JP3664227B2 - Program switching apparatus and method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a program switching apparatus and method suitable for use in receiving a digital television broadcast based on, for example, electronic program guide information broadcast via a satellite and switching a program of the broadcast channel.
[0002]
[Prior art]
Recently, systems for digitizing and transmitting television signals via satellites such as broadcasting satellites and communication satellites and receiving them at home are becoming widespread. In this system, for example, it is possible to secure nearly 200 channels, so it is possible to broadcast a great deal of information.
[0003]
[Problems to be solved by the invention]
By the way, in such a system, one carrier wave is assigned to one transponder, and signals of a plurality of channels are packetized and transmitted for each channel on a carrier wave to which one frequency is assigned. Also, different frequency carriers are assigned to different transponders.
[0004]
Therefore, in order to switch a program of a channel transmitted with a carrier wave of a predetermined frequency to a program of another channel transmitted with a carrier wave of the same frequency, a channel selected by a packet obtained by decoding the carrier wave Can be switched.
[0005]
On the other hand, in order to switch a channel program transmitted with a carrier wave of a predetermined frequency to a program of another channel transmitted with a carrier wave of a different frequency, the carrier frequency to be decoded is switched and the carrier wave It is also necessary to switch the channel selected by the packet obtained by decoding.
[0006]
In order to reduce the amount of data to be transmitted as much as possible, an image is predicted as an I picture, a P picture, or a B picture, and is compressed and transmitted by, for example, an MPEG (Moving Picture Experts Group) system. Since an I picture contains all of its data, it can be decoded by itself, but P pictures and B pictures only carry the difference data predicted from the front or rear I picture or P picture Therefore, if there is no predicted image, decoding cannot be performed.
[0007]
However, the program switching is not necessarily performed at the timing when the I picture is generated, so that when the decoding is performed from the B picture in particular, a specific color appears on the entire screen and the image becomes confused and the image becomes difficult to see. There are challenges.
[0008]
The present invention has been made in view of such a situation, and prevents an image from being disturbed and difficult to see at the time of channel switching.
[0009]
[Means for Solving the Problems]
  A first program switching device according to the present invention includes a receiving unit that receives a signal of a program of a predetermined broadcast channel, an operating unit that is operated when switching a received program, and a selection having button icons corresponding to a plurality of programs. Selection screen output means that is operated when outputting the screen, and when switching of the program to be received is instructed, an operation for outputting the image of the program before switching as a still image and outputting the selection screen was performed. A still image output means for outputting a still image, and a control means for controlling the still image output means and the receiving means. When the switching of the program to be received is instructed, the control means Start the program reception process and control the still image output means to output the still image once. After the program reception process after switching is completed, cancel the output of the still image, And performing control so as to output a program signal after signal has been switched.
  The first program switching device of the present invention can further include display means for displaying an image of the program received by the receiving means.
  The still image output means can mute the audio signal when outputting a still image, and cancel the mute of the audio signal when releasing the output of the still image.
  The operation means may be an up / down button switch for raising or lowering a program channel.
  The operation means may be a numeric button switch for inputting a program channel number.
  The selection screen output means outputs the selection screen as a window to be superimposed on the image of the program being received, and the operation means moves a cursor for selecting a button icon on a predetermined button icon on the selection screen. Can be operated when.
  The operation means may include cursor movement means that is operated when moving the cursor, and button icon selection means that is operated when selecting a button icon designated by the cursor.
  The cursor moving means and the button icon selecting means can be operated with one finger.
[0010]
  In the first program switching method of the present invention, when switching of a program is instructed in a state where a program image of a predetermined channel is displayed, the program receiving process after switching is started, and the program before switching After the switching process is completed, the still image output is canceled, the received switching program signal is output, and the program image of the predetermined channel is displayed. When an operation for outputting a selection screen having button icons corresponding to a plurality of programs in the displayed state is performed, an image of the program displayed before the operation is output as a still image. It is characterized by.
[0011]
  The second program switching device of the present invention includes a receiving means for receiving a program signal of a predetermined broadcast channel, a selection screen output means operated when outputting a selection screen having button icons corresponding to a plurality of programs. When switching the program to be received or when moving the cursor for selecting the button icon on a predetermined button icon on the selection screen, the switching of the received program is instructed. A still image output means for outputting the image of the program before switching as a still image, and a control means for controlling the still image output means and the receiving means. The control means is instructed to switch the received program. In this case, the reception process of the program after switching to the reception unit is started, and the still image output unit is controlled so that the still image is temporarily output and switched. After the reception processing of the later program is completed, control is performed to cancel the output of the still image and output the received program signal after switching, and the cursor is moved to another button icon The still image output means is controlled so as to output a still image corresponding to the button icon before the cursor is moved.
  The selection screen output means can output the selection screen as a window to be superimposed on the image of the program receiving the selection screen.
The operation means may include cursor movement means that is operated when moving the cursor, and button icon selection means that is operated when selecting a button icon designated by the cursor.
The cursor moving means and the button icon selecting means can be operated with one finger.
  The second program switching device of the present invention can further comprise display means for displaying an image of the program received by the receiving means.
The still image output means can mute the audio signal when outputting a still image, and cancel the mute of the audio signal when releasing the output of the still image.
The operation means may be an up / down button switch for raising or lowering a program channel.
The operation means may be a numeric button switch for inputting a program channel number.
[0012]
According to the second program switching method of the present invention, when program switching is instructed in a state where a program image of a predetermined channel is displayed, the reception processing of the program after switching is started, and the program before switching Button image corresponding to a plurality of programs is output after the switching process is completed and the reception of the program after switching is completed, the output of the still image is canceled, and the received switching program signal is output. When a cursor movement for selecting a button icon is operated on a predetermined button icon on the selection screen in a state where a selection screen having a button is displayed, it corresponds to the button icon before the cursor is moved. It is characterized by outputting a still image.
[0013]
  In the first program switching device and method of the present invention, when a program switching is instructed in a state where a program image of a predetermined channel is displayed, the reception processing of the program after the switching is started and switched. The image of the previous program is output as a still image, and after the program receiving process after switching is completed, the output of the still image is canceled and the received signal of the switched program is output. In addition, when an operation for outputting a selection screen having button icons corresponding to a plurality of programs is performed in a state where an image of a program of a predetermined channel is displayed, the image is displayed before the operation is performed. The program image is output as a still image.
[0014]
In the second program switching device and method of the present invention, when the program switching is instructed in the state where the program image of the predetermined channel is displayed, the reception processing of the program after the switching is started, The image of the program before switching is output as a still image, and after the reception processing of the program after switching is completed, the output of the still image is canceled and the received signal of the program after switching is output. In addition, when a selection screen having button icons corresponding to a plurality of programs is displayed, when the cursor movement for selecting the button icon is operated on a predetermined button icon on the selection screen, the cursor is displayed. A still image corresponding to the button icon before being moved is output.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows a configuration example of an AV (Audio Video) system to which the present invention is applied. In the case of this embodiment, the AV system 1 includes an IRD (Integrated Receiver / Decoder) 2 that demodulates a signal received by a parabolic antenna 3 via a satellite (broadcast satellite or communication satellite) (not shown), and a monitor device 4. Has been. The monitor device 4 and the IRD 2 are connected to each other by an AV line 11 and a control line 12.
[0022]
A command can be input to the IRD 2 by an infrared (IR) signal by the remote commander 5. That is, when a predetermined button switch 50 of the remote commander 5 is operated, an infrared signal corresponding to the button switch 50 is emitted from the IR transmitter 51 and incident on the IR receiver 39 (FIG. 4) of the IRD2. .
[0023]
FIG. 2 shows an electrical connection state of the AV system 1 of FIG. The parabolic antenna 3 has an LNB (Low Noise Block downconverter) 3a, converts a signal from a satellite into a signal of a predetermined frequency, and supplies the signal to the IRD 2. The IRD 2 supplies its output to the monitor device 4 via an AV line 11 constituted by, for example, three lines of a composite video signal line, an audio L signal line, and an audio R signal line.
[0024]
Further, the IRD 2 has an AV device control signal transmission / reception unit 2A, and the monitor device 4 has an AV device control signal transmission / reception unit 4A. These are connected to each other by a control line 12 made of wired SIRCS (Wired Sony Infrared Remote Control System).
[0025]
FIG. 3 shows a configuration example of the front of the IRD 2. A power button switch 111 is provided on the left side of the IRD 2. The power button switch 111 is operated when the power is turned on or off. The LED 112 is turned on when the power is turned on. On the right side of the LED 112, LEDs 113 and 114 are provided. The LED 113 lights up when a DSS mode for receiving and outputting a signal from a satellite is selected. For example, an RF signal input from a cable box to an RF input terminal It is turned off when the television (TV) mode output from the RF output terminal is selected via the RF modulator 41 (FIG. 4). The LED 114 is turned on when a predetermined message is transmitted to the IRD 2 via a satellite. When the user outputs and displays this message on the monitor device 4 and confirms it, the LED 114 is turned off.
[0026]
When the TV / DSS button switch 115 is turned on, the DSS mode is set, and when it is turned off, the TV mode is set. The menu button switch 121 is operated when displaying a menu on the monitor device 4.
[0027]
An up button switch 117, a down button switch 118, a left button switch 119, and a right button switch 120 are arranged on the top, bottom, left, and right of the select button switch 116, respectively. The up button switch 117, the down button switch 118, the left button switch 119, and the right button switch 120 are operated when the cursor is moved in the vertical and horizontal directions. The select button switch 116 is operated when the selection is confirmed (when selected).
[0028]
FIG. 4 shows an internal configuration example of the IRD 2 for receiving the above-described DSS. The RF signal output from the LNB 3a of the parabolic antenna 3 is supplied to the tuner 21 of the front end 20 and demodulated. The output of the tuner 21 is supplied to the QPSK demodulating circuit 22 and QPSK demodulated. The output of the QPSK demodulator circuit 22 is supplied to an error correction circuit 23, where an error is detected and corrected, and is corrected as necessary.
[0029]
In a CAM (Conditional Access Module) 33 constituted by an IC card composed of a CPU, a ROM, a RAM, and the like, a key necessary for decrypting a cipher is stored together with a decryption program. Since the signal transmitted through the satellite is encrypted, a key and a decryption process are required to decrypt this encryption. Therefore, this key is read from the CAM 33 via the card reader interface 32 and supplied to the demultiplexer 24. The demultiplexer 24 uses this key to decrypt the encrypted signal.
[0030]
The CAM 33 stores accounting information as well as keys and decryption programs necessary for decryption.
[0031]
The demultiplexer 24 receives the signal output from the error correction circuit 23 of the front end 20 and temporarily stores it in a data buffer memory (SRAM: Static Random Access Memory) 35. Then, this is read out as appropriate, the decoded video signal is supplied to the MPEG video decoder 25, and the decoded audio signal is supplied to the MPEG audio decoder 26.
[0032]
The MPEG video decoder 25 appropriately stores the input digital video signal in the DRAM 25a, and executes a decoding process of the video signal compressed by the MPEG method. The decoded video signal is supplied to the NTSC encoder 27 and converted into an NTSC luminance signal (Y), chroma signal (C), and composite signal (V). The luminance signal and the chroma signal are respectively output as S video signals via the buffer amplifiers 28Y and 28C. The composite signal is output via the buffer amplifier 28V.
[0033]
As the MPEG video decoder 25, an MPEG2 decoding LSI (STi3500) manufactured by SGS-Thomson Microelectronics can be used. The outline is introduced by Martin Bolton in Nikkei BP “Nikkei Electronics” 1994.14 (no. 603), pages 101 to 110, for example.
[0034]
The MPEG2-Transportstream is described in pages 231 to 253 of “Latest MPEG Textbook” issued on August 1, 1994 by ASCII Corporation.
[0035]
The MPEG audio decoder 26 appropriately stores the digital audio signal supplied from the demultiplexer 24 in the DRAM 26a, and executes the decoding process of the audio signal compressed by the MPEG method. The decoded audio signal is D / A converted by the D / A converter 30, the left channel audio signal is output via the buffer amplifier 31L, and the right channel audio signal is output via the buffer amplifier 31R. Is done.
[0036]
The RF modulator 41 converts the composite signal output from the NTSC encoder 27 and the audio signal output from the D / A converter 30 into an RF signal and outputs the RF signal. In addition, when the TV mode is set, the RF modulator 41 passes an NTSC RF signal input from an AV device such as a cable box and outputs it directly to a VCR or other AV device.
[0037]
In the case of this embodiment, these video signals and audio signals are supplied to the monitor device 4 via the AV line 11.
[0038]
A CPU (Central Processor Unit) 29 executes various processes according to programs stored in the ROM 37. For example, the tuner 21, the QPSK demodulation circuit 22, the error correction circuit 23, and the like are controlled. Further, the AV device control signal transmitting / receiving unit 2A is controlled to output a predetermined control signal to another AV device (in this embodiment, the monitor device 4) via the control line 12, and the other AV device. Receive control signal from.
[0039]
A predetermined command can be directly input to the CPU 29 by operating the operation button switch (FIG. 3) of the front panel 40. When the remote commander 5 is operated, an infrared signal is emitted from the IR transmitter 51, the infrared signal is received by the IR receiver 39, and the light reception result is supplied to the CPU 29. Accordingly, a predetermined command can be input to the CPU 29 also by operating the remote commander 5.
[0040]
The demultiplexer 24 captures EPG data and the like in addition to the MPEG video data and audio data supplied from the front end 20 and supplies them to the EPG area 35A of the data buffer memory 35 for storage. The EPG information includes information (for example, a program channel, a broadcast time, a title, a category, etc.) relating to a program of each broadcast channel from the current time to several tens of hours later. Since this EPG information is frequently transmitted, the latest EPG can always be held in the EPG area 35A. Further, the CPU creates a sort table from the EPG data stored in the EPG area 35 </ b> A and stores it in the SRAM 36. Details thereof will be described later.
[0041]
In an EEPROM (Electrically Erasable Programmable Read Only Memory) 38, data to be retained even after the power is turned off (for example, reception history for 4 weeks of the tuner 21, channel number (last channel) received immediately before the power is turned off). ) And the like are stored as appropriate. For example, when the power is turned on, the same channel as the last channel is received again. When the last channel is not stored, the channel stored as a default in the ROM 37 is received. Further, when the sleep mode is set, the CPU 29 operates the minimum circuits such as the front end 20, the demultiplexer 24, and the data buffer memory 35 even when the power is off, and is included in the received signal. The current time is counted from the time information, and control for causing each circuit to perform a predetermined operation at a predetermined time is also executed. For example, timer automatic recording is executed in conjunction with an external VCR.
[0042]
Further, the CPU 29 controls the MPEG video decoder 25 when it is desired to generate predetermined OSD (On-Screen Display) data. In response to this control, the MPEG video decoder 25 generates predetermined OSD data, writes it to the OSD area 25aA (FIG. 13) of the DRAM 25a, further reads it, and outputs it. As a result, predetermined characters, graphics, etc. (for example, menu (FIG. 17), general program guide (FIG. 19)) can be appropriately output to monitor device 4 for display.
[0043]
FIG. 5 shows a configuration example of the button switch 50 of the remote commander 5. The select button switch 131 can be operated (directional operation) in a total of eight directions including four directions in the vertical and horizontal directions and four oblique directions in the middle thereof, and also on the upper surface of the remote commander 5. Thus, it is possible to perform a pressing operation (select operation) in the vertical direction. The menu button switch 134 is operated when a menu screen is displayed on the monitor device 4. The exit button switch 135 is operated when returning to the original normal screen.
[0044]
The channel up / down button switch 133 is operated to increase or decrease the number of a broadcast channel to be received. The volume button switch 132 is operated when the volume is raised or lowered.
[0045]
A numeric button (ten-key) switch 138 on which numbers 0 to 9 are displayed is operated when a displayed number is input. When the operation of the numeric button switch 138 is completed, the enter button switch 137 is operated subsequent to the end of the numeric input. When the channel is switched, a new channel number, a call sign (name), a logo, and a burner consisting of a mail icon are displayed for 3 seconds. There are two types of burners, one with a simple configuration as described above and the other with a more detailed configuration including the name of the program (program), the broadcast start time, and the current time. Yes, the display button 136 is operated to switch the type of burner to be displayed.
[0046]
The television / video switching button switch 139 is operated when switching the input of the monitor device 4 to an input (VCR or the like) from a tuner or video input terminal built in the television receiver. The television / DSS switching button switch 140 is operated when selecting the television mode or the DSS mode. When the channel is switched by operating the numeric button switch 138, the channel before switching is stored, and the jump button switch 141 is operated when returning to the original channel before switching.
[0047]
The language button 142 is operated when a predetermined language is selected when broadcasting is performed in two or more languages. The guide button switch 143 is operated when the general guide (FIG. 19) is directly displayed on the monitor device 4 without going through the menu.
[0048]
The cable button switch 145, the television button switch 146, and the DSS button switch 147 are switches for switching functions, that is, for switching the device category of the code of the infrared signal emitted from the remote commander 5. The cable button switch 145 is operated when a signal transmitted via the cable is received by a cable box (not shown) and displayed on the monitor device 4, and thus the device category assigned to the cable box is displayed. The code is emitted as an infrared signal. Similarly, the television button switch 146 is operated when displaying a signal received by a tuner built in the monitor device 4. The DSS button switch 147 is operated when the signal received via the satellite is received by the IRD 2 and displayed on the monitor device 4. The LEDs 148, 149, and 150 are turned on when the cable button switch 145, the television button switch 146, or the DSS button switch 147 is turned on, respectively. This indicates to which category of device the code is transmitted when various buttons are pressed.
[0049]
When the cable power button switch 151, the TV power button switch 152, and the DSS power button switch 153 are respectively operated, the power of the cable box, the monitor device 4, or the IRD 2 is turned on or off.
[0050]
The muting button switch 154 is operated when setting or canceling the muting state of the monitor device 4. The sleep button switch 155 is operated when setting or canceling the sleep mode in which the power is automatically turned off when a predetermined time comes or when a predetermined time elapses.
[0051]
FIG. 6 shows a configuration example of a small stick switch used as the select button switch 131. This small stick switch has a structure in which a lever 162 protrudes from a main body 161. When the select button switch 131 is operated in eight directions on the horizontal plane, the lever 162 rotates in accordance with the operation direction. When the select button switch 131 is selected (vertical operation), the lever 162 is moved in the vertical direction. Can be pushed down.
[0052]
As this small stick switch, for example, model RKJXL1004 manufactured by Alps Electric Co., Ltd. can be used. The thickness of the main body 161 of this small stick switch is about 6.4 mm.
[0053]
FIG. 7 shows eight operating directions of the lever 162 in the horizontal plane. As shown in the figure, the lever 162 can be operated in directions in eight horizontal planes indicated by A to H.
[0054]
FIG. 8 illustrates an internal configuration example of the remote commander 5. As shown in the figure, the contacts A to H inside the main body 161 of the small stick switch respectively correspond to the eight directions A to H shown in FIG. When operated, any one of the terminals A to D is electrically connected to the terminal C1. Further, when the lever 162 is rotated in any one of the directions E to H, any one of these terminals E to H is electrically connected to the terminal C2. Further, between H and A and between D and E, the terminals C1 and C2 are both conducted. Further, when the lever 162 is operated in the vertical direction, the terminal 1 and the terminal 2 are in a conductive state.
[0055]
The conduction state of these terminals of the main body 161 is monitored by the CPU 72 constituting the microcomputer 71. Thereby, the CPU 72 can detect the direction operation and the select operation of the select button switch 131.
[0056]
The CPU 72 also constantly scans the button switch matrix 82 to detect operations of other button switches 50 of the remote commander 5 shown in FIG.
[0057]
The CPU 72 executes various processes in accordance with the program stored in the ROM 73 and stores necessary data in the RAM 74 as appropriate.
[0058]
When outputting the infrared signal, the CPU 72 drives the LED 76 via the LED driver 75 to output the infrared signal.
[0059]
Next, the details of Direct Broadcast Satellite System are described in Nikkei BP “Nikkei Electronics” “Technology supporting the US Information Super Highway” (issued on Oct. 24, 1994), pages 180 to 189. W. Butterworth, J.A. P. Godwin, D.M. Introduced by Mr. Radbel.
[0060]
FIG. 9 illustrates a transmission data generation procedure performed by the encoder of the Direct Broadcast Satellite System. EPG data includes guide data, channel data, and program data. Guide data is data related to the entire program guide, channel data is data related to channels, and program data is data related to programs (programs). Details thereof will be described later with reference to FIG.
[0061]
Of these data, channel data and program data are classified for each channel, and data of a predetermined number of channels are grouped into segments. In the embodiment of FIG. 9, channel data and program data for channel 1 and channel 2 are segment 1 data, respectively, and channel data and program data for channel 3 and channel 4 are segment 2 data, respectively. The channel data and program data of channel 5 and channel 6 are the data of segment 3, respectively.
[0062]
These channel data and program data are divided into packets of a predetermined size, and a header is added to each packet, and data is transmitted in units of packets.
[0063]
In the encoder on the transmission side, as shown in FIG. 10, not only such channel data and program data, but also guide data, video data, and audio data are packetized and are installed in the satellite 12.2 GHz-12. Transmit to 7 GHz BSS band high power transponder. In this case, packets of a plurality of (up to nine) channels are multiplexed and transmitted on a signal of a predetermined frequency assigned to each transponder. That is, each transponder transmits signals of a plurality of channels with one carrier wave. Therefore, for example, if there are 23 transponders, it is possible to transmit data of a maximum of 207 (= 9 × 23) channels.
[0064]
In the IRD 2, the front end 20 receives a carrier wave of one frequency corresponding to a predetermined one transponder and demodulates it. As a result, packet data of up to nine channels can be obtained. Then, the demultiplexer 24 temporarily stores each packet obtained from the demodulated output in the data buffer memory 35 and reads it out. Regarding the packet of EPG data (guide data, channel data, and program data), the data portion excluding the header is stored in the EPG area 35A. The video packet is supplied to the MPEG video decoder 25 and decoded. The audio packet is supplied to the MPEG audio decoder 26 and decoded.
[0065]
The details of the processing in the encoder of FIG. 10 are described on pages 180 to 189 of “Nikkei Electronics” “Technology supporting the US Information Super Highway” described above, but the transfer rate is the same for each transponder. Schedule so that The transmission rate per carrier wave assigned to each transponder is 40 Mbits / sec.
[0066]
For example, in the case of a fast moving image such as a sports program, MPEG video data occupies many packets. For this reason, when the number of such programs increases, the number of programs that can be transmitted by one transponder decreases.
[0067]
On the other hand, MPEG video data of an image with little motion such as a news program announcement scene can be transmitted with a small number of packets. For this reason, when there are many such programs, the number of programs that can be transmitted by one transponder increases.
[0068]
FIG. 11 shows the internal usage state of the DRAM 25a. Now, for example, if the screen of the monitor device 4 is composed of 720 × 480 pixels, the luminance is represented by 8 bits for each pixel, and the color difference is represented by 8 bits at a rate of 1 for every 2 pixels. The number of bits necessary to configure the data is 4147200 (= 720 × 480 × 1.5 × 8). If one word is composed of 64 bits, this value is 64800 words, and this is expressed as a hexadecimal number of 0xFD20 words.
[0069]
Since this value is too large as a value that can be set in the register in the MPEG video decoder 25 that manages the DRAM 25a, if this value is shifted to the LSB side by 5 bits, 0xFD20 becomes 0x7EQ. Since the value to be set in this register needs to be a multiple of 4, when the value of 0x7EQ is set to a value larger than that value and closest to a multiple of 4, 0x7EC is obtained.
[0070]
Therefore, in this embodiment, buffer memory 0 to buffer memory 2 are provided for storing image data of I picture, P picture and B picture, respectively, and each capacity is 64896 words. An area of 18176 words is secured as a storage area for OSD data, and an area of 49280 words is secured as a bit buffer memory area for temporarily storing input data.
[0071]
FIG. 12 schematically shows a storage state of the EPG data (program guide data) stored in the EPG area 35A of the data buffer memory 35. As described with reference to FIGS. 9 and 10, the CPU 29 stores the EPG data encoded in the encoder on the transmission side and transmitted in packet units in the EPG area 35A as shown in FIG.
[0072]
As shown in the figure, program guide data (Data of Program Guide) (EPG data) is sequentially stored in the order of guide data, channel data, and program data.
[0073]
The guide data includes a date indicating the current date, a time indicating the current time, a number of segments indicating the total number of segments, a number of each segment, and a transponder list corresponding to the corresponding transponder number. Channel List, which is a list of the number of each segment and the top number of the channel that the segment has, is included.
[0074]
After such guide data, channel data is arranged in the order of segment 1, segment 2, segment 3,. In each segment, data of a predetermined number of channels is arranged. In this embodiment, data of channel 1 and channel 2 are arranged in segment 1, and data of channel 3 and channel 4 are arranged in segment 2, respectively.
[0075]
Each channel data includes a channel number indicating the channel number, a channel name indicating the call sign (name) of the broadcasting station, a logo ID for identifying the broadcasting station logo, and MPEG video data and MPEG audio data. Data IDs for identifying the channel, Number of Programs indicating the number of programs (programs) that the channel (for example, channel 1) has, Location (address) where the first program data of a predetermined channel is stored (for example, in the case of channel 2) First Program that represents an offset value from the beginning of the program segment (in the case of FIG. 12, the beginning of Program 1-1) up to the address where the first program data Program2-1 is stored. ram's Offset is included.
[0076]
The program data includes a program title indicating the program name, a start time indicating the broadcast start time, a time length indicating the broadcast time of the program, a category indicating the genre (category) of the program, and a further classification of the genre (category). According to the description category, the rating indicating the age limit of the program, and the program description in which the detailed contents of the program are stored (for example, the conditions for decrypting the pay per view encrypted program data are also included here) It is configured.
[0077]
Such program data is also arranged for each segment. In this embodiment, the program data of segment 1 is composed of data of eight channels 1 from Program 1-1 to Program 1-8 and data of seven channels 2 from Program 2-1 to Program 2-7. .
[0078]
FIG. 13 schematically illustrates data processing until the general guide screen is displayed on the monitor device 4.
[0079]
The CPU 29 presets a transfer destination of data input from the front end 20 in a register 24 a built in the demultiplexer 24. The data supplied from the front end 20 is temporarily stored in the data buffer memory 35, read out by the demultiplexer 24, and transferred to the transfer destination set in the register 24a.
[0080]
As described above, a header is added to each packet, and the demultiplexer 24 refers to this header to supply the MPEG video data to the MPEG video decoder 25 and transfer the MPEG audio data to the MPEG audio decoder 26. When the Data IDs included in the header is guide data, channel data, or program data, these EPG data are stored at a predetermined address in the EPG area 35A set in the register 24a. In this way, EPG data is stored in the EPG area 35A as shown in FIG.
[0081]
Note that the header is discarded when this transfer is completed and is discarded.
[0082]
Thus, for example, when EPG data corresponding to the capacity is stored in the EPG area 35 A having a capacity of 120 Kbytes, the demultiplexer 24 outputs a full-up status signal to the CPU 29. When the CPU 29 receives this control signal, the CPU 29 stops taking in the EPG data, and then executes a decoding process such as decompression, sorting, and decoding of the compressed EPG data when the EPG is displayed.
[0083]
In this way, for example, EPG data from the current time for 200 channels to 4.5 hours later is taken into the EPG area 35A, and this EPG data (guide data, channel data and program data) is received from any transponder. Can also be received. That is, the same EPG data is transmitted in any transponder.
[0084]
Next, the CPU 29 creates a sort table 230 for retrieving data of a predetermined channel from the EPG data stored in the EPG area 35A, and stores it in the SRAM 36 (see FIG. 14 for the creation process of this sort table). Reference later). This sort table 230 corresponds to the entire EPG table 240 for searching for each program from the current time of all channels (for example, 200 channels) to 4.5 hours later. The CPU 29 determines the time (for example, in the example of FIG. 19 described later) from the total EPG table 240 in a predetermined range of channels of the predetermined display area 250 (for example, 7 channels in the example of FIG. 19 described later). Data of a program (program) for 1.5 hours from the time) is read from the EPG area 35A and written as bitmap data in the OSD area 25aA of the DRAM 25a. Then, the MPEG video decoder 25 reads out the bitmap data of the OSD area 25aA and outputs it to the monitor device 4 so that the monitor device 4 can display a guide EPG such as a general guide (FIG. 19).
[0085]
When displaying characters or the like as OSD data, since the character data stored in the EPG area 35A is compressed, a process for restoring it using a dictionary is performed. For this reason, the ROM 37 stores a compression code conversion dictionary. This compression code conversion dictionary includes a syllable dictionary and a word dictionary. One syllable dictionary and three word dictionaries are prepared.
[0086]
A word is represented by 2-byte data, and the first 1 byte is a number representing the dictionary type of these three types of words, and is 0, 1 or 2. Of the two bytes of data, the remaining one byte arranges words prepared in advance in the order of 0 to 255, and one word is represented by the number. When transmitting a predetermined word, the transmitting encoder transmits the 2-byte code, thereby transmitting the word. In the ROM 37, a dictionary identical to the conversion dictionary prepared on the encoder side is prepared, and a 2-byte code is restored to the original word using the conversion dictionary.
[0087]
When transmitting characters other than words prepared in advance, one word is transmitted by combining predetermined ones of 252 types of syllables prepared in advance. This syllable is represented by a 1-byte code.
[0088]
The ROM 37 also stores a correspondence table (address conversion table) between character codes and font bitmap data storage positions. By referring to this conversion table, bitmap data corresponding to a predetermined character code can be read and written to the OSD area 25aA. Of course, the ROM 37 also stores the bitmap data itself at a predetermined address.
[0089]
Further, the ROM 37 stores Log data for displaying Log, and also stores a Log ID and an address conversion table for calling Log data (bitmap data) corresponding to the ID. When the Log ID is known, the Log data stored at the address corresponding to the ID is read out and written in the OSD area 25aA, so that the Log of each broadcasting station can be displayed on the monitor device 4. ing.
[0090]
The sort table stored in the SRAM 36 is prepared in the order of channel numbers. If a specific channel or program is extracted using the category or the order is changed, the sort table is rewritten. Like that. However, as will be described later, this sort table is a table in which channel data and program data position information (pointers) are stored, and the program data and channel data pointers are in pairs. Therefore, when the program data and channel data are rewritten, they are rewritten in pairs.
[0091]
FIG. 14 shows a processing example for creating a sort table to be written to the SRAM 36. For example, considering an EPG of 4.5 hours on 200 channels, assuming that the minimum time of each program is 0.5 hours (30 minutes), a maximum of 9 programs can be transmitted on one channel. With 200 channels, a maximum of 1800 (= 200 × 9) programs are transmitted. Therefore, in the processing example of FIG.
[0092]
First, in step S1, 0 is initially set to the variable N, and 1 is initially set to the variable L. This variable N represents the number of sets (addresses) of the sort table and takes a value of 0 to 1799, for example. The variable L represents a channel number and takes any value from 1 to 200.
[0093]
In step S2, the address PC of the EPG area 35A corresponding to the channel number L (channel number 1 in this case) is set as the Pointer of Channel Data of the address N (N = 0 in this case) of the sort table of the SRAM 36._L(In this case PC₁) Is set. Thus, in this case, the address PC in the EPG area 35A of Channel 1 is used as the Pointer of Channel Data at address 0.₁Is set.
[0094]
Next, in step S3, First Program's Offset and Number of Program are acquired from Channel Data of channel number L. This First Program's Offset is used to search for Program LM in step S5.
[0095]
In step S4, 1 is initially set to the variable M. This variable M represents the number of programs on the same channel (Number of Programs) and takes one of the values 1 to 9. Further, in step S5, the address of the EPG area 35A corresponding to Program LM (Program 1-1 in this case) is set as Pointer of Program Data of the address N (N = 0 in this case) of the sort table. . Thus, in this case, the address PP in the EPG area 35A of Program 1-1 is used as the Pointer of Program Data of address 0._1-1Is set.
[0096]
Next, in step S6, it is determined whether or not the variable M is equal to or greater than the number of programs Number of Programs of the channel. If the value of M is still smaller than the number of programs on the same channel, the process proceeds to step S7, where the variables N and M are incremented by 1, respectively, so that N = 1 and M = 2. Further, in step S8, the address PC of the EPG area 35A corresponding to the channel number L (channel number 1 in this case) is used as the Pointerof Channel Data of the address N (address 1 in this case) of the sort table.₁Set.
[0097]
Next, the process returns to step S5, and the subsequent processing is similarly executed.
[0098]
By repeating the processes of steps S5 to S8, for example, as shown in FIG. 15, the PC of the sort table is changed from address 0 to address 7 as Pointer of Channel Data.₁Is memorized. In addition, as Pointer of Program Data of addresses 0 to 7 of the sort table, the address PP of the EPG area 35A of Programs 1-1 to 1-8 is used._1-1To PP_1-8Are stored respectively.
[0099]
When the above process is completed, it is determined in step S6 that the variable M is equal to Number of Programs, and the process proceeds to step S9. In step S9, it is determined whether the variable N is 1799 or more, or whether the corresponding channel data no longer exists. When these conditions are not satisfied, the process proceeds to step S10, and the variables N and L are incremented by one. In this case, N = 8 and L = 2.
[0100]
Thereafter, the process returns to step S2, and the same processing is repeatedly executed. As a result, as shown in FIG. 15, PC as Pointerof Channel Data is assigned to addresses 8 to 14 of the sort table.₂Is Pointer of Program Data, PP_2-1To PP_2-7Are written respectively. The same applies hereinafter.
[0101]
Next, a processing example for displaying a general guide on the monitor device 4 will be described with reference to a flowchart of FIG. First, in step S21, it is determined whether or not a predetermined button switch of the remote commander 5 has been operated, and waits until it is operated.
[0102]
That is, when the CPU 72 of the remote commander 5 detects that a predetermined button switch has been operated via the button switch matrix 82 or the main body 161 of the select button switch 131, the CPU 72 drives the LED 76 via the LED driver 75 to operate the button 76. The infrared signal corresponding to the button switch is output.
[0103]
The CPU 29 of the IRD 2 receives this infrared signal input via the IR receiver 39 and determines which button switch of the remote commander 5 is operated from the input signal.
[0104]
If it is determined in step S21 that the predetermined button switch has been operated, the process proceeds to step S22, and it is determined whether or not the menu button switch 134 has been operated. If it is determined that the menu button switch 134 has been operated, the process proceeds to step S23, and the CPU 29 executes menu display processing.
[0105]
That is, the CPU 29 causes bitmap data of the main menu, for example, as shown in FIG. 17 to be written in the OSD area 25aA of the DRAM 25a corresponding to the EPG data (program guide data) stored in the EPG area 35A. The bitmap data is read from the DRAM 25aA, input from the MPEG video decoder 25 to the NTSC encoder 27, and converted to NTSC data. This NTSC data is supplied to the monitor device 4 via the AV line 11 and displayed as an S video signal or a composite signal. As a result, for example, as shown in FIG. 18, the main menu shown in FIG. 17 is displayed on the CRT 4A of the monitor device 4 as a window superimposed on the image of the channel currently received and displayed. This is because the MPEG video decoder 25 reads the bitmap data from the OSD area aA in the DRAM 25a every time the predetermined window display area data is read in the process of decoding the video data compressed by the MPEG system. This is realized by reading and outputting.
[0106]
In the main menu screen of FIG. 18, the window is divided into nine areas, and button icons (soft buttons) for selecting a predetermined mode are displayed in each area. The user operates the select button switch 131 in one of the eight directions in the horizontal plane to change the cursor (in this embodiment, a predetermined button icon has a brightness (brightness different from that of the other button icons). ) Or color or blink (flashing), and this is the cursor. In the case of FIG. 18, the cursor is positioned on the button icon of the GENERAL GUIDE) in either direction. Can be moved.
[0107]
For example, when the select button switch 131 is operated in the left direction from the button icon of the general guide, the cursor moves on the button icon of OTHER GUIDES. Further, when operated in a diagonally downward left direction, the button moves from the GENERAL GUIDE button icon to the SPORTS GUIDE button icon.
[0108]
For example, in the case where the select button switch 131 can be operated only in four directions, up, down, left, and right, in order to move the cursor from the GENERAL GUIDE button icon to the SPORTS GUIDE button icon, the cursor is once moved to the left side, Further, it is necessary to move it further downward or temporarily move it downward and then move it further to the left. That is, in this case, two operations are required. On the other hand, if the select button switch 131 can be operated not only in the up / down / left / right direction but also in the oblique direction as in the embodiment of FIG. 5, the cursor is moved to the GENERAL GUIDE button in one operation. It can be moved from the icon onto the SPORTS GUIDE button icon.
[0109]
The user moves the cursor over a predetermined button icon to select a predetermined mode, and further performs a selection operation (vertical operation) in which the select button switch 131 is pressed vertically to confirm the selection.
[0110]
In step S24, it is determined whether or not the general guide button icon has been selected and confirmed. When the button icon of the general guide is selected and confirmed (selected), the process proceeds to step S25, and the general guide display process is executed. Details of the general guide display process will be described later with reference to FIG.
[0111]
If it is determined in step S24 that the button icon of the general guide is not selected, the process proceeds to step S27, and it is determined whether or not another button icon is selected. If not, the process returns to step S23. Continue menu display.
[0112]
If it is determined in step S27 that a button icon other than the general guide has been selected and confirmed, the process proceeds to step S28, and processing corresponding to the selected and confirmed button icon is executed.
[0113]
On the other hand, if it is determined in step S22 that the input from the remote commander 5 is not an operation of the menu button switch 134, the process proceeds to step S26 to determine whether or not the guide button switch 143 has been operated. Determined. When it is determined that the guide button switch 143 has been operated, the process proceeds to step S25, and general guide display processing is executed.
[0114]
On the other hand, if it is determined in step S26 that any button switch other than the general guide button switch 143 has been operated, the process proceeds to step S28, and processing corresponding to the operated button switch is executed.
[0115]
As described above, the general guide can be displayed via the menu, or can be directly displayed by operating the guide button switch 143.
[0116]
As a result of the execution of the general guide display process in step S25 of FIG. 16, a general guide bitmap as shown in FIG. 19 is written in the OSD area 25aA of the DRAM 25a. This is read out by the MPEG video decoder 25 and superimposed on the image of the broadcast channel selected at that time by the demultiplexer 24 and displayed as a window as shown in FIG.
[0117]
In the general guide of this embodiment, the vertical axis is the channel axis, and the call sign (broadcast station name) of each broadcast station and the channel number are displayed. The horizontal axis is the time axis, and the broadcast time is displayed. Program names (program names) are displayed in a matrix at predetermined positions defined by two axes. In this embodiment, program names of one and a half hours from the current time of seven channels are displayed for each channel. When the direction of the select button switch 131 of the remote commander 5 is operated, the cursor 212 displayed with a different brightness (brightness) or color moves to a button icon corresponding to the direction operation.
[0118]
This will be described in more detail. In the general guide shown in FIG. 20, an area in which program names are displayed in a matrix (grid) is called a program name display area 220. The program name display area 220 corresponds to the display area 250 shown in FIG. To do. Then, within the range of the program name display area 220, the direction of the select button switch 131 is changed upward (toward the operator), downward (toward the operator), rightward or leftward. Thus, the cursor 212 moves upward, downward, rightward, or leftward.
[0119]
Here, if the cursor 212 is moved to the top, bottom, left, and right ends of the program name display area 220 and the direction operation of the select button switch 131 is further performed, the display contents of the program name display area 220 are scrolled. . For example, when the cursor 212 is positioned on the bottom line of the program name display area 220 and the select button switch 131 is operated in the downward direction, the display content of the program name display area 220 is scrolled upward by one line. Here, since the cursor 212 remains stopped at the bottom line, as a result, the cursor 212 has moved down by one line in the entire EPG table 240 showing the entire EPG shown in FIG. . Similarly for the upper, left and right sides, scrolling is performed until the end of all EPG tables 240 is reached.
[0120]
Further, the select button switch 131 can be operated in a total of eight directions including four directions of up and down directions, diagonal upper left, diagonal upper right, diagonal lower left, and diagonal lower right. The movement is also made to move in eight directions according to the eight-way operation of the select button switch 131.
[0121]
Such an eight-way operation of the select button switch 131 for moving the cursor 212 and a vertical operation (selection of the select button switch 131 for confirming the selection of the program where the cursor 212 is subsequently performed are performed. A series of operations (operation) can be performed with only the thumb and without changing the remote commander 5, thereby improving operability.
[0122]
Here, if a similar cursor movement operation is to be realized using a remote commander provided with four-way cursor keys and select buttons, a plurality of operations are involved until a program is selected. For example, as shown in FIG. 20, the cursor 212 displayed in the leftmost column of the fourth row of the program name display area 220 (rectangular area indicating the program name of 9:30 to 10:00 of TBS 233) is moved to the top. To move to the bottom rightmost column (rectangular area indicating the program name from 10:30 to 11:00 in SCFI 240), press the down cursor key three times and the right cursor key twice, then select The button has to be pressed, requiring a total of six pressing operations, and it is also necessary to change the remote commander each time the next pressed button is different.
[0123]
Therefore, it is conceivable to provide an eight-way cursor key instead of the four-way cursor key described above. However, in this case, it is necessary to secure a large exclusive area on the operation surface of the remote commander, which hinders the miniaturization of the remote commander itself, and avoids deterioration in operability due to the arrangement of more push buttons. I can't.
[0124]
In the present embodiment, by operating the select button switch 131 in any of eight directions with the thumb, it functions as a cursor key for moving the cursor 212 in the eight directions, and the select button switch 131 is pressed with the thumb as it is. By performing a vertical operation, it functions as a select button for confirming the selection of the program. Therefore, a series of operations from the movement of the cursor 212 to the selection of the program are all performed using only one finger such as the thumb. In addition, the remote commander 5 can be operated without changing.
[0125]
The above-mentioned general guide also displays the name of the EPG (General Guide), the logo of the currently selected station (broadcast station), the contents of the program, the current date and time, and the like.
[0126]
FIG. 21 shows details of the general guide display process in step S25 of FIG. First, in step S40, the CPU 29 sets the register of the MPEG video decoder 25 so that the image of the channel currently received (decoded) is a still image. This still image setting is executed by continuously reading from one of the buffer memories 0 to 2 shown in FIG. 11 and not updating the buffer memory. .
[0127]
Next, in step S41, fixed display contents such as ruled lines of the general guide and variable display contents such as start time and call sign are written in the OSD area 25aA of the DRAM 25a. Next, in step S42, 0 is initially set to the variable N corresponding to the address of the sort table. In step S43, 1 is initially set to a variable L representing the seven call signs (channels) of the general guide shown in FIG. 19 and the number of lines of the program name corresponding thereto.
[0128]
In step S44, the compressed character string of Channel Name is read out based on the Pointer of Channel Data at the address N (N = 0 in this case) of the sort table of the SRAM 36, and is stored in the ROM 37. By referring to the code conversion dictionary and the character code / bitmap conversion table, the original character string is restored. Further, bitmap data of the character string (Channel Name) is obtained and written in the Channel Name field of the Lth line (the first line in this case) of the OSD area 25aA. For example, in the embodiment shown in FIG. 19, the channel name “TOON” is written. Similarly, the Channel Number is also written. That is, the number “227” corresponding to “TOON” is written.
[0129]
Next, the process proceeds to step S45, where Start Time and TimeLength are read based on Pointer of Program Data at address 0 of the sort table, and a program (program) selection button icon (the data is also stored in ROM 37) at the corresponding coordinate position. Write (stored in advance). Also, the program title is read out, the character string of the program title is restored by referring to the compression code conversion dictionary and the character code / bitmap conversion table, and the bitmap data is obtained and written on the button icon. In this way, for example, the name of the program broadcast for 1 hour and 30 minutes from 9:30 pm to 11:00 pm of “TOON” is written.
[0130]
In step S46, the coordinate position of the button icon written in step S45 and the channel data are stored in the SRAM 36 in preparation for the user's future program selection.
[0131]
As described above, the variable N is incremented by 1 in step S50 until it is determined in step S47 that the call sign and program name for one line have been written in the OSD area 25aA, and steps S44, S45, and S46 are performed. , S47, and S50 are repeatedly executed. When it is determined in step S47 that writing for one row has been completed, the variable L is incremented by 1 in step S48 (in this case, L = 2). In step S49, it is determined whether or not L is equal to 8 (determining whether or not writing for seven channels is completed). Since L = 2 in this case, after setting the address N corresponding to the first program in the next line (next channel) in step S51, the process returns to step S44, and the subsequent processing is repeatedly executed.
[0132]
As described above, by repeating the processes of steps S44 to S51, seven call signs and program names are written. When this writing is completed, it is determined that L = 8 in step S49, and the process is terminated.
[0133]
In the processing of FIG. 21, the display contents are omitted for the sake of simplicity, but in reality, all characters, logos, and the like shown in FIG. 19 are written in the OSD area 25aA.
[0134]
Next, processing for selecting a desired program (program) in a state where the general guide as shown in FIG. 20 is displayed will be described with reference to the flowchart of FIG. The user operates the select button switch 131 to move the cursor 212 over the button icon on which a predetermined program name is displayed. When the selection of the program is confirmed, the select button switch 131 is vertically operated (select operation).
[0135]
First, in step S61, the process waits until there is some input from the remote commander 5. If there is an input, the process proceeds to step S62, and it is determined whether or not the input is a select operation input. In step S64, it is determined whether or not a direction operation has been performed. When it is determined that the direction operation has not been performed, the button switches other than the select button switch 131 have been operated. In this case, the process returns to step S61 without any particular processing, and the next remote commander Wait for input from 5.
[0136]
If it is determined in step S64 that the select button switch 131 has been operated in a direction, the process proceeds to step S65, and a process of moving the cursor 212 in a direction corresponding to the operation direction is executed. That is, the cursor bitmap data writing position in the OSD area 25aA is changed to a button icon corresponding to the operation of the select button switch 131.
[0137]
Next, in step S66, the transponder number of the program on the button icon where the cursor is located is obtained. The transponder number can be obtained based on the transponder list from the segment number by specifying the segment number from the channel list of the guide data. Further, the data ID of the program is read from the DataIDs of the channel data.
[0138]
Next, the process proceeds to step S67, and it is determined whether or not the program selected in step S66 is to be displayed even if it is a pay-per-view program. A predetermined message can be displayed on the CRT 4A, and YES or NO can be input each time to make this determination. However, this makes the operation complicated. Therefore, for example, even when the IRD 2 is purchased, even if the program is a pay-per-view program, whether or not to display the program is input in advance, and this is stored in the EEPROM 38, and the determination here is performed from this storage. It is preferable to do so.
[0139]
If the program is not a pay-per-view program, and if the program is determined to be displayed even if it is a pay-per-view program, the process proceeds to step S69, and the transponder number read in step S66 is set in the channel selection control routine of the front end 20 To do. As a result, the tuner 21 of the front end 20 receives the carrier wave having the transponder number set by the CPU 29. However, when the data of the channel corresponding to the button icon to which the cursor is moved is transmitted on the same carrier wave as the data of the channel corresponding to the button icon before the cursor is moved (transponder number is the same) ), Carrier wave (frequency) switching is unnecessary, and this process is skipped (through).
[0140]
In step S70, it is confirmed from the status in the register (not shown) of the front end 20 that the tuning control routine has been locked. That is, it is confirmed that the carrier wave having the transponder number set in step S69 has been received.
[0141]
In step S71, the ID of the packet to be taken into the register 24aA of the demultiplexer 24 (ID read in step S66) is set. As a result, the demultiplexer 24 extracts the packet of the program selected in step S66 from the packets included in the carrier of the transponder number set in step S69 output from the front end 20, and the packet data is extracted to the data buffer. It is temporarily stored in the buffer area of the memory 35.
[0142]
Next, in step S72, a conditional access check is performed. That is, since the pay-per-view program is encrypted, it is decrypted. Since this process is unnecessary for a program that is not pay-per-view (an unencrypted program), this process is skipped (through).
[0143]
In step S73, a predetermined setting is made in the register 24a of the demultiplexer 24 so that video data is supplied to the MPEG video decoder 25 and audio data is supplied to the MPEG audio decoder 26.
[0144]
Next, in step S74, the start of decoding is set in the registers (not shown) of the MPEG video decoder 25 and the MPEG audio decoder 26. As a result, the image data and audio data of the program selected in step S66 are decoded and output from the MPEG video decoder 25 and the MPEG audio decoder 26. This is supplied to the monitor device 4 for display and output as sound.
[0145]
Thereafter, the process returns to step S61 and waits for the next input from the remote commander 5. When the cursor is further moved, the same processing is repeatedly executed. If a new cursor movement is input during the execution of steps S66 to S74, the processing up to that point is stopped, and the process corresponding to the new cursor movement starts immediately. Is done.
[0146]
If it is determined in step S67 that the pay-per-view program does not need to be displayed, the process proceeds to step S68, where the MPEG video decoder 25 is instructed to output a blue-back image.
[0147]
As a result, when the process of step S74 is performed, an image of the program designated by the cursor 212 is displayed as a background image of the general guide shown in FIG. 20, and an accompanying audio signal is output. . On the other hand, when the program designated by the cursor 212 is a pay-per-view program, when the display is registered as unnecessary, the background image is one blue color. At this time, no sound is output.
[0148]
When the program specified by the cursor is a pay-per-view program, it is not received as necessary. Therefore, while the desired program is being selected, it happens to be an icon on the pay-per-view program. It is possible to prevent the user from being charged only by passing above and being charged for the user.
[0149]
As described above, by simply operating the select button switch 131 to move the cursor 212 to a predetermined position, a reception command for the program designated by the cursor 212 is immediately output to the front end 20 and reception processing is started. The As a result, since the reception process of the program has been started before the select button switch 131 is operated to finally confirm the selection of a predetermined program, at the time when the select button switch 131 is selected. Even if the reception operation of the program has already been completed or has not been completed, the program can be displayed on the monitor device 4 in a shorter time than when the reception process is started from that point.
[0150]
Accordingly, if it is determined in step S62 that a select operation, that is, a vertical operation has been performed, the process proceeds to step S63, and the OSD display cancellation is set in the register of the MPEG video decoder 25. Thereby, the display of the window screen of the general guide is canceled.
[0151]
Furthermore, in step S63, the still picture output cancellation set in step S40 of FIG. 21 is also set in the register of the MPEG video decoder 25. As a result, since the decoding of the screen after switching has already started in step S74, the image of the channel after switching is immediately displayed as the image of the receiving channel after the still image is erased.
[0152]
As described above, in this embodiment, when the general guide is displayed, the background image is fixed as a still image, the cursor is moved on the general guide screen, and when a predetermined program is selected, the general guide screen is displayed. Since the image of the selected channel is displayed at the same time, the background image is prevented from being disturbed and difficult to see when the desired program is selected on the general guide screen. The
[0153]
In the above embodiment, when the general guide screen is displayed, the image of the channel displayed immediately before is fixed as a still image. However, each time the cursor is moved on the general guide, It is also possible to fix the background image as a still image.
[0154]
FIG. 23 and FIG. 24 show processing examples in this case. FIG. 23 corresponds to the process of FIG. 21, and FIG. 24 corresponds to the process of FIG.
[0155]
The general guide display process of FIG. 23 is basically the same process as the general guide display process shown in FIG. However, the process of step S40 in FIG. 21 is omitted. In other words, in this embodiment, when the general guide screen is displayed, the background image is not yet a still image but is in a moving image state.
[0156]
Next, the program selection process of FIG. 24 will be described. This program selection process is basically the same process as the program selection process shown in FIG. 22, but step S91 is inserted between steps S67 and S69, and step S92 is inserted between steps S74 and S61. And the process in step S63 is changed to the process of step S93. Other processes are the same as those in FIG.
[0157]
That is, in this embodiment, the direction of the select button switch 131 is operated, the cursor is moved in step S65, and the program (program) data corresponding to the moved button icon is read in step S66. If it is determined in step S67 that the program is set to be displayed even if it is a pay-per-view program, the process proceeds to step S91, and the image to be output is stored in the register of the MPEG video decoder 25 as a still image. In addition, a setting for muting the audio output is made in the register of the MPEG audio decoder 26. That is, when the cursor is moved over the button icon of another program, the image of the program that has been displayed as a moving image before the cursor moves is changed to a still image, and the audio signal is muted.
[0158]
In steps S69 to S74, the MPEG video decoder 25 and the MPEG audio decoder 26 execute a program receiving process and a decoding process corresponding to the button icon to which the cursor has moved.
[0159]
Then, when these processes are completed, the process proceeds to step S92, and the still image setting and the mute setting performed in step S91 are canceled. As a result, the still image of the program corresponding to the button icon before moving the cursor, which has been displayed as a still image, is switched to the moving image of the program after the cursor is moved. Then, the process returns to step S61 and waits for an input from a new remote commander 5.
[0160]
If it is determined in step S62 that the select button switch 131 has been selected, the process proceeds to step S93, and the OSD display cancellation is set in the register of the MPEG video decoder 25. As a result, the screen of the general guide that has been displayed is deleted. Then, the moving image of the program corresponding to the button icon after switching that is already displayed is displayed.
[0161]
As described above, in this embodiment, when the cursor is moved over a new button icon, the image displayed in the background is changed to a still image, and the program receiving process corresponding to the destination button icon is immediately started. Is done. When the reception process is completed, the still image is changed to a moving image of the program to which the cursor is moved. Therefore, the user can more reliably recognize that the program has been switched compared to the above-described embodiment.
[0162]
If an operation for moving the cursor to a new button icon is input after the cursor is moved to a new button icon in step S65 and before the processes of steps S66 to S92 are completed, Those processes are interrupted, and a process for the program (channel) corresponding to the moved button icon is further performed.
[0163]
Further, in the IRD 2 shown in FIG. 4, when the program (channel) switching is input by operating the channel up / down button switch 133 of the remote commander 5, or the number button switch 138 is operated, the channel number is input. Even in this case, still image processing at the time of switching is executed.
[0164]
That is, when the channel up / down button switch 133 is operated to input a command to up or down the channel, or the numeric button switch 138 is operated to directly input a predetermined channel number, The channel (program) switching process shown in the flowchart of 25 is executed.
[0165]
First, in step S111, a process of setting the currently received program image as a still image and muting the sound is executed. That is, settings for this are made in the registers of the MPEG video decoder 25 and the MPEG audio decoder 26, respectively. Thus, when channel switching input is performed, the image of the program that has been displayed so far is made a still image, and the audio signal is muted.
[0166]
Next, the process proceeds to step S112, and the reception process of the switched program (channel) is started. That is, the CPU 29 controls the demultiplexer 24 and the front end 20 as necessary in response to the newly input channel, and starts reception processing for a new channel (channel after switching). In step S113, the process waits until the process for switching channels is completed. When the switching process is completed, the process proceeds to step S114, and the mute of the still image and the sound set in step S111 is canceled. That is, at this time, the moving image of the channel after switching is displayed and the corresponding audio signal is output.
[0167]
Therefore, it is possible to prevent the image from being disturbed and difficult to see even during such channel switching.
[0168]
FIG. 26 shows another configuration example of the remote commander 5. In this embodiment, instead of the select button switch 131 that can be operated in eight directions in FIG. 5, four direction button switches 201 to 204 of up, down, left, and right, and a button switch 200 for performing a select operation are provided. Yes. Further, in this embodiment, the cable button switch 145, the TV button switch 146, and the DSS button switch 147 are internally illuminated, and the LEDs 148 to 150 in FIG. 5 are omitted and arranged on the back side of the button switches 145 to 147. An LED (not shown) is lit in response to the operation.
[0169]
The other button switches are basically the same as those shown in FIG. 5 although their arrangement positions are different.
[0170]
In the above embodiments, the cursor is displayed with a predetermined brightness, color, or blink corresponding to the button icon, but it can also be displayed with an arrow or the like independent of the button icon. is there. In short, any device that functions as a pointer for designating a predetermined position may be used.
[0171]
In the above embodiment, the program is selected in the general guide mode. However, the present invention can also be applied to the case of selecting a program in other modes.
[0172]
Furthermore, although the case where the present invention is applied to the IRD 2 has been described as an example, the IRD can be substantially incorporated in the monitor device 4 (television receiver).
[0173]
【The invention's effect】
The present inventionAccording to the above, when switching of a program is instructed in a state where an image of a predetermined program is displayed, the image of the program before switching is temporarily set as a still image, and then the still image is released, and the program after switching Image. Therefore, it is possible to prevent the image from being disturbed when the program is switched and the image from being difficult to see.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a configuration example of an AV system to which the present invention is applied.
FIG. 2 is a block diagram showing an electrical connection state of the AV system of FIG.
FIG. 3 is a front view showing a configuration example of the front of the IRD 2 in FIG. 1;
4 is a block diagram showing an example of the internal configuration of an IRD 2 in FIG. 1. FIG.
FIG. 5 is a plan view showing a configuration example of an upper surface of the remote commander 5 of FIG. 1;
6 is a perspective view showing a configuration example of a small stick switch constituting the select button switch 131 of FIG. 5. FIG.
7 is a diagram illustrating an operation direction of the lever 162 in FIG. 6 in a horizontal plane.
FIG. 8 is a block diagram illustrating an internal configuration example of the remote commander 5 of FIG. 5;
FIG. 9 is a diagram illustrating segmentation of channel data and program data.
FIG. 10 is a diagram showing processing in the encoder on the transmission side and processing of IRD2 that receives the output.
11 is a diagram for explaining a division of a storage area of the DRAM 25a of FIG. 4;
12 is a diagram illustrating EPG data stored in an EPG area 35A of FIG.
FIG. 13 is a diagram illustrating creation of a sort table.
FIG. 14 is a flowchart showing sort table creation processing;
FIG. 15 is a diagram illustrating pointers stored in a sort table.
FIG. 16 is a flowchart for explaining the operation of the embodiment of FIG. 4;
FIG. 17 is a diagram showing a display example of a menu displayed in step S23 of FIG.
FIG. 18 is a diagram showing a state in which the menu shown in FIG. 17 is superimposed and displayed on the image of the reception channel as a window.
FIG. 19 is a diagram showing a display example of a general guide displayed in step S25 of FIG.
20 is a diagram showing a state in which the general guide shown in FIG. 19 is superimposed and displayed on the image of the reception channel as a window.
FIG. 21 is a flowchart showing details of the general guide display process in step S25 of FIG.
FIG. 22 is a flowchart illustrating a program selection process in a general guide display state.
FIG. 23 is another flowchart showing details of the general guide display process in step S25 of FIG.
FIG. 24 is another flowchart for explaining a program selection process in the general guide display state.
FIG. 25 is a flowchart showing processing at the time of channel switching.
FIG. 26 is a plan view showing another configuration example of the remote commander.
[Explanation of symbols]
1 AV system
2 IRD
3 Parabolic antenna
4 Monitor device
4A CRT
5 Remote Commander
21 tuner
23 Error correction circuit
24 Demultiplexer
25 MPEG video decoder
25a DRAM
26 MPEG audio decoder
26a DRAM
29 CPU
35 Data buffer memory
35A EPG area
36 SRAM
37 ROM
38 EEPROM
39 IR receiver
131 Select button switch
143 Guide button switch
161 body
162 Lever

Claims (18)

Receiving means for receiving a signal of a program of a predetermined broadcast channel;
Operating means operated when switching the program to be received;
A selection screen output means operated when outputting a selection screen having button icons corresponding to a plurality of the programs;
When the switching of the program to be received is instructed, the image of the program before switching is output as a still image, and when an operation for outputting the selection screen is performed, the still image output that outputs the still image Means,
Control means for controlling the still image output means and the receiving means,
When the switching of the program to be received is instructed, the control means causes the receiving means to start receiving the program after switching, and controls the still image output means to temporarily output the still image. A program switching device, wherein after the reception process of the program after switching is completed, the output of the still image is canceled and the received signal of the program after switching is output. The program switching device according to claim 1, further comprising display means for displaying an image of the program received by the receiving means. The said still image output means mutes the audio signal when outputting the still image, and also cancels the mute of the audio signal when canceling the output of the still image. The program switching device described. The program switching device according to any one of claims 1 to 3, wherein the operation means is an up / down button switch for raising or lowering a channel of the program. The program switching device according to any one of claims 1 to 3, wherein the operation means is a numeric button switch for inputting a channel number of the program. The selection screen output means outputs the selection screen as a window to be superimposed on the image of the program receiving the selection screen,
The program switching according to any one of claims 1 to 3, wherein the operation means is operated when a cursor for selecting the button icon is moved onto a predetermined button icon on the selection screen. apparatus. The operation means includes
Cursor moving means operated when moving the cursor;
The program switching device according to claim 6, further comprising: a button icon selection unit that is operated when the button icon designated by the cursor is selected. The program switching device according to claim 7, wherein the cursor moving means and the button icon selecting means can be operated with one finger. In a state where a program image of a predetermined channel is displayed, when the switching of the program is instructed, reception processing of the program after switching is started, and the image of the program before switching is output as a still image, After the reception process of the program after switching is completed, the output of the still image is canceled, and the received signal of the program after switching is output ,
When an operation for outputting a selection screen having button icons corresponding to a plurality of the programs is performed in a state where an image of a program of a predetermined channel is displayed, the display is performed before the operation is performed. A program switching method, wherein a program image is output as a still image . Receiving means for receiving a signal of a program of a predetermined broadcast channel;
Selection screen output means operated when outputting a selection screen having button icons corresponding to a plurality of the programs;
Operating means operated at least one of when switching the program to be received or when moving a cursor for selecting the button icon on a predetermined button icon of the selection screen;
Still image output means for outputting an image of the program before switching as a still image when switching of the program to be received is instructed;
Control means for controlling the still image output means and the receiving means,
When the switching of the program to be received is instructed, the control means causes the receiving means to start receiving the program after switching, and controls the still image output means to temporarily output the still image. After the reception process of the program after switching is completed, control is performed to cancel the output of the still image and output the received signal of the program after switching, and the cursor is moved to the other button icon. When moved up, the still image output unit is controlled to output the still image corresponding to the button icon before the cursor is moved.
A program switching device characterized by that. The selection screen output means outputs the selection screen as a window to be superimposed on the image of the program receiving the selection screen.
The program switching device according to claim 10. The operation means includes
Cursor moving means operated when moving the cursor;
Button icon selection means operated when selecting the button icon designated by the cursor.
The program switching device according to claim 10. The cursor moving means and the button icon selecting means can be operated with one finger.
The program switching device according to claim 12, wherein Display means for displaying an image of the program received by the receiving means;
The program switching device according to claim 10, further comprising: The still image output means mutes the audio signal when outputting the still image, and also cancels the mute of the audio signal when canceling the output of the still image.
The program switching device according to claim 10. The operation means is an up / down button switch for raising or lowering the channel of the program.
The program switching device according to claim 10. The operation means is a numeric button switch for inputting a channel number of the program.
The program switching device according to claim 10. In a state where an image of a program of a predetermined channel is displayed, the switching of the program is performed. When instructed to start receiving the program after switching, output the image of the program before switching as a still image, and cancel the output of the still image after completing the receiving processing of the program after switching And output the received program signal after switching,
In a state where a selection screen having button icons corresponding to a plurality of programs is displayed, when the cursor movement for selecting the button icon is operated on a predetermined button icon on the selection screen, the cursor Output a still image corresponding to the button icon before is moved
A program switching method characterized by the above.

Images