JP3918201B2 - Transmitting device and receiving device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is suitable for application to an ISDB (Integrated Services Digital Broadcasting) system or the like.Transmitter andThe present invention relates to a receiving device. Specifically, for example, the added value is increased by controlling the operation of the controlled device based on the additional information separated from the transmission signal.Transmitter andThis relates to a receiving apparatus.
[0002]
[Prior art]
With the development of digital technology, an interactive ISDB system in which various information including broadcast signals is digitized has been proposed in the broadcasting industry. This ISDB system digitizes multimedia data such as voice, text, graphics, images, etc. as well as current broadcast signals (standard television signals, high-definition signals), software and facsimile data, etc. This is a broadcasting system in which the data is transmitted after being subjected to modulation processing in conformity with the transmission form after being integrated and multiplexed.
[0003]
[Problems to be solved by the invention]
In the ISDB system described above, various types of information including broadcast signals are digitized and then multiplexed and transmitted. By using a compression technique or the like, the transmission band can be effectively used as control information on the receiving side. Additional information to be used can also be integrated and multiplexed and transmitted.
[0004]
Therefore, in the present invention,Send additional informationIncreased added value using additional informationTransmitter andA receiving apparatus is provided.
[0005]
[Means for Solving the Problems]
  The transmission apparatus according to the present invention includes encoding means for encoding program information including at least one of video information and audio information, and control information for controlling a window opening / closing apparatus associated with the receiving apparatus.Weather forecast information asThe additional information encoding means for encoding the additional information having: at least the encoded information encoded by the encoding means and the additional information encoded information encoded by the additional information encoding means; Transmitting means for transmitting.
  A receiving apparatus according to the present invention includes a channel selection unit that tunes a specific broadcast signal in which encoded information obtained by encoding program information and additional information encoded information obtained by encoding additional information are multiplexed, A signal separation means for separating a specific broadcast signal selected by the channel selection means into encoded information and additional information encoded information; program information decoding means for decoding the encoded information and decoding program information; Additional information decoding means for decoding the encoded information and decoding the additional information;Additional information has weather forecast information, and the weather forecast informationAnd a control means for controlling the window opening and closing device based on the above.
[0006]
  Additional information is sent together with program information from the transmitter. This additional information is for controlling the window opening and closing device,Weather forecast informationHave The control means of the receiving device controls the window opening / closing device based on this additional information.
[0007]
The transmission apparatus according to the present invention includes additional information including encoding means for encoding program information including at least one of video information and audio information, and a computer program executed on a computer connected to the receiving apparatus. Additional information encoding means for encoding, and at least transmission means for multiplexing and transmitting the encoded information encoded by the encoding means and the additional information encoded information encoded by the additional information encoding means Are provided.
ThisThe receiving device according to the invention isChannel selection means for selecting a specific broadcast signal in which encoded information obtained by encoding program information and additional information encoded information obtained by encoding additional information are multiplexed, and is selected by the channel selection means. Signal separating means for separating the specific broadcast signal into encoded information and additional information encoded information, program information decoding means for decoding the encoded information and decoding the program information, and decoding the additional information encoded information Additional information decoding means for decoding the additional information, and a computer program in the additional information that can be executed on a computer connected to the apparatus.Memory meansRecord to recordAnd a control means.
[0008]
SendapparatusFromAlong with program informationAdditional informationWill be sent. This additional information has a computer program executed on a computer connected to the receiving device. The recording control means of the receiving apparatus is the computerprogramTheTo Mori meansRecord. Memory meansRecordProgram dataTheNuphuToBy downloading as needed, for exampleProgram contentsCan be executed.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows the configuration of the transmission apparatus 100.
[0010]
The transmitting apparatus 100 shown in FIG. 1 includes a video signal V that constitutes the first to n-th system television signals.₁~ V_nAnd audio signal A₁~ A_nIn order to perform an appropriate encoding process including compression on the encoder 101_-1~ 101_-nAnd an encoder 102 for similarly performing appropriate encoding processing on the additional information AI.
[0011]
Further, the transmission apparatus 100 shown in FIG._-1~ 101_-n, 102 is a packet encoder 103 for performing packetization processing to obtain packets of uniform sizes for the encoded data output from_-1~ 103_-n, 104. Although not shown, one packet is composed of packet data and a packet header added to the head thereof. The packet header is for identifying packet data. Packet encoder 103_-1~ 103_-nThe packet header of the packet generated in the above includes information such as broadcast station identification information (broadcast station ID), program identification information (program ID), broadcast time information, and time code. The packet header of the packet generated by the packet encoder 104 includes information indicating that the packet is the additional information AI.
[0012]
Further, the transmission apparatus 100 shown in FIG._-1~ 103_-n, 104 multiplexes packets of a plurality of slots output from the multiplexing unit 105 to obtain a bit stream signal (multiplexed data), and a bit stream signal output from the multiplexing unit 105 transmits transmission means (this embodiment) , A digital modulation circuit 106 for performing a modulation process using a modulation method suitable for a broadcasting satellite), an up-converter 107 for converting the modulation data output from the digital modulation circuit 106 into a frequency of a transmission frequency band, And a transmission antenna 108 for transmitting the output signal of the up-converter 107 toward the broadcasting satellite.
[0013]
In the above configuration, a plurality of systems of television signals (video signal V₁~ V_nAnd audio signal A₁~ A_n) Are respectively encoders 101._-1~ 101_-nPacket encoder 103 after the encoding process_-1~ 103_-nTo be packetized. Further, the additional information AI is encoded by the encoder 102 and then supplied to the packet encoder 104 to be packetized.
[0014]
The packet encoder 103_-1~ 103_-n, 104 are supplied in parallel to the multiplexing unit 105 as packets of a plurality of slots and multiplexed to form a bit stream signal (multiplexed data). This bit stream signal is subjected to modulation processing by the digital modulation circuit 106 and then converted to a signal of, for example, 14 GHz band by the up-converter 107 and transmitted from the transmission antenna 108 to the broadcasting satellite.
[0015]
FIG. 2 shows a configuration of the receiving apparatus 200 when the additional information AI transmitted from the transmitting apparatus 100 is brightness control data DCL. Here, the brightness control data DCL corresponds to all or a part of the first to n-th system television signals described above, and the brightness of the illumination device when viewing images and sounds by the television signals. This is data for controlling the height. Identification information for identifying which television signal is associated is added to the brightness control data DCL.
[0016]
A receiving device 200 shown in FIG. 2 receives a 12 GHz band broadcast signal transmitted from a broadcasting satellite, and converts a 12 GHz band signal received by the receiving antenna 201 into a 1 GHz band signal. A down converter 202 for receiving the signal, an output signal of the down converter 202, a tuner 203 for performing a channel selection process and a digital demodulation process for selecting a desired broadcast signal, and a microcomputer (microcomputer). And a control unit 204 for controlling the entire system. The channel selection operation in the tuner 203 is controlled by the control unit 204. A key operation unit 205 is connected to the control unit 204, and a viewer (user) can perform a channel selection operation using the key operation unit 205. The tuner 203 outputs a bit stream signal (multiplexed data of packets of a plurality of slots) related to the selected broadcast signal.
[0017]
2 receives a predetermined slot (hereinafter referred to as a slot) associated with the first to n-th series of television signals based on the packet header information from the bit stream signal output from the tuner 203. A separation unit 206 is provided for separating packets in the “first slot” and separating packets in the slot related to the additional information AI (hereinafter referred to as “second slot”). The selection of the first slot in the separation unit 206 is performed by the control of the control unit 204 based on the operation of the key operation unit 205 by the user.
[0018]
In addition, the receiving apparatus 200 illustrated in FIG. 2 performs decoding processing to obtain the video signal SV and the audio signal SA by performing a decoding process on the packet data constituting the packet of the first slot separated by the separation unit 206. Unit 207, monitor display 208 for displaying an image based on video signal SV output from decoding unit 207, amplifier 209 for amplifying audio signal SA output from decoding unit 207, and amplifier 209 And a speaker 210 for outputting sound based on the output sound signal SA.
[0019]
In addition, the receiving apparatus 200 illustrated in FIG. 2 performs a decoding process on the packet data constituting the packet of the second slot separated by the separation unit 206 to obtain brightness control data DCL. have. The brightness control data DCL obtained from the decoding unit 211 is supplied to the control unit 204 and stored in the built-in memory 204m. The control unit 204 has a function of controlling the brightness of the indoor lighting device 220 based on the brightness control data DCL supplied from the decoding unit 211.
[0020]
That is, the control unit 204 is set to the brightness control mode by the operation of the viewer's key operation unit 205, and the brightness control data DCL supplied from the decoding unit 211 is in the first slot. In the case of a television signal, a control signal SCL for controlling the brightness of the illumination device 220 is created and output based on the brightness control data DCL. Note that whether or not the brightness control data DCL supplied from the decoding unit 211 is related to the first slot is determined based on the above-described identification information included in the brightness control data DLC.
[0021]
In the above configuration, the tuner 203 performs channel selection under the control of the control unit 204 based on the operation of the viewer's key operation unit 205, and a bit stream signal related to the broadcast signal selected by the tuner 203 is output. And supplied to the separation unit 206. Then, the separation unit 206 separates the packet of the first slot from the bit stream signal under the control of the control unit 204 based on the operation of the viewer's key operation unit 205, and the packet data constituting the separated packet is decoded by the decoding unit. The video signal SV and the audio signal SA are obtained by sequentially supplying to 207 and performing a decoding process. The video signal SV is supplied to the monitor display 208 to display an image, and the audio signal SA is amplified by the amplifier 209 and supplied to the speaker 210 to output audio.
[0022]
Further, the separation unit 206 separates the packet of the second slot from the bit stream signal, and the packet data constituting the separated packet is sequentially supplied to the decoding unit 211 to perform a decoding process, thereby performing brightness control data. DCL is obtained, and this brightness control data DCL is supplied to the control unit 204 and stored in the built-in memory 204m. When the brightness control mode is set by the operation of the viewer's key operation unit 205 and the brightness control data DCL relates to the television signal of the first slot, the control unit 204 displays the brightness. A control signal SCL is created based on the control data DCL. This control signal SCL is supplied to the illumination device 220, and the brightness of the illumination device 220 is controlled in accordance with the image displayed on the monitor display 208 and the sound output from the speaker 210.
[0023]
As described above, in the receiving device 200 of FIG. 2, the brightness of the indoor lighting device 220 is automatically adjusted according to the display image and output sound based on the brightness control data DCL transmitted as the additional information AI from the transmitting device 100. Can be controlled and the viewing effect of images and sounds can be enhanced. For example, when an image or sound based on a television signal is of a “fear scene”, it can be controlled so as to reduce the brightness of the lighting device, and a fear can be made.
[0024]
Next, FIG. 3 shows a configuration of the receiving apparatus 200A when the additional information AI transmitted from the transmitting apparatus 100 is the weather forecast information DWF. The weather forecast information DWF is information coded as, for example, information such as “it rains from 1 pm”. 3, parts corresponding to those in FIG. 2 are denoted by the same reference numerals, and detailed description thereof is omitted.
[0025]
The receiving apparatus 200A shown in FIG. 3 is similar to the receiving apparatus 200 shown in FIG. 2 in that the receiving antenna 201, the down converter 202, the tuner 203, the separation unit 206, the decoding unit 207, the monitor display 208, and the amplifier 209 and a speaker 210.
[0026]
Also, the receiving apparatus 200A shown in FIG. 3 includes a microcomputer and a control unit 204A for controlling the entire system. A key operation unit 205A is connected to the control unit 204A. The channel selection operation in the tuner 203 is controlled by the control unit 204A based on the operation of the viewer's key operation unit 205A. The selection of the first slot in the separation unit 206 is controlled by the control unit 204A based on the operation of the viewer's key operation unit 205A.
[0027]
In addition, the receiving apparatus 200A illustrated in FIG. 3 includes a decoding unit 211A for performing the decoding process on the packet data constituting the packet of the second slot separated by the separation unit 206 to obtain the weather forecast information DWL. Have. The weather forecast information DWF obtained from the decoding unit 211A is supplied to the control unit 204A and stored in the built-in memory 204m. The control unit 204A has a function of controlling the window opening / closing drive unit 232 for opening / closing the window 231 of the house based on the weather forecast information DWF supplied from the decoding unit 211A. That is, when the window opening / closing mode is set by the operation of the viewer's key operation unit 205A, the control unit 204A controls the window opening / closing drive unit 232 based on the weather forecast information DWF supplied from the decoding unit 211A. The control signal SWF is generated and output.
[0028]
In the above configuration, the packet of the first slot is separated by the separation unit 206 from the bit stream signal related to the broadcast signal selected by the tuner 203, and the packet data of the packet is supplied to the decoding unit 207, and the first A video signal SV and an audio signal SA constituting the television signal of the slot are obtained. The monitor display 208 displays an image based on the video signal SV, and the speaker 210 outputs sound based on the audio signal SA. Such image display and audio output operations are the same as those of the receiving apparatus 200 shown in FIG.
[0029]
Further, the separation unit 206 separates the packet of the second slot from the bit stream signal, and the packet data constituting the separated packet is sequentially supplied to the decoding unit 211A to perform the decoding process, and the weather forecast information DWF The weather forecast information DWF is supplied to the control unit 204A and stored in the built-in memory 204m. When the window opening / closing mode is set by the operation of the viewer's key operation unit 205A, the control unit 204A generates a control signal SWF based on the weather forecast information DWF, and the control signal SWF is driven to open / close the window. Supply to the unit 232 controls the opening and closing of the window 231. For example, when the weather forecast information DWF is information that “it rains from 1 pm”, a control signal for controlling the window 231 to be closed by the control unit 204A from the control unit 204A immediately before 1 pm. SWF is supplied.
[0030]
As described above, in the receiving apparatus 200A of FIG. 3, the opening / closing of the window 231 of the house can be automatically controlled based on the weather forecast information DWF transmitted as the additional information AI from the transmitting apparatus 100, thereby increasing the added value. it can.
[0031]
Next, FIG. 4 shows a configuration of the receiving apparatus 200B when the additional information AI transmitted from the transmitting apparatus 100 is earthquake warning information DEQ and evacuation route data (image data) DRF. The earthquake warning information DEF is information encoded as information such as “an earthquake occurs around 10:00 am”, for example. 4, parts corresponding to those in FIG. 2 are denoted by the same reference numerals, and detailed description thereof is omitted.
[0032]
Similar to the receiving device 200 shown in FIG. 2, the receiving device 200B shown in FIG. 4 includes a receiving antenna 201, a down converter 202, a tuner 203, a separating unit 206, a decoding unit 207, a monitor display 208, and an amplifier. 209 and a speaker 210.
[0033]
4 includes a microcomputer and a control unit 204B for controlling the entire system. A key operation unit 205B is connected to the control unit 204B. The channel selection operation in the tuner 203 is controlled by the control unit 204B based on the operation of the viewer's key operation unit 205B. The selection of the first slot in the separation unit 206 is controlled by the control unit 204B based on the operation of the viewer's key operation unit 205B.
[0034]
4 receives the earthquake warning information DEQ and the evacuation route data DRF by performing a decoding process on the packet data constituting the packet of the second slot separated by the separation unit 206. And a disk drive 212 for recording / reproducing evacuation route data DRF obtained from the decoding unit 211B on / from a disk-shaped recording medium. The earthquake warning information DEQ obtained by the decoding unit 211B is supplied to the control 204B and supplied to and stored in the built-in memory 204m. The evacuation route data DRF obtained by the decoding unit 211B is supplied to the disk drive 212 via the control unit 204B and recorded on the disk-shaped recording medium.
[0035]
The control unit 204B has a function of controlling the gas main plug opening / closing drive unit 242 for opening and closing the gas main plug 241 based on the earthquake warning information DEQ supplied from the decoding unit 211B. That is, the control unit 204B controls the gas main valve opening / closing drive unit 242 based on the earthquake alarm information DEQ supplied from the decryption unit 211B when the gas main valve opening / closing mode is set by the operation of the viewer's key operation unit 205B. A control signal SEQ is generated and output.
[0036]
4 has an image memory (graphic memory) and forms an image signal for displaying an evacuation route based on the evacuation route data DRF reproduced from the disk-shaped recording medium by the disk drive 212. And a selection circuit 214 that selectively outputs the video signal SV output from the decoding unit 207 or the image signal SRF output from the image signal generation unit 213.
[0037]
The operation of the image signal generation unit 213 is controlled by the control unit 204B. The image signal generator 213 is supplied with the evacuation route data DRF reproduced from the disk-shaped recording medium by the disk drive 212 via the controller 204B, thereby forming the image signal SRF. The selection operation of the selection circuit 214 is controlled by the control unit 204B. That is, the selection circuit 214 is controlled to select the image signal SRF in the earthquake warning state after the earthquake warning information DEQ is supplied from the decoding unit 211B to the control unit 204B, and the video signal SV is selected in the other normal state. Controlled to select. An output signal of the selection circuit 214 is supplied to the monitor display 208, and an image based on the output signal is displayed.
[0038]
When the seismic warning information DEQ is supplied and the image signal SRF is selected by the selection circuit 214, the selection circuit 214 can be switched to select the video signal SV by operating the key operation unit 205B. Is done.
[0039]
In the above configuration, the packet of the first slot is separated by the separation unit 206 from the bit stream signal related to the broadcast signal selected by the tuner 203, and the packet data of the packet is supplied to the decoding unit 207, and the first A video signal SV and an audio signal SA constituting the television signal of the slot are obtained. The audio signal SA output from the decoding unit 207 is supplied to the speaker 210 via the amplifier 209, and the audio based on the audio signal SA is output from the speaker 210. In a normal state, the video signal SV output from the decoding unit 207 is supplied to the monitor display 208 through the selection circuit 214, and an image based on the video signal SV is displayed on the monitor display 208.
[0040]
Further, the separation unit 206 separates the packet in the second slot from the bit stream signal, and sequentially supplies the packet data constituting the separated packet to the decoding unit 211B to perform the decoding process. When the earthquake warning information DEQ and the evacuation route data DRF are obtained from the decoding unit 211B, the operation is as follows. That is, the earthquake warning information DEQ output from the decoding unit 211B is supplied to the control unit 204B and stored in the built-in memory 204m. The evacuation route data DRF output from the decoding unit 211B is supplied to the disk drive 212 via the control unit 204B and recorded on the disk-shaped recording medium.
[0041]
The control unit 204B generates a control signal SEQ immediately before the estimated earthquake occurrence time based on the earthquake warning information DEQ, and this control signal SEQ is supplied to the gas main valve opening / closing drive unit 242 to automatically close the gas main valve 241. .
[0042]
Further, based on the control of the control unit 204B, the evacuation route data DRF is reproduced from the disc-shaped recording medium in the disk drive 212, and the evacuation route data DRF is supplied to the image signal generation unit 213 via the control unit 204B. The image signal generator 213 forms an image signal SRF for displaying the evacuation route based on the evacuation route data DRF. As described above, in the earthquake alarm state after the earthquake alarm information DEQ is supplied from the decoding unit 211B to the control unit 204B, the selection circuit 214 is controlled to select the image signal SRF. Therefore, the image signal SRF output from the image signal generation unit 213 is supplied to the monitor display 208 via the selection circuit 214, and an evacuation route based on the image signal SRF is displayed on the monitor display 208.
[0043]
4 can automatically close the gas main plug 241 immediately before the estimated earthquake occurrence time based on the earthquake warning information DEQ transmitted as the additional information AI from the transmission device 100. Can prevent fire and explosion accidents. Further, in the earthquake alarm state, the evacuation route can be displayed on the monitor display 208 instead of the normal broadcast image based on the evacuation route data DRF transmitted as additional information from the transmission device 100, and the viewer is given an earthquake warning. And the evacuation route can be confirmed immediately.
[0044]
In the receiving device 200B of FIG. 4, the evacuation route is displayed on the monitor display 208 based on the evacuation route data DRF transmitted as additional information from the transmission device 100. The recorded evacuation route data may be reproduced by the disk drive 212, and the evacuation route may be displayed on the monitor display 208 based on the evacuation route data.
[0045]
In addition, the receiving device 200B shown in FIG. 4 controls the gas main plug 241 based on the earthquake warning information DEQ. However, other appliances such as heating appliances that may cause a fire or an accident due to an earthquake are also available. You may make it control so that a power switch may be turned off. In the receiving apparatus 200B of FIG. 4, broadcast sound is output from the speaker 210 even when the earthquake alarm state is entered, but a warning sound is output informing that the earthquake alarm has been issued instead of this broadcast sound. You may be made to do.
[0046]
Next, FIG. 5 shows a configuration of the receiving apparatus 200C when the additional information AI transmitted from the transmitting apparatus 100 is the sensation data DBS for controlling the movement of the chair. 5, parts corresponding to those in FIG. 2 are given the same reference numerals, and detailed description thereof is omitted.
[0047]
The bodily sensation data DBS corresponds to all or part of the first to n-th system television signals described above, and is data for controlling movement of the chair when viewing images and sounds using the television signals. . Identification information for identifying which television signal is associated with the sensation data DBS is added. Further, the sensation data DBS is angular velocity data dθ for rotationally moving about the three-dimensional axes in the x, y, and z directions._x, Dθ_y, Dθ_zAnd displacement angle data θ_x, Θ_y, Θ_zAnd velocity data dL and displacement data L for linearly moving in the front-rear direction (y direction).
[0048]
Similar to the receiving device 200 shown in FIG. 2, the receiving device 200C shown in FIG. 5 includes a receiving antenna 201, a down converter 202, a tuner 203, a separating unit 206, a decoding unit 207, a monitor display 208, and an amplifier. 209 and a speaker 210.
[0049]
In addition, the receiving apparatus 200C illustrated in FIG. 5 includes a microcomputer and includes a control unit 204C for controlling the entire system. A key operation unit 205C is connected to the control unit 204C. The tuning operation in the tuner 203 is controlled by the control unit 204C based on the operation of the viewer's key operation unit 205C. The selection of the first slot in the separation unit 206 is controlled by the control unit 204C based on the operation of the viewer's key operation unit 205C.
[0050]
In addition, the receiving apparatus 200C illustrated in FIG. 5 includes a decoding unit 211C for performing the decoding process on the packet data constituting the packet of the second slot separated by the separation unit 206 to obtain the experience data DBS. is doing. The sensation data DBS obtained by the decoding unit 211C is supplied to the control unit 204C and stored in the built-in memory 204m.
[0051]
Based on the sensation data DBS supplied from the decoding unit 211C, the control unit 204C has an x-axis rotation driving unit 251x for rotating the chair 250 about the x-direction axis, and the chair 250 about the y-direction axis. Y-axis rotation drive unit 251y for rotating and moving, z-axis rotation drive unit 251z for rotating and moving the chair 250 about the axis in the z direction, and front and rear for moving the chair 250 in the front-rear direction (y direction) It has a function of controlling the direction driving unit 252.
[0052]
That is, the control unit 204C is set to the sensation mode by the operation of the viewer's key operation unit 205C, and the sensation data DBS supplied from the decoding unit 211C is converted into the television signal of the first slot. In such a case, control signals SBSa, SBSb, SBSc, and SBSd for controlling the drive units 251x, 251y, 251z, and 252 are created and output based on the sensation data DBS. Note that whether or not the sensation data DBS supplied from the decryption unit 211C is related to the first slot is determined based on the above-described identification information included in the sensation data DBS.
[0053]
The control signals SBSa, SBSb, and SBSc are the angular velocity data dθ._x, Dθ_y, Dθ_zAnd the angular velocity data θ_x, Θ_y, Θ_zThese are signals for controlling the operations of the drive units 251x, 251y, and 251z so that the chair 250 is rotated about the x-axis, y-axis, and z-axis by the angle indicated by. SBSd is a signal for controlling the operation of the drive unit 252 so that the chair 250 is moved in the front-rear direction by the speed indicated by the speed data dL and by the distance indicated by the displacement data L.
[0054]
In the above configuration, the packet of the first slot is separated by the separation unit 206 from the bit stream signal related to the broadcast signal selected by the tuner 203, and the packet data of the packet is supplied to the decoding unit 207, and the first A video signal SV and an audio signal SA constituting the television signal of the slot are obtained. The monitor display 208 displays an image based on the video signal SV, and the speaker 210 outputs sound based on the audio signal SA. Such image display and audio output operations are the same as those of the receiving apparatus 200 shown in FIG.
[0055]
Further, the separation unit 206 separates the packet of the second slot from the bit stream signal, the packet data constituting the separated packet is sequentially supplied to the decoding unit 211C, and the decoding process is performed so that the sensation data DBS is generated. This sensation data DBS is supplied to the control unit 204C and stored in the built-in memory 204m. When the sensation mode is set by the operation of the viewer's key operation unit 205C, when the sensation data DBS relates to the television signal of the first slot, the control unit 204C based on the sensation data DBS. Control signals SBSa, SBSb, SBSc, and SBSd are generated. The control signals SBSa, SBSb, SBSc, and SBSd are supplied to the drive units 251x, 251y, 251z, and 252, and the chair 250 is rotated about the axes in the x, y, and z directions, and the front and rear directions ( The linear movement in the y direction is controlled according to the image supplied to the monitor display 208 and the sound output from the speaker 210.
[0056]
As described above, in the receiving apparatus 200C of FIG. 5, the movement of the chair 250 can be automatically controlled according to the display image and the output sound based on the sensation data DBS transmitted as the additional information AI from the transmitting apparatus 100. It is possible to integrate the sensation of the viewer sitting at 250 with the display image and output sound. For example, when the displayed image is a roller coaster and the roller coaster is tilted to the left, the chair 250 is rotated so as to tilt to the left, and the viewer sitting on the chair 250 can experience the motion of the roller coaster.
[0057]
In the receiving apparatus 200C of FIG. 5, the linear movement of the chair 250 is possible only in the front-rear direction (y direction), but linear movement control is also performed in the left-right direction (x direction) and the up-down direction (z direction). It may be. This makes it possible to obtain a more realistic experience.
[0058]
Next, FIG. 6 shows a configuration of the receiving apparatus 200D when the additional information AI transmitted from the transmitting apparatus 100 is computer program data DCP. 6, parts corresponding to those in FIG. 2 are given the same reference numerals, and detailed description thereof is omitted.
[0059]
The computer program data DCP corresponds to all or part of the above-described first to n-th television signals. Identification information for identifying which television signal is associated with this computer program data DBS is added.
[0060]
Similar to the receiving device 200 shown in FIG. 2, the receiving device 200D shown in FIG. 6 includes a receiving antenna 201, a down converter 202, a tuner 203, a separating unit 206, a decoding unit 207, a monitor display 208, and an amplifier. 209 and a speaker 210.
[0061]
In addition, the receiving device 200D illustrated in FIG. 6 includes a microcomputer and a control unit 204D for controlling the entire system. A key operation unit 205D is connected to the control unit 204D. The tuning operation in the tuner 203 is controlled by the control unit 204D based on the operation of the viewer's key operation unit 205D. The selection of the first slot in the separation unit 206 is controlled by the control unit 204D based on the operation of the viewer's key operation unit 205D.
[0062]
Also, the receiving apparatus 200D shown in FIG. 6 includes a decoding unit 211D for performing decoding processing on the packet data constituting the packet of the second slot separated by the separation unit 206 to obtain computer program data DCP. And a disk drive 261 for recording / reproducing the computer program data DCP obtained from the decoding unit 211D with respect to the disk-shaped recording medium. The computer program data DCP obtained by the decoding unit 211D is supplied to the disk drive 261 via the control unit 204D and recorded on the disk-shaped recording medium. Here, the disk drive 261 is provided in the receiver main body or outside.
[0063]
In the above configuration, the packet of the first slot is separated by the separation unit 206 from the bit stream signal related to the broadcast signal selected by the tuner 203, and the packet data of the packet is supplied to the decoding unit 207, and the first A video signal SV and an audio signal SA constituting the television signal of the slot are obtained. The monitor display 208 displays an image based on the video signal SV, and the speaker 210 outputs sound based on the audio signal SA. Such image display and audio output operations are the same as those of the receiving apparatus 200 shown in FIG.
[0064]
Further, the separation unit 206 separates the packet of the second slot from the bit stream signal, and the packet data constituting the separated packet is sequentially supplied to the decoding unit 211D to perform the decoding process, and the computer program data DCP The computer program data DCP is supplied to the disk drive 261 via the control unit 204D and recorded on the disk-shaped recording medium.
[0065]
In this state, the computer program data can be downloaded by designating identification information (file name, etc.) from a personal computer (hereinafter referred to as “personal computer”) 262 connected to the control unit 204D through an interface. By executing the program at H.262, the learning software or the like can be operated simultaneously with the broadcast program or independently. For example, when an educational program is broadcast, an environment in which the viewer can perform further learning on the personal computer 262 can be constructed by transmitting the educational computer program data DCP related to the broadcast content as additional information AI.
[0066]
For example, it is assumed that program data for checking pronunciation of English conversation is transmitted as computer program data DCP in correspondence with a program of English conversation. Note that a personal computer 262 having a voice input device is used. In this case, the viewer can sound according to the spelling displayed on the monitor display 208 to check whether or not the correct sound has been produced, and the result can be displayed on the display of the personal computer 262 or output as audio. In addition, for example, it is assumed that program data such as presentation of practice questions and correction of answers are transmitted as computer program data DCP in response to a mathematical educational program. In this case, a sufficient learning effect can be achieved, for example, an element that cannot be transmitted by image or sound within the broadcast time can be transmitted. Further, by transmitting musical score data encoded in a MIDI (music instrument digital interface) format as computer program data DCP in a music program, computer music can be realized by the personal computer 262.
[0067]
Note that the recorded contents of the disk-shaped recording medium of the disk drive 261 described above can be erased with a personal computer 262 or overwritten after a certain period of time by overwriting the oldest one to within a certain capacity. Can be controlled to fit. Further, as described above, the computer program data DCP as the additional information AI sent from the transmitting apparatus 100 side may be encrypted by some method. In this case, only the contract viewer is given a decryption key.
[0068]
As described above, in the receiving device 200D of FIG. 6, the computer program data DCP transmitted as the additional information AI from the transmitting device 100 can be recorded on the disk-shaped recording medium of the disk drive 261, downloaded to the personal computer 262, and learning software Etc. can be operated simultaneously with the broadcast program or independently. For example, an environment in which the viewer can perform further learning on the personal computer 261 can be easily constructed.
[0069]
In the above embodiment, the packetized additional information AI is multiplexed with the packetized television signal and transmitted to the receiving side. However, the additional information AI is transmitted to the television signal block. It may be multiplexed in the ranking period and transmitted to the receiving side. Further, the above-described additional information is an example, and it is needless to say that the additional information is not limited thereto.
[0070]
  According to this invention, on the transmitting sideAdditional information with weather forecast information along with program informationThe transmission and reception side controls the window opening and closing device based on this additional information, and the added value can be increased.
[0071]
Moreover, according to this invention,On the transmission side, additional information having a computer program executed on a computer connected to the reception device is transmitted together with the program information, and on the reception side, this information is transmitted.Record computer program in memory meansTo doThe Therefore, the memory meansRecordWasComputerProgramComputerIf necessary, the learning software can be operated simultaneously with the broadcast program or independently. For example, an environment in which the viewer can perform further learning can be easily constructed.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration of a transmission device.
FIG. 2 is a block diagram showing a configuration of a receiving apparatus when additional information is brightness control data.
FIG. 3 is a block diagram showing a configuration of a receiving apparatus when additional information is weather forecast information.
FIG. 4 is a block diagram showing a configuration of a receiving apparatus when additional information is earthquake warning information or the like.
FIG. 5 is a block diagram illustrating a configuration of a receiving device when additional information is sensation data.
FIG. 6 is a block diagram showing a configuration of a receiving apparatus when additional information is computer program data.
[Explanation of symbols]
100 Transmitter
101_-1~ 101_-n, 102 encoder
103_-1~ 103_-n104 packet encoder
105 Multiplexer
106 Digital modulation circuit
107 Upconverter
108 Transmitting antenna
200, 200A-200D receiver
201 Receiving antenna
202 Downconverter
203 Tuner
204, 204A to 204D Control unit
206 Separation part
207, 211, 211A to 211D Decoding unit
208 Monitor display
210 Speaker
212 disk drive
213 Image signal generator
214 Selection circuit
220 Lighting device
231 windows
232 Window opening and closing drive
241 Gas tap
242 Gas main valve opening and closing drive unit
250 chairs
251x x-axis rotation drive unit
251y y-axis rotation drive unit
251z z-axis rotation drive unit
252 Front-rear direction drive
261 disk drive
262 Personal computer

Claims (21)

Encoding means for encoding program information including at least one of video information and audio information;
Additional information encoding means for encoding additional information having weather forecast information as control information for controlling the window opening and closing device related to the receiving device;
Transmission means comprising: a transmission means for multiplexing and transmitting at least the encoded information encoded by the encoding means and the additional information encoded information encoded by the additional information encoding means apparatus. The transmission apparatus according to claim 1, wherein the additional information encoding unit encodes additional information having control information for controlling brightness of the lighting apparatus. The transmission apparatus according to claim 1, wherein the additional information encoding means encodes additional information having earthquake warning information for controlling at least one of a gas appliance and an electric appliance. The transmission apparatus according to claim 3, wherein the additional information encoding means further encodes additional information having evacuation route data for displaying the evacuation route on the display device. The transmission apparatus according to claim 1, wherein the additional information encoding means encodes additional information having speed data and displacement data for controlling a movable chair. The transmission device according to claim 1, wherein the additional information encoding means encodes additional information having control information for controlling the window opening and closing device in correspondence with the program information. And packetizing means for packetizing the encoded information and the additional information encoded information, and inserting information indicating a packet of additional information into a packet header of the additional information encoded information. The transmission device according to claim 1. The transmission apparatus according to claim 1, wherein the additional information encoding means encodes additional information having identification information for identifying the program information. Channel selection means for selecting a specific broadcast signal in which encoded information obtained by encoding program information and additional information encoded information obtained by encoding additional information are multiplexed;
Signal separating means for separating the specific broadcast signal selected by the channel selecting means into the encoded information and the additional information encoded information;
Program information decoding means for decoding the program information by decoding the encoded information;
Additional information decoding means for decoding the additional information and decoding the additional information;
A receiving device comprising: the additional information includes weather forecast information, and control means for controlling the window opening and closing device based on the weather forecast information . The additional information includes control information for controlling the brightness of the lighting device related to the receiving device,
The receiving device according to claim 9, wherein the control means controls brightness of the lighting device based on the control information. The additional information includes earthquake warning information for controlling at least one of a gas appliance and an electrical appliance,
The receiving device according to claim 9, wherein the control means controls so that at least one of the gas appliance and the electric appliance is in a non-use state based on the earthquake warning information. The additional information further includes evacuation route data for displaying the evacuation route on the display device,
Selection means for selectively outputting image information corresponding to the video information in the program information and the data of the evacuation route to a monitor;
The receiving apparatus according to claim 11, wherein the control unit controls the selection unit to output the image information to a monitor when the earthquake warning information is detected from the additional information. Selection means for selectively outputting to the monitor image information corresponding to video information in the program information and evacuation route data read from a predetermined recording medium;
The receiving apparatus according to claim 11, wherein the control unit controls the selection unit to output the image information to a monitor when the earthquake warning information is detected from the additional information. Furthermore, it has an audio reproduction means for reproducing the audio information in the program information,
The receiving apparatus according to claim 11, wherein the control means controls the audio reproduction means to reproduce a warning sound when the earthquake warning information is detected from the additional information. The additional information includes speed data and displacement data for controlling a movable chair,
The receiving device according to claim 9, wherein the control means controls the movement of the chair based on the speed data and the displacement data. The additional information includes speed data and displacement data for controlling a chair that can move linearly in at least one direction,
The receiving apparatus according to claim 15, wherein the control means controls linear movement of the chair based on the speed data and the displacement data. The additional information includes speed data and displacement data for controlling a chair that can rotate around an axis in at least one direction.
The receiving device according to claim 15, wherein the control means controls the rotational movement of the chair based on the speed data and the displacement data. The receiving device according to claim 9, further comprising memory means for storing at least a part of the additional information. The receiving device according to claim 9, wherein the control means controls the window opening and closing device corresponding to the program information based on the additional information. The receiving device according to claim 19, wherein the control means controls the window opening and closing device corresponding to program information corresponding to identification information in the additional information. It has an operation unit that can be set according to user operations,
The receiving device according to claim 9, wherein the control unit controls the window opening and closing device based on the additional information in accordance with the setting.

Images