EP0744881B1 - Headphone reproducing apparatus - Google Patents

Headphone reproducing apparatus Download PDF

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Publication number
EP0744881B1
EP0744881B1 EP96303604A EP96303604A EP0744881B1 EP 0744881 B1 EP0744881 B1 EP 0744881B1 EP 96303604 A EP96303604 A EP 96303604A EP 96303604 A EP96303604 A EP 96303604A EP 0744881 B1 EP0744881 B1 EP 0744881B1
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EP
European Patent Office
Prior art keywords
sound
signals
changing
channel input
listener
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
EP96303604A
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German (de)
English (en)
French (fr)
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EP0744881A2 (en
EP0744881A3 (en
Inventor
Toshikazu Okada
Takuma Suzuki
Mitsuo Matsumoto
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Victor Company of Japan Ltd
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Victor Company of Japan Ltd
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Priority claimed from JP7148323A external-priority patent/JP2900985B2/ja
Application filed by Victor Company of Japan Ltd filed Critical Victor Company of Japan Ltd
Publication of EP0744881A2 publication Critical patent/EP0744881A2/en
Publication of EP0744881A3 publication Critical patent/EP0744881A3/en
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Publication of EP0744881B1 publication Critical patent/EP0744881B1/en
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04SSTEREOPHONIC SYSTEMS 
    • H04S5/00Pseudo-stereo systems, e.g. in which additional channel signals are derived from monophonic signals by means of phase shifting, time delay or reverberation 
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04SSTEREOPHONIC SYSTEMS 
    • H04S7/00Indicating arrangements; Control arrangements, e.g. balance control
    • H04S7/30Control circuits for electronic adaptation of the sound field
    • H04S7/302Electronic adaptation of stereophonic sound system to listener position or orientation
    • H04S7/303Tracking of listener position or orientation
    • H04S7/304For headphones
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04SSTEREOPHONIC SYSTEMS 
    • H04S2420/00Techniques used stereophonic systems covered by H04S but not provided for in its groups
    • H04S2420/01Enhancing the perception of the sound image or of the spatial distribution using head related transfer functions [HRTF's] or equivalents thereof, e.g. interaural time difference [ITD] or interaural level difference [ILD]

Definitions

  • the present invention relates to a headphone reproducing apparatus, and more specifically to a headphone reproducing apparatus for localizing a sound image at a position away form a listener's head.
  • a conventional headphone reproducing apparatus for processing sound signals to localize a sound image at a position away from a listener's head will be explained hereinbelow with reference to the attached drawings.
  • Fig. 1 is a view showing transfer characteristics from a speaker to both the right and left ears of a listener, which can be obtained when sound signals are reproduced through a speaker.
  • Fig. 2 is a block diagram showing a conventional headphone reproducing apparatus
  • Fig. 3 is a block diagram showing an FIR (Finite Impulse Response) type digital filter (a convolution calculator).
  • FIR Finite Impulse Response
  • the sound transmitted from the speaker 40 to the listener 41 can be represented by two different transfer functions hl(n) (from the speaker 40 to a left ear 41L) and hr(n) (from the speaker 40 to a right ear 41R), respectively.
  • these two transfer functions hl(n) and hr(n) are synthesized with input signals x(n) inputted through an input terminal 51. A sound image localized by the speaker 40 is thus reproduced through a headphone 52 in pseudo-speaker sound reproduction manner.
  • impulse responses i.e., the transfer functions
  • the measured impulse responses are convolution-calculated with the input signals by use of a signal processing unit (e.g., digital signal processing unit).
  • the input signals inputted through an input terminal 51 are divided into left channel signals and right channel signals.
  • the divided signals are then applied to a left convolution calculator 53L and a right convolution calculator 53R, separately for convolution calculations.
  • the signals outputted from the two convolution calculators 53L and 53R are transmitted to a left channel 52L and a right channel 52R of a headphone 52, separately.
  • each of the two calculators 53L and 53R must be constructed as a multipoint FIR digital filter 60 as shown in Fig. 3.
  • the multipoint FIR digital filter 60 includes one-sample delay devices 61, multipliers 62 each for executing convolution of the impulse response (h( 0 ) to h( N ) denote a multiplication value), and adders 63 each for adding outputs of the multipliers 62.
  • the conventional headphone reproducing apparatus constructed as described above has the following drawbacks.
  • the impulse responses transfer functions
  • Japanese Publication JP 58198999A discloses an apparatus for producing a sound image by allowing a multiplier to multiply the output of a correlator for collating two left and right channel signals with each other and the output of a difference signal generator, and varying the dip frequency of a comb filter on the basis of the multiplication result.
  • UK Patent Publication GB-A-2220818 discloses a system for creating stereo sound through the earphones of a headset.
  • the system includes filters and adders which have a cross-connected configuration to provide the stereo sound.
  • French Patent Publication FR-A-2296340 provides a circuit for producing stereo sound through headphones with a cross-connection configuration between the delay means and the filters.
  • Japanese Publication JP 02219400A describes a circuit which comprises a plurality of delay means for delaying the input audio signal and a plurality of filters for correcting the frequency characteristics of the input audio signal.
  • Japanese Patent Laid Open No 3(1991)-250899 discloses a headphone reproducing apparatus that enables extra-head sound image localization with simple construction.
  • reflected sounds having different delay times and different signal levels are formed on the basis of monaural input signals.
  • Left and right cross-talk signals are then formed on the basis of signals obtained by adding the reflected sounds to the input signals.
  • the reflected sounds and the formed cross-talk signals are both added to the input signals. And, the added signals are reproduced independently on the left and right sides of a headphone.
  • this conventional headphone reproducing apparatus has two reflected sound forming systems for right and left ears each having delay and multiplier. Two left reflected sounds (reflected sounds for the left ears and reflected sounds for the right ears) to the input signals, respectively. Further, the right cross-talk signals are formed on the basis f the left signals passed through a right filter, and the left cross-talk signals are formed on the basis of the right signals passed through a left filter, respectively. Further, the formed reflected sounds and the formed cross-talk signals are both added to the input signals, separately on the left and right sides. The two added signals thus can be reproduced independently on the left and right sides of a headphone.
  • the Japanese Laid-open Patent discloses another headphone reproducing apparatus which has a single reflected sound forming system.
  • the signals obtained by adding the reflected sounds to the input signals are divided into two signals by the single reflected sound forming system.
  • the same reflected sounds are used for both the left and right ears.
  • the left and right cross-talk signals are formed on the basis of the signals obtained by adding the reflected sounds to the input signals through two different left and right filters.
  • the formed reflected sounds and the formed cross-talk signals are both added to the input signals, separately on the left and right sides. The two added signals thus can be reproduced independently on the left and right sides of a headphone.
  • the left ear in the case of the left ear, for instance, firstly, input signals are formed to which the left reflected sounds are added.
  • the left cross-talk signals are then formed on the basis of the input signals to which the left reflected sounds are added.
  • the input signals to which the left reflected sounds are added and the left cross-talk signals are added to monaural input signals before reproduction.
  • the directional feeling (transfer characteristics) are not synthesized.
  • the reflected sounds are added to the input signals as they are, without providing definite directional feeling for both the listener's left and right ears.
  • the cross-talk signals formed on the basis of the reflected sounds are formed separately on the left and right sides on the basis of the same signals to which reflected sounds are added. In other words, a cross-talk signals is not formed for each of the reflected sounds, respectively.
  • phase control is executed in such a way that the correlation between the left and right signals can be eliminated, in order to localize a sound image outside a listener's head. Since the sound image localization cannot be made definitely, there arises a problem in that the directional feeling of a sound source is also not clear.
  • the present invention provides an apparatus for creating a virtual sound, a listener be feeling as if a sound came from a virtual sound source that imaginarily exists in a space apart from the listener, the apparatus comprising: delay means for delaying a first-channel input audio signal and a second-channel input audio signal by predetermined delay times; first changing means for changing frequency characteristics of the first- and second-channel input audio signals to predetermined frequency characteristics; and second-channel input audio signals to predetermined sound levels, the delay means and the first and second means being connected in series to each other; and reproducing means for reproducing the first- and second-channel input signals for processed by the delay means and the first and second means as the sound that comes from the virtual sound source.
  • the first changing means may include a low-pass filter.
  • the present invention may further comprise delay means for delaying a first-channel input signal and a second-channel input signal, both being separated from the input audio signal, by predetermined delay times, changing frequency characteristics of the first- and second-channel input signals to predetermined frequency characteristics, and changing sound levels of the first- and second-channel input signals to predetermined sound levels; multi-stage delay means for delaying another signal separated from the input audio signal by a plurality of predetermined delay times to output multi-stage delayed signals; processing means for delaying a plurality of third-channel input signals and a plurality of fourth-channel input signals, the third- and fourth-channel input signals being separated from the multi-stage delayed signals, by a plurality of predetermined delay times, changing frequency characteristics of the third- and fourth-channel input signals to predetermined frequency characteristics, and changing sound levels of the third- and fourth-channel input signals to predetermined sound levels; adding means for adding the first-channel input signal and all the third-channel input signals to each other, and second-channel input signal and all the fourth-channel input signals to each other; and reproducing
  • the apparatus may further include changing means for changing at least either of the delay times of the first means, the delay times of the second means, and the delay times, the frequency characteristics, and the sound levels of the third means.
  • the apparatus may further include detecting means for detecting at least either of a position, a direction, and a movement of the listener.
  • the changing means in responsive to the detected position, direction or movement, changes at least either of the delay times of the first means, the delay times of the second means, and the delay times, the frequency characteristics, and the sound levels of the third means.
  • Fig. 4 shows a first embodiment of a headphone reproducing apparatus according to the present invention.
  • a headphone reproducing apparatus 10 has a direction filter 12 for transfer characteristic synthesizing.
  • the direction filter 12 models acoustic components included in the transfer functions from a virtual sound source assumed to exist in a virtual space to the listener's left and right ears. And, the direction filter 12 synthesizes the directional feeling (transfer characteristics) with left- and right-channel signals divided from input signals applied through an input terminal 11.
  • the acoustic components such as time component, frequency component, and sound pressure component will be explained hereinbelow.
  • Time component (a difference in arrival time from the sound source to both the listener's ears)
  • the time component is an acoustic component of the transfer function, which is caused by a difference in sound arrival time between both the listener's ears, that is, caused by a difference in distance from the sound source to both the listener's ears. Therefore, an appropriate time delay is adopted according to the angle and distance of a virtual sound source relative to the listener.
  • the adopted time component is synthesized with the input signals. For instance, with respect to both the listener's ears, the transfer characteristics from a virtual source to the remote ear are delayed by an appropriate time, as compared with the transfer characteristics from the same virtual source to the near ear.
  • the frequency component is an acoustic component of the transfer function, which is caused by positional relationship among the sound source, the listener's head and ears.
  • the high frequency band of sound is attenuated more at the ear remote from the sound source, as compared with the ear near to the sound source. Because the sound reaches the remote ear after having traveled around the head. Therefore, the high frequency band characteristics of the transfer function are attenuated according to the angle and distance of the virtual sound source relative to the listener. And, the attenuated frequency components are synthesized with the input signals. For instance, with respect to the left and right ears, the high frequency characteristics of the transfer function from the virtual source to the remote ear are attenuated more, as compared with the high frequency characteristics thereof from the same virtual source to the near ear.
  • the sound pressure component is an acoustic component of the transfer function, which is caused by a difference in sound volume level, that is, caused by a difference in distance between the sound source and the ears. Therefore, the level of the transfer characteristics is increased or decreased according to the angle and distance of the virtual sound source relative to the listener. And, the adjusted sound pressure component is synthesized with the input signals. For instance, with respect to the left and right ears, the sound volume level of the transfer characteristics from the virtual source to the remote ear is reduced by an appropriate value, as compared with the sound volume level of the transfer characteristics from the same virtual source to the near ear.
  • the headphone reproducing apparatus 10 includes delaying circuits for modeling the time component of the transfer characteristics, frequency characteristic changing circuits for modeling the frequency component, and sound pressure changing circuits for modeling the sound pressure component, on each side of the headphone.
  • these circuits can be fabricated easily by use of a direction filter 12 having two delay circuits 13R and 13L, two low-pass filters (LPFs) 14R and 14L, and two multipliers 15R and 15L.
  • LPFs low-pass filters
  • multipliers 15R and 15L two multipliers
  • IIR Infinite Impulse Response
  • the delay circuit 13L, the LPF 14L and the multiplier 15L are connected in series for the left channel. Further, the delay circuit 13R, the LPF 14R, and the multiplier 15R are connected in series for the right channel.
  • the left and right channel signals are delayed by the delay circuits 13L and 13R by a predetermined delay time, respectively.
  • the frequency characteristics of the delayed signals are changed by the LPF 14L and 14R to predetermined frequency characteristics, respectively.
  • the delayed and changed channel signals are further changed by the multiplier 15L and 15R to predetermined sound volume level, respectively.
  • Both the delayed, and frequency and level-changed input signals are transmitted to a left channel 16L and a right channel 16R of a headphone 16, respectively.
  • the order of the series-connected delay circuit 13L, the LPF 14L, and the multiplier 15L, and also 13R, 14R, and 15R are not limited to only that as shown in Fig. 4 as long as the two series-connected circuities are separated in right and left channels.
  • the respective signal processing values are determined on the basis of the positional relationship between the virtual sound source and the listener, as already explained.
  • IIR type digital filters are used as the LPFs 14L and 14R and further the forward direction coefficients of the digital filters are scaled, it is possible to model the sound pressure components of both the channels, without using any multipliers in particular.
  • the signals can be reproduced through the headphone 16 as sounds having directional feeling from the virtual sound source (located outside the listener's head) to the listener's left and right ears.
  • the listener can feel as if he or she could hear sound from a direction of a virtual sound source located outside the head.
  • a sound source i.e., a sound image
  • the listener can enjoy the reproduced sound for many hours without being much fatigued.
  • the transfer characteristics can be synthesized with the input signals by the direction filter 12 having the delay circuits 13L and 13R, the LPFs 14L and 14R, and the multipliers 15L and 15R. It is thus possible to synthesize the transfer characteristics (more approximate to the actual transfer functions) with the input signals in real time.
  • the headphone reproducing apparatus according to the present invention can be constructed by use of small-scale hardware of simple construction elements, as compared the conventional apparatus for executing the convolution calculations of the impulse responses.
  • the reflected sound in a room exerts a great influence upon the sound source recognition. Therefore, in the case of the extra-head sound image localization by a headphone, the reflected sound exerts a great influence upon the sound source recognition. Therefore, when some directional feeling is provided for the reflected sound, the sound source can be recognized more easily by the listener.
  • a headphone reproducing apparatus 20 reproduces reflected sounds each having directional feeling from each virtual room wall to both the listener's ears, in addition to the direct sound having directional feeling from the virtual sound source to both the listener's ears.
  • single-channel input signals applied through an input terminal 21 are divided into two signals.
  • One of the two divided signals is given to a direction filter 12(T 0 ) of delay time T 0 and then outputted as the direct sound having directional feeling to both the left and right ears in the same way as with the case of the first embodiment.
  • the other of the two divided signals is given to a delay circuit 22, and then outputted as multi-stage delayed signals (the delay times are t 1 to t N ).
  • the multi-stage delayed signals are applied to direction filters 12(t 1 ) to 12(t N ) respectively, and then outputted as the reflected sounds each having directional feeling to both the left and right ears, respectively.
  • each of the direction filters 12(t 0 ) to 12(t N ) corresponds to the direction filter 12 of Fig. 4. Further, each of the signal processing values (delay time, frequency characteristics, and sound volume level) of these direction filters is decided on the basis of each of the directions of the reflected sounds. Further, the direct sound and the reflected sound are added to each other by adders 24 1 to 24 N for each of the left and right channels, and then given to the left channel 16L and the right channel 16R of the headphone 16, respectively.
  • a sound image can be located outside the listener's head (a sound image is not located inside the listener's head), with the result that the listener can hear the sound as if the sound were generated by a sound source positioned within a room having reverberation characteristics.
  • the direction filters 12(t 0 ) and 12(t 1 ) to 12(t N ) can be achieved by a simple element the same as the direction filter 12 of Fig. 4, the apparatus can be constructed by use of small-scale hardware.
  • the headphone reproducing apparatus of the second embodiment according to the present invention is provided with the following features:
  • the direction filter 12(t 0 ) synthesizes the transfer characteristics between the virtual sound source and the listener's left and right ears with the left- and right-channel signals obtained by dividing the input signals, respectively.
  • the direction filters 12(t 1 ) to 12(t N ) synthesizes the respective transfer characteristics of the reflected sounds to the listener's left and right ears with the left- and right-channel signals each obtained by dividing each of the reflected sounds outputted by the delay circuit 22.
  • the adder 24 1 adds the left- and right-channel signal outputs of the direction filter 12(t 0 ) to the left- and right-channel signal outputs of direction filter 12(t 1 ), respectively.
  • the adder 24 2 adds the left- and right-channel signal outputs of the adder 24 1 to the left- and right-channel signal outputs of the direction filter 12(t 2 ), respectively.
  • This addition goes on to the direction filter 12(t N ).
  • the left- and right-channel signal outputs of the adder 24 N are given to the left channel 16L and the right channel 16R of the headphone 16, respectively.
  • the directional feeling from a single virtual sound source to both the left and right ears can be synthesized, and additionally different directional feelings to both the left and right ears can be synthesized for each of the reflected sounds.
  • the headphone reproducing apparatus as described above is constructed for each channel of the stereophonic input signals to execute the similar signal processing, respectively.
  • both the direct sound and reflected sounds each having the directional feeling to both the listener's left and right ears can be synthesized for each channel, and the synthesized sound signals are transmitted to the headphone. It is thus possible to localize the two sound images outside the listener's head under excellent stereophonic feeling conditions.
  • the sound image localization feeling implies the position of the virtual sound source, the room mode, or shape and size of a room where the virtual sound source is located, etc.
  • the signal processing values to be changed are those of the direction filter 12t 0 to 12(t N ) and the delay circuit 22.
  • the more the signal processing values (delay time, frequency characteristics, and sound volume level) are changed, the more the sound image localization feeling can be changed precisely.
  • the less the number of the signal processing values are changed the more the apparatus construction can be simplified to that extent.
  • the signal processing values are changed gradually, it is possible to obtain such an effect as if the sound image were moving.
  • a headphone reproducing apparatus 30 has a head movement detector 31 and a controller 32.
  • the head movement detector 31 detects the movement of the listener's head to which the headphone 16 is attached; that is, the head rotational direction, the head rotation angle, etc.
  • the detected values are transmitted to the controller (e.g., CPU) 32. Further, the movement of the listener's head can be also calculated by the controller 32.
  • the controller 32 changes the signal processing values of a delay circuit 22, and direction filter 12(t 0 ) to 12(t N ) in such a way that the sound image can be moved by the same movement rate in the direction opposite to the movement direction of the listener's head.
  • the head movement detector 31 is provided as follows: Two ultrasonic sensors are disposed on both the left and right sides of the headphone 16, and a detection signal oscillator is disposed at a predetermined position away from the listener's head. The oscillator transmits detecting pulse signals to the two ultrasonic sensors at controlled timings. The oscillator further transmits a detecting pulse signal transmitting signal to the controller 32. Upon receiving the detecting pulse signals, the left and right ultrasonic sensors output detection time signals to the controller 32. Each detection time signal represents what time it is at which each sensor receives the detecting pulse signal.
  • the controller 32 Upon receiving the detecting pulse signal transmitting signal from the oscillator and the detection time signals from the sensors, the controller 32 detects a time difference between the detecting pulse signal transmission and reception to detect two distances between the oscillator and the left and right sides of the headphone, respectively or a difference in distance between the oscillator and the left and right sides of the headphone. The controller then calculates the head rotation angle based on the detected distance or distance difference.
  • the movement detector 31 it is also possible to use infrared sensors, gyroscope sensors, gravity sensors for detecting inclination angles relative to the vertical direction, etc.
  • the controller 32 changes the signal processing values of the delay circuit 22, and the delay circuits, LFPs, and multipliers of the direction filters 12(t 0 ) to 12(t N ).
  • the controller changes the signal processing values in accordance with the calculating expressions and the set values determined according to the rotational direction and the rotation angle both previously stored in a memory of the controller 32.
  • the sound image thus can be moved by the same rotation angle of the head movement in the direction opposite to the head rotational direction on the basis of the calculated head rotation angle.
  • Figs. 7A and 7B show the case where the listener's head is moved by an angle ⁇ in the horizontal direction.
  • a virtual sound source is located at a point A relative to a listener 33 having the headphone 16.
  • the localization point A of the virtual sound source is moved by the angle ⁇ from the point B in a direction opposite to the movement direction of the listener's head (i.e., the left horizontal direction from the point B).
  • the localization point A of the virtual sound source is moved by the angle ⁇ from the point B in a direction opposite to the movement direction of the listener's head (i.e., the left horizontal direction from the point B).
  • the position, direction and movement of the listener's body relative to the virtual sound source can be detected by use of position, direction and movement detectors.
  • the sound image localization feeling can be changed according to the position, direction and movement of the listener, it is possible to obtain more realistic extra-head sound image localization feeling.
  • three or more detecting signal oscillators are disposed within a space where the listener exists. Furthermore, when four or more oscillators are disposed on the mutually different planes, the three-dimensional position, direction and movement of the listener can be detected. In this case, two receivers are disposed on both the left and right side of the listener's head (or the headphone). And, the position, the direction and the movement of the listener's body relative to the virtual sound source can be detected by a processor.
  • the processor calculates the respective receiver positions (i.e., the listener's position) on the basis of the positions (coordinates) of the detection signal oscillators, time at which each detection signal is transmitted by the corresponding detection signal oscillator, and time at which each detection signal is received by the corresponding receiver.
  • the processor then obtains vectors among the receivers, vectors-indicative of the listener's direction obtained by rotating the vectors among the receivers by 90 degrees, vectors from the listener (each midpoint between the respective receivers) to the virtual sound source.
  • the processor obtains the angle between the listener and the virtual sound source on the basis of an inner product of the calculated vectors between the respective receivers or the direction vectors and the vector between the listener (each midpoint between the respective receivers) to the virtual sound source.
  • the position, direction and movement of the listener relative to the virtual sound source can be all detected easily and accurately.
  • the signal processing values of the delay circuit 22, the direction filters 12(t 0 ) to 12(t N ) can be changed by the controller 32 according to the detected position, direction and movement of the listener. It is therefor possible to change the sound image localization feeling more realistically according to the position, direction and movement of the listener relative to the virtual sound source.
  • the transfer characteristics (directional feeling) from the virtual sound source to both the listener's left and right ears can be synthesized with the input signals. It is thus possible to achieve pseudo-speaker sound reproduction and further to localize the sound image outside the listener's head.
  • the headphone reproducing apparatus can be so constructed that the reflected sounds synthesized with the transfer characteristics (directional feeling) are added to the input signals respectively. It is thus possible to achieve pseudo-speaker sound reproduction as if the sound were heard in a room having a reverberation effect and thereby to localize the sound image outside the listener's head more clearly.
  • the transfer characteristics can be synthesized by use of the direction filter 12(t 0 ) (transfer characteristic synthesizing means) and the direction filters 12(t 1 ) to 12(t N ) (reflected sound transfer characteristic synthesizing means).
  • Each direction filter has the delay circuits 13R and 13L, LFPs (frequency characteristic changing means) 14R and 14L, and multipliers (sound volume changing means) 15R and 15L, as shown in Fig. 4.
  • the transfer characteristics thus can be synthesized more realistically in spite of small-scale hardware.
  • the present invention can be provided with the detectors for detecting the position, direction and movement of the listener in order to, based on the detected values, change the processing values of the delay circuit 22, direction filters 12(t 0 ) to 12(t N ) as shown in Fig. 6.
  • the detectors for detecting the position, direction and movement of the listener in order to, based on the detected values, change the processing values of the delay circuit 22, direction filters 12(t 0 ) to 12(t N ) as shown in Fig. 6.
  • the extra-head virtual sound source localizing position can be kept unchanged even if the listener moves, it is possible to realize more realistic extra-head sound image localization feeling.

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  • Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Acoustics & Sound (AREA)
  • Signal Processing (AREA)
  • Stereophonic System (AREA)
EP96303604A 1995-05-22 1996-05-21 Headphone reproducing apparatus Expired - Lifetime EP0744881B1 (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
JP7148323A JP2900985B2 (ja) 1994-05-31 1995-05-22 ヘッドホン再生装置
JP148323/95 1995-05-22
JP14832395 1995-05-22

Publications (3)

Publication Number Publication Date
EP0744881A2 EP0744881A2 (en) 1996-11-27
EP0744881A3 EP0744881A3 (en) 1999-06-09
EP0744881B1 true EP0744881B1 (en) 2004-07-14

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EP96303604A Expired - Lifetime EP0744881B1 (en) 1995-05-22 1996-05-21 Headphone reproducing apparatus

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EP (1) EP0744881B1 (zh)
CN (1) CN1108083C (zh)
DE (1) DE69632889T2 (zh)
MY (1) MY124476A (zh)
SG (1) SG89238A1 (zh)

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CN106714017B (zh) * 2015-07-17 2019-08-23 中兴通讯股份有限公司 一种调整耳机声场的方法、装置、终端及耳机
CN105307086A (zh) * 2015-11-18 2016-02-03 王宋伟 一种双声道耳机模拟环绕立体声的方法及系统
CN105578355B (zh) 2015-12-23 2019-02-26 惠州Tcl移动通信有限公司 一种增强虚拟现实眼镜音效的方法及系统
CN110740415B (zh) * 2018-07-20 2022-04-26 宏碁股份有限公司 音效输出装置、运算装置及其音效控制方法
CN109640226A (zh) * 2018-11-10 2019-04-16 东莞市华睿电子科技有限公司 一种耳机音频转换成虚拟声的控制方法
CN112437385A (zh) * 2020-11-19 2021-03-02 袁志钢 耳机

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WO1993026085A1 (en) * 1992-06-05 1993-12-23 Noise Cancellation Technologies Active/passive headset with speech filter
JPH0682242A (ja) * 1992-08-31 1994-03-22 Victor Co Of Japan Ltd 3次元位置・姿勢検出方法

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SG89238A1 (en) 2002-06-18
CN1108083C (zh) 2003-05-07
CN1140968A (zh) 1997-01-22
DE69632889T2 (de) 2005-07-21
DE69632889D1 (de) 2004-08-19
EP0744881A2 (en) 1996-11-27
EP0744881A3 (en) 1999-06-09
MY124476A (en) 2006-06-30

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