JP4029776B2 - Audiovisual playback device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a video / audio reproduction device, typically a video / audio reproduction device used in a passenger compartment.
[0002]
[Prior art]
FIG. 11 shows a multi-channel audio including a video signal, a front center signal, a front left signal, a front right signal, a side left signal, and a side right signal in the passenger compartment 1 using a conventional video / audio reproduction device. It is a figure explaining the case where a signal is reproduced | regenerated. In the passenger compartment 1, two viewers 2L and 2R are positioned side by side, and display means 3 for displaying a video signal is disposed in front of the middle between the viewers 2L and 2R. Further, around the viewers 2L and 2R, a front center speaker 4C, a front left speaker 4L, a front right speaker 4R, a side left speaker 4SL, and a side right speaker 4SR are arranged in respective directions. In many cases, these speakers are attached to the dashboard of the passenger compartment 1 or the doors close to the left and right viewers 2L and 2R, etc., so that the arrangement is asymmetrical for each of the viewers 2L and 2R. The resulting sound field is also offset. As a result, there is a problem that each of the viewers 2L and 2R cannot obtain a balanced multi-channel sound field.
[0003]
FIG. 12 is a diagram for explaining a case where another conventional video / audio reproduction device is used. In the passenger compartment 1, the viewers 2L and 2R are positioned side by side, and display means 3L and 3R for displaying video signals are arranged in front of each. In many cases, these display means are provided on the back side of the seat located in front of the seat on which the viewer sits or the headrest of the seat. Further, speaker means 5L and 5R including a front left speaker 51 and a front right speaker 52 are installed in front of the viewer in the vicinity of the display means 3L and 3R, respectively. On the other hand, instead of installing the front center speaker, the side left speaker, and the side right speaker, virtual localization processing means is provided. For example, the viewer 2L has a virtual front center speaker 50a, a virtual side left speaker 53a, and a virtual side. The right speaker 54a may be localized to obtain a multi-channel sound field. However, in the case where the virtual localization process is used in the passenger compartment 1, as a bad effect due to the narrowness of the passenger compartment, there is a problem that a sound field with a good balance cannot be obtained due to the reflecting surface of the glass window or the like, or the seat is located in the adjacent seat. There is an adverse effect such as the occurrence of crosstalk to the viewer 2R.
[0004]
In addition, conventionally, two small speakers are arranged in the vicinity of the left and right pinna of the viewer, and a multi-channel audio signal that has been signal-processed so that it can be heard in the same manner as when played with a normal multi-channel speaker arrangement is used. There is a method of reproducing with these speakers (see Patent Document 1).
[0005]
[Patent Document 1]
JP 2002-291100 A (FIG. 1)
[0006]
However, when the video signal is reproduced on the display means in the passenger compartment and the multi-channel audio signal is reproduced by the above method, the sense of direction obtained from the video displayed on the display means arranged in front of the viewer. In addition, there is a problem in that a sense of distance, a sense of direction of a multi-channel sound field, and a sense of distance occur, resulting in a playback state that is uncomfortable for the viewer. FIG. 13 is a diagram for explaining this problem. It is difficult to obtain virtual localizations 103 and 104 with a sufficient sense of distance from the viewer, and a sufficient sense of distance cannot be obtained if speaker placement and signal processing are not appropriate including the influence of the passenger compartment. . In particular, the front center signal, the front left signal, and the front right signal have a problem that the sound image is localized in the viewer's head or in a close position (center 100, left 101, right 102). There is a difference between the sense of distance and the sense of distance of the multi-channel audio signal, leaving a sense of discomfort.
[0007]
[Problems to be solved by the invention]
The present invention has been made to solve the above-described problems of the prior art, and its purpose is to reproduce a video signal and a multi-channel audio signal, typically in a space such as a passenger compartment. In this case, each viewer can easily match the sense of direction and distance of video and multi-channel audio, and there are few adverse effects due to the narrowness of the passenger compartment. It is an object of the present invention to provide a video / audio reproduction device capable of obtaining a good video image and a multi-channel sound field even in the case where they are positioned side by side.
[0008]
[Means for Solving the Problems]
In order to solve the above problems, the present invention takes the following technical means.
[0009]
  According to the present invention, the video / audio reproduction device of the present invention reproduces a video signal and a multi-channel audio signal including a front center signal, a front left signal, a front right signal, a side left signal, and a side right signal. An audio / video reproduction apparatus, comprising: display means arranged in front of a viewer; first speaker means including at least one speaker arranged in proximity to the display means; and the vicinity of left and right ears of the viewer And a second speaker means including an auxiliary left speaker and an auxiliary right speaker, and a signal processing means for receiving a multi-channel audio signal and performing signal processing. The signal processing means includes a front center signal, a front left signal, and a front side. A first signal processing unit that receives the right signal, performs signal processing, and outputs the signal processed signal to the first speaker means; a front left signal and a front right signal; A second signal processing unit that receives the left and right side signals and the right side signal, performs signal processing, and outputs the processed signal to the second speaker means;,WithThe first signal processing unit of the signal processing means includes a first level adjustment unit that adjusts the signal level of the front left signal and the front right signal, and a first addition unit that adds the level-adjusted signal and the front center signal. The second signal processing unit of the signal processing means uses the output signal of the first adding unit as the output of the first signal processing unit, the second level adjusting unit for adjusting the signal level of the front left signal and the front right signal, and the level A second adder that adds the adjusted signal, the left side signal, and the right side signal; and a virtual localization processor that performs a virtual localization process on the output signal of the second adder, and outputs an output signal of the virtual localization processor The output of the second signal processing unit.
[0011]
Furthermore, in a preferred embodiment, in the audiovisual reproduction apparatus of the present invention, the first speaker means includes a plurality of speakers arranged to control directivity characteristics, and the first signal processing unit of the signal processing means includes: A directional characteristic control unit that receives the output signal of the first addition unit and performs signal processing for controlling the directional characteristic of the first speaker means is used, and the output signal of the directional characteristic control unit is used as the output of the first signal processing unit.
[0012]
Furthermore, in a preferred embodiment, in the video / audio reproduction device of the present invention, the first speaker means includes a left speaker, a center speaker, and a right speaker arranged to control directivity, and the first signal processing unit includes: A directivity control unit filters the output signal of the first addition unit to output to the central speaker, and filters the output signal of the first addition unit to the left speaker and the right speaker. The filter characteristics of the first filter processing unit and the second filter processing unit are determined based on the arrangement of the left speaker, the center speaker, and the right speaker.
[0013]
In another preferred embodiment, the video / audio reproduction device of the present invention includes a delay processing unit in at least one of the first signal processing unit and the second signal processing unit of the signal processing unit, and the front left signal or the front right signal is transmitted. The time to be played back to the viewer through the first signal processing unit and the first speaker means, and the front left signal or the front right signal is played back to the viewer through the second signal processing unit and the second speaker means. The time difference from the time is taken as the delay time of the delay processing means.
[0014]
The operation of the present invention will be described below.
[0015]
The video / audio reproduction device of the present invention is disposed in the vicinity of the viewer's left and right ears, a display unit disposed in front of the viewer and displaying a video signal, a first speaker unit disposed in proximity to the display unit. Second speaker means including an auxiliary left speaker and an auxiliary right speaker, and signal processing means for receiving and processing a multi-channel audio signal. The signal processing means receives a front center signal, a front left signal, and a front right signal among multi-channel audio signals, performs signal processing, and outputs the signal processed signal to the first speaker means; A second signal processing unit that receives the front left signal, the front right signal, the side left signal, and the side right signal, performs signal processing, and outputs the processed signal to the second speaker means.
[0016]
  First signal processorIncludes a first level adjuster for adjusting the signal level of the front left signal and the front right signal, and the level-adjusted and front center signal.TheA first adder for adding is provided, and an output signal of the first adder is used as an output of the first signal processor. Further, the second signal processing unit adds a second level adjusting unit that adjusts the signal level of the front left signal and the front right signal, and a second addition that adds the level-adjusted signal, the side left signal, and the side right signal. And a virtual localization processing unit that performs virtual localization processing on the output signal of the second addition unit, and the output signal of the virtual localization processing unit is used as the output of the second signal processing unit.
[0017]
Therefore, in the audiovisual reproduction apparatus of the present invention, the front center signal reproduced from the first speaker means arranged close to the display means coincides with the video displayed on the display means in a sense of direction and distance. Therefore, it is possible to easily realize an image and a multi-channel sound field that are comfortable for the viewer. Further, the front left signal and the front right signal are reproduced from the first speaker means and acoustically synthesized by being processed by the virtual localization processing section of the second signal processing section and reproduced from the second speaker means. Then, the sound image is localized with a sense of direction and a sense of distance in the front left direction and the front right direction of the viewer. In addition, the lateral left signal and the lateral right signal are subjected to signal processing by the virtual localization processing unit and reproduced from the second speaker means, thereby sound image localization with a sense of distance toward the viewer's side. As a result, it is possible to obtain a good image and a multi-channel sound field in which the sense of direction and the sense of distance match.
[0018]
Furthermore, in the video / audio reproduction device of the present invention, the first speaker means includes a plurality of speakers arranged to control the directivity, and the first signal processing unit of the signal processing means is the first speaker means. A directional characteristic control unit that performs signal processing for controlling the directional characteristic is provided. Specifically, the first speaker means includes a left speaker, a center speaker, and a right speaker, and the directivity control unit filters the output signal of the first addition unit to output to the center speaker. A processing unit, and a second filter processing unit that filters the output signal of the first addition unit to output to the left speaker and the right speaker. The filter characteristics of the first filter processing unit and the second filter processing unit are , And the arrangement of the left speaker, the center speaker, and the right speaker, and the directivity to be designed.
[0019]
Therefore, in the video / audio reproduction device of the present invention, the first speaker means arranged close to the display means has the controlled directivity, so that the sound reproduction is strongly performed for the viewer located in front of the display means. At the same time, the sound reproduction to the side of the first speaker means can be weakened. As a result, there is a problem that a well-balanced multi-channel sound field cannot be produced due to adverse effects caused by the narrowness of the passenger compartment, such as reflection from the glass window of the passenger compartment and the occurrence of crosstalk to viewers located immediately next to it. Can be reduced. That is, the viewer can obtain a good image and a multi-channel sound field according to the present invention even in a narrow passenger compartment.
[0020]
Furthermore, in the video / audio reproduction device of the present invention, at least one of the first signal processing unit and the second signal processing unit of the signal processing unit includes a delay processing unit, and the front left signal or the front right signal is the first signal processing unit. And a time difference between the time that is reproduced to the viewer via the first speaker means and the time that the front left signal or right signal is reproduced to the viewer via the second signal processing unit and the second speaker means. Delay time. That is, since the distance from the viewer is different between the first speaker means close to the display means and the second speaker means disposed near the left and right ears of the viewer, in the present invention, by the delay processing means, The reproduction times of the respective channels of the multichannel audio signal can be made to coincide with each other including the delay time associated with the signal processing in the first signal processing unit and the second signal processing unit. Therefore, the viewer can obtain a good video and a multi-channel sound field in which the sense of direction and the sense of distance are the same.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, although the audiovisual reproduction apparatus by preferable embodiment of this invention is demonstrated, this invention is not limited to these embodiment.
[0022]
FIG. 1 is a diagram for explaining a video / audio reproduction device according to a preferred embodiment of the present invention. The video / audio reproduction device of the present invention is installed to provide video and a multi-channel sound field to viewers 2L and 2R located side by side in the passenger compartment 1. Video signals and multi-channel audio signals reproduced by a reproducing means such as a DVD player are input to the video / audio reproduction device. The video / audio reproduction device includes display means 3L and 3R, first speaker means 7L and 7R including at least one speaker arranged in proximity to the display means, and left and right ears of viewers 2L and 2R, respectively. Second speaker means 8L and 8R including an auxiliary left speaker 81 and an auxiliary right speaker 82 arranged in the vicinity, and signal processing means 10 for receiving a multichannel audio signal and performing signal processing are provided. In FIG. 1, the reproducing means and the signal processing means 10 are not shown, and the reproducing means is not limited to the DVD player. In addition, the video / audio reproduction device of the present invention may be provided with a pair of display means, first speaker means, and second speaker means for one viewer, and one or more signal processing means 10 are provided. It only has to be. Of course, the use is not limited to the case of two people shown in FIG. 1, and the case of one person or three or more persons may be used.
[0023]
Specifically, the display means 3L and 3R on which a video signal is input and video is displayed are arranged in front of the seat on which the viewers 2L and 2R in the passenger compartment 1 sit, and are displayed on the dashboard, front seat, or front. Provided on the back side of the seat headrest. Accordingly, each viewer can provide a distance suitable for visual recognition between the viewer and the display means. This distance is set between 0.3 and 2.0 m in accordance with the distance between the seats and the screen size of the display means. Further, the first speaker means 7L and 7R according to the present invention are provided on the back side of the dashboard, the front seat or the headrest headrest portion in the same manner as the display means, and are close to the display means 3L and 3R, respectively. Therefore, a distance equivalent to the above is also provided between the viewer and the front center speaker 70 of the first speaker means. On the other hand, the second speaker means 8L and 8R of the present invention are provided on the back surface portion or the headrest portion of the seat on which the viewers 2L and 2R sit. Therefore, the viewer's left and right ears and the auxiliary left speaker 81 and auxiliary right speaker 82 of the second speaker means 8 are located close to each other, and the distance is 5 to 50 cm, preferably 5 to 20 cm.
[0024]
FIG. 2 is a diagram for explaining the signal processing means 10 of the video / audio reproduction device of the present invention. A multi-channel audio signal including a front center signal C, a front left signal L, a front right signal R, a side left signal LS, and a side right signal RS is input to the signal processing means 10 by a reproducing means. The signal processing means 10 includes a first signal processing unit 11 and a second signal processing unit 21. The first signal processing unit 11 receives the front center signal C, the front left signal L, and the front right signal R, performs signal processing, and outputs the signal processed signal from the output terminal 30 to the first speaker means 7L and 7R. The second signal processing unit 21 receives the front left signal L, the front right signal R, the side left signal LS, and the side right signal RS, performs signal processing, and outputs the processed signal from the output terminals 41 and 42 to the second speaker. Output to means 8L and 8R.
[0025]
The first signal processing unit 11 includes a first level adjustment unit 12 that adjusts the signal levels of the front left signal L and the front right signal R, and a first addition unit 13 that adds the level-adjusted signal and the front center signal C. And the output signal of the first adder 13 is used as the output of the first signal processor 11. In the first level adjustment unit 12, the front left signal L and the front right signal R are multiplied by a coefficient k1 by a multiplier, and the output signal of the first addition unit 13 is C + k1 * (L + R). The coefficient k1 is preferably selected in the range of 0 to 1.
[0026]
The second signal processing unit 21 further includes a second level adjusting unit 22 that adjusts the signal levels of the front left signal L and the front right signal R, and the level-adjusted signal, the side left signal LS, and the side right signal RS. And a virtual localization processing unit 24 for performing a virtual localization process on the output signal of the second addition unit 23, and the output signal of the virtual localization processing unit 24 is used as the output of the second signal processing unit 21. . In the second level adjusting unit 22, the front left signal L and the front right signal R are respectively multiplied by a coefficient k2 by a multiplier, and further added to the side left signal LS and the side right signal RS, respectively. The output signals LS + k2 * L and RS + k2 * R of the adding unit 23 are input to the virtual localization processing unit 24. The coefficient k2 is preferably selected in the range of 0 to 1.
[0027]
FIG. 3 is a diagram illustrating the virtual localization processing unit 24 of the second signal processing unit 21 described above. In the virtual localization processing unit 24, a lattice type filter is configured. That is, the input output signal LS + k2 * L of the second adder 23 is branched and input to the filters 24a and 24b, and RS + k2 * R is branched and input to the filters 24c and 24d, and the output of the filter 24a and the filter The output of 24d is added by the adder 24e to obtain an output Lv, and the output of the filter 24b and the output of the filter 24c are added by the adder 24f to obtain an output Rv. Filters 24a, 24b, 24c, and 24d are the positional relationship between the left and right ears of the viewer 2, the auxiliary left speaker 81 and the auxiliary right speaker 82 of the second speaker means 8, and the virtual side left speaker 103 that is virtually localized and It is determined by the positional relationship of the virtual side right speaker 104.
[0028]
FIG. 4 is a diagram for explaining a transfer function determined by these positional relationships. Since the auxiliary left speaker 81 and the auxiliary right speaker 82 are disposed in close proximity to the left and right ears of the viewer 2, the auxiliary left speaker 81 extends from the auxiliary left speaker 81 to the right ear of the viewer 2 and from the auxiliary right speaker 82 to the left of the viewer 2. There is almost no crosstalk to the ear. When the auxiliary left speaker 81 and the auxiliary right speaker 82, and the virtual side left speaker 103 and the virtual side right speaker 104 are symmetrical with respect to the viewer 2, the HLL is viewed from the auxiliary left speaker 81. Transfer function from the auxiliary right speaker 82 to the right ear of the viewer 2, HvLL from the virtual side left speaker 103 to the left ear of the viewer 2, HvLR Transfer function from the virtual side left speaker 103 to the right ear of the viewer 2, HvRR from the virtual side right speaker 104 to the right ear of the viewer 2, HvRL from the virtual side right speaker 104 to the viewer 2 Are transfer functions to the right ear, HLL = HRR, HvLL = HvRR, and HvLR = HvRL. Here, if H0 = HLL = HRR, Hv0 = HvLL = HvRR, and Hv1 = HvLR = HvRL, the transfer functions of the filters 24a and 24b that perform virtual localization processing are Hv0 / H0 and Hv1 / H0, respectively. It is equal to the filter 24d and the filter 24c. These filters are preferably constituted by FIR filters. Thus, the output signals Lv and Rv of the virtual localization processing means 24 virtually processed by the lattice filter are used as outputs of the second signal processing unit 21, respectively.
[0029]
Therefore, in the video / audio reproduction device of the present invention, the output signal C + k1 * (L + R) added by the first addition unit 13 is reproduced from the first speaker means 7L provided in front of the viewer 2L, and the second From the speaker means 8L, the output signals LS + k2 * L and RS + k2 * R of the second adder 23 subjected to the virtual localization process are reproduced. As a result, in addition to the front center speaker 70, a virtual front left speaker 101, a virtual front right speaker 102, a virtual side left speaker 103, and a virtual side right speaker 104 can be generated as shown in FIG. The multi-channel sound field provided to the viewer 2L can have a suitable sense of direction and distance around the viewer 2L.
[0030]
That is, the front center signal C is reproduced from the front center speaker 70 of the first speaker means 7L disposed in the vicinity of the display means 3L. Since the image displayed on the display means 3L and the sound image obtained from the front center signal C to be localized are coincident in the sense of direction and the sense of distance, a multi-channel sound field that does not feel strange to the viewer is easily realized. be able to.
[0031]
Further, the front left signal L and the front right signal R are reproduced from the first speaker means 7L, and are subjected to signal processing by the virtual localization processing section 24 of the second signal processing section 21 and reproduced from the second speaker means 8L. As a result, the virtual front left speaker 101 and the virtual front right speaker 102 can be well localized with a sense of direction and a sense of distance in the front left direction and the front right direction of the viewer 2L. The virtual front left speaker 101 and the virtual front right speaker 102 can adjust their virtual home positions by adjusting the values of the coefficients k1 and k2, and the sound images are localized in the viewer's 2L head or in a close position. Does not cause any problems.
[0032]
Further, the side left signal LS and the side right signal RS are processed by the virtual localization processing unit 24 of the second signal processing unit 21 and reproduced from the second speaker means 8L, whereby the virtual side left speaker 103 is obtained. In addition, the virtual lateral right speaker 104 can be well localized with a sense of direction and a sense of distance in the lateral left direction and lateral right direction of the viewer 2L, and the left-right balance due to the influence of the vehicle compartment 1 is different. There is no problem.
[0033]
In addition, in the video / audio reproduction device of the present invention, the second speaker means 8L and 8R are provided in the headrest portions of the seats of the viewers 2L and 2R, respectively, and thus hardly affect the viewers of other seats. . Therefore, it is possible to provide an appropriate multi-channel sound field that does not give a sense of incongruity to each of the two viewers 2L and 2R arranged side by side as shown in FIG. Of course, the same applies to the case of three or more viewers.
[0034]
The display means 3 may be of any other type as long as it receives a video signal such as a liquid crystal display (LCD) and displays the video. The signal processing means 10 may be realized by a digital signal processor (DSP), and may be constituted by other circuits that satisfy the respective filter characteristics of the virtual localization processing means 10. The virtual localization processing means 10 is not limited to the lattice type filter, and may be another type of filter such as a shuffler type filter. In the above embodiment, one signal processing means 10 is used for a plurality of viewers 2L and 2R, but a plurality of signal processing means 10 may be provided. Furthermore, the output of the signal processing means 10 may be connected to the first speaker means 7 and the second speaker means 8 via an amplifier in order to obtain the necessary power amplification.
[0035]
FIG. 5 is a diagram for explaining a video / audio reproduction device according to another preferred embodiment of the present invention. In the video / audio reproduction device of the present invention, the first speaker means 7L and 7R arranged in the vicinity of the display means 3L and 3R further include a plurality of speakers arranged to control the directivity, and the signal processing The first signal processing unit 11 of the means 10 includes a directivity control unit 14 that performs signal processing for controlling the directivity of the first speaker means 7. Specifically, the first speaker means 7L and 7R include a center speaker 70, a left speaker 71, and a right speaker 72, respectively. Preferably, the left speaker 71 and the right speaker 72 are disposed substantially horizontally and symmetrically with respect to the central speaker 70.
[0036]
FIG. 6 is a diagram for explaining the signal processing means 10 of the video / audio reproduction device. The first signal processing unit 11 of the signal processing means 10 further includes a directivity characteristic control unit 14, and uses the output signal of the first addition unit 13 as an input signal of the directivity characteristic control unit 14, and the output terminal 30 of the directivity characteristic control unit 14. And the output signals from 31 and 32 are output from the first signal processing unit 11.
[0037]
FIG. 7A is a diagram illustrating the directivity control unit 14 of the first signal processing unit 11 of the signal processing means 10. The directivity control unit 14 includes a first filter processing unit 14a and a second filter processing unit 14b. The output signal of the first addition unit 13 is branched and one is input to the first filter processing unit 14a. Is input to the second filter processing unit 14b. The output of the first filter processing unit 14a is output from the output terminal 30 and input to the central speaker 70 of the first speaker means. The output of the second filter processing unit 14b is branched, outputted from the output terminals 31 and 32, respectively, and inputted to the left speaker 71 and the right speaker 72 of the first speaker means. The filter characteristics of the first filter processing unit 14a and the second filter processing unit 14b are determined based on the arrangement of the central speaker 70, the left speaker 71, and the right speaker 72, and the directivity to be designed. The first filter processing unit 14a and the second filter processing unit 14b are preferably configured by FIR filters.
[0038]
FIG. 7B is a diagram illustrating another embodiment of the directivity control unit 14. As described above, the first filter processing unit 14a of the directivity control unit 14 may be configured by the IIR filter 14c, and the second filter processing unit 14b may be configured by the phase inverter 14d, the IIR filter 14e, and the delay processing unit 14f. The delay time of the delay processing means 14f is designed to be approximately equal to the group delay time difference between the first filter processing unit 14a and the second filter processing unit 14b in the case of FIG. FIG. 7C is a diagram for explaining another embodiment of the directivity control unit 14. A delay processing unit 14g can be further added to the directivity control unit 14 in the case of FIG. 7B, and a signal having a delay time different from the delay time of the delay processing unit 14f can be output. Thereby, for example, when the left speaker 71 and the right speaker 72 are not arranged symmetrically with respect to the center speaker 70, or the reflection at the glass window of the passenger compartment 1 close to the first speaker means 7 is canceled. It is possible to deal with the case, and finer directivity control is possible.
[0039]
FIG. 8 is a diagram for explaining control of directivity characteristics in the first speaker means 7L. The sound wave emitted from the central speaker 70 through the first filter processing unit 14a of the directivity control unit 14 is canceled by the sound wave emitted from the left speaker 71 and the right speaker 72 through the second filter processing unit 14b. The directivity characteristic that the level in the front direction of the first speaker means 7L is strong and the level in the direction other than the front is weak is realized. The solid line (a) in FIG. 8 represents the directivity characteristic of the first speaker means 7L, and the broken line (b) represents the omnidirectional characteristic for comparison. In the audiovisual reproduction apparatus of the present invention, the viewer 2L positioned in front of the first speaker means 7L can perform strong sound reproduction and can weaken sound reproduction in directions other than the front. As a result, it is possible to reduce adverse effects caused by the narrowness of the passenger compartment 1 such as reflection from a glass window or the like of the passenger compartment 1 and occurrence of crosstalk to the viewer 2 </ b> R located immediately adjacent thereto. That is, the viewers 2L and 2R can obtain a better video and multi-channel sound field according to the present invention even in the narrow passenger compartment 1.
[0040]
The first speaker means 7 only needs to be provided with a plurality of speakers capable of controlling the directivity, and is not limited to the case of three speakers arranged substantially horizontally. The first speaker means 7 may be provided with a plurality of speakers substantially vertically in order to control the directivity characteristics in the vertical direction. Further, the configuration of the directivity control unit 14 of the first signal processing unit 11 of the signal processing unit 10 can take other appropriate embodiments according to the configuration of the first speaker unit 7.
[0041]
FIG. 9 is a diagram for explaining the signal processing means 10 of the audiovisual reproduction apparatus according to another preferred embodiment of the present invention. In the signal processing means 10, the second signal processing unit 21 further includes delay processing means 25a and 25b. The delay processing means 25 a and 25 b use the output of the virtual localization processing unit 24 as an input signal and the output signals of the delay processing means 25 a and 25 b as outputs from the output terminals 41 and 42 of the signal processing means 10. The delay times of the delay processing means 25a and 25b are the time when the front left signal L or the front right signal R is reproduced to the viewer 2L via the first signal processing unit 11 and the first speaker means 7L, and the front left signal L or The right signal R is set equal to the time difference from the time when the right signal R is reproduced to the viewer 2L via the second signal processing unit 21 and the second speaker means 8L.
[0042]
That is, in the embodiment of the present invention, the distance between the viewer 2L and the second speaker means 8L disposed near the left and right ears is larger than the distance between the viewer 2L and the first speaker means 7L close to the display means 3L. Therefore, by providing the delay processing means 25a and 25b in the second signal processing unit 21, it is possible to match the reproduction times of the respective channels of the multichannel audio signal. Therefore, for the viewer 2L, before the front left signal L and the front right signal R of the multi-channel audio signals arrive from the first speaker means 7L, they will arrive early from the second speaker means 8L having a short distance. In addition, it is possible to obtain a good image and a multi-channel sound field in which the sense of direction and the sense of distance coincide with each other.
[0043]
The delay processing means is not limited to the case where the second signal processing unit 21 is provided as in the above embodiment. The delay processing means may be provided with at least one of the first signal processing unit 11 and the second signal processing unit 21. FIG. 10 is a diagram for explaining the signal processing means 10 of the video / audio reproduction device according to another preferred embodiment of the present invention. In the signal processing unit 10, the first signal processing unit 11 includes a delay processing unit 15. When the virtual localization processing unit 24 of the second signal processing unit 21 is configured by an FIR filter, a relatively long group delay time may be set in order to satisfy the inverse filter characteristics. Accordingly, by providing the delay processing means 15 and adjusting the delay time, the delay time due to the signal processing in the first signal processing unit 11 and the second signal processing unit 21 can be reduced together with the delay time due to the difference in the distance of the speakers. In addition, the reproduction times of the channels of the multichannel audio signal can be matched.
[0044]
As described in the above embodiment, the video and audio reproduction device of the present invention can provide a good video and a multi-channel sound field in which the sense of direction and the sense of distance coincide with each other in the passenger compartment. It is not limited to room use. You may use when reproducing | regenerating a video and multichannel audio | voice in space, such as a small room and a booth divided into small, and when reproducing | regenerating an individual video | video and multichannel audio | voice for many adjacent viewers.
[0045]
【The invention's effect】
The video / audio reproduction device according to the present invention allows the viewer to easily match the sense of direction and distance of video and multi-channel audio when reproducing the video signal and multi-channel audio signal to each viewer in the passenger compartment. Furthermore, there are few adverse effects caused by the narrowness of the passenger compartment, and a good video and multi-channel sound field can be obtained. In addition, the video / audio reproduction device of the present invention typically obtains a good video and multi-channel sound field even when two viewers such as a passenger compartment are located side by side. Can do.
[Brief description of the drawings]
FIG. 1 is a diagram for explaining a video / audio reproduction device according to a preferred embodiment of the present invention;
FIG. 2 is a diagram for explaining signal processing means of the video / audio reproduction device of the present invention;
FIG. 3 is a diagram illustrating a virtual localization processing unit of a second signal processing unit of the signal processing means of the present invention.
FIG. 4 is a diagram for explaining a transfer function determined by the positional relationship among the viewer's left and right ears, the second speaker means, and the virtual localization speaker.
FIG. 5 is a diagram illustrating a video / audio reproduction device according to another preferred embodiment of the present invention.
FIG. 6 is a diagram for explaining signal processing means of a video / audio reproduction device according to another preferred embodiment of the present invention;
FIG. 7A is a diagram illustrating a directivity control unit. (B), (c) is a figure explaining other embodiment of a directional characteristic control part.
FIG. 8 is a diagram for explaining control of directivity in the first speaker means of the present invention.
FIG. 9 is a diagram illustrating signal processing means of a video / audio reproduction device according to another preferred embodiment of the present invention.
FIG. 10 is a diagram for explaining signal processing means of a video / audio reproduction device according to another preferred embodiment of the present invention;
FIG. 11 is a diagram illustrating a case where a video signal and a multi-channel audio signal are reproduced using a conventional video / audio reproduction device.
FIG. 12 is a diagram illustrating a case where another conventional video / audio reproduction device is used.
FIG. 13 is a diagram illustrating a problem when a conventional video / audio reproduction device is used.
[Explanation of symbols]
1 compartment
2L, 2R viewer
3L, 3R display means
4C Front center speaker
4L front left speaker
4R Front right speaker
4SL Side left speaker
4SR Side right speaker
5L, 5R Front speaker
50 Front center speaker
51 Front left speaker
52 Front right speaker
7L, 7R first speaker means
70 Front center speaker
71 Front left speaker
72 Front right speaker
8L, 8R second speaker means
81 Auxiliary left speaker
82 Auxiliary right speaker
10 Signal processing means
11 First signal processing unit
12 First level adjuster
13 1st addition part
14 Directivity control unit
14a First filter processing unit
14b Second filter processing unit
14c, 14e IIR filter
14d phase inverter
14f, 14g delay processing means
15 Delay processing means
21 Second signal processing unit
22 Second level adjuster
23 Second adder
24 Virtual localization processing section
24a, 24b, 24c, 24d Filter section
24e, 24f Adder
25a, 25b Delay processing means
30, 31, 32, 41, 42 Output terminal
100 Virtual front center speaker
101 Virtual front left speaker
102 Virtual front right speaker
103 Virtual side left speaker
104 Virtual side right speaker

Claims (4)

A video and audio reproduction device for reproducing a video signal and a multi-channel audio signal including a front center signal, a front left signal, a front right signal, a side left signal, and a side right signal,
Display means arranged in front of the viewer;
First speaker means including at least one speaker disposed proximate to the display means;
Second speaker means including an auxiliary left speaker and an auxiliary right speaker disposed in the vicinity of the viewer's left and right ears;
Signal processing means for receiving the multi-channel audio signal and performing signal processing;
The signal processing means
A first signal processing unit that receives the front center signal, the front left signal, and the front right signal, performs signal processing, and outputs the signal processed signal to the first speaker means;
It performs signal processing by receiving said front left signal and the right front signal and the side left signal and the side right signal comprises a second signal processing unit for outputting a signal the processing to the second speaker means, and
The first signal processing unit includes a first level adjustment unit that adjusts the signal level of the front left signal and the front right signal, and a first addition unit that adds the level-adjusted signal and the front center signal, The output signal of the first adder is used as the output of the first signal processor,
The second signal processing unit adds a second level adjustment unit that adjusts the signal level of the front left signal and the front right signal, and adds the level-adjusted signal and the side left signal and side right signal. A video and audio reproduction apparatus comprising: a 2 adder; and a virtual localization processor that performs a virtual localization process on the output signal of the second adder, and uses the output signal of the virtual localization processor as an output of the second signal processor . The first speaker means comprises a plurality of speakers arranged to control directional characteristics;
The first signal processing unit of the signal processing unit includes a directivity control unit that receives the output signal of the first addition unit and performs signal processing for controlling the directivity of the first speaker unit. The video / audio reproduction device according to claim 1 , wherein an output signal of the first unit is output from the first signal processing unit. The first speaker means comprises a left speaker, a center speaker and a right speaker arranged to control the directivity;
The directivity control unit of the first signal processing unit filters the output signal of the first addition unit to output to the central speaker, and the output signal of the first addition unit And a second filter processing unit that outputs to the left speaker and the right speaker,
The video and audio reproduction device according to claim 2 , wherein filter characteristics of the first filter processing unit and the second filter processing unit are determined based on an arrangement of the left speaker, the center speaker, and the right speaker. At least one of the first signal processing unit and the second signal processing unit of the signal processing unit is provided with a delay processing unit, and the front left signal or the front right signal serves as the first signal processing unit and the first speaker unit. The time difference between the time that is played back to the viewer and the time that the front left signal or the front right signal is played back to the viewer via the second signal processing unit and the second speaker means It is set as delay time. The audiovisual reproduction apparatus in any one of Claims 1-3 .

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