The present technology relates to an acoustic device and more specifically relates to an acoustic device that reduces influence of crosstalk components output from speakers that reproduce signals for right and left ears respectively.
There is a proposed stereophonic reproduction system (virtual surround-sound system) using speakers. This stereophonic reproduction system can virtually implement surround sounds with two speakers on right and left sides. Crosstalk cancellation is one of problems in implementing this stereophonic system.
Conventionally, crosstalk is canceled by signal processing, but there are problems that filter designing is difficult, an application area is limited, and furthermore, a calculation amount and a memory amount are expended. For such problems, it is conceivable to implement a system that is made unnecessary to perform crosstalk cancellation by the signal processing by installing an obstruction at a propagation path of a crosstalk component to physically prevent generation of crosstalk or attenuate the crosstalk component.
For example, Patent Document 1 discloses a technology in which a partition plate for crosstalk prevention is provided between right and left speakers installed at a ceiling surface. In this technology, the right and left speakers and the partition plate for crosstalk prevention are installed at the ceiling surface, there is a gap between a listener and the partition plate, and it is difficult to appropriately block a propagation path of a crosstalk component.
The present technology is directed to reducing influence of crosstalk components by appropriately blocking a propagation path of the crosstalk components output from speakers that reproduce signals for right and left ears respectively.
A concept of the present technology is
an acoustic device including a contact member used in contact with a back and/or a back of a head of a listener, in which the contact member is installed with:
a first speaker that reproduces at least one or more signals for a left ear and a second speaker that reproduces at least one or more signals of a right ear; and
a propagation obstruction adapted to block a propagation path of crosstalk components output from the first speaker and the second speaker.
The present technology includes the contact member used in contact with the back and/or the back of the head of the listener. In the contact member, the first speaker that reproduces a signal for the left ear and the second speaker that reproduces a signal for the right ear are installed, and the propagation obstruction is installed so as to block the propagation path of the crosstalk components output from the first speaker and the second speaker.
For example, the propagation obstruction may include a sound-absorbing material. In this case, since the crosstalk components output from the first speaker and the second speaker are absorbed by the propagation obstruction, the crosstalk components can be efficiently obstructed. Furthermore, for example, the propagation obstruction may include a shape fitting material. In this case, the propagation obstruction is deformed into a shape along the back or the back of the head of the listener or along the back portion of the neck from the back of the head to the back in accordance with a contact state while the back or the back of the head of the listener is in contact with the contact member, and therefore, it is possible to efficiently obstruct the crosstalk components output from the first speaker and the second speaker.
For example, the contact member may include one member, and the first speaker, the second speaker, and the propagation obstruction may be installed at the one member. In this case, for example, the one member may include a seat or a headrest. Furthermore, for example, the contact member is formed by connecting two members, and the first speaker and the second speaker are installed at one of the two members, and the propagation obstruction is installed at the other member of the two members. In this case, for example, the two members may include a seat and a headrest.
Thus, in the present technology, the first speaker that reproduces a signal for the left ear and the second speaker that reproduces a signal for the right ear are installed at the contact member used in contact with the back and/or the back of the head of the listener, and the propagation obstruction is installed so as to block the propagation path of the crosstalk components output from the speakers. Therefore, since the present technology is used in a state without having a gap between the listener and the propagation obstruction, influence of the crosstalk components can be reduced by appropriately blocking the propagation path of the crosstalk components output from the respective speakers.
Note that, in the present technology, the propagation obstruction may be installed at the contact member in a manner such that a position of the propagation obstruction can be adjusted, for example. In this case, for example, the position of the propagation obstruction may be adjustable at least in a first direction along the contact member, a second direction substantially perpendicular to the first direction, or a third direction connecting the first speaker and the second speaker. Thus, since the propagation obstruction is installed at the contact member in a manner such that the position thereof can be adjusted, the position of the propagation obstruction can be adjusted in accordance with a contact position of the back or the back of the head of the listener with respect to the contact member, and the propagation path of the crosstalk components output from the respective speakers can be appropriately blocked.
Furthermore, for example, the propagation obstruction may be detachably installed at the contact member in the present technology. With this configuration, replacement work can be easily performed in a case where the propagation obstruction becomes dirty or the like. Note that the propagation obstruction may have a shape separate from the contact member or a shape integrated therewith.
According to the present technology, it is possible to reduce the influence of the crosstalk components by appropriately blocking the propagation path of the crosstalk components output from the speakers that reproduce signals for the right and left ears respectively. Note that the effects recited herein are not constantly limited and may be any one of the effects recited in the present disclosure.
Hereinafter, modes for carrying out the invention (hereinafter referred to as an “embodiment”) will be described. Note that the description will be provided in the following order.
1. Embodiment
2. Modified Examples
[Acoustic Device]
Furthermore, speakers 131L and 131R are installed at an upper portion of the backrest portion 112 of the seat 110 and on both sides of the headrest 120 while setting the attachment position of the headrest as a center. Here, the speakers 131L and 131R constitute a stereophonic reproduction system (virtual surround-sound system), the speaker 131L is a speaker that reproduces a signal for the left ear, and the speaker 131R is a speaker that reproduces a signal for the right ear. Note that, in this example, an example including one speaker that reproduces a signal for the left ear and one speaker that reproduces a signal for the right ear respectively are illustrated, but a plurality of speakers may be installed as for each of the speakers.
A signal for the left ear is supplied to the speaker 131L from a signal processing device (not illustrated) constituting the stereophonic reproduction system (virtual surround-sound system) and reproduced, and a sound (sound wave) corresponding to the signal for the left ear is output from the speaker 131L. Furthermore, a signal for the right ear is supplied to the speaker 131R from the signal processing device and reproduced, and a sound (sound wave) corresponding to the signal for the right ear is output from the speaker 131R.
In the stereophonic image processing unit 302, virtual sound image localization processing is applied to the audio signals of the respective channels to generate a signal for the left ear and a signal for the right ear. The signal for the left ear obtained at the stereophonic image processing unit 302 is amplified at the amplifier 303 and supplied to the speaker 131L. Furthermore, the signal for the right ear obtained at the stereophonic image processing unit 302 is amplified at the amplifier 303 and supplied to the speaker 131R.
Returning to
Note that, as for the direction in which the position can be adjusted, it is also conceivable that the position can be adjusted not only in the first direction but also in a horizontal direction substantially perpendicular to the first direction, a so-called front-rear direction (second direction) with respect to the seat (or the listener) as indicated by the arrows in
For example, to adjust the position of the propagation obstruction 140 in the two-axial directions including the vertical direction and the horizontal direction described above, the position can be appropriately adjusted in the first to third directions by applying: a known technology using a slider structure capable of two-axial movement/fixation in order to fix, for example, a camera to a tripod; or a known technology capable of two-axial movement/fixation by connecting a tip of a vertically-extendable pole to a pole whose position is adjustable in a crosswise direction. Besides, known technologies such as Velcro, a belt, a fastener, and a button can also be used to make the position of the propagation obstruction 140 adjustable in the first to third directions. In addition, of course, it is also possible to achieve the position adjustment by using a structure that performs movement, rotation, and revolving in triaxial directions. Since a mechanism/structure capable of performing adjustment in the triaxial directions referred to herein is a known technology, a description thereof will be omitted.
The propagation obstruction 140 includes, for example, a sound-absorbing material such as glass wool and Thinsulate. Since the sound-absorbing material is thus included, the crosstalk components output from the speakers 131L and 131R are absorbed by the propagation obstruction 140, and therefore, the crosstalk components can be efficiently obstructed.
Furthermore, the propagation obstruction 140 includes, for example, a low resilience material such as urethane, or a shape fitting material such as beads. Since the shape fitting material is thus included, as illustrated in
As described above, in the acoustic device 100 illustrated in
Therefore, since the acoustic device is used in a state without having as gap between the listener and the propagation obstruction 140 (see
Note that, among sound waves output from the speakers, what significantly involves the sound image localization is a high-frequency component, and the high-frequency component has a high rectilinear propagation property. Therefore, as an installation position of the propagation obstruction 140, it is also possible to select, instead of the shortest path, a path having a high rectilinear propagation property out of propagation paths of crosstalk.
In the above-described embodiment, note that the example of installing the speakers 131L and 131R at the backrest portion 112 of the seat 110 and installing the propagation obstruction 140 at the headrest 120 has been described as illustrated in
Furthermore, as illustrated in
Note that
Furthermore, in the above-described embodiment, the configuration in which the acoustic device 100 is built inside a vehicle has been described, but a technology similar to the acoustic device 100 is applicable to a sound system in a house, an accommodation facility, or further in an amusement park, a game center, or the like.
Furthermore, in the above-described embodiment, the example of installing the speakers 131L, 131R and the propagation obstruction 140 at the backrest 112 of the seat 110 and the headrest 120 has been described, but it is also conceivable to similarly install these components at a contact member such as a bed, a sofa, or a rucksack used in contact with the back and/or the back of the head of the listener, for example.
Furthermore, in the above-described embodiment, the example in which the propagation obstruction 140 is installed at the backrest portion 112 of the seat 110 or the headrest 120, and has a shape separated from these components has been illustrated. However, it is also conceivable to have a configuration in which the propagation obstruction has a shape integrated with the contact member.
Furthermore, the present technology can adopt following configurations as well.
(1) An acoustic device including a contact member used in contact with a back and/or a back of a head of a listener, in which
the contact member is installed with:
a first speaker that reproduces at least one or more signals for a left ear and a second speaker that reproduces at least one or more signals of a right ear; and
a propagation obstruction adapted to block a propagation path of crosstalk components output from the first speaker and the second speaker.
(2) The acoustic device recited in (1) above, in which
the contact member includes one member, and
the first speaker, the second speaker, and the propagation obstruction are installed at the one member.
(3) The acoustic device recited in (2) above, in which
the one member includes a seat or a headrest.
(4) The acoustic device recited in (1) above, in which
the contact member is formed by connecting two members, and
the first speaker and the second speaker are installed at one of the two members, and the propagation obstruction is installed at the other member of the two members.
(5) The acoustic device recited in (4) above, in which
the two members include the seat and the headrest.
(6) The acoustic device recited in any one of (1) to (5) above, in which
the propagation obstruction is installed at the contact member in a manner such that a position of the propagation obstruction can be adjusted.
(7) The acoustic device recited in (6) above, in which
the position of the propagation obstruction can be adjusted at least in a first direction along the contact member, a second direction substantially perpendicular to the first direction, or a third direction connecting the first speaker and the second speaker.
(8) The acoustic device recited in any one of (1) to (7) above, in which
the propagation obstruction is detachably installed at the contact member.
(9) The acoustic device recited in any one of (1) to (8) above, in which
the propagation obstruction includes a sound-absorbing material.
(10) The acoustic device recited in any one of (1) to (9) above, in which
the propagation obstruction includes a shape fitting material.
(11) The acoustic device recited in any one of (1) to (10) above, in which
the propagation obstruction has a shape integrated with the contact member.
Number | Date | Country | Kind |
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2017-244549 | Dec 2017 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2018/045377 | 12/10/2018 | WO | 00 |