JPWO2013145247A1 - Information processing apparatus, information processing method, and program - Google Patents

Abstract

When the control device detects an operation instruction for requesting output processing of video or sound from the output device based on a signal from the first processing device before starting the first processing device, the second fast-starting device is started. A determination unit that determines whether or not the processing device is activated; and when the determination unit determines that the second processing device is not activated, the second processing device is activated and the output control device On the other hand, a video or sound is output from the output device based on a signal from the second processing device, and a command unit that instructs the first processing device to output a video or sound signal.

Description

The present invention relates to an apparatus for executing processing related to video or sound.

  In an information processing apparatus such as a PC (personal computer) with a TV function, there is a case where a TV function specialized for fast start-up is provided by using a viewing tuner that operates independently of information processing. Here, the quick start means that, for example, the time until the television can be viewed is shorter than the time until the start of the information processing apparatus.

  On the other hand, the combination of a built-in tuner built into the information processing apparatus and a computer program such as a driver or an application that operates on an OS (operating system) allows the information processing apparatus to add various images and sounds related to viewing. Realize the function.

  Examples of such additional functions related to viewing of video, sound, and the like include functions such as program recording, reservation, program search, chasing playback, and network cooperation. When a request for using such an additional function is generated, the information processing apparatus is first activated. However, the activation time of the information processing apparatus is usually longer than the activation time of a viewing tuner that operates alone.

JP 2007-166481 JP 2003-008458 A

  For example, when the information processing device is not activated and a request for switching from the user to the tuner with a built-in information processing device is received from the control unit of the information processing device through an operation unit such as a remote controller during video display by the viewing tuner. Think. In this case, the control unit first activates the information processing apparatus. Then, the control unit may continue viewing by the viewing tuner until activation of the information processing apparatus is completed. Here, examples of the operation unit from which the user issues a request for switching to the tuner with built-in information processing apparatus include a change-over switch, a remote controller, and a keyboard button provided in the information processing apparatus main body.

  Further, the control unit acquires the service ID of the channel being viewed by the viewing tuner. Then, after the information processing apparatus is activated, when the preparation for drawing is completed by the built-in tuner, driver, and application, the control unit may hand over information such as a service ID to the built-in tuner.

  As described above, until the information processing apparatus is activated and the above preparation is completed, the control unit continues to view the video on the same channel between the viewing tuner and the information processing apparatus built-in tuner. Can be switched while receiving. As a result, the control unit can prevent the user's viewing from being interrupted as much as possible with the activation of the information processing apparatus. Then, the information processing apparatus may provide the user with an additional function by the application after switching to viewing from the built-in tuner.

  However, a problem arises when the screen does not display the output video of the viewing tuner. That is, until the information processing apparatus is activated, the internal tuner, the driver, and the application are ready for drawing and the viewing is started, the user has a waiting time, and the viewing request cannot be satisfied quickly. An object of the present invention is to provide a device that executes processing related to video or sound, and does not depend on the state of processing of the device, and prevents a situation in which viewing is interrupted until video or sound from the device is started to be viewed. To provide technology that can be mitigated.

  One aspect of the present invention is exemplified by the following information processing apparatus. The information processing apparatus has an interface capable of connecting a first processing device that supplies a video or sound signal and a second processing device that starts up faster than the first processing device and supplies a video or sound signal. And an output control device that outputs video or sound from the output device based on a signal from the first processing device or the second processing device, and an operation instruction to the first processing device or via the interface A control device that acquires an operation instruction to the second processing device and executes processing according to the acquired operation instruction.

  When the control device detects an operation instruction requesting output processing of video or sound from the output device based on a signal from the first processing device before the first processing device is activated, the second processing device A determination unit that determines whether or not the second processing device is activated; and when the determination unit determines that the second processing device is not activated, the second processing device is activated to And outputting a video or sound from the output device based on a signal from the second processing device, and a command unit for instructing the first processing device to output a video or sound signal.

  According to the information processing apparatus, in an apparatus that executes processing related to video or sound, viewing is interrupted until the start of viewing of video or sound from the apparatus without depending on the state of processing of the apparatus. Can ease the situation.

It is a figure which illustrates the composition of an information processor. It is a figure which illustrates the block diagram of a remote controller. It is a flowchart which illustrates the broadcast reception process which concerns on a comparative example. It is a flowchart which illustrates the broadcast reception process of information processing apparatus.

  Hereinafter, an information processing apparatus 10 according to an embodiment will be described with reference to the drawings. The configuration of the following embodiment is an exemplification, and the information processing apparatus 10 is not limited to the configuration of the embodiment.

  FIG. 1 illustrates the configuration of the information processing apparatus 10. The information processing apparatus 10 includes a system controller 22 and a component group connected to the system controller 22. As a group of components connected to the system controller 22, a CPU (Central Processing Unit) 21, a main storage device 23, a keyboard controller 24, an EEPROM (Electrically Erasable Programmable Read Only Memory) 25, a CMOS (Complementary Metal Oxide Semiconductor) memory 26, an HDD (Hard Disk Drive) 27, power supply monitoring unit 28, built-in tuner unit (built-in tuner) 29, MCU (Micro Controller Unit) 11, infrared light receiving unit 12, and scaler chip 13 are exemplified. Furthermore, an antenna 34 is connected to the information processing apparatus 10 via an LCD 32, a viewing tuner 36, a distributor 35, and a distributor 35. The information processing apparatus 10 can be operated by an infrared signal emitted from the remote controller 31.

  The system controller 22 controls the entire information processing apparatus 10 such as input / output management of data processed by the CPU 21. The CPU 21 executes various programs such as an OS and a BIOS that are expanded in the main storage device 23. The main storage device 23 is used as a work area for executing a program read from the HDD 27. In the present embodiment, the main storage device 23 is expanded with OS, BIOS, system programs such as various driver programs, and application programs. Hereinafter, the application program is simply referred to as an application. The main storage device 23 has a memory such as a RAM (Random Access Memory), for example.

  The keyboard controller 24 detects a signal from each key on a keyboard (not shown) and passes it to the OS on the CPU 21 via the system controller 22. The EEPROM 25 holds data such as various parameters in a rewritable manner. The CMOS memory 26 stores a menu for setting parameters in the BIOS. The HDD 27 stores a program executed by the CPU 21 or data processed by the CPU 21.

  The system controller 22, the CPU 21, the main storage device 23, the keyboard controller 24, the EEPROM 25, the CMOS memory 26, the HDD 27, and the built-in tuner unit 29 are called application circuit portions. The application circuit portion is controlled by various applications executed by the CPU 21 and provides various functions to the user. The application circuit portion is an example of a first processing device.

  The power monitoring unit 28 monitors whether or not a power button (not shown) has been operated. Then, the power monitoring unit 28 instructs the system controller 22 to turn on the power of the information processing apparatus 10 and shut off the power according to the operation on the power button. In addition, the power monitoring unit 28 instructs the system controller 22 to turn on the power of the information processing apparatus 10, shut off the power, and the like according to a command from the MCU 11 issued in accordance with an instruction from the remote controller 31.

  The MCU 11 controls the information processing apparatus 10 according to an instruction based on a user operation to the remote controller 31. The MCU 11 can also be called a microcomputer. The MCU 11 incorporates peripheral functions such as a ROM (Read Only Memory), a memory such as a RAM, and an input / output interface in addition to the processor. The processor of the MCU 11 executes the following functions by, for example, a program that is expanded in a built-in ROM or a program that is expanded from ROM to RAM.

  Before the power to the information processing apparatus 10 is turned on, the MCU 11 may be operating in the low power mode, for example. When receiving an instruction from the remote controller 31 during operation in the low power mode, the MCU 11 may shift to the normal operation mode. Furthermore, the MCU 11 may decode the electrical signal transmitted from the infrared light receiving unit 22 and issue a corresponding command to the scaler chip 13 and the system controller 22.

  For example, when the MCU 11 receives from the remote controller 31 an instruction for viewing the television by the viewing tuner 36, the MCU 11 turns on the circuit for receiving broadcasts from the viewing tuner including the scaler chip 13 in the information processing apparatus 10. At the same time, power is supplied to the viewing tuner 36 and the LCD 32. Therefore, in the information processing apparatus 10, the application circuit portion including the CPU 21 and the main storage device 23 can be broadcasted in a short time by the viewing tuner 36 before activation.

  Further, the MCU 11 inquires of the scaler chip 13 about the type of the video signal currently output to the LCD 32 through the serial interface 13A. Examples of video signal types include a video signal based on an output signal from the viewing tuner 36 and a video signal based on an output signal from the built-in tuner 29.

  Further, the MCU 11 executes control such as activation of the viewing tuner 36 through the command interface 36B. Here, the command interface 36B includes, for example, a serial port and a signal transmission / reception circuit. In addition, the MCU 11 acquires a parameter or the like indicating the reception state of the viewing tuner 36 through the command interface 36B. For example, the MCU 11 acquires, from the viewing tuner 36, a service ID indicating a broadcast station that is receiving the broadcast.

  Further, when the MCU 11 receives an instruction for starting the application circuit portion including the CPU 21 and the like from the infrared light receiving unit 12, the MCU 11 turns on the power to the CPU 21 and starts the application circuit portion according to the instruction. Further, when the MCU 11 accepts a processing execution request to the CPU 21 or the like, for example, an application execution request before starting the application circuit portion including the CPU 21 or the like, the MCU 11 turns on the power to the CPU 21 or the like, and Start the part. The MCU 11 is an example of a control device. The infrared light receiving unit 12 converts the infrared light transmitted from the remote controller 31 into an electrical signal and transmits it to the MCU 11.

  The scaler chip 13 transfers a video signal based on a command issued by the CPU 21 via the system controller 22 or a video signal from the viewing tuner 36 to the LCD 32 for display. The scaler chip 13 has a video input interface 36A and a video output interface 32A. The scaler chip 13 can be connected to a viewing tuner 36 via a video input interface 36A. The scaler chip 13 can be connected to the LCD 32 via the video output interface 32A.

  Further, the scaler chip 13 is connected to the MCU 11 via the serial interface 13A. The scaler chip 13 receives a command from the MCU 11 via the serial interface 13A. For example, the scaler chip 13 performs switching of the video displayed on the LCD 32 or adjusting the brightness of the LCD 32 in accordance with a command from the MCU 11. The scaler chip 13 is an example of an output control device.

  A broadcast wave signal received by the antenna 34 is transmitted to the distributor 35 via the antenna connector 33. The distributor 35 distributes the received signal to each of the viewing tuner 36 and the built-in tuner 29.

  The viewing tuner 36 decodes the received signal and converts it into a video signal. The video signal includes a sound signal. Then, the viewing tuner 36 outputs a video signal to the scaler chip 13 via the video input interface 36A. Similarly, the built-in tuner 29 decodes the received signal and delivers the video signal to the CPU 21 via the system controller 22. The viewing tuner 36 is an example of a second processing device.

  In FIG. 1, the viewing tuner 36 is connected to the information processing apparatus 10 through a video input interface 36A and a command interface 36B. The viewing tuner 36 may have either a structure externally attached to the information processing apparatus 10 or a structure built in the information processing apparatus 10.

  The CPU 21 executes a dedicated application developed in the main storage device 23, acquires data from the built-in tuner 29, and processes it. The CPU 21 issues a video output command to the scaler chip 13 via the system controller 22 by executing the application. The CPU 21 also stores video signal data in the HDD 27.

  The LCD 32 can also be called an output device. As described above, the LCD 32 can be connected to the scaler chip 13 via the video output interface 32A. The LCD 32 displays an image based on the output signal output from the scaler chip 13. The LCD 32 is provided with a speaker (not shown). The speaker can also be connected to the scaler chip 13 via the video output interface 32A. The speaker outputs sound based on the output signal output from the scaler chip 13. The sound includes a sound that is a human voice, a musical instrument, and other sounds. A signal for outputting video and sound is also called a video signal.

  FIG. 2 illustrates a configuration diagram of the remote controller 31. The remote controller 31 converts the code corresponding to the button pressed by the user into infrared rays and sends it to the information processing apparatus 10. As shown in FIG. 2, the remote controller 31 includes a TV power button 311, a TV application button (hereinafter, “TVAP” button) 312, a numeric button group 314, a “broadcast switching” button 313, a channel button 315, and a “volume” button 316. , A “program guide” button 317, a “menu” button 318, a “decision” button 319, and four arrow buttons 320A, 320B, 320C, 320D.

  The “TV power” button 311 is a button for the user to request viewing of the broadcast received by the viewing tuner 36 and instruct to turn on the power. When the “TV power” button 311 is pressed, the remote controller 31 instructs the MCU 11 of the information processing apparatus 10 to receive a broadcast by the viewing tuner 36. Then, the MCU 11 turns on power to the viewing circuit portion including the viewing tuner 36 and the LCD 32 and starts receiving broadcasts. The broadcast received by the viewing tuner 36 is output to the LCD 32.

  The “TVAP” button 312 is a button for instructing the information processing apparatus 10 to execute a TV application. When the “TVAP” button 312 is pressed, the remote controller 31 instructs the MCU 11 of the information processing apparatus 10 to supply power to the application circuit portion including the CPU 21 and start up the television application. For example, the MCU 11 may shift to a normal operation state when receiving an instruction to start a TV application or the like in the operation state in the low power mode. And MCU11 should just start the circuit part for applications including CPU21 etc. according to a starting instruction | indication.

  CPU21 provides a user with various services by starting the application for television. Examples of various services include reception of broadcast viewing reservations and reception of broadcasts for viewing, reception of broadcast recording reservations and execution of recording, chasing playback functions, and functions for linking with servers on a network. . By executing the TV application, a broadcast is received from the built-in tuner 29, and is output to the LCD 32 via the system controller 22 and the scaler chip 13, for example.

  The “broadcast switching” button 313 is operated when switching the input source (broadcast wave) while viewing video and sound from the viewing tuner 36 or the built-in tuner 29. The input source can be switched for each broadcast wave transmission source such as terrestrial digital, BS (Broadcasting Satellite), and CS (Communication Satellite). The number button group 314 is used for inputting a channel number and the like. The channel button 315 is used for channel designation by increasing or decreasing the viewing channel number. The “volume” button 316 is used for setting the volume. The “program guide” button 317 is operated when outputting the program guide to the LCD 32. The “menu” button 318 is operated when outputting a menu to the LCD 32. The “OK” button 319, the arrow button 320A, and the like are used for a selection operation of a menu or the like displayed on the LCD 32.

  FIG. 3 is a flowchart illustrating broadcast reception processing according to a comparative example. In the processing of FIG. 3, it is assumed that the information processing apparatus 10 has not been powered on and the information processing apparatus 10 is in a shutdown state. Accordingly, it is assumed that neither the viewing tuner 36 nor the built-in tuner 29 outputs the received signal (S101).

  When the user operates a button on the remote controller 31, the remote controller 31 detects that the “TV power” button 311 is pressed, for example (S102). Then, the remote controller 31 transmits a detection signal indicating that the pressing of the “TV power” button 311 has been detected to the information processing apparatus 10 using infrared rays. When receiving the infrared detection signal, the infrared light receiving unit 12 of the information processing apparatus 10 converts the infrared detection signal into an electrical signal and transmits the electrical signal to the MCU 11. The MCU 11 decodes the electrical signal from the infrared light receiving unit 12, turns on the scaler chip 13 and the viewing tuner 36 in response to the decoding result, and activates the broadcast receiving process. Then, the broadcast video received by the viewing tuner 36 is displayed on the LCD 32 (S103). Note that the sound being broadcast is output from, for example, a speaker provided on the LCD 32.

  Here, it is assumed that the user requests execution of a television application. For example, assume that the user presses the “TVAP” button 312. Then, the remote controller 31 detects pressing of the “TVAP” button 312 (S104). The remote controller 31 transmits a detection signal, which is detected when the “TVAP” button 312 is pressed, to the information processing apparatus 10 using infrared rays. Then, the MCU 11 of the information processing apparatus 10 executes processing in response to pressing of the “TVAP” button 312.

  That is, when the “TVAP” button 312 is pressed, the MCU 11 activates an application circuit portion including the CPU 21. Further, the MCU 11 acquires the service ID being received by the viewing tuner 36 from the viewing tuner 36 (S105). The service ID is information for identifying each broadcasting station. In order to acquire the service ID, the MCU 11 issues a command for inquiring the service ID to the viewing tuner 36, and acquires the service ID.

  Then, the MCU 11 determines whether the application circuit of the information processing apparatus 10 including the CPU 21 is activated, the driver is loaded, and the activation of the application is completed (S106). Hereinafter, the process realized by the CPU 21 executing the application is also referred to as “the application executes the process”. The MCU 11 waits until the determination in S106 becomes true (YES).

  When the determination in S106 is true (YES), the MCU 11 notifies the service ID to the application being executed by the CPU 21. Then, the application instructs the built-in tuner 29 of the information processing apparatus 10 to receive a broadcast with the notified service ID. As a result, the broadcast channel received by the built-in tuner 29 is changed (S107). The built-in tuner 29 receives the broadcast, and outputs video and sound from the LCD 32 through the system controller 22 and the scaler chip 13 (S108). As described above, the same broadcast as that received by the viewing tuner 36 is received by the built-in tuner 29 and output from the LCD 32.

  Before starting the application circuit portion of the information processing procedure 10, if reception by the built-in tuner 29 is instructed by the “TVAP” button 312 while the viewing tuner 36 is receiving a broadcast, the application circuit startup Until then, the broadcast reception by the viewing tuner 36 continues. Then, after the application circuit portion is activated, the built-in tuner 29 receives the same broadcast as that received by the viewing tuner 36. The user can smoothly shift from the viewing tuner 36 to the broadcast reception by the built-in tuner 29. After the migration, the user can enjoy application functions such as viewing reservation, recording reservation, program chase playback function by parallel processing of reception and recording, and a function of cooperation with a server on the network.

  However, in the processing of FIG. 3, it is not possible to smoothly shift to broadcast reception by the built-in tuner 29 unless the viewing tuner 36 is receiving a broadcast before the application circuit portion of the information processing procedure 10 is activated. That is, a problem arises when the “TVAP” button 312 is pressed in a state where the information processing apparatus 10 is shut down before the application circuit portion of the information processing procedure 10 is activated. That is, the user waits for viewing of the broadcast until the information processing apparatus 10 including the application circuit such as the CPU 21 is activated.

  FIG. 4 is a flowchart illustrating broadcast reception processing of the information processing apparatus 10 according to the embodiment. In the processing of FIG. 4, it is assumed that the information processing apparatus 10 is not yet powered on and the information processing apparatus 10 is in a shutdown state. Therefore, it is assumed that neither the viewing tuner 36 nor the built-in tuner 29 outputs the received signal (S1).

  Now, for example, when the user presses the “TVAP” button 312, the MCU 11 detects the pressing of the “TVAP” button 312 (S 2). Therefore, the MCU 11 requests the power supply monitoring unit 28 to start the information processing apparatus 10 (S3). As a result, the power monitoring unit 28 turns on the information processing apparatus 10 including the application circuit portion such as the CPU 21 (S4).

  Further, the MCU 11 issues an inquiry command to the scaler chip 13 and determines whether or not the video received by the viewing tuner 36 is displayed on the LCD 32 (S5). That is, it is determined whether or not the user is viewing the broadcast by the viewing tuner 36. However, the MCU 11 may issue an inquiry command to the viewing tuner 36, determine whether the viewing tuner 36 is turned on and the viewing tuner 36 is activated. The MCU 11 executes the process of S5 as an example of a determination unit.

  If the determination in S5 is true (YES), the MCU 11 advances the control to S9. On the other hand, if the determination in S5 is false (NO), the MCU 11 activates the viewing tuner 36 through the command interface 36B (S6). Further, the MCU 11 supplies power to a circuit for viewing by the viewing tuner 36, for example, the scaler chip 13 and the LCD 32.

  Then, the MCU 11 requests the scaler chip 13 to switch the screen of the LCD 32 to the broadcast screen received by the viewing tuner 36 (S7). As a result, the LCD 32 displays the broadcast video received by the viewing tuner 36 (S8). The sound being broadcast is output from the speaker.

  The processes in S9, S10, and S11 are the same as S106, S107, and S108 in FIG. That is, the MCU 11 acquires the service ID of the broadcast being received by the viewing tuner 36 from the viewing tuner 36 (S9). The broadcast is received by the viewing tuner 36 until the information processing apparatus 10 including the application circuit portion such as the CPU 21 is activated (S10). Then, after the information processing apparatus 10 is activated, the MCU 11 notifies the service ID to the application and changes the channel of the built-in tuner 29 (S11). As a result, the same broadcast as that received by the viewing tuner 36 is received by the built-in tuner 29 and output from the LCD 32. That is, the same video as the viewing tuner 36 is displayed on the LCD 32 (S12). MCU11 performs the process of S6-S11 as an example of a command part. Moreover, MCU11 performs the process of S9 as an example of an acquisition part.

  As described above, in the processing according to the present embodiment, when the user presses the “TVAP” button 312 and the execution of the application is requested before the information processing apparatus 10 is activated, the MCU 11 uses the application including the CPU 21. Start the circuit part. When the application circuit portion is activated, the MCU 11 determines whether or not viewing by the viewing tuner 36 is possible. For example, when power is not supplied to the circuit portion from the viewing tuner 36 to the LCD 32 and viewing is not possible, the MCU 11 activates the viewing tuner 36 and the like. That is, the MCU 11 activates a circuit portion from the viewing tuner 36 to the LCD 32 so that viewing by the viewing tuner 36 can be started. When the application circuit portion including the CPU 21 is activated, the driver is loaded, and the application is activated, the service ID of the broadcast being viewed by the viewing tuner 36 is handed over to the built-in tuner 29, and the built-in tuner 29 Watching and running the application.

  Therefore, the user first starts viewing the broadcast on the viewing tuner 36. The user can smoothly shift to viewing with the built-in tuner 29 while viewing the broadcast with the viewing tuner 36. Then, after the user shifts to viewing with the built-in tuner 29, the application circuit portion performs application functions, for example, viewing reservation, recording reservation, program tracking playback function by parallel processing of reception and recording, on the network You can enjoy the cooperation function with other servers.

  In general, after the activation instruction, the time until viewing by the viewing tuner 36 becomes possible is shorter than the time until the activation of the application circuit portion including the CPU 21 is completed. Therefore, in the case of the process of the present embodiment, the user can start viewing the broadcast on the viewing tuner 36 in the first stage. That is, before the OS, the driver, and the application are activated in the information processing apparatus 10, the user can watch the broadcast at an early stage and reduce missed broadcasts. The user can smoothly transition from viewing with the viewing tuner 36 to viewing including the built-in tuner 29 and the CPU 21.

  Conventionally, in an apparatus equipped with a plurality of television tuner units, since each unit is independent, each unit has its own information such as the frequency of the channel being viewed and the service ID. For this reason, information on a channel that was viewed using a certain unit cannot be taken over when the unit is switched to another unit. However, in the information processing apparatus 10 of the above-described embodiment, the MCU 11 acquires the service ID of the program being viewed by the viewing tuner 36, and delivers the service ID to the application after the application is started, so that the viewing tuner 36 transfers to the built-in tuner 29. Smooth process transition can be realized.

<Modification>
In the above-described embodiment, the processing in the case where there is a request to start an application on the information processing apparatus 10 and receive a broadcast such as a television before the information processing apparatus 10 is started up is illustrated. In such a case, it takes a certain amount of time for the OS, driver, and application to be activated after the information processing apparatus 10 is powered on. For this reason, the broadcast received by the viewing tuner 36 connected to the information processing apparatus 10 is output to the LCD 32 until the application is started, so that a viewing omission of a program or the like may occur during the time until the application is started. Can be reduced. When the application is activated, the service ID that the MCU 11 is viewing with the viewing tuner 36 is handed over to the built-in tuner 29, and the viewing can be smoothly shifted to viewing with the built-in tuner 29.

  As an example to which the above configuration can be applied, for example, a configuration of a device connected to the information processing apparatus 10 through an HDMI (High-Definition Multimedia Interface) terminal or the like can be exemplified. For example, it is assumed that a video recording device, a video playback device, a game machine, or the like is connected to the HDMI terminal.

When the CPU 21 of the information processing device 10 receives a request for starting an application that processes video similar to that of a video recording device, a video playback device, or a game machine, first, the CPU 21 is connected to the information processing device 10 through an HDMI terminal or the like. The video from the video recording device, the video playback device, and the game machine may be output to the LCD 32 or the like. Then, after power is turned on to the application circuit portion such as the CPU 21 of the information processing apparatus 10 and the OS, the driver, and the application are activated, the video processed by the CPU 21 may be output to the LCD 21. With such a configuration and procedure, while the video processing device, the video playback device, or the game machine is provided to the user until the information processing device 10 is activated, the application circuit portion such as the CPU 21 is provided. It is only necessary to provide the video from the circuit portion for application after startup.
<Computer-readable recording medium>
A program for causing a computer or other machine or device (hereinafter, a computer or the like) to realize any of the above functions can be recorded on a recording medium that can be read by the computer or the like. The function can be provided by causing a computer or the like to read and execute the program of the recording medium.

  Here, a computer-readable recording medium is a recording medium that stores information such as data and programs by electrical, magnetic, optical, mechanical, or chemical action and can be read from a computer or the like. Say. Examples of such a recording medium that can be removed from a computer or the like include a flexible disk, a magneto-optical disk, a CD-ROM, a CD-R / W, a DVD, a Blu-ray disk, a DAT, an 8 mm tape, a flash memory, and the like. There are cards. In addition, as a recording medium fixed to a computer or the like, there are a hard disk, a ROM (read only memory), and the like.

10 Information processing equipment
11 MCU
12 Infrared light receiver 13 Scaler chip 21 CPU
22 System Controller 23 Main Memory 29 Built-in Tuner 31 Remote Controller 32 LCD
36 Viewing tuner 311 “TV power” button 312 “TVAP” button

Claims (6)

A first processing device for supplying a video or sound signal to an output device;
An interface that can be connected to a second processing device that starts up faster than the first processing device and supplies a video or sound signal to the output device;
An output control device that outputs video or sound from an output device based on a signal from the first processing device or the second processing device;
A control device that acquires an operation instruction to the first processing device or an operation instruction to the second processing device connected via the interface, and executes processing according to the acquired operation instruction;
The controller is
When the second processing device detects an operation instruction that requests video or sound output processing from the output device based on a signal from the first processing device before the first processing device is activated, A determination unit for determining whether or not it is activated;
When the determination unit determines that the second processing device is not activated, the second processing device is activated, and a signal from the second processing device is output to the output control device. And an instruction unit that outputs video or sound from the output device and instructs the first processing device to output the video or sound signal. The first processing device and the second processing device have a device for receiving a broadcast,
The control device includes an acquisition unit that acquires service information for identifying a transmission source of the broadcast from the activated second processing device;
The information processing apparatus according to claim 1, wherein the instruction unit instructs the first processing apparatus to output the video or sound signal together with the service information. A first processing device that supplies video or sound signals to the output device can be connected to a second processing device that starts up faster than the first processing device and supplies video or sound signals to the output device. A control device having an interface
When the second processing device detects an operation instruction that requests video or sound output processing from the output device based on a signal from the first processing device before the first processing device is activated, A determination step for determining whether or not it is activated;
When it is determined in the determination step that the second processing device is not activated, the second processing device is activated to output a video or sound signal from the output device, and the first processing device An information processing method for executing a command step for commanding output processing of the video or sound signal to the processing device. The first processing device and the second processing device have a device for receiving a broadcast,
The control device further executes an acquisition step of acquiring service information for identifying the transmission source of the broadcast from the activated second processing device,
The information processing method according to claim 3, wherein in the command step, the first processing device is commanded to output the video or sound signal together with the service information. A first processing device that supplies video or sound signals to the output device can be connected to a second processing device that starts up faster than the first processing device and supplies video or sound signals to the output device. A computer with a simple interface,
When the second processing device detects an operation instruction that requests video or sound output processing from the output device based on a signal from the first processing device before the first processing device is activated, A determination step for determining whether or not it is activated;
When it is determined in the determination step that the second processing device is not activated, the second processing device is activated to output a video or sound signal from the output device, and the first processing device A program for causing the processing apparatus to execute a command step for commanding output processing of the video or sound signal. The first processing device and the second processing device have a device for receiving a broadcast,
Causing the computer to further execute an acquisition step of acquiring service information for identifying a transmission source of the broadcast from the activated second processing device;
The program according to claim 5, wherein in the command step, the computer is instructed to output the video or sound signal together with the service information to the first processing device.

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