HEADPHONE DEVICE

Abstract

[Object] To provide a headphone device in which the influence of individual differences in virtual sound field reproduction is less likely to occur and which may listen external sounds naturally,

Description

TECHNICAL FIELD

The present invention relates to a headphone device and specifically, a headphone device including a speaker array which has a plurality of speaker units.

BACKGROUND ART

Conventional studies have been carried out related to sound field reproduction method. Regarding speaker reproduction, surround reproduction such as 5.1 ch. and 7.1 ch. is generally proposed and is commercialized. An advantage of this technique is to use speakers called rear surround sound speakers, as well as front speakers and in combination they are capable of reproducing rear and environmental sounds.

However, a problem arises during the surround sound reproduction to find the best ideal sound field point for listening in a service area of the installation center, of which is limited. In addition, in surround sound reproduction, there is a problem that it is difficult, to arrange the speakers in a rear position in an actual home.

As a measure to solve the problem concerning the speaker arrangement, there is a front surround speaker using a transoral technique. In the front surround speaker, virtual surround sound can be enjoyed by using only the front speaker and using a head-related transfer function. The advantage of the technique is that the speaker can be easily installed and the system is simple. On the other hand, there is a problem that individual variations in the effect may occur because the head-related transfer function is used. In addition, also in the technique, there is a problem concerning the listening position that the ideal position for the reproduction is limited.

As a measure to solve the problem concerning the listening position, there is a sound field reproduction technique using wave field synthesis (see, NPL 1). This is such a technique that the sound field inside a closed curved surface can be completely controlled if a speaker array is configured, and a sound pressure having the closed curved surface shape which does not include a sound source and a particle velocity in the normal direction can be completely controlled. When using the sound field reproduction technique which uses wave field synthesis, the sound field inside the closed curved surface is completely reproduced and the degree of freedom of the listening position is also increased.

For example, in PTL 1, a three-dimensional sound field reproduction device is disclosed in which a plurality of speakers of the speaker array cover the entire head of the listener and a high level of realism can be reproduced. However, in the three-dimensional sound field reproduction device, since the plurality of speakers are used and to configure the array is needed, there is a problem that the scale becomes large. In addition, in a case of using the speaker array, there is a problem in that the frequency band to be reproduced is limited by the distance between the speakers due to a problem of spatial aliasing.

On the other hand, in the field of headphone reproduction, there is a virtual surround sound using the head-related transfer function. When using the virtual surround, it is possible to ideally enjoy sound field with a handy headphone device and the problem concerning the listening position does not occur.

CITATION LIST

Patent Literature

• PTL 1: Japanese Unexamined Patent Application Publication No. 2008-118559

Non Patent Literature

• NPL 1: “Study on Three-Dimensional Virtual Reality based on Kirchhoff's Integral. Equation”, Waseda University, Advance Research Institute for Science and Engineering, Acoustic Laboratory, Yoshio YAMAZAKI, [online], April, 1997, (search Oct. 1, 2010], Internet <URL: http:www.acoust.rise.waseda.ac.jp/publications/happyou/1997-h9.html>

SUMMARY OF INVENTION

Technical Problem

However, as described above, in virtual surround sound using the head-related transfer function in the field of the headphone reproduction, since the sound pressure in the vicinity of an entrance of the external auditory meatus is duplicated as “a point”, there is a problem that influence of the individual auricle cannot be considered and an ideal effect cannot be obtained depending on an individual. In addition, generally, since the headphone has a shape blocking the ear, there is a problem that external sound cannot be heard even though a feeling of being out of the head may be obtained with virtual surround sound.

An object of the present invention is to provide a headphone device in which the influence of individual differences in virtual sound field reproduction is less likely to occur and which is capable of listening to the external sound naturally.

Solution to Problem

The concept of the present invention is a headphone device including:

a speaker array formed of a plurality of speaker units arranged to surround an auricle,

wherein the speaker array reproduces a sound field inside a closed curved surface in the vicinity of the auricle using a wave field synthesis.

In the present invention, the speaker array is included. The speaker array formed of the plurality of speaker units arranged to surround the auricle. Then, the sound field inside the closed curved surface in the vicinity of the auricle is reproduced by the speaker array using the wave field synthesis. In this case, a sound pressure signal as a driving signal for causing the sound emitted at each position of speaker units is supplied to the plurality of speaker units of the speaker array so as to reproduce the sound field inside the closed curved surface in the vicinity of the auricle.

As described above, in the present invention, the sound field inside the closed curved surface in the vicinity of the auricle is reproduced by the speaker array using the wave field synthesis, and since reverberation or a diffraction effect occurs in the ear of an individual, the influence caused by individual differences is less likely to occur. In addition, in the present invention, the speaker array is formed of the plurality of the speaker units arranged to surround the auricle and is not of a shape that blocks the ear of the listener, and then the external sound can be heard naturally.

In the present invention, for example, the plurality of speaker units of the speaker array may be arranged to be inclined inwardly towards the closed curved surface. Accordingly, a propagation velocity of the particles in all up and down, and left and right directions can be reproduced satisfactorily inside the closed curved surface. For example, the headphone device may further include a donut-shaped ear pad having an opening portion in which the auricle may be inserted, and the plurality of speaker units of the speaker array may be arranged along a circular end portion which is opposite to an abutting side of a listener of the ear pad.

Further, in the present invention, for example, a distance Δd [m] of the plurality of the speaker units of the speaker array may satisfy a formula of Δd<c/(2·fmax), when a reproduction maximum frequency is fmax [Hz] and a sound velocity is c [m/s]. Accordingly, a frequency band up to the reproduction maximum frequency, fmax [Hz] can be reproduced.

Advantageous Effects of Invention

According to the present invention, the influence of individual differences in the virtual sound field reproduction is less likely to occur and the external sound may be heard naturally. In other words, since the sound field inside the closed curved surface in the vicinity of the auricle is reproduced by the speaker array using the wave field synthesis, and reverberation or a diffraction effect occurs in the ear of an individual, the influence caused by individual differences is less likely to occur. In addition, the speaker array has the plurality of the speaker units arranged to surround the auricle and is not of a shape that blocks the ear of the listener, and then the external sound can be heard naturally.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a view illustrating a configuration example of a headphone device as an embodiment of the present invention.

FIG. 2 is a view illustrating an example of a closed curved surface in which a sound field is reproduced by a speaker array included in a headphone body.

FIG. 3 is a view for explaining that a plurality of speaker units of the speaker array included in the headphone body arranged to be inclined inwardly towards the closed curved surface in which the sound field is reproduced.

FIG. 4 is a view for explaining that the plurality of the speaker units of the speaker array are arranged along a circular end portion of an ear pad which is opposite to an abutting side of a listener.

FIG. 5 is a view for explaining an arrangement distance of the plurality of the speaker units of the speaker array included in the headphone body.

FIG. 6 is a block diagram illustrating a configuration example of a circuit which supplies a sound pressure signal to each speaker unit of the speaker array included in the headphone body.

DESCRIPTION OF EMBODIMENTS

Hereinafter, a mode (referred to as “an embodiment” below) for carrying out the present invention will be described. In addition, the description will be made in the following order.

1. Embodiment

2. Modification Example

1. Embodiment

Configuration Example of Headphone Device

FIGS. 1( a) to (c) illustrate a configuration example of a headphone device 100 as the embodiment. FIG. 1(a) is a top view, FIG. 1(b) is a front view and FIG. 1(c) is a side view thereof. The headphone device 100 is configured such that a left-side headphone body 120L and a right-side headphone body 120R are connected to front end portions of the left and right of a head band 110, respectively.

The left-side headphone body 120L has a speaker array 130. The speaker array 130 is formed of a plurality of speaker units 131 which are arranged to surround the auricle (left-side) of a listener. The speaker array 130 included in the left-side headphone body 120L reproduces a sound field inside a closed curved surface 140L in the vicinity the auricle (left-side) illustrated in FIG. 1(b) using a wave field synthesis. A sound pressure signal as a driving signal for causing the sound to be emitted at each position of speaker units 131 is supplied to a plurality of speaker units 131 of the speaker array 130 included in the left-side headphone body 120L so that the sound field inside the closed curved surface 140L can be reproduced.

The right-side headphone body 120R also has the speaker array 130. The speaker array 130 is formed of a plurality of the speaker units 131 which are arranged to surround the auricle (right-side) of a listener. The speaker array 130 included in the right-side headphone body 120R reproduces a sound field inside a closed curved surface 140R in the vicinity of the auricle (right-side) illustrated in FIG. 1(b) using the wave field synthesis. The sound pressure signal as the driving signal for causing the sound to be emitted at each position of speaker units 131 is supplied to a plurality of speaker units 131 of the speaker array 130 included in the right-side headphone body 120R so that the sound field inside the closed curved surface 140R can be reproduced.

In addition, with respect to the wave field synthesis, a detailed description thereof will be omitted, however, for example, there is a method or the like in which the Kirchhoff's integral formula is used as indicated in the “Study on Three-Dimensional. Virtual Reality based on Kirchhoff's Integral Equation”, Yoshio YAMAZAKI. In the method, the Sound field inside a closed curved surface S is reproduced by discretizing the closed curved surface S at N points and by reproducing a sound pressure P (rj) and a particle velocity un (rj) at the N points on the closed curved surface S. In the embodiment, the sound pressure signal supplied to each of the speaker units 131 of the speaker array 130 included in the headphone bodies 120L and 120R is generated, based on the wave field synthesis described above.

FIG. 2( a) illustrates an example of the closed curved surface 140L in which the sound field is reproduced by the speaker array 130 included in the left-side headphone body 120L. The closed curved surface 140L is a narrow region having a diameter of 8 to 10 cm around the external auditory meatus when viewed from the side head portion of the human (the listener). FIG. 2(b) illustrates a positional relationship between the left-side headphone body 120L and the closed curved surface 140L in a case where the headphone 100 is mounted. In addition, even though detailed description is omitted, similarly) the closed curved surface 140R in which the sound field is reproduced by the speaker array 130 included in the right-side headphone body 120R is a narrow region having a diameter of 8 to 10 cm around the external auditory meatus.

As illustrated in FIG. 3, the plurality of speaker units 131 of the speaker array 130 included in the headphone bodies 120L and 120R are arranged to be inclined inwardly towards the closed curved surfaces 140L and 140R in which the sound field is reproduced. In other words, a central axis S of each speaker unit 131 is inclined towards a central axis Z of the speaker array 130. As described above, since the plurality of the speaker units 131 of the speaker array 130 are arranged to be inclined, a propagation velocity of the particles in all directions of up and down, and left and right can be reproduced satisfactorily inside the closed curved surfaces 140L and 140R.

In FIG. 1 described above, even though the illustration is omitted, the headphone bodies 120L and 120R include donut-shaped ear pads 150 having opening portions in which the auricle can be inserted, respectively. As illustrated in FIG. 4, the plurality of the speaker units 131 of the speaker array 130 described above are arranged along a circular end portion 150a of the ear pad 150, which is opposite to an abutting side of the listener.

As illustrated in FIG. 5, the plurality of the speaker units 131 of the speaker array 130 included in the headphone bodies 120L and 120R are arranged having a distance Δd [m]. The distance Δd [m] satisfies the following formula (1), when a reproduction maximum frequency is fmax [Hz]. In this regard, c is a sound velocity (approximately, 340 m/s). Accordingly, a frequency band up to the reproduction maximum frequency fmax [Hz] can be reproduced.

Δd<c/(2·fmax)  (1)

In general, the wave field synthesis system has a problem of spatial aliasing. The aliasing occurs at a frequency of a value that divides the sound velocity by twice of the distance and a reproducible boundary frequency is determined, based on the concept of spatial sampling. For example, when the speaker units are arranged in a distance of 5 cm, appropriately 3.4 kHz is the frequency of the spatial aliasing. This is an extremely low frequency compared to 20 kHz that is an audible band of a human. The spatial aliasing frequency falias [Hz] is indicated as the following formula (2),

falias=c/(2·Δd)  (2)

The upper limit of the frequency rises when narrowing the distance thereof, which means that the sound pressure emitted from the speaker unit 131 is reduced, in addition, there is a trade-off relationship between the spatial aliasing and the sound pressure, and the sound field is difficult to reproduce in a large room. However, in the headphone device 100, since the speaker array 130 is in the vicinity of the auricle, a sufficient sound pressure can be presented to the listener even though the speaker unit 131 is small. For example, when using a super small-sized speaker unit of 8 mm, since Δd=0.008 m, the spatial aliasing frequency falias is 20 kHz or more and a sufficient sound field can be reproduced, by the formula (2).

FIG. 6 illustrates a configuration example of a circuit of the headphone body 120 (120L and 120R). The sound pressure signal corresponding to each of the speaker units 131 of the speaker array 130 is supplied from a sound pressure signal output portion 160 to the headphone body 120. As described above, the sound pressure signal is generated, based on wave field synthesis. For example, the sound pressure signal can be obtained by collecting the sound with a microphone which is arranged at a position of each of the speaker units. In addition, for example, the sound pressure signal can be obtained by carrying out a conversion process in a multi-channel signal such as 5.1 ch, and 7.1 ch.

The headphone body 120 has a digital filter portion 121, a D/A converter 122 and an amplifier circuit 123 as well as the speaker array 130. The sound pressure signal corresponding to each of speaker units 131 from the sound pressure signal output portion 160 is supplied to the speaker array 130 via the D/A converter 122 and the amplifier circuit 123 after the filter process is performed in the digital filter portion 121.

For example, the filter process in the digital filter portion 121 is a filter process for the control of the region. In this case, the sound emitted from each of the speaker units 131 of the speaker array 130 is the sound in a position slightly more inside than the position of the speaker unit 131 and is less likely to receive the influence of the spatial aliasing. In addition, for example, the filter process in the digital filter portion 121 is a filter process for correcting characteristics of each of the speaker units 131.

As described above, in the headphone device 100 illustrated in FIG. 1, the sound field inside the closed curved surfaces 140L and 140R in the vicinity of the auricle is reproduced by the speaker array 130 included in the headphone bodies 120L and 120R using the wave field synthesis. Accordingly, since reverberation or a diffraction effect occurs in the ear of an individual, the influence caused by individual differences is less likely to occur in the virtual sound field reproduction. In other words, the individual differences can be eliminated with a simple system of the headphone type compared to the speaker reproduction.

In addition, in the headphone device 100 illustrated in FIG. 1, the speaker array 130 included in the headphone bodies 120L and 120R has the plurality of the speaker units 131 which are arranged to surround the auricle. Accordingly, the speaker array 130 is not of a shape that blocks the ear of the listener and the external sound can be heard naturally. Accordingly, an effect combining the virtual sound field and the sound field of the real world, which is not possible in the headphone device of the related art, can also be present and natural conversation between two persons is also possible while the headphone device is worn.

2. Modification Example

In addition, the above embodiment is illustrated in such a manner that the plurality of the speaker units 131 are arranged in a circle in the speaker array 130 included in the headphone bodies 120L and 120R. However, the plurality of speaker units 131 may not be arranged in a circle and it may be arranged in an ellipse, in a square or in other shapes. In a word, speaker units may be arranged to surround the auricle. In addition, the above embodiment is illustrated in such a manner that the plurality of the speaker units 131 are arranged in a single circle in the speaker array 130 included in the headphone bodies 120L and 120R, however, a configuration which is arranged in double circles or triple circles may be considered.

REFERENCE SIGNS LIST

• • 100 headphone device
  • 110 head band
  • 120 headphone body
  • 120L left-side headphone body
  • 120R right-side headphone body
  • 121 digital filter portion
  • 122 D/A converter
  • 123 amplifier circuit
  • 130 speaker array
  • 131 speaker unit
  • 140L, 140R closed curved surface
  • 150 ear pad
  • 150 a circular end portion
  • 160 sound pressure signal output portion

Claims

1-4. (canceled)

5. A mounting type device comprising: a speaker array formed of a plurality of speaker units arranged to surround an auricle,wherein the speaker array is capable of reproducing a sound field inside a closed curved surface which is substantially parallel with the auricle surface in the vicinity of the auricle using a wave field synthesis.

6. The mounting type device according to claim 5, wherein the speaker array has a closed space in the normal direction with respect to the auricle surface and is formed of the plurality of the speaker units which are arranged to surround the auricle.

7. The mounting type device according to claim 6, wherein the plurality of the speaker units of the speaker array are provided to surround a peripheral edge of the closed curved surface that is a reproduction surface of the sound field.

8. The mounting type device according to claim 7, wherein the plurality of the speaker units of the speaker array are arranged such that a propagation velocity of particles in all directions of up and down, and left and right is able to be reproduced.

9. The mounting type device according to claim 8, wherein the plurality of the speaker units of the speaker array are arranged to be inclined inwardly towards the closed curved surface.

10. The mounting type device according to claim 9, further comprising: a donut-shaped ear pad having an opening portion in which the auricle is able to be inserted, andwherein the plurality of the speaker units of the speaker array are arranged along a circular end portion which is opposite to an abutting side of a listener of the ear pad.

11. The mounting type device according to claim 6, wherein the plurality of the speaker units of the speaker array are arranged having a distance in which a frequency band up to a reproduction maximum frequency is able to be reproduced without receiving the influence of the spatial aliasing.

12. The mounting type device according to claim 11, wherein a distance Δd [m] of the plurality of the speaker units of the speaker array satisfies the following formula, when the reproduction maximum frequency is fmax [Hz] and a sound velocity is c [m/s], Δd<c/(2·fmax).

13. The mounting type device according to claim 6, wherein the closed curved surface is a region having a diameter of 8 to 10 cm around the external auditory meatus when viewed from a side head portion.

14. The mounting type device according to claim 6, wherein the plurality of the speaker units of the speaker array are driven by a sound pressure signal for emitting the sound in a position corresponding to an arrangement position of each of the speaker units so that the sound field inside the closed curved surface is able to be reproduced.

15. The mounting type device according to claim 14, wherein the position corresponding to the arrangement position is a position which is less likely to receive the influence of the spatial aliasing.

16. The mounting type device according to claim 15, wherein the position corresponding to the arrangement position is a position in the inner side from the arrangement position of the speaker units.

17. A method for reproducing a sound field comprising: arranging a plurality of speaker units to surround an auricle,supplying a sound pressure signal corresponding to each of the speaker units to the plurality of the speaker units, andreproducing the sound field inside a closed curved surface which is substantially parallel with the auricle surface in the vicinity of the auricle using a wave field synthesis.

18. A sound pressure signal supplying device comprising: a sound pressure signal obtaining portion which obtains sound pressure signals corresponding to a plurality of speaker units arranged to surround an auricle, anda sound pressure signal supply portion which carries out a filter process in a plurality of the obtained sound pressure signals for controlling a region and/or for correcting characteristics of the speaker units, and then supplies the sound pressure signals to the plurality of the speaker units respectively.

19. The sound pressure signal supplying device according to claim 18, wherein the sound pressure signal supply portion carries out the filter process in the plurality of the sound pressure signals so that the sound emitted from each of speaker units is allowed to be a sound of a position in the inner side from the position of each of the speaker units.

20. A method for supplying a sound pressure signal comprising: obtaining a sound pressure signal corresponding to a plurality of speaker units arranged to surround an auricle, andcarrying out a filter process in a plurality of the obtained sound pressure signals for controlling a region and/or for correcting characteristics of the speaker units, and then supplying the sound pressure signals to the plurality of the speaker units respectively.

21. A program for causing a computer to execute a method for supplying a sound pressure signal including: obtaining sound pressure signals corresponding to a plurality of speaker units which are arranged to surround an auricle, andcarrying out a filter process in a plurality of the obtained sound pressure signals for controlling a region and/or for correcting characteristics of the speaker units, and then supplying the sound pressure signals to the plurality of the speaker units respectively.

22. A computer eadable recording medium which records a program for causing a computer to execute a method for supplying a sound pressure signal including: obtaining sound pressure signals corresponding to a plurality of speaker units which are arranged to surround an auricle, andcarrying out a filter process in a plurality of the obtained sound pressure signals for controlling a region and/or for correcting characteristics of the speaker units, and then supplying the sound pressure signals to the plurality of the speaker units respectively.

23. A sound system comprising: a speaker array which is formed of a plurality of speaker units arranged to surround an auricle,a sound pressure signal obtaining portion which obtains sound pressure signals corresponding to a plurality of the speaker units of the speaker array, anda sound pressure signal supply portion which carries out a filter process in a plurality of the obtained sound pressure signals for controlling a region and/or for correcting characteristics of the speaker units, and then supplies the sound pressure signals to the plurality of the speaker units respectively.