JP2671327B2 - Audio player - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention will be described in the following order. A Industrial Field B Outline of Invention C Conventional Technology D Problems to be Solved by the Invention E Means for Solving Problems (Fig. 1) F Action G Example G ₁ First Example ( (Figs. 1 to 4) G ₂ Other embodiments (Figs. 5 to 11) H Effect of the invention A Industrial field of use The present invention relates to an audio reproducing apparatus. B Outline of the Invention The present invention is based on the listener's body when the characteristics of the left and right channel audio signals are changed according to the head direction of the listener when performing binaural reproduction with headphones (including earphones). By detecting the direction of the head, stable reproduction characteristics can be obtained. C Conventional Technology Binaural reproduction using headphones is a method excellent in the sense of direction, localization and presence of the sound image. However, in the case of stereo reproduction using speakers, even if the listener changes the direction of the head (face), the absolute direction and position of the sound image do not change, and the relative direction and position of the sound image felt by the listener change. In contrast, in the case of binaural reproduction using headphones, even if the listener changes his or her head direction, the relative direction and position of the sound image felt by the listener do not change. Therefore, in binaural reproduction with headphones, a sound field is formed in the listener's head, and it is difficult to localize the sound image in front of the listener, and the sound image tends to rise. Therefore, according to Japanese Patent Publication No. 42-227, the following binaural reproduction method using headphones has been considered. That is, the sense of direction and the sense of localization of the sound image are determined by the volume difference, time difference, phase difference, and the like of the sounds heard by the left ear and the right ear. In addition to providing a level control circuit and a variable delay circuit, the direction of the listener's head is detected, and the detected signal controls the level control circuit and the variable delay circuit of the audio signal of each channel to be comparable to stereo reproduction by speakers. This is to obtain a stereo sound field feeling. D Problem to be Solved by the Invention By the way, in the above-described system, it is necessary to detect the orientation of the listener's head, and for this purpose, some kind of detection means needs to be attached to the listener's head. As such detecting means, there are means using a gyroscope, means using a magnetic needle, and the like. However, the gyroscope itself is extremely expensive as the detection means by the gyroscope. Moreover, since the gyroscope has a large size and a large overlap and further requires a large power source for operation, it is unsuitable as a means for detecting the orientation of the head of a freely moving listener. Further, the magnetic detection means detects the orientation of the head of the listener with reference to the direction of the horizontal component force of the geomagnetism, and is relatively inexpensive, but as can be seen from a general magnet, the response is slow, Moreover, since the stability is poor, it is not possible to obtain a detection signal having sufficient characteristics. Therefore, it was extremely difficult to realize either of the detection means in terms of commercializing the system. The present invention is intended to solve such a problem. E. Means for Solving Problems Therefore, when the inventor of the present invention conducted various experiments, the horizontal component force of the geomagnetism or the absolute position (direction) of the wall or floor viewed from the listener was determined. It has been found that even if the head orientation is not detected as a reference, the head orientation is detected based on the listener's body orientation under certain conditions, but it is sufficiently practical. That is, when the listener is seated and stereo playback is performed by the speaker, the range is small even if the listener changes the head direction, and moreover, the listener's body direction at that time changes almost. Absent. Therefore, in the present invention, paying attention to such a point, the direction of the head is detected with the direction of the shoulder of the listener as a reference, and the characteristic of the stereo audio signal supplied to the headphones is controlled by this detection signal. It was done. F The orientation of the listener's head can be detected reliably and stably despite the simple configuration. G Embodiment G ₁ First Embodiment In FIG. 1, (1) indicates a stereo signal source, and stereo left and right channel audio signals L and R are extracted from this signal source (1). And, these signals L and R are variable delay circuits (11),
(41) → Level control circuit (12), (42) → Adder circuit (1
3), (43) → Variable resistors for volume adjustment (14), (44)
→ It is supplied as the main audio signal to the left and right sounding units (electric-acoustic conversion elements) (6L) and (6R) of the headphones (6) through the signal lines of the output amplifiers (15) and (45), respectively. . In this case, each of the variable delay circuits (11) and (41) and the level control circuits (12) and (42) is configured to change the delay time and the gain (level) purely with respect to the control signal. You. Further, the level control circuits (12) and (42) are configured by, for example, a graphic equalizer that divides an audio band into five and arbitrarily controls the gain for each of the divided bands. Furthermore, the headphones (6) are equipped with a sounding unit (6
L) and (6R) are connected by an inverted U-shaped band (6B) so that they can be set on the head of the listener. Further, in the case of stereo reproduction by the speaker, acoustic crosstalk is generated between the left and right channels such that the reproduced sound of the left channel speaker reaches the right ear of the listener. Therefore, in order to simulate this, the signals L and R from the signal source (1) are changed by the variable delay circuits (21), (51) → level control circuit (22), (52) → addition circuit (43), It is supplied as crosstalk components to the sounding units (6R) and (6L) of the opposite channels through the respective signal lines of (13). The circuits (21), (5
1) and (22) and (52) are also circuits (11), (41) and (1
The configuration is the same as 2) and (42). Furthermore, in order to expand the sense of presence or presence of the sound field, such as in a listening room or concert hall, the signals L and R from the signal source (1) are reverberated (2).
5) and (55) are supplied to form reverberation signals, and these signals are supplied to the sound generation units (6L) and (6R) through addition circuits (13) and (43). Further, a band (6B) of the headphones (6) has a detecting means (7) for detecting the direction of the head of the listener in the horizontal plane.
1) is provided. FIG. 2 shows an example of the detecting means (71). That is, (7L) and (7R) are inverted U-shaped shoulder rests mounted on the left and right shoulders of the listener. These shoulder rests (7L) and (7L)
The rear end of (R) is joined by the reinforcing portion (7B). Further, both ends of an inverted U-shaped frame (7F) are joined to the tops of the shoulder rests (7L) and (7R), and a rotary encoder (7E) is provided at the center of the top of the frame (7F). A rotation axis indicating the direction of the geomagnetism is provided at one end so as to face downward, and the rotation axis is the band (6) of the headphones (6).
It is connected to the central vertex of B). When using the headphones (6), as shown in FIG. 1, the shoulder rests (7L) and (7R) are attached to both shoulders of the listener, and the headphones (6) are attached to the listener's head.
Therefore, when the listener changes the direction of the head, as described above, the direction of the listener's body hardly changes and only the direction of the head changes. Therefore, the members (7L), (7R), (7B), (7
Only the orientation of the headphones (6) changes without changing the orientation of (F), and an output indicating the orientation of the listener's head is extracted from the rotary encoder (7E) with the orientation of the listener's body as a reference. The output of this encoder (7E) is detected by the detection circuit (7
2), (73), the direction from the detection circuit (72) changes to "0" or "1" when the listener turns his / her head clockwise and counterclockwise. The signal Sd is taken out, and when the listener changes the direction of the head from the detection circuit (73), the number of pulses Pa proportional to the changed angle Pa,
For example, one pulse Pa is taken out every 2 ° change. Then, the signal Sd is supplied to the count direction input / D of the up / down counter (74) and the pulse Pa is supplied to the clock input (count input) CK of the counter (74), and the count output is supplied to the address decoder. (75)
Is supplied to the memory (77) as an address signal through the memory (77) to read the control data from the corresponding address in the table in the memory (77).
2), (21), (22), (41), (42), (51), (5
2) are supplied as control signals respectively. FIG. 3 shows an example of data of a table in the memory (77). However, in this table, for the sake of simplicity, the data is stored in the circuits (11), (12), (21), (2
2), (41), (42), (51), (52) converted to transfer characteristics. That is, as shown in FIG. 4, when the left and right channel speakers (9L) and (9R) are arranged in front of the listener (8), the speakers (9L), (9R) and the listener (9R) 8) as a transfer characteristic between H (ω, θ) mn = A (ω, θ) mn · exp {jφ (ω,
θ) mn} τ (θ) mn: Delay time from the speaker (9m) to one ear (8n) of the listener (8) Of the transfer function H (ω, θ) mn and the delay time τ (ω, θ) mn when the angle θ is changed by a unit angle, for example, by 2 ° (eight angles per angle). value,
It is written for each address in the table. Further, this table is provided, for example, in three sets in the memory (77), and data values are different for each of the sets according to the shape of the listener's head and pinna. Then, one of the three sets of tables is selected according to the switching of the switch (76) of the decoder (75). In FIG. 1, reference numeral (79) denotes a reset switch. When this switch is turned on, the count value of the counter (74) is reset to "all 0", and the table of the memory (77) stores the address of θ = 0. Is selected. According to such a configuration, the audio signals L and R from the signal source (1) are transmitted to the circuits (11) to (15) and (41) to (45).
Is supplied as a main audio signal to the headphones (6) through the circuits (21), (22), (5).
It is supplied as a crosstalk component to the headphones (6) through 1) and (52). In this case, when the listener moves his / her head, signals Sd and Pa according to that direction are obtained, and the count value of the counter (74) becomes a value according to the direction of the listener's head. Since it is supplied as an address signal to the memory (77) through the decoder (75), the data corresponding to the direction of the listener's head is extracted from the memory (77) among the data corresponding to the table of FIG. , This data is the circuit (11), (12), (21), (2
2), (41), (42), (51), (52). Therefore, the audio signals L and R supplied to the headphones (6) include a main audio signal having a transfer function H (ω, θ) mn and a delay time τ (θ) mn according to the direction of the listener's head and a cross signal. Since it becomes a talk component, it is possible to obtain a stereo sound field feeling comparable to stereo reproduction by a speaker. At this time, the reverberation signals from the reverberation circuits (25) and (55) are also supplied to the headphones (6) to add a feeling of spaciousness in a listening room or a concert hall. Thus, according to the present invention, it is possible to obtain a stereo sound field feeling comparable to the stereo reproduction by the speaker during the stereo reproduction by the headphones (6). In this case, in particular, according to the present invention, the listener's body direction Since the direction of the head is detected with reference to, the direction and position of the sound image with respect to the listener's body is constant regardless of the listener's direction, and when listening to music outdoors, such as in a train, The direction and position of the sound image do not change even if the direction changes as the process progresses. Further, the detection means (71) is simple and inexpensive,
The direction of the listener's head can be detected reliably and stably. Furthermore, when changing the characteristics of the audio signal supplied to the headphones (6) according to the orientation of the listener's head, this is done using the table of the memory (77), so The characteristics can be changed finely and the optimum characteristics can be obtained. Moreover, since a crosstalk component is added and the characteristics of the crosstalk component are controlled, a more excellent stereo sound field feeling can be obtained. In addition, the circuit (1
1), (12), (21), (22), (41), (42), (5
Because the characteristics of 1) and (52) are controlled purely electronically, there is no delay in the change of the characteristics of the audio signal with respect to the movement of the listener's head, and the unnaturalness of the conventional system occurs. Never. Furthermore, a plurality of tables are prepared in the memory (77), and the listener can select any of them by the switch (76), so that the shape of the listener's head and pinna are different. Also, optimum characteristics can be obtained. Furthermore, by setting the change amount of the transfer function and the delay time with respect to the change of the angle θ to be larger or smaller than the standard value according to the table, the change amount of the position of the sound image with respect to the orientation of the listener's head is different. , It is possible to change the sense of distance from the listener to the sound image. In addition, reverberation signals are added by the reverberation circuits (25) and (25), and the reverberation signals can be heard like reflections or reverberations due to the walls of the hall, so you can listen to music at a famous concert hall. You can get the feeling of being there. G ₂ Other Embodiments FIG. 5 shows another example of the detecting means (71). That is, (7D) is a detection band, which is formed in a U shape and whose both ends are located in a substantially horizontal plane behind the listener's head.
R) fixed. In addition, the detector (7K)
Corresponding to D), the reinforcement (7S)
B) fixed. In this case, as shown in FIG. 6, the band (7D) is made opaque and, for example, circular light-transmitting portions (7T) are formed in the longitudinal direction at angular intervals of, for example, 2 °. And
The light emitting portion (7P) and the light receiving portion (7Q) are provided so as to sandwich the band (7D) to configure the detecting portion (7K), and at this time, the light receiving portion (7Q) includes two light receiving elements ( (Not shown) is provided so that the light receiving outputs thereof have a phase difference of 90 ° with each other similarly to the detecting element in the rotary encoder, and the light receiving outputs are detected after being converted into signals Sd and Pa. It is supplied to the circuits (72) and (73). Therefore, when the listener changes his or her head, the position of the band (7D) with respect to the detector (7K) changes, so that an output is obtained from the light receiver (7Q) for each light transmitter (7T). Since the signals Sd and Sa are formed, the head orientation is detected with reference to the listener's body orientation. FIG. 7 shows another example of the band (7D) and the detection part (7K). The light transmitting part (7T) of the band (7D) is formed in a band shape in the length direction of the band (7D). , The width becomes wider along the length direction. Then, a light emitting part (7P) and a light receiving part (7Q) are provided across the band (7D) (7K).
Is configured. Therefore, when the listener changes the direction of the head, the position of the band (7D) with respect to the detection unit (7K) changes accordingly, so that the output level of the light receiving unit (7Q) changes. Therefore, the output of the light receiving section (7Q) is A / D converted and supplied to the address decoder (75), whereby the control data according to the head direction of the listener is extracted from the ROM (77). In the example shown in FIG. 8, a rack or a strip (7U) is formed on the band (7D), and a pinion (7U) is formed on this.
V) is engaged and the pinion (7V) is provided on the rotary shaft of the potentiometer or rotary encoder (7E). Further, FIG. 9 shows a case where the movement of the listener's head in the vertical direction is also detected and the transfer characteristics for the signals L and R are controlled by the detection signal in the same manner as in the horizontal direction. The light receiving section (7Q)
Is a line sensor in the vertical direction, and the light emitting section (7P) is also in a line shape facing the light receiving section (7Q). Therefore, the orientation of the listener's head in the horizontal and vertical directions with respect to the listener's body is detected. In the example of FIG. 1 and FIG. 2 as well, the shoulder rests (7L) and (7R) are rotatable with respect to the frame (7F), and a vertical detection unit such as a rotary encoder is provided here. It can also be provided. FIG. 10 shows another example of the detection means (71) and its peripheral circuits. That is, the band (6B) of the headphones (6) is provided with the first detection means (71A), and the body of the listener is
For example, the second detection means (71B) is applied to the shoulder (7A)
Provided by. In this case, the detection means (71A), (71
B) is for detecting the orientation of the head and body in the horizontal plane of the listener by utilizing the direction of the horizontal component force of the geomagnetic field. For example, as shown in FIG. 11, a headphone band (6B) or shoulder strap is used. A rotary encoder (7E) is provided on the central top of (7A) so that its rotation axis is in the vertical direction, and a magnetic needle (7M) is provided on the rotation axis. Therefore, from the rotary encoder (7E) of the detection means (71A), a signal indicating the orientation of the listener's head is obtained with the direction of the horizontal component of geomagnetism as an absolute reference, and the rotary encoder (71B) of the rotary encoder ( From 7E), a signal indicating the orientation of the listener's body is obtained with the direction of the horizontal component of the geomagnetism as an absolute reference. Then, the detection signals of the detection means (71A) and (71B) are
Detection circuits (72A), (7A) similar to the detection circuits (72), (73)
3A), (72B), (73B) are supplied to the signals Sd, Pa, Sd, Pa
Are respectively taken out, and these signals are supplied to the up / down counters (74A) and (74B) so that the counters (74A) and
Count outputs indicating the absolute orientations of the listener's head and body are extracted from (74B), and these count outputs are supplied to the subtraction circuit (78). Therefore, in the subtraction circuit (78), from the count value indicating the direction of the listener's head with the direction of the horizontal component of the earth's magnetism as an absolute reference,
Since the count value indicating the orientation of the listener's body is subtracted with the same direction as the absolute reference, the subtraction circuit (78) obtains data indicating the orientation of the listener's head with respect to the orientation of the listener's body. . Then, this data is supplied to the memory (77) through the address decoder (75), and the control data of the signals L and R is formed as described above. In the above, h (t, θ) mn: It is also the impulse response from the speaker (9m) to the ear (9n), so the circuits (11,12), (21,22), (41,4)
2) and (51, 52) can be used as convolutional integration circuits. Further, the data of FIG. 3 can be obtained as follows. That is, speakers for the left and right channels and a dummy head are arranged in a room with relatively low reflection, for example, an anechoic room, and a small microphone is provided near the entrance of the ear canal of both ears of the dummy head. And
The measurement signal may be reproduced from the left and right channel speakers, collected by the microphone of the dummy head to measure the transfer function and the delay time, and the measurement may be performed for each predetermined angle θ of the dummy head. . Further, for example, in FIG. 1, the encoder (7E) may be fixed to the body of the listener, and its input shaft may be connected to the headphone band (6B) through a flexible shaft to detect the orientation of the listener's head. Memory (77)
It is also possible to obtain one set of tables and control data can be obtained in the same manner as when there are a plurality of sets of tables by changing the address designation for the table in the control circuit (75). Further, the data in the table may be limited to the range of the general head orientation of the listener, and the angle θ may be, for example,
The interval of the angle θ may be different depending on the direction, such as every 0.5 ° near θ = 0 ° and every 3 ° when | θ | ≧ 45 °. Further, instead of the headphones (6), speakers arranged near both ears may be used. H Effect of the Invention According to the present invention, since the head orientation is detected with reference to the listener's body orientation, the direction and position of the sound image with respect to the listener's body are constant regardless of the listener's orientation, and For example, while listening to music on the train, even if the direction changes as the train progresses,
The direction and position of the sound image does not change. Further, the detection means (71) is simple and inexpensive,
The direction of the listener's head can be detected reliably and stably. Furthermore, when changing the characteristics of the audio signal supplied to the headphones (6) according to the orientation of the listener's head, this is done using the table of the memory (77). It can be changed finely and the optimum characteristics can be set. Moreover, since a crosstalk component is added and the characteristics of the crosstalk component are controlled, a more excellent stereo sound field feeling can be obtained. In addition, the circuit (1
1), (12), (21), (22), (41), (42), (5
Since the characteristics of 1) and (52) are controlled purely electronically, there is no delay in the change of the characteristics of the audio signal with respect to the movement of the listener's head, and the unnaturalness as in conventional systems occurs. Never. Furthermore, a plurality of tables are prepared in the memory (77), and the listener can select any of them by the switch (76), so that the shape of the listener's head and pinna are different. Also, optimum characteristics can be obtained. Furthermore, by setting the change amount of the transfer function and the delay time with respect to the change of the angle θ to be larger or smaller than the standard value according to the table, the change amount of the position of the sound image with respect to the orientation of the listener's head is different. , It is possible to change the sense of distance from the listener to the sound image. Reverberation circuits (25) and (55) add reverberation signals, and these reverberation signals can be heard as reflected or reverberant sounds from the walls of halls, so listening to music in a famous concert hall It is possible to obtain a sense of presence as if you were sitting.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 and FIG. 10 are system diagrams of one example of the present invention, FIG.
FIG. 9 and FIG. 11 are diagrams for explaining this. (1) is a stereo signal source, (11), (21), (41),
(51) is a variable delay circuit, (12), (22), (42), (5
2) is a level control circuit, (6) is headphones, (71) is detection means, and (77) is memory.

Claims (1)

(57) [Claims] An audio reproducing apparatus in which a stereo signal is reproduced by the headphones by controlling a transfer function and a delay time of a stereo audio signal supplied to the headphones of the listener according to the movement of the head of the listener. Of the stereo audio signals, the first transfer function provided in the signal line of the left channel audio signal
And a variable delay circuit, and a second one of transfer functions provided on a signal line of a right channel audio signal among the stereo audio signals.
Change circuit and variable delay circuit, detection means for detecting the direction and size of the listener's head movement based on the orientation of the listener's body, the direction of the listener's head movement and the magnitude for each angular position. And a memory in which the control data of the first and second changing circuits and the variable delay circuit are written as a table, and the detection output of the detecting means is converted into the control data by the table of the memory. The converted control data is supplied to the first and second changing circuits and the variable delay circuit as its control signal, and the transfer function and delay time of the stereo audio signal supplied to the headphones or the like are calculated by the listener. An audio playback device adapted to change the direction of head movement and the size of each angular position.