signal,
This linear prediction residual signal is shifted by an integral multiple of the fundamental frequency to the high band side or low band side or both sides of the narrow band speech signal.
Then, the respective linear prediction residual signals are subjected to linear prediction synthesis, and the expanded band portion of the audio signal and the narrow band audio signal are added by the adder 3 and added to the handset (handset) 5 as a wide band audio signal. . Alternatively, the expanded portion of the linear prediction residual signal subjected to the frequency shift processing may be added to the narrowband residual signal to form a wideband residual signal, and the wideband residual signal may be linearly predicted and combined to form a wideband speech signal.
【0013】(2)又受信した狭帯域音声信号を線形予
測分析部により予測分析して線形予測係数を求め、狭帯
域音声信号を線形予測係数の逆特性を有する逆フィルタ
を介して線形予測残差信号を求めてシフト部に加え、又
基本周波数抽出部により狭帯域音声信号の基本周波数を
抽出し、シフト部に於いてこの基本周波数の整数倍だけ
線形予測残差信号を周波数軸方向にシフトする。それに
よって帯域拡張された線形予測残差信号となり、線形予
測合成により音声信号とし、この音声信号の帯域拡張部
分と狭帯域音声信号とを加算して、広帯域音声信号とす
る。(2) Also, the received narrow band speech signal is predictively analyzed by a linear prediction analysis unit to obtain a linear prediction coefficient, and the narrow band speech signal is subjected to linear prediction residual through an inverse filter having an inverse characteristic of the linear prediction coefficient. The difference signal is obtained and added to the shift section, and the fundamental frequency of the narrowband speech signal is extracted by the fundamental frequency extraction section, and the linear prediction residual signal is shifted in the frequency axis direction by the integral multiple of this fundamental frequency in the shift section. To do. As a result, a band-extended linear prediction residual signal is obtained, and a speech signal is obtained by linear prediction synthesis, and a band-extended portion of this speech signal and a narrow-band speech signal are added to obtain a wide-band speech signal.
【0014】(3)又受信した狭帯域音声信号を線形予
測分析部により予測分析して線形予測係数を求め、狭帯
域音声信号を線形予測係数の逆特性を有する逆フィルタ
を介して線形予測残差信号を求めてシフト部に加え、又
基本周波数抽出部により狭帯域音声信号の基本周波数を
抽出し、シフト部に於いてこの基本周波数の整数倍だけ
線形予測残差信号を周波数軸方向にシフトする。このシ
フトされた線形予測残差信号の帯域拡張部分と前の線形
予測残差信号とを加算して広帯域の残差信号とし、この
残差信号を線形予測合成部に於いて合成し、広帯域音声
信号とする。(3) Also, the received narrow band speech signal is predictively analyzed by a linear prediction analysis unit to obtain a linear prediction coefficient, and the narrow band speech signal is subjected to linear prediction residual through an inverse filter having an inverse characteristic of the linear prediction coefficient. The difference signal is obtained and added to the shift section, and the fundamental frequency of the narrowband speech signal is extracted by the fundamental frequency extraction section, and the linear prediction residual signal is shifted in the frequency axis direction by the integral multiple of this fundamental frequency in the shift section. To do. The band expansion part of this shifted linear prediction residual signal and the preceding linear prediction residual signal are added to form a wideband residual signal, and this residual signal is combined in the linear prediction combining unit to obtain the wideband speech. Signal.
【0015】(4)線形予測残差信号には、有声音部分
は基本周波数を周期とする周期性を持つことから、基本
周波数抽出部に於いて、狭帯域音声信号の基本周波数を
抽出することができる。(4) Since the voiced sound portion of the linear prediction residual signal has periodicity with the fundamental frequency as a period, the fundamental frequency of the narrowband speech signal is extracted by the fundamental frequency extraction unit. You can
【0016】(5)又基本周波数抽出部は、狭帯域音声
信号の波形処理により、狭帯域音声信号の基本周波数を
抽出することができる。(5) Further, the fundamental frequency extraction unit can extract the fundamental frequency of the narrow band speech signal by waveform processing of the narrow band speech signal.
【0017】(6)又音声信号の符号化に於いて、基本
周波数,振幅,有声/無声判定等を含むパラメータを用
いる場合、符号化された狭帯域音声信号を受信し、復号
器により復号する時のパラメータの一つとして基本周波
数を得ることができる。従って、この基本周波数を利用
して、線形予測残差信号のシフトにより帯域拡張を行う
ことができる。(6) When a parameter including a fundamental frequency, amplitude, voiced / unvoiced judgment, etc. is used in the coding of a voice signal, the coded narrow band voice signal is received and decoded by a decoder. The fundamental frequency can be obtained as one of the time parameters. Therefore, using this fundamental frequency, band expansion can be performed by shifting the linear prediction residual signal.
【0018】(7)又ハンドセットの受話器の音響周波
数特性を補正するフィルタ等からなる補正回路によって
広帯域化された音声信号を補正し、ハンドセット5によ
る再生音質を更に改善することができる。(7) In addition, a wide band voice signal can be corrected by a correction circuit including a filter for correcting the acoustic frequency characteristic of the handset receiver, and the sound quality reproduced by the handset 5 can be further improved.
【0019】[0019]
【実施例】図1は本発明の第1の実施例の説明図であ
り、1は基本周波数抽出部、2は帯域拡張部、3は加算
部、4は狭帯域音声受信器、5はハンドセット(受話
器)である。通常の電話回線(図示せず)を介して狭帯
域音声信号が狭帯域音声受信器4に入力される。この実
施例は、基本周波数抽出部1と、帯域拡張部2と、加算
部3とにより広帯域化装置を構成した場合を示す。1 is an explanatory view of a first embodiment of the present invention, in which 1 is a fundamental frequency extraction unit, 2 is a band expansion unit, 3 is an addition unit, 4 is a narrow band voice receiver, and 5 is a handset. (Handset). A narrow band voice signal is input to the narrow band voice receiver 4 via a normal telephone line (not shown). In this embodiment, a band broadening device is constituted by a fundamental frequency extraction unit 1, a band expansion unit 2, and an addition unit 3.
【0020】基本周波数抽出部1は、狭帯域音声信号の
基本周波数(ピッチ周波数)を検出し、帯域拡張部2
は、狭帯域音声信号の線形予測残差信号を求め、この線
形予測残差信号を基本周波数の整数倍だけ高域側と低域
側との何れか一方又は両方に周波数シフトして合成す
る。即ち、線形予測分析を行い、線形予測残差信号を狭
帯域音声信号の高域側又は低域側にシフトして線形予測
合成を行うことにより、帯域拡張された音声を得ること
ができ、加算部3に於いて狭帯域音声信号に帯域拡張さ
れた部分の音声信号を加算し、広帯域音声信号をハンド
セット5に加える。従って、品質が改善された音声信号
による通話が可能となる。The fundamental frequency extraction unit 1 detects the fundamental frequency (pitch frequency) of the narrow band speech signal, and the band expansion unit 2
Calculates a linear prediction residual signal of a narrow band speech signal and frequency-shifts the linear prediction residual signal to either one or both of the high band side and the low band side by an integral multiple of the fundamental frequency and synthesizes them. That is, by performing linear prediction analysis and shifting the linear prediction residual signal to the high band side or low band side of the narrow band speech signal to perform linear prediction synthesis, it is possible to obtain a band-extended speech and The voice signal of the band-expanded portion is added to the narrow band voice signal in the section 3, and the wide band voice signal is added to the handset 5. Therefore, it is possible to make a call using a voice signal with improved quality.
【0021】例えば、300〜3400Hzの狭帯域音
声信号に対して、帯域拡張部2に於いて、50〜300
Hzの音声信号と、3400〜7000Hzの音声信号
とを帯域フィルタを介して加算部3に於いて加算するこ
とにより、50〜7000Hzの広帯域音声信号を形成
することができる。For example, in the case of a narrow band audio signal of 300 to 3400 Hz, the band expanding unit 2 supplies 50 to 300.
By adding the audio signal of Hz and the audio signal of 3400 to 7000 Hz in the addition unit 3 via the band filter, a wide band audio signal of 50 to 7000 Hz can be formed.
【0022】図2は本発明の第2の実施例の説明図であ
り、10は広帯域化装置、11は基本周波数抽出部、1
2は帯域拡張部、13aは高域処理部、13bは低域処
理部、14,14a,14bは帯域通過フィルタ、15
は加算器、16はハンドセット(受話器)、17は狭帯
域音声受信器、18は電話回線等の伝送路、19は狭帯
域音声送信器、20はハンドセット(送話器)である。FIG. 2 is an explanatory view of the second embodiment of the present invention, in which 10 is a band broadening device, 11 is a fundamental frequency extraction unit, and 1 is
2 is a band expansion unit, 13a is a high band processing unit, 13b is a low band processing unit, 14, 14a and 14b are band pass filters, and 15
Is an adder, 16 is a handset (receiver), 17 is a narrow band voice receiver, 18 is a transmission line such as a telephone line, 19 is a narrow band voice transmitter, and 20 is a handset (speaker).
【0023】狭帯域音声受信器17で受信した狭帯域音
声信号を広帯域化装置10に加え、例えば、300〜3
400Hzの帯域通過フィルタ14を介して加算器15
に加える。又高域処理部13aに於いては、基本周波数
抽出部11により狭帯域音声信号の基本周波数を検出
し、帯域拡張部12に於いて線形予測残差信号を高域側
へシフトして線形予測合成を行い、例えば、3400〜
7000Hzの帯域通過フィルタ14aを介して加算器
15に加える。又低域処理部13bに於いて、基本周波
数抽出部11により狭帯域音声信号の基本周波数を検出
し、帯域拡張部12に於いて線形予測残差信号を低域側
へシフトして線形予測合成を行い、例えば、50〜30
0Hzの帯域通過フィルタ14bを介して加算器15に
加える。The narrow band speech signal received by the narrow band speech receiver 17 is added to the band broadening device 10, and, for example, 300 to 3
Adder 15 via band pass filter 14 of 400 Hz
Add to Further, in the high frequency processing unit 13a, the basic frequency extraction unit 11 detects the basic frequency of the narrow band speech signal, and the band expansion unit 12 shifts the linear prediction residual signal to the high frequency side for linear prediction. It synthesizes, for example, 3400-
It is added to the adder 15 via the 7,000 Hz band pass filter 14a. Further, in the low frequency processing unit 13b, the basic frequency extraction unit 11 detects the basic frequency of the narrow band speech signal, and the band expansion unit 12 shifts the linear prediction residual signal to the low frequency side to perform linear prediction synthesis. For example, 50 to 30
It is added to the adder 15 through the 0 Hz band pass filter 14b.
【0024】従って、加算器15から50〜7000H
zの広帯域音声信号が出力されてハンドセット16に加
えられることになる。即ち、狭帯域音声信号を受信し、
広帯域化装置10によって広帯域化して受話器により再
生することができる。又この実施例の高域処理部13a
と低域処理部13bとに於ける基本周波数抽出部11
は、同一の処理により基本周波数を抽出するから共通化
することができる。Therefore, from the adder 15 to 50-7000H
The z broadband audio signal will be output and applied to the handset 16. That is, receiving a narrow band voice signal,
The band can be broadened by the band broadening device 10 and reproduced by the handset. Further, the high frequency processing unit 13a of this embodiment
And the fundamental frequency extraction unit 11 in the low frequency processing unit 13b
Can be made common because the fundamental frequency is extracted by the same processing.
【0025】図3は本発明の第3の実施例の説明図であ
り、21は線形予測分析部、22は逆フィルタ、23は
基本周波数抽出部、24はシフト部、25は線形予測合
成部、26は帯域通過フィルタ、27は高域通過フィル
タ、28は加算器、29はAD変換器(A/D)、30
はDA変換器(D/A)、31はハンドセット(受話
器)である。FIG. 3 is an explanatory diagram of the third embodiment of the present invention, in which 21 is a linear prediction analysis unit, 22 is an inverse filter, 23 is a fundamental frequency extraction unit, 24 is a shift unit, and 25 is a linear prediction synthesis unit. , 26 is a band pass filter, 27 is a high pass filter, 28 is an adder, 29 is an AD converter (A / D), 30
Is a DA converter (D / A), and 31 is a handset (receiver).
【0026】電話回線を介して受信した300〜340
0Hzのアナログの狭帯域音声信号をAD変換器29に
よりディジタル信号に変換し、線形予測分析部21によ
り線形予測係数を求め、狭帯域音声信号を線形予測係数
の逆特性を有する逆フィルタ22を介して、基本周波数
抽出部23とシフト部24とに加え、基本周波数抽出部
23により狭帯域音声信号の基本周波数(ピッチ周波
数)を抽出し、シフト部24に於いて基本周波数の整数
倍だけ線形予測残差信号を周波数軸方向にシフトする。
基本周波数抽出部23は、例えば、既に知られている自
己相関法等によって、線形予測残差信号から基本周波数
を抽出する構成とすることができる。300-340 received via telephone line
The 0 Hz analog narrow band speech signal is converted into a digital signal by the AD converter 29, the linear prediction analysis unit 21 obtains a linear prediction coefficient, and the narrow band speech signal is passed through an inverse filter 22 having an inverse characteristic of the linear prediction coefficient. In addition to the fundamental frequency extraction unit 23 and the shift unit 24, the fundamental frequency extraction unit 23 extracts the fundamental frequency (pitch frequency) of the narrowband speech signal, and the shift unit 24 performs linear prediction by an integral multiple of the fundamental frequency. The residual signal is shifted in the frequency axis direction.
The fundamental frequency extraction unit 23 can be configured to extract the fundamental frequency from the linear prediction residual signal, for example, by the already known autocorrelation method or the like.
【0027】又シフト部24によりシフトされた線形予
測残差信号を線形予測合成部25に於いて合成し、帯域
拡張された音声信号とし、帯域通過フィルタ26によ
り、例えば、50〜300Hzの音声信号を通過させて
加算器28に加える。又高域通過フィルタ27は、例え
ば、300Hz以上の帯域の音声信号を通過させるもの
であり、加算器28により加算することにより、50〜
3400Hzの広帯域音声が得られる。これをDA変換
器30によりアナログ音声信号に変換し、ハンドセット
31に加える。従って、300〜3400Hzの狭帯域
音声信号を受信して、例えば、50〜3400Hzの広
帯域音声信号を再生することができる。Further, the linear prediction residual signal shifted by the shift unit 24 is synthesized by the linear prediction synthesis unit 25 into a band-extended voice signal, and the band pass filter 26 causes a voice signal of, for example, 50 to 300 Hz. Is added to the adder 28. The high-pass filter 27 is for passing an audio signal in a band of 300 Hz or higher, for example.
A broadband sound of 3400 Hz can be obtained. This is converted into an analog voice signal by the DA converter 30 and added to the handset 31. Therefore, it is possible to receive a narrow band audio signal of 300 to 3400 Hz and reproduce a wide band audio signal of 50 to 3400 Hz, for example.
【0028】図4はシフト部の要部説明図であり、4
1,42は乗算器、43はπ/2の移相器、44は加算
器である。入力信号をsin(ft)とし、狭帯域音声
信号の基本周波数をf0 とすると、一方の乗算器41に
はcos(nf0 t)、他方の乗算器42にはsin
(nf0 t)を加える。従って、一方の乗算器41の出
力信号は、sin(ft)・cos(nf0 t)、他方
の乗算器42の出力信号は、sin(ft−π/2)・
sin(nf0 t)となり、加算器44の出力信号は、
sin(f−nf0 )tとなる。この場合は、基本周波
数f0 の整数n倍であるnf0 の低域側へのシフトを行
うことができる。同様にして、高域側へのシフトを行わ
せることも可能である。FIG. 4 is an explanatory view of the main part of the shift part,
1, 42 are multipliers, 43 is a π / 2 phase shifter, and 44 is an adder. Assuming that the input signal is sin (ft) and the fundamental frequency of the narrow band speech signal is f 0 , one multiplier 41 has cos (nf 0 t) and the other multiplier 42 has sin.
Add (nf 0 t). Therefore, the output signal of one multiplier 41 is sin (ft) · cos (nf 0 t), and the output signal of the other multiplier 42 is sin (ft−π / 2) ·.
sin (nf 0 t), and the output signal of the adder 44 is
sin (f-nf 0 ) t. In this case, it is possible to shift nf 0 , which is an integral multiple of the fundamental frequency f 0 , to the low frequency side. Similarly, it is possible to shift to the high frequency side.
【0029】図5は本発明の第4の実施例の説明図であ
り、51は線形予測分析部、52は逆フィルタ、53は
基本周波数抽出部、54はシフト部、55は線形予測合
成部、56は帯域通過フィルタ、57は高域通過フィル
タ、58は加算器、59はAD変換器(A/D)、60
はDA変換器(D/A)である。FIG. 5 is an explanatory view of the fourth embodiment of the present invention, in which 51 is a linear prediction analysis unit, 52 is an inverse filter, 53 is a fundamental frequency extraction unit, 54 is a shift unit, and 55 is a linear prediction synthesis unit. , 56 is a band pass filter, 57 is a high pass filter, 58 is an adder, 59 is an AD converter (A / D), 60
Is a DA converter (D / A).
【0030】この実施例も前述の図3に示す実施例と同
様に、電話回線を介して受信した狭帯域音声信号をAD
変換器59によりディジタル信号に変換し、又基本周波
数抽出部53に於いて狭帯域音声信号の基本周波数を抽
出し、シフト部54に於いて基本周波数の整数倍だけ線
形予測残差信号を周波数軸方向にシフトするものであ
り、基本周波数抽出部53は、狭帯域音声信号の波形処
理により基本周波数を抽出するもので、例えば、既に知
られている変形相関法等によって基本周波数を抽出する
構成とすることができる。又線形予測分析部51,逆フ
ィルタ52,シフト部54,線形予測合成部55,帯域
通過フィルタ56の作用については、図3に示す実施例
と同様であるから、重複した説明は省略する。Also in this embodiment, similar to the embodiment shown in FIG. 3, the narrow band voice signal received via the telephone line is AD-converted.
The converter 59 converts the signal into a digital signal, the fundamental frequency extraction unit 53 extracts the fundamental frequency of the narrow band speech signal, and the shift unit 54 extracts the linear prediction residual signal by an integral multiple of the fundamental frequency. The fundamental frequency extraction unit 53 extracts the fundamental frequency by waveform processing of the narrowband speech signal, and for example, has a configuration of extracting the fundamental frequency by the already-known modified correlation method or the like. can do. The operations of the linear prediction analysis unit 51, the inverse filter 52, the shift unit 54, the linear prediction synthesis unit 55, and the bandpass filter 56 are the same as those in the embodiment shown in FIG.
【0031】図6は本発明の第5の実施例の通信システ
ムの説明図であり、61は狭帯域音声符号器、62は狭
帯域音声送信器、63は電話回線を含む伝送路、64は
狭帯域音声受信器、65は狭帯域音声復号器、66は広
帯域化処理部、67,68はハンドセットである。狭帯
域音声符号器61により、ハンドセット67(送話器)
からの狭帯域音声信号の基本周波数や振幅をパラメータ
として符号化し、狭帯域音声送信器62から伝送路63
を介して送出し、狭帯域受信器64により受信して、狭
帯域音声復号器65により復号し、広帯域化処理部66
に加える。FIG. 6 is an explanatory diagram of a communication system according to a fifth embodiment of the present invention. 61 is a narrow band speech encoder, 62 is a narrow band speech transmitter, 63 is a transmission line including a telephone line, and 64 is a line. A narrow band voice receiver, 65 is a narrow band voice decoder, 66 is a wide band processing unit, and 67 and 68 are handsets. Narrowband speech encoder 61 enables handset 67 (speaker)
From the narrow band voice transmitter 62 to the transmission line 63.
Via the narrowband receiver 64, the narrowband speech decoder 65 decodes it, and the wideband processing unit 66
Add to
【0032】狭帯域音声復号器65は、前述のように、
基本周波数f0 をパラメータの一つとしている場合であ
るから、この基本周波数f0 を抽出して広帯域化処理部
66に加える。この広帯域化処理部66は、線形予測残
差信号を基本周波数f0 の整数倍だけシフトして帯域拡
張した線形予測残差信号を形成し、それを線形予測合成
して音声信号とし、ハンドセット68(受話器)に加え
る。The narrow band speech decoder 65, as described above,
Since the basic frequency f 0 is one of the parameters, the basic frequency f 0 is extracted and added to the wide band processing unit 66. The band widening processing unit 66 shifts the linear prediction residual signal by an integer multiple of the fundamental frequency f 0 to form a band-extended linear prediction residual signal, performs linear prediction synthesis of the linear prediction residual signal into a speech signal, and sets the handset 68. Add to (Handset).
【0033】図7は本発明の第5の実施例の説明図であ
り、71は線形予測分析部、72は逆フィルタ、73は
基本周波数抽出部、74はシフト部、75は線形予測合
成部、76は帯域通過フィルタ、77は高域通過フィル
タ、78は加算器、79はAD変換器(A/D)、80
はDA変換器(D/A)である。FIG. 7 is an explanatory view of the fifth embodiment of the present invention, in which 71 is a linear prediction analysis unit, 72 is an inverse filter, 73 is a fundamental frequency extraction unit, 74 is a shift unit, and 75 is a linear prediction synthesis unit. , 76 is a band pass filter, 77 is a high pass filter, 78 is an adder, 79 is an AD converter (A / D), 80
Is a DA converter (D / A).
【0034】基本周波数抽出部73は、図6の狭帯域音
声復号器65からの基本周波数f0が加えられるから、
それを狭帯域音声信号の基本周波数としてシフト部74
に於ける線形予測残差信号のシフトを制御する。従っ
て、基本周波数抽出部73は基本周波数f0 を中継する
簡単な構成で済むことになる。又線形予測分析部71,
逆フィルタ72,シフト部74,線形予測合成部75,
帯域通過フィルタ76の作用については、図3及び図5
に示す実施例と同様であるから、重複した説明は省略す
る。Since the fundamental frequency extraction unit 73 is added with the fundamental frequency f 0 from the narrow band speech decoder 65 of FIG. 6,
The shift unit 74 uses it as the fundamental frequency of the narrow band audio signal.
Control the shift of the linear prediction residual signal in. Therefore, the basic frequency extraction unit 73 has a simple configuration for relaying the basic frequency f 0 . In addition, the linear prediction analysis unit 71,
Inverse filter 72, shift unit 74, linear prediction synthesis unit 75,
The operation of the bandpass filter 76 will be described with reference to FIGS.
Since it is the same as the embodiment shown in FIG.
【0035】図8は本発明の第6の実施例の通信システ
ムの説明図であり、81は補正回路、82は狭帯域音声
送信器、83は電話回線を含む伝送路、84は狭帯域音
声受信器、85は広帯域処理部、86は補正回路、87
はハンドセット(受話器)である。このハンドセット8
7は、例えば、図10に示す音響周波数特性を有するも
のである。FIG. 8 is an explanatory diagram of a communication system according to a sixth embodiment of the present invention, in which 81 is a correction circuit, 82 is a narrow band voice transmitter, 83 is a transmission line including a telephone line, and 84 is a narrow band voice. Receiver, 85 is wideband processing unit, 86 is correction circuit, 87
Is a handset. This handset 8
7 has, for example, the acoustic frequency characteristic shown in FIG.
【0036】又広帯域処理部85は、例えば、図6の広
帯域処理部66に相当し、狭帯域音声信号の線形予測残
差信号を基本周波数の整数倍だけ周波数軸方向にシフト
し、線形予測合成により帯域拡張した音声信号を形成す
るものであり、補正回路86は、更に受話器の音響周波
数特性を補正するように、低域を強調する補正を行うも
のである。それによって、受話器の再生音質を更に向上
することができる。この場合、広帯域処理部85により
高域側に線形予測残差信号をシフトして、高域側の音声
信号を復元し、補正回路86により高域を強調して、受
話器の再生音質を向上することもできる。The wide band processing unit 85 corresponds to, for example, the wide band processing unit 66 of FIG. 6, and shifts the linear prediction residual signal of the narrow band speech signal in the frequency axis direction by an integer multiple of the fundamental frequency to perform linear prediction synthesis. The correction circuit 86 performs correction for emphasizing the low frequency band so as to further correct the acoustic frequency characteristic of the receiver. Thereby, the reproduced sound quality of the handset can be further improved. In this case, the wide band processing unit 85 shifts the linear prediction residual signal to the high frequency side to restore the high frequency side audio signal, and the correction circuit 86 emphasizes the high frequency band to improve the reproduced sound quality of the handset. You can also
【0037】又狭帯域音声信号の送信側に於いて補正回
路81を設け、送話器の音響周波数特性を補正し、更に
は受話器の音響周波数特性を補正することもできる。こ
のような補正と広帯域化処理部85による音声信号の広
帯域化とにより、受話器の再生音質は一層向上すること
になる。Further, a correction circuit 81 may be provided on the transmission side of the narrow band audio signal to correct the acoustic frequency characteristic of the transmitter and further to correct the acoustic frequency characteristic of the receiver. By such correction and widening of the band of the audio signal by the wide band processing unit 85, the reproduced sound quality of the handset is further improved.
【0038】前述の図3,図5,図7に示す実施例に於
いては、線形予測残差信号をシフト部24,54,74
によりシフトして、線形予測合成部25,55,75に
より線形予測合成し、帯域拡張した音声信号を生成し、
狭帯域音声信号と合成するものであるが、線形予測残差
信号と、シフト部24,54,74により基本周波数の
整数倍だけ周波数軸方向にシフトされた線形予測残差信
号とを加算して、広帯域の残差信号を形成し、この残差
信号を線形予測合成により音声信号とし、広帯域化する
ことができる。又線形予測残差信号を高域側へシフトす
ることにより、狭帯域音声信号の高域側を復元して広帯
域化することもできる。In the embodiments shown in FIGS. 3, 5 and 7, the linear prediction residual signal is shifted by the shift units 24, 54 and 74.
, And the linear prediction synthesis units 25, 55, and 75 perform linear prediction synthesis to generate a band-extended audio signal,
Although it is to be synthesized with a narrow band speech signal, the linear prediction residual signal and the linear prediction residual signal shifted in the frequency axis direction by an integral multiple of the fundamental frequency by the shift units 24, 54 and 74 are added to each other. A wideband residual signal can be formed, and the residual signal can be converted into a speech signal by linear prediction synthesis to widen the band. Further, by shifting the linear prediction residual signal to the high frequency side, the high frequency side of the narrow band speech signal can be restored to widen the band.
【0039】[0039]
【発明の効果】以上説明したように、本発明は、狭帯域
音声信号を受信し、その線形予測残差信号と基本周波数
とを用いて広帯域化処理を行うもので、伝送路をそのま
まとして、マルチメディア通信システムにも適用可能と
なるような音声品質の向上を図ることができる利点があ
る。As described above, according to the present invention, a narrow band speech signal is received and a wide band process is performed using the linear prediction residual signal and the fundamental frequency. There is an advantage that the voice quality can be improved so that it can be applied to a multimedia communication system.
【図1】本発明の第1の実施例の説明図である。FIG. 1 is an explanatory diagram of a first embodiment of the present invention.
【図2】本発明の第2の実施例の説明図である。FIG. 2 is an explanatory diagram of a second embodiment of the present invention.
【図3】本発明の第3の実施例の説明図である。FIG. 3 is an explanatory diagram of a third embodiment of the present invention.
【図4】シフト部の要部説明図である。FIG. 4 is an explanatory view of a main part of a shift section.
【図5】本発明の第4の実施例の説明図である。FIG. 5 is an explanatory diagram of a fourth embodiment of the present invention.
【図6】本発明の第5の実施例の通信システムの説明図
である。FIG. 6 is an explanatory diagram of a communication system according to a fifth embodiment of this invention.
【図7】本発明の第5の実施例の説明図である。FIG. 7 is an explanatory diagram of a fifth embodiment of the present invention.
【図8】本発明の第6の実施例の通信システムの説明図
である。FIG. 8 is an explanatory diagram of a communication system according to a sixth embodiment of this invention.
【図9】従来例の通信システムの説明図である。FIG. 9 is an explanatory diagram of a conventional communication system.
【図10】受話器の音響周波数特性曲線図である。FIG. 10 is an acoustic frequency characteristic curve diagram of the handset.
【符号の説明】 1 基本周波数抽出部 2 帯域拡張部 3 加算部 4 狭帯域音声受信器 5 ハンドセット(受話器)[Explanation of Codes] 1 fundamental frequency extraction unit 2 band expansion unit 3 addition unit 4 narrow band voice receiver 5 handset (handset)
Claims (7)
音声信号の広帯域化装置に於いて、 前記狭帯域音声信号の基本周波数を検出する基本周波数
抽出部と、 前記狭帯域音声信号の線形予測残差信号を求め、該線形
予測残差信号を前記基本周波数の整数倍を高域側と低域
側との何れか一方又は両方に周波数をシフトして合成す
る帯域拡張部と、 該帯域拡張部により拡張された音声信号と前記狭帯域音
声信号とを加算して広帯域音声信号を出力する加算部と
を備えたことを特徴とする音声信号の広帯域化装置。1. A voice signal band broadening device for receiving a narrow band voice signal to widen the band, comprising: a fundamental frequency extraction unit for detecting a fundamental frequency of the narrow band voice signal; and a linear shape of the narrow band voice signal. A band expansion unit that obtains a prediction residual signal, synthesizes the linear prediction residual signal by frequency-shifting an integer multiple of the fundamental frequency to either one or both of the high band side and the low band side, and the band. An apparatus for widening a voice signal, comprising: an addition unit that adds the voice signal extended by the extension unit and the narrowband voice signal to output a wideband voice signal.
分析により線形予測残差信号を求める線形予測分析部及
び逆フィルタと、前記狭帯域音声信号の基本周波数を抽
出する基本周波数抽出部と、前記線形予測残差信号を前
記基本周波数の整数倍だけ周波数軸方向にシフトするシ
フト部と、該シフト部によりシフトされた前記線形予測
残差信号を用いて線形予測合成を行う線形予測合成部
と、該線形予測合成部により合成された音声信号の拡張
した帯域部分と前記受信した狭帯域音声信号とを加算し
て広帯域音声とする加算器とを備えたことを特徴とする
請求項1記載の音声信号の広帯域化装置。2. A linear prediction analysis unit for obtaining a linear prediction residual signal by linear prediction analysis of the received narrow band speech signal and an inverse filter, and a fundamental frequency extraction unit for extracting a fundamental frequency of the narrow band speech signal. A shift unit that shifts the linear prediction residual signal in the frequency axis direction by an integer multiple of the fundamental frequency; and a linear prediction synthesis unit that performs linear prediction synthesis using the linear prediction residual signal shifted by the shift unit. 2. An adder for adding the extended band portion of the speech signal synthesized by the linear prediction synthesis unit and the received narrowband speech signal to obtain wideband speech. Audio signal broadening device.
分析により線形予測残差信号を求める線形予測分析部及
び逆フィルタと、前記狭帯域音声信号の基本周波数を抽
出する基本周波数抽出部と、前記線形予測残差信号を前
記基本周波数の整数倍だけ周波数軸方向にシフトするシ
フト部と、前記線形予測残差信号と前記シフト部により
シフトされた前記線形予測残差信号とを加算して広帯域
の線形予測残差信号として予測合成する線形予測合成部
とを備えたことを特徴とする請求項1記載の音声信号の
広帯域化装置。3. A linear prediction analysis unit and an inverse filter that obtain a linear prediction residual signal by linear prediction analysis of the received narrowband speech signal, and a fundamental frequency extraction unit that extracts a fundamental frequency of the narrowband speech signal. A shift unit that shifts the linear prediction residual signal in the frequency axis direction by an integer multiple of the fundamental frequency, a wide band by adding the linear prediction residual signal and the linear prediction residual signal shifted by the shift unit. 2. The apparatus for widening a speech signal according to claim 1, further comprising: a linear prediction synthesis unit that performs predictive synthesis as the linear prediction residual signal.
残差信号から狭帯域音声信号の基本周波数を抽出する構
成を有することを特徴とする請求項1又は2又は3記載
の音声信号の広帯域化装置。4. The wide band of the speech signal according to claim 1, wherein the fundamental frequency extraction unit has a configuration for extracting a fundamental frequency of a narrow band speech signal from the linear prediction residual signal. Device.
狭帯域音声信号の波形から前記狭帯域音声信号の基本周
波数を抽出する構成を有することを特徴とする請求項1
又は2又は3記載の音声信号の広帯域化装置。5. The basic frequency extraction unit has a configuration for extracting a basic frequency of the narrowband speech signal from a waveform of the received narrowband speech signal.
Alternatively, the device for broadening the bandwidth of the audio signal according to 2 or 3.
パラメータの一つとして符号化した前記狭帯域音声信号
の復号器から、前記狭帯域音声の基本周波数を抽出する
構成を有することを特徴とする請求項1又は2又は3記
載の音声信号の広帯域化装置。6. The fundamental frequency extraction unit has a configuration for extracting the fundamental frequency of the narrowband speech from a decoder of the narrowband speech signal encoded with the fundamental frequency as one of the parameters. 4. The audio signal band broadening device according to claim 1, 2, or 3.
器の音響周波数特性を補正する補正回路を設けたことを
特徴とする請求項1乃至6項の何れか1項記載の音声信
号の広帯域化装置。7. A wide band speech signal according to claim 1, further comprising a correction circuit for correcting the acoustic frequency characteristic of the receiver for the synthesized and output wide band speech signal. apparatus.
Priority Applications (1)
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JP7207994A JPH0955778A (en) | 1995-08-15 | 1995-08-15 | Bandwidth widening device for sound signal |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP7207994A JPH0955778A (en) | 1995-08-15 | 1995-08-15 | Bandwidth widening device for sound signal |
Publications (1)
Publication Number | Publication Date |
---|---|
JPH0955778A true JPH0955778A (en) | 1997-02-25 |
Family
ID=16548925
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP7207994A Withdrawn JPH0955778A (en) | 1995-08-15 | 1995-08-15 | Bandwidth widening device for sound signal |
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