SE511650C2 - Method and apparatus for reducing echo in a telephone application - Google Patents

Abstract

The purpose of the present invention is thus to reduce the echo introduced by cross-talk. The problem described above, with how to reduce the echo introduced by cross-talk is solved by to the microphone and to the speaker introduce switches controlled by a state-machine which take as input the signal energy of the signal from the microphone, a VAD flag of the signal from the microphone, the signal energy of the signal to the speaker and a VAD flag of the signal to the speaker.

Description

lO 15 511 650 2 noise and calculated noise spectra on the transmitter side. With this procedure, the battery power and radio bandwidth are saved.

When the SID unit changes from generating the first mode signal to generating the second ra position victories, ie. from detecting numbers to detecting non-numbers, a time interval, a so-called ‘hangover’ during which the speech coding unit sets to deliver the speakers as if the received sound sequence were human speech.

If the VAD device, after this "hangover", still detects non-numbers, one is generated SID frame. The reason for this procedure is to shorten pauses between words in the human the speech should not be interpreted as non-speech, but that the speech frame generator should still be Active.

Summary of the idea of invention The present invention is a method and apparatus for reducing echo caused by crosstalk.

The purpose of the present invention is thus to reduce the echo caused by cross-talk.

The problem described above, how to reduce echoes caused by overheating, solved by inserting switches into the microphone and speaker which are controlled by a state machine whose input signal is the signal energy of the signal from the microphone, a VAD flag for the signal from the microphone, the signal energy of the signal to the speaker and a VAD fl agga for the signal to the speaker.

One of the advantages of the present invention is that the echo caused by interrogation is significantly reduced without using too much computing power.

Other advantages will become apparent to those skilled in the art from the following detailed description. 10 25 511 650 Further areas of use of the invention will depart from the detailed one description given below. It should be understood, however, that the preferred embodiments of the invention are intended only to illustrate the invention, as those skilled in the art will easily realize from the detailed description that various changes and modifications are possible within the scope of the invention Brief description of the drawings Figure 1 shows a block diagram of an embodiment of the invention.

Figure 2 is a ita riita state diagram Detailed description of preferred embodiments In Figure 1, a microphone 101 is connected to a GSM encoder 102. Before the signal reaches The GSM encoder 102 has been digitized and replaced by prior art, which has not shown in Figure 1. From the GSM encoder 102, the encoded signal is transmitted to a received gives, not shown in the figure, first passing a switch 103 which can activate or deak fi vera the transmission. An ACFE is transmitted from the GSM encoder 102 (Autocorrection Coefficient) to a VAD unit 104. To the VAD unit 104 is transferred also a delay value NE to detect duration, from the GSM frames. From The VAD unit 104 transmits a value PE representing the energy of the signal to one finite state machine 105. The VAD unit 104 also calculates an fl agga FE which indicates if the VAD unit 104 has detected human speech. The FE flag is transferred to the final state machine 105. The flag FE is true if human speech has been detected.

Further in Figure 1, a sampled coded voice signal is received from a transmitter (not shown) and forwarded to a GSM decoder 106. From the GSM decoder 106 it is transmitted decoded the sampled voice signal to a speaker 107, first passing one switch 108 that can enable or prevent the voice signal from reaching the speaker.

In order for the speaker to function properly, a D / A conversion is required according to 10 15 25 511 650 4 prior art, which is not shown in Figure 1. From the received sampled and coded a delay value ND is extracted to detect duration, which is transferred to VAD unit 109.

Because the decoding of GSM frames usually does not involve the use of one VAD unit salvages the GSM decoder necessary parameters to calculate ACF.

In order to be able to calculate ACF, an autocorrelation unit 110 receives data from the GSM decoder 106 and calculates the ACFD transmitted to the VAD unit 109. Autocorrection The unit 110 is included in the GSM encoder in a manner described in the standard derna. A value PD indicating the energy of the voice signal to the speaker is transmitted from The VAD 109 to the tillstånd riita state machine 105. From the VAD 109 a flag FD is also passed to said finite state machine indicating whether the VAD the device has detected human voice.

The finite state machine 106 includes functionality for setting the disconnects 103 and 108 depending on the values received by the state machine.

Figure 2 shows the states and possible transitions of the finite shown in Figure 1. the state machine. The transitions between states are made as described below. The following finishes are used: FD: VAD- fl agga when coding FD: VAD- fl agga when decoding PD: Signal energy during coding PD: Signal energy during decoding Hangover: The time fi before the decision to change direction to the switch is made. This time must be long enough to compensate for the echo in the room. 201. FD = 1 AND FD = 0 OR FD = 1 and PE> PD, hangover = 0 511 650 202. FE = 0, hangover 600 ms 203. FD = 1 AND FE = O OR FD = 1 AND PD> PE, hangover = 0 204. FD = 0, hangover = 600 ms 205. FD = 1 AND PD> P5, hangover = 600 ms 206. Fg = l AND PE> PD, hangover = 600 ms In the state TRANSMISSION 207, the switch is the controller that controls the transmission of the voice signal from the microphone connected and the switch that controls the transmission of the voice signal until the speaker is disconnected. In the RECEIVE state 208, the switch is as controls the transmission of the voice signal from the microphone disconnected and the switch as controls the transfer to the speaker connected. In the AVAILABLE 209 mode, both switches are on disconnected.

From the above description of the invention, it is obvious that this can varied in many ways. Such variations should not be construed as deviating from allmän nning's general idea, and all such modifications that are obvious to the person skilled in the art must be included, within the framework of the requirements below.

Claims (1)

511 650 Patent claims Method for reducing echo in the transmission of speech in a telephone application comprising a loudspeaker and a microphone, characterized in that a rivet state machine causes the loudspeaker and the microphone to be on or off depending on the characteristics of the signal from the microphone and characteristics of the signal to the speaker. . A method according to claim 1, wherein the telephone connection comprises at least one VAD unit, a GSM encoder and a GSM decoder, characterized in that a first VAD flag for the signal from the microphone is transmitted to said finite state machine, that a first value for the signal energy in the signal from the microphone is transmitted to the free state machine, that a second VAD switch for the signal to the speaker is transmitted to said finite state machine, that a second value of the energy in the signal to the speaker is transmitted to said first state machine, that said finite state machine affects a first switch controlling the transmission of said signal from said microphone, and said finite state machine actuating a second switch controlling the transmission of said second signal to said speakers in dependence on the values of said first VAD flag, said second VAD flag , said first value and said second value. . Method according to claim 2, characterized in that a first paired voice signal from said microphone is transmitted to said GSM encoder, that a first delay value for detecting duration is transmitted to a first VAD unit, that a first autocorrelation coefficient is transmitted from said first GSM encoder to said first VAD unit, that a first Boolean ga agga is transmitted from said first VAD unit to said fi nita state machine, that a first value of the energy of the signal from said microphone is transmitted from said first VAD unit to said futita. state machine, that a second sampled coded voice signal is transmitted to a GSM decoder, that a second delay value for detecting duration, from said second voice signal is transmitted to a second VAD unit, that a second autocorrelation coefficient calculated and transmitted to said second VAD unit, that a second value of the energy of said second voice signal is transmitted from said second VAD unit to said finite state machine, that a second Boolean ga agga is transmitted from said VAD unit to said fi nita state machine and that said finite state machine controls a first switch which affects the transmission of said first sampled coded voice signal from said microphone, a second couplers affecting the transmission of said second, decoded voice signal to a loudspeaker, depending on the values of said first Boolean agga, said second Boolean flag a, said first value and said second value. . A method according to claim 2, characterized in that if said finite state machine assumes a first state, the first switch controlling the transmission from said microphone is set so that such transmission is allowed and the second switch controlling the transmission to the speaker is set so that such transmission is not allowed, that if said ñnita state machine assumes a second state, said first switch controlling the transmission from said microphone so that such transmission is not allowed and the second switch controlling the transmission to the speaker being set so that such transmission is allowed. . Method according to claim 4, characterized in that if said finite state machine assumes a third state, said first and second switches are set to the same position. . A method according to claim 5, characterized in that said nita state machine is switched from said third state to said first state if said first flag is true and said second flag is false or if said first flag is true and said first value is greater than said second value, that said fi nita state machine is switched fi from said first ll state fi ll nth third state if said first fl agga is false and a delay time 10 15 20 25 511 650 s (hangover) has elapsed, that said fi nita state machine third state to said second state if said second fl agga is true and said first fl agga is false or if said second fl agga is true and said second value is greater than said first value, then said finite state machine is switched from said second state to said third state. condition if said second ga agga is false and said delay time has elapsed, that said finite condition machine switches from said rapids take permission for said second state if said second fl agga is true and said second value is greater than said first value and said delay time has elapsed, said fi rivet state machine switches from said second to said first state if said first fl agga is true and said first value is greater than said second value and said delay time has elapsed. . Method according to claim 6, characterized in that said delay time is 600 ms. . Device for reducing echo during voice transmission in a telephone telephone, which telephone telephone comprises a loudspeaker and a x-ray telephone, characterized in that said telephone application comprises a finite state machine arranged to influence said loudspeaker and microphone to be on or off depending on the characteristics of the signal from said microphone and characteristics of the signal to said speakers. . A personal computer arranged to transmit and receive a voice with a telephone application comprising a device for reducing echo of said voice, which telephone application comprises a loudspeaker and a microphobia, characterized in that said telephone application comprises a finite state machine arranged to act. said speaker and microphone to be on or off depending on characteristics of the signal from said microphone and characteristics of the signal to said speaker IC.