JP2006025208A - Peripheral equipment control unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a peripheral equipment control unit capable of controlling easily a plurality of kinds of equipment by giving a single input means an operating signal. <P>SOLUTION: When a remote control signal has been received from a remote controller 300, the peripheral equipment control unit 100 generates a code for having equipment to be an object of remote control perform operation instructed by a received remote control signal on the basis of peripheral equipment control information acquired from a server 400 and outputs it as a remote control signal from one of infrared emission parts 120-1 to 120-n. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a peripheral device control apparatus capable of remotely controlling any peripheral device.

  Most audio devices such as CDs and DVDs can be remotely operated by a remote controller. The remote control is convenient, but there is a difficulty in using the remote control for the CD when remotely controlling the CD, the remote control for the DVD when remotely controlling the DVD, etc. . One means for solving this problem is a so-called learning remote controller. A user performs a remote control operation for causing a desired device (for example, device A) to perform a desired operation (for example, operation B), and at this time, a remote control signal (infrared signal) output from the remote control is learned as a remote control When a desired key (for example, key C) on the learning remote controller is pressed, the learning remote controller stores the received remote control signal in association with the pressed key A. Thereafter, when the user presses the key C of the learning remote controller instead of operating the remote controller of the device A, the learning remote controller transmits a remote control signal associated with the key C, so that the device A performs the operation B. be able to. Note that this type of learning remote control is disclosed in, for example, Patent Document 1.

Japanese Patent Laid-Open No. 7-7771

By the way, the learning remote controller described above has a problem that it is necessary to store a remote control signal for causing a device to perform a desired operation one by one, which is troublesome. Further, since the number of keys provided on the learning remote controller is limited, there is a problem that it is difficult to remotely control a plurality of types of devices with the learning remote controller. The learning remote controller is a remote controller after all, and it is necessary to operate the learning remote controller in front of the desired device so that the remote control signal output from the learning remote controller reaches the desired device. At that time, if there are multiple devices that can be controlled by the learning remote controller, and you want the desired device to perform the desired operation, point the learning remote controller at the desired device and select the desired key from the learning remote control keys. It is necessary to search for and press a key for performing the operation, and such an operation is extremely complicated.
The present invention has been made in view of the above circumstances, and provides a peripheral device control device capable of easily controlling a plurality of types of devices by giving an operation signal to a single input means. With the goal.

In order to solve the above-described problems, the present invention obtains peripheral device control information indicating the form of a remote control signal used for remote control of peripheral devices from an input unit that receives an operation signal, a storage unit, and a remote control signal used for remote control of the peripheral device, and stores the information in the storage unit. Based on the peripheral device control information acquisition means to be stored and the operation signal input through the input means, the peripheral device control information of one or more peripheral devices stored in the storage means Remote control signal generating means for selecting peripheral device control information and generating a remote control signal suitable for the peripheral device based on the peripheral device control information and an operation signal input via the input means; and the remote control signal generating means And a remote control signal output means for outputting the remote control signal obtained by the above.
According to this invention, it is possible to easily perform remote control of a plurality of types of peripheral devices by giving an operation signal from a single input means.

Embodiments of the present invention will be described below with reference to the drawings.
<First Embodiment>
FIG. 1 is a diagram showing the configuration of an audio system using a peripheral device control apparatus 100 according to the first embodiment of the present invention. In FIG. 1, a peripheral device control device 100 is a device that performs remote control for a peripheral device group 200 such as a tuner, a DVD, a CD, and an amplifier. The peripheral device group 200 is, for example, any device purchased by the user of the peripheral device control apparatus 100, and can be remotely controlled by a remote controller unique to each device. In a preferred embodiment, the peripheral device control device 100 and the peripheral device group 200 are arranged in separate rooms partitioned by walls. The peripheral device group 200 includes an amplifier, and an output signal of the amplifier is supplied to a speaker (not shown) in the room where the peripheral device control device 100 is disposed.

  The remote controller 300 is a dedicated remote controller prepared for the peripheral device control apparatus 100. In the present embodiment, when the user wants to perform remote control of a desired device in the peripheral device group 200, the user may perform a key operation on the remote control 300 to instruct the remote control. In response to this key operation, the remote controller 300 generates a digital signal, modulates a carrier having a frequency for the peripheral device control apparatus 100 based on the digital signal, and uses the modulated carrier as a remote control signal that is an infrared signal. Convert to and output. When the peripheral device control device 100 receives this remote control signal, it generates a code for causing the device that is the object of remote control to perform the operation instructed by the received remote control signal, and the infrared light emitting unit 120-1 ~ 120-n is output as a remote control signal.

  The server 400 stores an IR database. This IR database is a collection of peripheral device control information corresponding to various devices such as tuners, DVDs, CDs, and amplifiers provided by each company. This peripheral device control information is information serving as a basis for signal generation when the peripheral device control device 100 generates a transmission remote control signal based on the received remote control signal. Details of the peripheral device control information will be described later.

  FIG. 2 is a block diagram illustrating a configuration of the peripheral device control apparatus 100. The CPU 101 is a processor that controls each unit in the peripheral device control apparatus 100. The display unit 102, the operation unit 103, and the infrared light receiving unit 104 are provided on the front surface of the peripheral device control apparatus 100 main body. The display unit 102 is, for example, a liquid crystal display panel. The operation unit 103 and the infrared light receiving unit 104 serve as input means for receiving an operation signal from the user. The operation unit 103 includes an operation element such as a push button switch and a volume knob, and a circuit that detects an operation of the operation element and outputs operation information to the CPU 101. The infrared light receiving unit 104 is configured by an element that converts a remote control signal received from a remote control into an electrical signal. The signal control unit 105 is a switch that controls the transmission direction of the electrical signal, sends the electrical signal output from the infrared light receiving unit 104 to the CPU 101, and sends the electrical signal output from the CPU 101 to the transmission control unit 106.

  The transmission control unit 106 and the carrier control unit 107 constitute a signal generation unit that generates an electrical signal that is a source of a remote control signal. Here, the carrier control unit 107 includes an oscillator having a variable oscillation frequency, and outputs a carrier having a frequency designated by the CPU 101 to the transmission control unit 106. Note that the carrier control unit 107 does not output a carrier when no instruction is given from the CPU 101. When an instruction is given from the CPU 101, the transmission control unit 106 modulates the carrier given from the carrier control unit 107 by a code (digital signal) given from the CPU 101 via the signal control unit 105, and the infrared light emitting unit 120-1 To 120-n. The CPU 101 instructs the transmission control unit 106 to which infrared light emitting unit the output signal is supplied. The infrared light emitting units 120-1 to 120-n convert the electrical signal output from the transmission control unit 106 into a remote control signal that is an infrared signal, and transmit it. In the present embodiment, each of the infrared light emitting units 120-1 to 120-n outputs a remote control signal toward different peripheral devices.

  In a preferred embodiment, the peripheral device control device 100 has an IR flasher function. The IR flasher function is a function for outputting the remote control signal received by the infrared light receiving unit 104 as it is from one of the infrared light emitting units 120-1 to 120-n. In this embodiment, in order to realize the IR flasher function, the CPU 101 receives all the output signals of the infrared light receiving unit 104, checks the carrier frequency of the received signal and the format of the code superimposed on the received signal, and as a result, When it is recognized that the received signal is not transmitted from the remote controller 300, the same signal is given to one of the infrared light emitting units 120-1 to 120-n, and the carrier control unit 107 and the transmission are transmitted. The control unit 106 is controlled.

  The communication interface 108 is a device that controls communication between the CPU 101 and another device, for example, the server 400 shown in FIG. The storage unit 109 includes a RAM and a ROM. The RAM functions as a nonvolatile memory by being backed up by a battery, for example, and is used as a work area for the CPU 101. The RAM is provided with n cache areas associated with each of the infrared light emitting units 120-1 to 120-n. The n cache areas are used for storing peripheral device control information used to generate a remote control signal output from the infrared light emitting units 120-1 to 120-n. The ROM stores various programs and various data used by the programs. The CPU 101 performs various processes including remote control of the peripheral device group 200 according to the program stored in the ROM. Among these processes, there are a peripheral device control information acquisition process and a remote control of the peripheral device group 200 according to the operation of the remote controller 300. The former peripheral device control information acquisition process is a process of downloading peripheral device control information used to generate a remote control signal output from the infrared light emitting units 120-1 to 120-n from the server 400 to a corresponding cache area in the RAM. It is. In the latter remote control, when a remote control signal output by key operation of the remote controller 300 is received, peripheral device control information corresponding to the peripheral device to which the remote control signal is transmitted is read from the corresponding cache area in the RAM, This is a process of converting to a remote control signal suitable for the peripheral device and outputting from the infrared light emitting unit corresponding to the peripheral device. Note that details of each of these processes will be clarified in the description of the operation of the present embodiment in order to avoid duplication of explanation.

  FIG. 3 shows the contents of the IR database stored in the server 400. As already described, the IR database is a collection of peripheral device control information corresponding to various devices. In this IR database, peripheral device control information corresponding to each device is defined for each of various devices determined by the combination of the device manufacturer and model. Peripheral device control information corresponding to one device includes the manufacturer name, model, format information, and a plurality of remote control codes of the device that is the target of the peripheral device control information. Here, the remote control code is a digital signal used to modulate the carrier when each key of the remote control of the corresponding device is pressed. In the peripheral device control information, remote control codes for these keys are defined in association with the types of keys of the remote control. The format information is a collection of information that defines a time length of “0” / “1” bits in the remote control code, a carrier frequency modulated by the remote control code, and the like.

The operation of this embodiment will be described below.
When the peripheral device group 200 is installed and the infrared light emitting units 120-1 to 120-n are arranged in front of each peripheral device, the user instructs the peripheral device control apparatus 100 to execute the peripheral device control information acquisition process. This instruction is performed, for example, by a predetermined key operation on the remote controller 300 or by a predetermined operation on the operation unit 103. When the CPU 101 of the peripheral device control apparatus 100 detects this instruction via the infrared light receiving unit 104 and the signal control unit 105 or via the operation unit 103, it starts a peripheral device control information acquisition process. FIG. 4 shows the contents of the peripheral device control information acquisition process. In this peripheral device control information acquisition process, the CPU 101 displays, for example, a message such as “Set the infrared light emitting unit 120-1. Are you sure?” On the display unit 102. In response to this, the user responds “OK” or “End”. This response is performed by operating the remote controller 300 or the operation unit 103. When detecting the “end” response, the CPU 101 ends the peripheral device control information acquisition process. When the response of “OK” is detected, the CPU 101 displays, for example, a message “Please point the remote control of the device controlled by the infrared light emitting unit 120-1 and press an appropriate key” on the display unit 102. In addition, since it is difficult to understand even if it is said “here”, for example, a light emitting unit such as an LED may be provided near the infrared light receiving unit 104, blinked, and guided to direct the remote controller there. In addition, there may be a user who gets lost because it is said to be an appropriate key, and the key to be pressed may be designated, for example, a power-on key.

  In accordance with the message displayed on display unit 102, the user presses a key on the remote controller of the device controlled by infrared light emitting unit 120-1. When a remote control signal transmitted from the remote control by this key operation is received by the infrared light receiving unit 104, the infrared light receiving unit 104 converts the remote control signal into an electrical signal and sends it to the CPU 101 via the signal control unit 105. The CPU 101 analyzes this electric signal and obtains format information and a remote control code of the received remote control signal (signal analysis 1011).

Then, the CPU 101 sends a download request including the format information obtained by the signal analysis 1011 and the remote control code to the server 400 via the communication interface 108. Upon receiving the download request, the server 400 searches the peripheral device control information of one device having the format information and the remote control code included in the download request from the peripheral device control information of each device constituting the IR database. . In a preferred embodiment, the user presses a designated key (for example, a power-on key) on the remote control. In this case, the server 400 searches for peripheral device control information including the format information received from the CPU 101 and the remote control code, focusing only on the format information corresponding to each device in the IR database and the remote control code corresponding to the power-on key. I do. According to this aspect, the search burden is reduced and the time required for the search can be shortened. When the peripheral device control information is obtained by the search, the server 400 sends the peripheral device control information to the peripheral device control apparatus 100.
When the CPU 101 receives the peripheral device control information via the communication interface 108, the CPU 101 stores the peripheral device control information in a cache area corresponding to the infrared light emitting unit 120-1 in the storage unit 109 (hereinafter, download 1012). The CPU 101 performs the above processing for the remaining infrared light emitting units 120-2 to 120-n.

  Next, remote control of the peripheral device group 200 by the remote controller 300 will be described. In a preferred embodiment, the remote controller 300 is provided with n keys for designating each of the infrared light emitting units 120-1 to 120-n. When changing the peripheral device to be controlled, the user presses a key for designating an infrared light emitting unit (for example, infrared light emitting unit 120-k) corresponding to the peripheral device among these n keys. . In response to this key operation, a remote control signal transmitted from the remote control 300 is received by the infrared light receiving unit 104, converted into an electrical signal, and sent to the CPU 101. The CPU 101 analyzes the electrical signal and analyzes the electrical signal. Identify the key that was pressed. The CPU 101 selects a cache area corresponding to the infrared light emitting unit 120-k designated by the key as a signal conversion cache area. Then, the CPU 101 reads the format information from the selected signal conversion cache area, and sets the carrier frequency in the carrier control unit 107 according to this. In addition, the CPU 101 instructs the transmission control unit 106 to use the infrared light emitting unit 120-k as a signal output destination.

  Next, when the user presses a key on the remote controller 300 in order to control a peripheral device corresponding to the infrared light emitting unit 120-k, a remote control signal corresponding to the key is transmitted from the remote controller 300 and received by the infrared light receiving unit 104. Is done. When the CPU 101 detects a key corresponding to the received remote control signal, the CPU 101 reads the remote control code corresponding to the key from the signal conversion cache area, arranges the format of the remote control code according to the format information in the cache area, and controls transmission. Send to part 106. For example, when the peripheral device control information of DVD of manufacturer B in FIG. 3 is stored in the cache area corresponding to the infrared light emitting unit 120-k, for example, when the reproduction key of the remote controller 300 is detected. The CPU 101 reads the remote control code “0x405031” corresponding to this key from the cache area and sends it to the transmission control unit 106. The transmission control unit 106 modulates the carrier from the carrier control unit 107 using this remote control code, and outputs the modulated carrier to the infrared light emitting unit 120-k instructed by the CPU 101. The infrared light emitting unit 120-k converts the output signal of the transmission control unit 106 into a remote control signal that is an infrared signal, and outputs the remote control signal to the peripheral device (the signal generation process 1020). As a result, the peripheral device responds in the same manner as when the playback key on the remote controller of the device is pressed.

  As described above, according to the present embodiment, the user sets the peripheral device control information of a desired device in the cache area in the storage unit 109 by a simple operation, and uses this to use a single remote controller. Remote control by 300 can be performed.

Second Embodiment
In the present embodiment, the CPU 101 of the peripheral device control apparatus 100 executes the above-described peripheral device control information acquisition process when the user performs remote control of a desired peripheral device using the IR flasher function. When the user wants to remotely control a peripheral device to which an infrared light emitting unit 120-k is directed by using the IR flasher function, the user instructs the peripheral device control apparatus 100 to use the infrared light emitting unit 120-k. This instruction is performed, for example, by key operation of the remote controller 300 or by operation of the operation unit 103.

  Thereafter, when a key operation of the remote controller of the peripheral device to which the infrared light emitting unit 120-k is directed is performed, a remote control signal output from the remote controller is received by the infrared light receiving unit 104, and the infrared light emitting unit 120- output from k. At this time, the CPU 101 receives the remote control signal received by the infrared light receiving unit 104 via the signal control unit 105, performs the signal analysis 1011 and the download 1012 in the first embodiment, and corresponds to the infrared light emitting unit 120-k. The peripheral device control information of the peripheral device is stored in the cache area in the storage unit 109. When this process ends, the CPU 101 displays a message such as “The infrared light emitting unit 120-k can be used for remote control by the remote controller 300” on the display unit 102. The operation when the peripheral device is remotely controlled by the remote controller 300 is the same as that in the first embodiment.

<Third Embodiment>
The difference between the present embodiment and the first and second embodiments lies in the contents of the peripheral device control information acquisition process. FIG. 6 shows the contents of the peripheral device control information acquisition process performed in this embodiment. As in the first embodiment, the peripheral device control information acquisition process is started by a key operation of the remote controller 300 or by an operation of the operation unit 103.

  In this peripheral device control information acquisition process, the CPU 101 sequentially selects the infrared light emitting units 120-1 to 120-n, and performs the following process every time one infrared light emitting unit 120-k is selected. First, the CPU 101 instructs the transmission control unit 106 to use the infrared light emitting unit 120-k as a signal output destination. Next, the CPU 101 downloads the peripheral device control information of the first device in the IR database by sending a download request to the server 400, and stores it in the cache area corresponding to the selected infrared light emitting unit 120-k in the storage unit 109. (Download 1013).

  Then, the CPU 101 sets the carrier frequency of the carrier control unit 107 according to the format information of the peripheral device control information stored in this cache area. Further, the CPU 101 generates a remote control code corresponding to a specific key (for example, a power-on key) by referring to the format information and the remote control code of the peripheral device control information stored in the cache area, and the transmission control unit 106 Send to. The transmission control unit 106 modulates the carrier from the carrier control unit 107 using this remote control code, and outputs the modulated carrier to the infrared light emitting unit 120-k instructed by the CPU 101. The infrared light emitting unit 120-k converts the output signal of the transmission control unit 106 into a remote control signal that is an infrared signal, and outputs the remote control signal to the peripheral device (the signal generation process 1014).

  Next, the CPU 101 determines whether there is a peripheral device that reacts to the remote control signal in the peripheral device group 200 (reaction detection 1015). If there is a peripheral device that responds to the remote control signal, the peripheral device control information corresponding to the peripheral device to which the infrared light emitting unit 120-k is currently directed is the cache area corresponding to the infrared light emitting unit 120-k. And the processing corresponding to the infrared light emitting unit 120-k is finished. Then, the next infrared light emitting unit 120- (k + 1) is selected, and the same processing is repeated. On the other hand, if there is no peripheral device that reacts to the remote control signal output in the signal generation processing 1020, the CPU 101 downloads peripheral device control information of the next device in the IR database, and uses this to generate the signal generation processing 1020 and the reaction. Detection 1015 is performed. Such processing is repeated until a peripheral device that reacts to the remote control signal output in the signal generation processing 1020 appears. And when the apparatus which reacts appears, the process corresponding to the infrared light emission part 120- (k + 1) is finished.

  In the present embodiment, the processing as described above is performed on the infrared light emitting units 120-1 to 120-n, so that peripheral device control information of each peripheral device to which each infrared light emitting unit is directed is transferred to n cache areas. Get in.

As means for the reaction detection 1015, for example, the following modes can be considered.
In the first aspect, the peripheral device control apparatus 100 includes n AC power supply units that supply power to each device of the peripheral device group 200. Then, all devices in the peripheral device group 200 are set in a standby state in advance, and in the signal generation processing 1020, a remote control signal corresponding to the power-on key is output from the infrared light emitting unit 120-k. If the remote control signal is suitable for any device in the peripheral device group 200, the device is switched from the standby state to the operating state, and is supplied to the device from any of the n AC power supply units. Electric power will increase. When this increase in power supply occurs, the CPU 101 determines that any device in the peripheral device group 200 has responded to the remote control signal.

  In the second aspect, the peripheral device control apparatus 100 has n audio input terminals, to which the audio output terminals of each device in the peripheral device group 200 are connected. In the signal generation process 1020, a remote control signal corresponding to the reproduction key is output from the infrared light emitting unit 120-k. If the remote control signal is suitable for any device in the peripheral device group 200, audio playback is started in that device, and the reproduced audio signal is input to any of the n audio input terminals. When the audio signal is input, the CPU 101 determines that any device in the peripheral device group 200 has reacted to the remote control signal. Whether or not an audio signal has been input can be determined from the level when the audio signal input to each audio input terminal is an analog signal, or from the status information included in the digital signal. It is.

  According to the present embodiment, as described above, the peripheral device control information of each peripheral device to which each infrared light emitting unit is directed is automatically acquired in n cache areas without bothering the user. The For this reason, the peripheral device control apparatus 100 is extremely easy to use.

The following modifications can be considered for this embodiment.
(Modification 1)
The download 1013 does not download all the peripheral device control information corresponding to one device, but corresponds to the minimum information necessary for the reaction detection 1015, for example, the format information corresponding to the device and the power-on key or the playback key. Download only the remote control code. In response detection 1015, when any device in the peripheral device group 200 responds to the remote control signal, a remote control code corresponding to a key other than the power-on key or the playback key is downloaded from the server 400 and selected at that time. The cache area corresponding to the infrared light emitting unit 120-k is replenished. By doing so, the amount of communication between the server 400 and the peripheral device control apparatus 100 can be reduced, and the peripheral device control information acquisition process can be speeded up.

(Modification 2)
Although it is a rare case, it is also conceivable that reactions to the remote control signals of a plurality of devices are detected by the reaction detection 1015. This modification deals with such a situation. In this modification, the peripheral device control apparatus 100 has both the first aspect and the second aspect as means for the reaction detection 1015. In the signal generation process 1014, the CPU 101 first outputs a remote control signal corresponding to the power-on key from the infrared light emitting unit 120-k. On the other hand, when one device reacts, the peripheral device control information in the cache area corresponding to the infrared light emitting unit 120-k at that time is determined as the peripheral device control information for the infrared light emitting unit 120-k. Is done. On the other hand, when a plurality of peripheral devices respond to the power-on key remote control signal output in the signal generation process 1014, the CPU 101 further executes a signal generation process 1014 for outputting a remote control signal corresponding to the reproduction key. Then, when the reaction detection 1015 is performed and the reaction of one device is recognized, the CPU 101 displays the peripheral device control information corresponding to the peripheral device to which the infrared light emitting unit 120-k is currently directed as infrared light emission. It is determined that the data is stored in the cache area corresponding to the unit 120-k, and the processing corresponding to the infrared light emitting unit 120-k is finished.

<Fourth embodiment>
In the second embodiment, when the user grasps which device each of the infrared light emitting units 120-1 to 120-n is directed to and obtains peripheral device control information corresponding to the infrared light emitting unit 120-k. It is necessary to operate the remote controller of the peripheral device to which the infrared light emitting unit 120-k is directed. Such an operation is troublesome when the number of devices constituting the peripheral device group 200 is large. In the present embodiment, the configuration of the third embodiment is incorporated into the second embodiment, and this annoyance is eliminated.

  In the present embodiment, the user sequentially selects the remote controller of each device in the peripheral device group 200 and operates, for example, a power-on key. At this time, the CPU 101 checks the format information and the remote control code of the remote control signal corresponding to the power-on key received from the remote controller, and uses these to output the same remote control signal as received from the infrared light emitting unit 120-1 ( IR flasher function). When there is a device that reacts to the remote control signal, the CPU 101 sends a download request including the format information and remote control code of the remote control signal received from the remote control to the server 400, and the peripheral device sent from the server 400 accordingly. The control information is written in a cache area corresponding to the infrared light emitting unit 120-1. On the other hand, when there is no device that responds to the power-on key remote control signal output from the infrared light emitting unit 120-1, the same remote control signal is output from the infrared light emitting unit 120-2. Thereafter, the output of the remote control signal is repeated until a device that reacts to the remote control signal of the power-on key appears while sequentially changing the infrared light emitting section to output. For example, if a device that responds to the output of the power-on key remote control signal from the infrared light emitting unit 120-k appears, the CPU 101 downloads the remote control signal format information and remote control code received from the remote control. The request is sent to the server 400, and the peripheral device control information sent from the server 400 is written in the cache area corresponding to the infrared light emitting unit 120-k. The user causes the peripheral device control apparatus 100 to perform the above processing for each remote controller of all devices constituting the peripheral device group 200. As a result, all peripheral device control information necessary for remote control of these devices is obtained in the cache area in the storage unit 109.

<Fifth Embodiment>
In each of the embodiments described above, one infrared light emitting unit is assigned to each device constituting the peripheral device group 200. In the present embodiment, there is no one-to-one correspondence between the infrared light emitting unit and the device. In the present embodiment, the same remote control signal is simultaneously output from one or a plurality of infrared light emitting units under the control of the CPU 101. When all the peripheral devices can receive a remote control signal from one infrared light emitting unit, only one infrared light emitting unit is required. In the present embodiment, an appropriate number of infrared light emitting units may be arranged so that each device in the peripheral device group 200 can receive a remote control signal from at least one infrared light emitting unit.

  In the first to fourth embodiments, the storage unit 109 has a cache area associated with the infrared light emitting units 120-1 to 120-n, and the periphery corresponding to the infrared light emitting units 120-1 to 120-n. Device control information was stored in each cache area. On the other hand, in the present embodiment, ports corresponding to the respective devices constituting the peripheral device group 200 are assumed, and the storage unit 109 has cache areas corresponding to the ports P1 to Pn. Here, the cache area corresponding to each port Pk is used to store peripheral device control information corresponding to one device in the peripheral device group 200.

  In the peripheral device control information acquisition process in the present embodiment, the CPU 101 acquires peripheral device control information of devices corresponding to the ports P1 to Pn from the server 400 and stores them in the cache areas corresponding to those ports.

  When the user wants to remotely control one device in the peripheral device group 200 using the remote controller 300, the user instructs the port Pk associated with the device, and instructs the remote controller 300 to perform an operation to be performed by the device. Using the peripheral device control information stored in the cache area corresponding to the designated port Pk, the CPU 101 converts the remote control signal from the remote control 300 into a remote control signal for the device corresponding to the port Pk, and one or more Simultaneous output from the infrared emitter. A device corresponding to the port Pk in the peripheral device group 200 receives the remote control signal and performs an operation corresponding to the remote control signal.

As the peripheral device control information acquisition process, those described in the first, second, and third embodiments can be used.
(Mode using peripheral device control information acquisition processing in the first embodiment)
In this embodiment, after the user operates the remote controller 300 or the operation unit 103 that designates the port Pk, the user operates the remote controller of the device to which the port Pk is assigned in the peripheral device group 200, and transmits the remote control signal to the peripheral device control device 100. To supply. The peripheral device control apparatus 100 sends a download request including the format information of the remote control signal and the remote control code to the server 400, and the peripheral device control information sent from the server 400 in response to this is stored in the cache area corresponding to the port Pk. Store. Such a process is performed for all devices constituting the peripheral device group 200.

(Mode using peripheral device control information acquisition processing in the second embodiment)
In this embodiment, the user operates a remote controller of one device in the peripheral device group 200 and supplies a remote control signal to the peripheral device control apparatus 100. The peripheral device control apparatus 100 outputs the remote control signal simultaneously from one or a plurality of infrared light emitting units by the IR flasher function, and sends a download request including the format information of the remote control signal and the remote control code to the server 400 and responds accordingly. The peripheral device control information sent from the server 400 is stored in the cache area corresponding to the port Pk. Then, the CPU 101 obtains the manufacturer name (for example, manufacturer B) and model (DVD) of the device corresponding to the downloaded peripheral device control information. For example, “when operating the DVD of manufacturer B, specify the port Pk. Please display "on the display unit 102. The number of the port Pk may be incremented each time a device in the peripheral device group 200 is selected and a remote control operation of the device is performed. Such a process is performed for all devices constituting the peripheral device group 200.

(Mode using peripheral device control information acquisition processing in the third embodiment)
In this embodiment, the CPU 101 sequentially downloads peripheral device control information of each device in the IR database from the server 400, and generates a remote control signal of a power-on key or a playback key using the downloaded peripheral device control information each time it is downloaded. Output simultaneously from one or more infrared light emitters. If there is no device that responds to this remote control signal, the downloaded peripheral device control information is discarded, the peripheral device control information of the next device is downloaded, and simultaneous output of the remote control signal is performed. If there is a device that responds to the power-on key or the remote key remote control signal, the CPU 101 stores the downloaded peripheral device control information in the cache area corresponding to the port P1. Then, the CPU 101 downloads peripheral device control information of the next device and performs simultaneous output of the remote control signal. If there is a device that responds to this remote control signal, the downloaded peripheral device control information is stored in the cache area corresponding to port P2. Thereafter, the same operation is performed on the peripheral device control information of each device in the IR database to perform simultaneous output of the remote control signal, and when a device that responds to the remote control signal appears, the port of the downloaded peripheral device control information The port Pk is updated and stored in the cache area corresponding to Pk. As a result, peripheral device control information of n devices constituting the peripheral device group 200 is obtained in each cache area corresponding to the ports P1 to Pn. When there is a predetermined instruction from the user, the CPU 101 refers to the peripheral device control information in the cache area corresponding to each port P1 to Pn, and the peripheral device control information of which device is stored in each cache area. Find out. Then, for example, a list of the ports and devices associated with the ports is displayed on the display unit 102 as follows.
Port P1 Manufacturer A CD
Port P2 Manufacturer A TV
………

It is a figure which shows the structure of the audio system using the peripheral device control apparatus which is 1st Embodiment of this invention. It is a block diagram which shows the structure of the peripheral device control apparatus in the embodiment. It is a figure which illustrates the content of IR database in the embodiment. It is a figure which shows the peripheral device control information acquisition process in the same embodiment. It is a figure which shows the processing content of the remote control of the peripheral device group by the remote control performed in the same embodiment. It is a figure which shows the peripheral device control information acquisition process performed in the peripheral device control apparatus which is 3rd Embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 ... Peripheral device control apparatus, 200 ... Peripheral device group, 300 ... Remote control, 400 ... Server, 101 ... CPU, 102 ... Display part, 103 ... Operation part, 104 ... Infrared light-receiving part, 105 ...... Signal control unit, 106 ....... transmission control unit, 107... Carrier control unit, 108 ..communication interface, 109... Storage unit, 120-1 to 120 -n.

Claims (3)

An input means for receiving an operation signal;
Storage means;
Peripheral device control information acquisition means for acquiring peripheral device control information indicating the form of a remote control signal used for remote control of the peripheral device from the server, and storing in the storage means;
Based on the operation signal input through the input means, the peripheral device control information of one peripheral device is selected from the peripheral device control information of one or more peripheral devices stored in the storage means, and the peripheral Remote control signal generating means for generating a remote control signal suitable for the peripheral device based on device control information and an operation signal input via the input means;
And a remote control signal output means for outputting a remote control signal obtained by the remote control signal generation means. The input means includes remote control signal receiving means for receiving a remote control signal as the operation signal,
2. The peripheral device control apparatus according to claim 1, wherein the peripheral device control information acquisition unit acquires peripheral device control information indicating a form of a remote control signal received by the remote control signal reception unit from the server. Reaction detection means for detecting a response of a peripheral device to the output of the remote control signal by the remote control signal output means,
The peripheral device control information acquisition means performs generation of a remote control signal by the remote control signal generation means using peripheral device control information acquired from the server and output of the remote control signal by the remote control signal output means. 2. The peripheral device according to claim 1, wherein peripheral device control information used for generating a remote control signal is stored in the storage device when a reaction of the peripheral device with respect to the output is detected by the reaction detection device. Equipment control device.

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