JP2007324735A - Adaptor and fixture - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an adaptor and a fixture capable of estimating the intention of a user and controlling an apparatus in accordance with the estimated intention. <P>SOLUTION: The remote control adaptor 200 includes: a reception section 210; an EEPROM 240; a control signal transmission section 230; and a CPU 220. The reception section 210 receives a first control signal. The EEPROM 240 stores data of a second control signal or the like in cross reference with the first control signal. The control signal transmission section 230 transmits the second control signal by means of an infrared ray. When a transmission destination of the first control signal indicates an apparatus to which the remote control adaptor 200 is fitted, the CPU 220 allows the control signal transmission section 230 to transmit the second control signal corresponding to the control signal, when the number of times of receiving the same signal group exceeds a threshold, the CPU 220 allows the EEPROM 240 to store the second control signal corresponding to a signal received later in the signal group in cross reference with the first control signal which is received earlier. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to adapters and instruments, and more particularly to adapters and instruments that apply control signals to preselected instruments.

  Patent Literature 1 discloses a lighting system including at least one lighting fixture, a remote controller, a main controller, and a gateway server. A lighting fixture has a communication part for performing communication. The luminaire operates according to a signal obtained from the communication unit. The remote control includes an operation input unit for various operation inputs, a load side communication unit for performing communication, and a main side communication unit. The remote controller transmits a signal obtained from the operation input unit or the main communication unit to the communication unit of the lighting fixture through the load communication unit. Thereby, a remote control controls a lighting fixture through its load side communication part. Further, the remote controller transmits the operation information of the lighting fixture to the main controller through its own main communication unit. The main controller has a lower communication unit and an upper communication unit for performing communication. The main controller transmits at least a signal obtained from the upper communication unit to the communication unit of the lighting fixture or the main communication unit through the lower communication unit. When the main controller receives the operation information at its lower communication unit, it transmits it to the gateway server via its upper communication unit. The gateway server has a local side communication unit and a remote side communication unit for performing communication. The gateway server transmits a signal obtained from an external communication terminal and obtained from the remote communication unit to the upper communication unit, the main communication unit, or the communication unit of the lighting fixture through the local communication unit. Further, when the gateway server receives the operation information in its own local communication unit, the gateway server processes it into a predetermined format, and transmits it to an external communication terminal from the remote communication unit via the external communication line.

  According to the invention disclosed in Patent Document 1, it is possible to control the operating state of a lighting fixture such as a house in one place without performing a large-scale electrical work, and the control between the lighting fixtures can be performed easily and smoothly. From outside, it is possible to check the operation of lighting fixtures in the house, check the operation status, crime prevention and the safety of residents.

  Patent Document 2 discloses an electric device interlocking control system including a plurality of electric devices operating in conjunction with each other according to a control signal transmitted from one remote controller. At least one of the electric devices includes a receiving unit that receives a control signal transmitted from a remote controller corresponding to the other electric device that is used in conjunction with the control signal of the other electric device that is used in conjunction with the electric device. Control that transmits the control signal of the other electrical device from the transmission unit when receiving the control signal of the remote controller corresponding to the transmission unit that transmits to the other electrical device that is used in conjunction with the reception unit And a control unit for performing.

  According to the invention disclosed in Patent Document 2, when a plurality of electric devices including a remote controller are used in conjunction with each other, it is possible to reduce the time and effort of the user who has to operate the remote controller corresponding to each electric device.

  Patent Document 3 receives a plurality of remote control signal transmitters including a dedicated remote control signal transmitter and a remote control signal transmitter attached to at least one controlled device, and a first remote control signal transmitted thereto, A remote control repeater comprising a remote control signal transmitter / receiver for sending a second remote control signal to a controlled device is disclosed. The dedicated remote control signal transmitter includes a device that transmits at least a mode selection signal for the memory write mode and the memory read mode. The remote control signal transmitter / receiver includes a memory, a device for storing a remote control signal from a remote control signal transmitter attached to the controlled device in a predetermined area on the memory, and a mode selection signal when the mode selection signal is in a memory write mode. And a device for reading a remote control signal from an area on the memory and transmitting it to the controlled device in the memory read mode.

  According to the invention disclosed in Patent Document 3, a plurality of devices can be operated at the same time or delayed for a certain time by operating one remote control device. It can be operated.

  Patent Document 4 discloses a remote control system including a device main body and a remote control device that enables remote control thereof. On the remote control device side, an infrared signal is converted into a radio signal and transmitted to the device body side. On the device body side, this radio signal is converted into an infrared signal, and a confirmation signal that this has been received is sent to the remote control device side. Return it.

According to the invention disclosed in Patent Document 4, a plurality of remote control devices can be used simultaneously, and a single remote control device can simultaneously operate a plurality of device bodies. Communication can be performed, and it can be confirmed whether or not the signal from the remote control has reached the device.
JP 2003-243189 A JP 2005-341468 A Japanese Patent Laid-Open No. 10-98780 JP 2004-48467 A

  However, in the inventions disclosed in Patent Document 1, Patent Document 2, Patent Document 3, and Patent Document 4, there is a problem that control desired by the user cannot be performed unless the user clearly displays the intention.

  This problem will be described with a specific example. Currently, some home appliances corresponding to control signals using infrared rays depend on each other. For example, a television and a DVD (Digital Versatile Disc) player are such devices. The remote control device attached to such a device is a remote control device unique to each device. Since the remote control device is a device specific to the device, the user must use a plurality of remote controls in order to achieve one purpose. When a user uses a television and a DVD player to view content, the user must perform the following operations. The first operation is to turn on the television. The second operation is an operation of selecting an input terminal of the DVD player. The third operation is an operation for reproducing content.

  Based on the inventions disclosed in Patent Literature 1, Patent Literature 2, Patent Literature 3, and Patent Literature 4, it is considered possible that the home appliances described above perform an operation in cooperation. However, the operation is only a predetermined operation. It is difficult to estimate the user's intention and realize an operation according to the estimated intention. In Patent Literature 1, Patent Literature 2, Patent Literature 3, and Patent Literature 4, there is no description or suggestion about estimating a user's intention and realizing an operation according to the estimated intention.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide an adapter and an instrument that can estimate the user's intention and control the device in accordance with the estimated intention. .

  In order to achieve the above object, according to one aspect of the present invention, the adapter includes a receiving unit, a first storage unit, a second storage unit, a transmission unit, a control unit, and a third storage unit. Means and fourth storage means. The receiving means receives a first control signal including information representing the device and information representing control over the device. A 1st memory | storage means matches the 1st control signal, and memorize | stores the data of the signal in which the information showing control with respect to an apparatus is the same as a 1st control signal among 2nd control signals. The second storage means is configured to associate the second control signal with a signal whose content of information representing the device is different from the signal corresponding to the data of the signal stored in the first storage means. Store the signal data. The transmission means transmits the second control signal using infrared rays. The control means controls a procedure for transmitting the second control signal. The third storage means stores the first control signal received by the receiving means and the reception time of the first control signal detected by the detecting means in association with each other. The fourth storage means stores a signal group which is a group of a plurality of first control signals in the order received by the receiving means. The control means includes a first determination means, a first creation means, a second creation means, a means for controlling the transmission means, a detection means, a calculation means, a second judgment means, Means for controlling the second storage means. The first determination means determines whether the information representing the device included in the first control signal received by the receiving means represents the same device as the first control signal associated with the data stored in the first storage means. Determine whether. When the information representing the device included in the first control signal received by the receiving unit represents the same device as the first control signal associated with the data stored in the first storage unit, A second control signal corresponding to the data stored in the first storage means and the first control signal received by the receiving means is created. In the case where the information representing the device included in the first control signal received by the receiving unit represents the device different from the first control signal associated with the data stored in the first storage unit. A second control signal corresponding to the data stored in the second storage means and the first control signal received by the receiving means is created. The means for controlling the transmission means controls the transmission means to transmit the second control signal created by the first creation means and the second control signal created by the second creation means. The detecting means detects time. The calculating means multiplies each signal combination by multiplying the coefficient corresponding to the combination of each signal constituting the signal group and the time zone when the signal group is received by the number of times the signal group having the same combination of signals is received. Calculates a value corresponding to the number of times a common signal group is received. The second determination means determines whether or not the value calculated by the calculation means exceeds the first threshold value. The means for controlling the second storage means, when the value calculated by the calculating means exceeds the first threshold, outputs a second control signal corresponding to a signal received later in the signal group in the signal group. The second storage means is controlled so as to store the signal in association with the previously received signal.

  According to another aspect of the present invention, the instrument includes a receiving unit, a first storage unit, a second storage unit, a transmission unit, a control unit, a third storage unit, and a fourth storage unit. Including. The receiving means receives a first control signal including information representing the device and information representing control over the device. A 1st memory | storage means matches the 1st control signal, and memorize | stores the data of the signal in which the information showing control with respect to an apparatus is the same as a 1st control signal among 2nd control signals. The second storage means is configured to associate the second control signal with a signal whose content of information representing the device is different from the signal corresponding to the data of the signal stored in the first storage means. Store the signal data. The transmission means transmits the second control signal using infrared rays. The control means controls a procedure for transmitting the second control signal. The third storage means stores the first control signal received by the receiving means and the reception time of the first control signal detected by the detecting means in association with each other. The fourth storage means stores a signal group which is a group of a plurality of first control signals in the order received by the receiving means. The control means includes a first determination means, a first creation means, a second creation means, a means for controlling the transmission means, a detection means, a calculation means, a second judgment means, Means for controlling the second storage means. The first determination means determines whether the information representing the device included in the first control signal received by the receiving means represents the same device as the first control signal associated with the data stored in the first storage means. Determine whether. When the information representing the device included in the first control signal received by the receiving unit represents the same device as the first control signal associated with the data stored in the first storage unit, A second control signal corresponding to the data stored in the first storage means and the first control signal received by the receiving means is created. In the case where the information representing the device included in the first control signal received by the receiving unit represents the device different from the first control signal associated with the data stored in the first storage unit. A second control signal corresponding to the data stored in the second storage means and the first control signal received by the receiving means is created. The means for controlling the transmission means controls the transmission means to transmit the second control signal created by the first creation means and the second control signal created by the second creation means. The detecting means detects time. The calculating means calculates a value corresponding to the number of times a signal group having the same combination of contents of each signal group is received. The second determination means determines whether or not the value calculated by the calculation means exceeds the first threshold value. The means for controlling the second storage means, when the value calculated by the calculating means exceeds the first threshold, outputs a second control signal corresponding to a signal received later in the signal group in the signal group. The second storage means is controlled so as to store the signal in association with the previously received signal.

  The calculation means described above preferably includes means for calculating a value by multiplying the coefficient corresponding to the content combination of each signal group by the number of times the signal group having the same content combination is received.

  Alternatively, the means for calculating the above-mentioned value is obtained by multiplying the number of times the signal group having the same content combination is received by a coefficient corresponding to the time zone in which the signal group is received, in addition to the content combination of each signal group. It is desirable to include a means for calculating the value.

  In addition, it is preferable that the above-described instrument further includes third determination means for determining whether or not the reception means has received each signal constituting the signal group during the period represented by the second threshold. In addition, the fourth storage means stores the signal group that is a signal received by receiving the first control signal a plurality of times in succession in association with each other when the reception interval is equal to or less than the second threshold. It is desirable to include means.

  Alternatively, the third determining means described above determines whether or not the receiving means has received each signal constituting the signal group during the period represented by the threshold value corresponding to the time zone of the reception time among the second threshold values. It is desirable to include means for In addition, the means for storing is a signal that is a signal received by receiving the first control signal a plurality of times in succession when the reception interval is equal to or less than the second threshold corresponding to the time zone of the reception time. It is desirable to include means for associating and storing groups.

  The adapter and instrument according to the present invention can guess the user's intention and control the device according to the guessed intention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same parts are denoted by the same reference numerals. Their names and functions are also the same. Therefore, detailed description thereof will not be repeated.

  With reference to FIG. 1, the usage aspect of the control system which concerns on embodiment of this invention is demonstrated. FIG. 1 is a diagram showing a room 10 in which an electronic device to which a remote controller adapter 200 is attached is arranged.

  In the room 10, a television 100, an air conditioner 110, and an HDD recorder 120 are arranged. The television 100 and the HDD recorder 120 are connected via a cable 104. A remote controller adapter 200 a is attached to the front panel of the television 100. Similarly, a remote controller adapter 200b is mounted on the front surface of the air conditioner 110. Remote control adapters 200a and 2400b are collectively referred to as remote control adapter 200 when collectively referred to. The remote controller adapter 200 is an instrument for transmitting a control signal to a device to which the remote controller adapter 200 is attached.

  A remote control device 130 is further arranged in the room 10. The remote control device 130 includes a light emitting unit 132 that outputs a signal for controlling the operation of the electronic device. The light emitting unit 132 emits a remote control signal according to a predetermined angle. The remote control signal is, for example, infrared light.

  With reference to FIG. 2, the attachment mode of remote control adapter 200 according to the present embodiment will be described. FIG. 2 is a diagram illustrating an aspect of attachment of remote control adapter 200 to television 100.

  The remote control adapter 200 is attached to the television 100 via, for example, an adhesive tape, a removable cloth tape or other attachment member (not shown) so that the control signal transmission unit 230 and the light receiving unit 102 face each other. That is, the control signal transmitted from the control signal transmission unit 230 is received by the light receiving unit 102.

  Remote control adapter 200 includes a receiving unit 210 that receives a control signal from remote control device 130.

  On the front surface of the television 100 (that is, the same surface as the surface on which the display 107 is disposed), a light receiving unit 102 for receiving a control signal is disposed. The television 100 further includes a display 107 that displays an image, a control circuit 103 that controls the operation of the television 100 based on a control signal received by the light receiving unit 102, and an image based on a signal output from the control circuit 103. It includes a driver 105 that transmits a signal to the display 107 and realizes video display, and an amplifier 106 that amplifies the audio signal output from the control circuit 103. The control circuit 103 outputs a channel selection command to a tuner (not shown) when the control signal received by the light receiving unit 102 indicates a channel selection instruction. When the control signal received by the light receiving unit 102 represents a volume up instruction or a down instruction, the control circuit 103 sends an instruction to increase or weaken the audio signal to the amplifier 106 based on the instruction. To do. Since operation of television 100 is well known, detailed description thereof will not be repeated here.

  Note that the manner of attaching the remote control adapter 200 is not limited to the above. A magnet or a stationary type may be used. The control signal transmission unit 230 may not face the front surface of the light receiving unit 102. For example, when the remote controller adapter 200 is attached to a device installed at a high place such as the air conditioner 110, a magnet or an adhesive tape is preferable to ensure the attachment.

  With reference to FIG. 3, the configuration of remote controller adapter 200 will be described. FIG. 3 is a block diagram showing a functional configuration of remote control adapter 200. The remote controller adapter 200 includes a receiving unit 210, a CPU (Central Processing Unit) 220 that controls a procedure for transmitting a control signal, a control signal transmission unit 230, an EEPROM (Electrically Erasable Programmable Read-Only Memory) 240, A battery 250 and an operation unit 260 are provided.

  The receiving unit 210 receives a signal transmitted from the remote control device 130 and transfers it to the CPU 220. CPU 220 outputs a signal to control signal transmission unit 230 based on the signal. The control signal transmission unit 230 converts the signal output from the CPU 220 into an infrared signal and transmits the infrared signal. The EEPROM 240 stores information to be described later. The battery 250 supplies power to each circuit constituting the remote control adapter 200. The operation unit 260 receives an input of a command. In remote control adapter 200 according to the present embodiment, CPU 220, a transmission circuit that operates as control signal transmission unit 230, EEPROM 240, battery 250, and a dip switch that operates as operation unit 260 are attached to a printed circuit board and housed in a casing. It is manufactured by.

  CPU 220 includes a processing unit 300, a buffer 320, and a clock 340. The processing unit 300 acquires information included in the signal received by the receiving unit 210. The processing unit 300 uses a signal received by the receiving unit 210 as a control signal for controlling a specific device or a control signal representing a broadcast command (in this embodiment, a control signal representing a broadcast command is “broadcast”). It is called “signal”.). When processing unit 300 detects reception of the control signal, processing unit 300 converts the signal into a signal format for transmission as a remote control code, and outputs the converted signal to control signal transmission unit 230. In this way, regardless of the signal transmission function of the remote control device 130, the format of the signal transmitted from the remote control device 130 for controlling the device is transmitted from the control signal transmission unit 230 as a format corresponding to the device. The Accordingly, it is possible to prevent the malfunction of the device due to the mismatch of the control signal formats. The buffer 320 temporarily stores the information when the processing unit 300 processes the information. One type of such information is a first history table. The “first history table” is a data table that represents information representing the control signal received by the receiving unit 210 and information representing the time of reception of the control signal. In the present embodiment, information representing the control signal is stored as remote control code data. Information representing the control signal received by receiving section 210 and information representing the time of reception of the control signal are stored in association as a first history table. The clock 340 detects the time. The control signal reception time stored as information by the buffer 320 is the time detected by the clock 340.

  In the present embodiment, the HDD recorder 120 includes the same hardware as the remote control adapter 200.

  FIG. 4 is a diagram showing the format of the remote control code in the control signal that the remote control adapter 200 communicates with the remote control device 130. In the present embodiment, the remote control code signal transmitted by remote control device 130 includes a reader, a custom part, and a data part. The reader indicates that a remote control code signal is to be transmitted. The custom part represents the manufacturer name of the device to be controlled. The data part represents the contents of control. In the case of the present embodiment, the custom part and the head part of the data part are information representing the device to be controlled. The rest of the data portion is information representing the content of control for the device.

  Information stored in the EEPROM 240 will be described with reference to FIGS. The EEPROM 240 stores first information to eighth information described below in different areas. As a result, each of these areas operates as a device for storing information.

  The first information stored in the EEPROM 240 is information on the same control signal received by the remote control adapter 200 as the control signal received by the remote control adapter 200 and the information indicating control of the device. The information of the control signal transmitted by the remote controller adapter 200 is associated with the control signal received by the remote controller adapter 200 at the time of designing the remote controller adapter 200. The content of the control signal received by the remote control adapter 200 is the same as the content of the control signal transmitted by the remote control adapter 200. In order to store the control signal information transmitted by the remote controller adapter 200 in association with the control signal received by the remote controller adapter 200, the EEPROM 240 stores the following two types of data between the addresses where they are stored. Is remembered to hold. The first data is remote control code data representing a control signal transmitted by remote control adapter 200. The second data is remote control code data representing a control signal received by remote control adapter 200. FIG. 5 is a diagram showing a correspondence relationship of remote control code data stored in EEPROM 240 in the present embodiment. In the case of the present embodiment, a rule is established that the remote controller adapter 200 keeps a certain interval determined according to the device that transmits the control signal between the addresses where they are stored. In the present embodiment, a data table composed of these data is referred to as a “main table”.

  The second information stored in the EEPROM 240 is information representing the relevance table. In the present embodiment, the “relevance table” is a data table representing a remote control code. The remote control code represented by the association table is a remote control code of a control signal transmitted by the remote control adapter 200 in response to the remote control adapter 200 receiving a control signal. The relationship table is different from the main table in the following points. The 1st point is a point showing the remote control code | cord | chord of the control signal matched based on the log | history of reception by the receiving part 210. FIG. This means that the remote control code represented by the association table is different from the main table described above in that the remote control adapter 200 receives a control signal received by the remote control adapter 200 and is associated with a signal having a different destination device. To do. The second point is that the information representing the device included in the control signal is not common among the control signals associated with each other in the relevance table, and the information represented by the data in the main table is the content Is different. FIG. 6 is a diagram illustrating an example of the contents of the relationship table. In the case of the present embodiment, the relevance table includes remote control code data received by remote control adapter 200 and remote control code data transmitted by remote control adapter 200. When the number of control signals constituting the signal group becomes three or more, the number of remote control code data transmitted by the remote control adapter 200 becomes two or more.

  The 3rd information which EEPROM240 memorizes is the 2nd history table. In the present embodiment, the second history table is a data table representing a signal group. In the present embodiment, the “signal group” is a group of a plurality of control signals in which the order received by the receiving unit 210 is continuous. FIG. 7 is a diagram illustrating an example of the contents of the second history table. The second history table in the present embodiment includes date data, data of time when reception of the signal group is started, data of the first remote control code, and data of the second remote control code. The first remote control code and the second remote control code represent each control signal constituting the signal group. In the present embodiment, since the number of control signals constituting a signal group is two, the number of remote control codes represented by the data in FIG. 7 is two.

  In the case of the present embodiment, what kind of device remote control code data is included in the second history table differs between the remote control adapter 200a and the remote control adapter 200b. This is because the remote control code data included in the second history table represents the remote control code for the device described below. The device is a device that is often operated prior to the device to which the remote control adapter 200 is attached. For example, since remote control adapter 200a is attached to television 100, the second history table in remote control adapter 200a does not include the remote control code data for HDD recorder 120 in principle.

  The fourth information stored in the EEPROM 240 is control signal information that is received by the remote controller adapter 200 and that does not correspond to the control signal that the remote controller adapter 200 transmits. In the present embodiment, the EEPROM 240 stores this information as remote control code data. FIG. 8 represents a control signal transmitted by remote control device 130, and represents remote control code data for a lighting fixture and remote control code data for an air conditioner among remote control code data stored in EEPROM 240.

  The fifth information stored in the EEPROM 240 is information representing a point table. In the present embodiment, the “point table” is a data table of values used when calculating “points”. In the present embodiment, “point” refers to a coefficient corresponding to the number of times a signal group having a common combination of signals is received and the time zone in which the signal group is received. FIG. 9 is a diagram showing the contents of the point table stored in the EEPROM 240. In the case of the present embodiment, the point table includes a start time, an end time, a first code, a second code, a third code, and a value. As described above, in the case of the present embodiment, the value of the point differs depending on the time zone when the receiving unit 210 receives the signal group. “Disclosure time” represents the time that is the starting point of the time zone. “End time” represents the time that is the end point of the time slot. “First code”, “second code”, and “third code” represent a part of the remote control code for specifying a device to be controlled. “Value” represents a value used when calculating a point.

  The sixth information stored in the EEPROM 240 is information representing a device to which the remote control adapter 200 is a control signal transmission destination. In the case of the present embodiment, the information is stored as data of a part for specifying a device in the remote control code. In the case of the present embodiment, when remote control adapter 200 is attached to a device, when receiving unit 210 receives a control signal for turning on the power from a remote control device attached to the attached device, processing unit based on that signal is received. 300 generates sixth information and stores it in the EEPROM 240.

  The seventh information stored in the EEPROM 240 is information representing a point list. In the present embodiment, the “point list” is a list representing point values. In the present embodiment, the point value is associated with a signal group. FIG. 10 is a diagram showing the contents of the point list stored in the EEPROM 240. In the case of the present embodiment, the point list includes a start time, an end time, a first code, a second code, and a value. As described above, in the case of the present embodiment, the value of the point differs depending on the time zone when the receiving unit 210 receives the signal group. “Disclosure time” represents the time that is the starting point of the time zone. “End time” represents the time that is the end point of the time slot. The “first code” and the “second code” represent the remote control codes of the signals constituting the signal group. “Value” represents the value of a point.

  The eighth information stored in the EEPROM 240 is information representing a threshold value. FIG. 11 shows a threshold data table. In the present embodiment, the threshold data table includes a start time, an end time, and a threshold. In the case of the present embodiment, the threshold value also varies depending on the time zone when the reception unit 210 receives the signal group. “Disclosure time” represents the time that is the starting point of the time zone. “End time” represents the time that is the end point of the time slot.

  Referring to FIG. 12, a program realized by remote control adapter 200 according to the present embodiment executes the following control with respect to control signal conversion.

  In step S500, processing unit 300 of remote controller adapter 200 reads the main table and the relationship table from EEPROM 240.

  In step S502, processing unit 300 of remote controller adapter 200 determines whether or not receiving unit 210 has received a control signal. If it is determined that a control signal has been received (YES in step S502), the process proceeds to step S504. If not (NO in step S502), the process returns to step S502.

  In step S504, processing unit 300 of remote controller adapter 200 determines whether or not the control signal received by receiving unit 210 is a control signal transmitted to itself. The processing unit 300 receives the control received based on whether the custom part of the remote control code and the head part of the data part represent the same device as the control signal associated with the data stored as the first information stored in the EEPROM 240. It can be determined whether the signal represents a control signal for itself. If it is determined that it represents a control signal transmitted to itself (YES in step S504), the process proceeds to step S506. If not (NO in step S504), the process proceeds to step S508.

  In step S506, processing unit 300 of remote control adapter 200 creates a control signal corresponding to the remote control code data constituting the main table and the control signal received by receiving unit 210. In this embodiment, the control signal is created as remote control code data. When the control signal is created, processing unit 300 outputs the control signal to control signal transmission unit 230. That is, the processing unit 300 performs the following processing. The first process is a process of searching for remote control code data from remote control code data constituting the main table. The searched data is data on the control signal corresponding to the control signal received by the receiving unit 210 and transmitted by the remote control adapter 200. The second process is a process for outputting the data searched in the first process to the control signal transmission unit 230. When the data of the remote control code is received by the HDD recorder 120, the HDD recorder 120 starts the operation corresponding to the data searched in the first process after performing the first process described above. Also good.

  In step S508, processing unit 300 of remote control adapter 200 determines whether or not the data of the remote control code represented by the control signal received in step S502 matches the data included in the association table. If it is determined that they match (YES in step S508), the process proceeds to step S510. If not (NO in step S508), the process proceeds to step S515.

  In step S510, processing unit 300 of remote control adapter 200 corresponds to the remote control code of the control signal received by receiving unit 210 from the association table stored in buffer 320 and the remote control code transmitted by remote control adapter 200. Read data. When a plurality of data of the remote control code transmitted by the remote control adapter 200 is associated with one piece of data of the remote control code received by the remote control adapter 200, the plurality of data of the remote control code transmitted by the remote control adapter 200 are all read. It is. When the remote control code data is read, processing unit 300 creates a control signal corresponding to the read remote control code data. Thereby, processing unit 300 is included in the relevance table when the information representing the device included in the control signal received by receiving unit 210 represents a device different from the control signal associated with the data included in the main table. A control signal corresponding to the data and the control signal received by the receiving unit 210 is created. The order in which the control signals are created matches the order in which the remote control code data is read from the buffer 320. When the control signal is created, processing unit 300 outputs the control signal to control signal transmission unit 230. The order in which the control signals are output matches the order in which the control signals are created. When the control signal is output, the processing unit 300 deletes the first history table from the buffer 320. As a result, the reception record represented by the first history table is deleted. Since the first history table is deleted in this step, the control signal received first in the signal table is always a control signal for a device other than the device represented by the sixth information.

  In step S512, control signal transmission unit 230 of remote controller adapter 200 transmits the control signal created by processing unit 300 to the device represented by the above-described sixth information using infrared rays. The processing unit 300 controls the control signal transmission unit 230 so as to transmit the control signal created by itself. The transmission order matches the order output by the processing unit 300.

  In step S513, processing unit 300 of remote controller adapter 200 determines whether or not the period represented by the threshold has elapsed based on the time detected by clock 340. The threshold value serving as a criterion for determination is selected by the processing unit 300 based on the eighth information stored in the EEPROM 240. If it is determined that the period represented by the threshold has elapsed (YES in step S513), the process proceeds to step S514. If not (NO in step S513), the process proceeds to step S515.

  In step S514, processing unit 300 of remote controller adapter 200 determines whether or not receiving unit 210 has received a plurality of control signals during the period indicated by the threshold, based on the time detected by clock 340. The threshold value used as the criterion for determination is the threshold value selected by the processing unit 300 in step S513. If it is determined that receiving unit 210 has received a plurality of control signals during the period indicated by the threshold (YES in step S514), the process proceeds to step S516. If not (NO in step S514), the process proceeds to step S517.

  In step S515, processing unit 300 of remote control adapter 200 causes buffer 320 to store the remote control code data indicated by the control signal last received by receiving unit 210 and the reception time of the control signal in association with each other. As a result, the reception record represented by the first history table is updated. When the first history table does not exist, the processing unit 300 newly establishes the first history table.

  In step S516, processing unit 300 of remote controller adapter 200 adds data to the second history table. The added data is data of a control signal that is determined by the processing unit 300 in step S514. Thus, the EEPROM 240 stores a signal group, which is a signal received by receiving a plurality of consecutive first control signals, as a part of the second history table in association with each other. In addition, the processing unit 300 updates the contents of the point list through the following steps. The first step is a step of reading from the point table a value corresponding to the combination of control signals that is determined by the processing unit 300 in step S514. When such a value is not included in the point table, the processing unit 300 considers that the value “1” has been read. The second step is a step of updating the contents of the point list so that the value read in the first step is added to or subtracted from the point value. Through these processes, the processing unit 300 multiplies the number of times a signal group having a common combination of signals is received by a coefficient corresponding to the combination of the signals constituting the signal group and the time zone in which the signal group is received. Thus, points are calculated.

  In step S517, processing unit 300 of remote controller adapter 200 deletes the first history table from buffer 320. As a result, the reception record represented by the first history table is deleted.

  In step S520, processing unit 300 of remote controller adapter 200 determines whether any of the points included in the point list has exceeded a threshold value. In this step, points that once exceed the threshold are excluded from the subsequent judgment. If it is determined that the threshold value has been exceeded (YES in step S520), the process proceeds to step S522. If not (NO in step S520), the process proceeds to step S502.

  In step S522, processing unit 300 of remote controller adapter 200 stores the control signal received second or later in the signal group in association with the first received control signal in the signal group as part of the association table. Thus, the EEPROM 240 is controlled. In the case of the present embodiment, what is actually stored as a part of the relevance table is remote control code data representing the second and subsequent received control signals. Thereby, the relevance table is updated.

  The operation of the control system based on the above structure and flowchart will be described.

  The processing unit 300 of the remote control adapter 200a reads the main table and the relationship table from the EEPROM 240 (Step S500). When the main table and the relationship table are read from the EEPROM 240, the processing unit 300 of the remote control adapter 200a determines whether or not the receiving unit 210 has received a control signal (step S502). In this case, if a control signal is received from remote control device 130 (YES in step S502), processing unit 300 of remote control adapter 200a performs control in which the control signal received by receiving unit 210 is transmitted to itself. It is determined whether it is a signal (step S504). In this case, if the control signal is a control signal for turning on power supply of air conditioner 110 (NO in step S504), processing unit 300 of remote controller adapter 200 represents the control signal received in step S502. It is determined whether or not the remote control code data matches the data included in the relationship table (step S508). In this case, if the relevance table shown in FIG. 6 has not yet been created (NO in step S508), processing unit 300 newly establishes a first history table in buffer 320. When the first history table is newly established, processing unit 300 stores in buffer 320 the remote control code data indicated by the control signal last received by receiving unit 210 and the reception time of the control signal in association with each other. (Step S515).

  When the data is stored, the processing unit 300 of the remote controller adapter 200a determines whether or not the control signal received by the receiving unit 210 is a control signal transmitted to itself through the process of step S502 (step S502). S504). In this case, if the control signal is a control signal for turning on power of television 100 (YES in step S504), processing unit 300 of remote control adapter 200a uses the remote control code data constituting the main table. In order to correspond, a control signal corresponding to the control signal received by the reception unit 210 is created (step S506). When the control signal is created, the control signal transmission unit 230 of the remote control adapter 200a transmits the control signal created by the processing unit 300 to the device represented by the above-described sixth information using infrared rays (step S512). Thereby, the power supply of the television 100 is turned on.

  When the control signal is transmitted, processing unit 300 of remote controller adapter 200a determines whether or not the period represented by the threshold has elapsed based on the time detected by clock 340 (step S513). In this case, if the period represented by the threshold has elapsed (YES in step S513), processing unit 300 of remote controller adapter 200a receives a plurality of control signals during the period represented by the threshold based on the time detected by clock 340. It is determined whether or not unit 210 has received (step S514). In this case, since receiving unit 210 receives a plurality of control signals during the period indicated by the threshold (YES in step S514), processing unit 300 of remote controller adapter 200a adds data to the second history table ( Step S516). When the data is added, the processing unit 300 of the remote control adapter 200a determines whether any of the points included in the point list has exceeded the threshold value (step S520). If the point relating to the combination of the control signal for turning on the air conditioner 110 and the control signal for turning on the television 100 exceeds the threshold (YES in step S520), the processing unit 300 of the remote control adapter 200a. Controls the EEPROM 240 as a part of the relevance table so as to store the control signal received second or later in the signal group in association with the control signal received first in the signal group (step S522). . As a result, the relevance table shown in FIG. 6 is generated.

  After that, when it is determined that the control signal received by the receiving unit 210 is a control signal for turning on the power supply of the air conditioner 110 through the process of step S502 (NO in step S504), the process of the remote control adapter 200a. Unit 300 determines whether or not the data of the remote control code represented by the control signal received in step S502 matches the data included in the relationship table (step S508). In this case, since the data match (YES in step S508), processing unit 300 of remote control adapter 200a outputs a control signal for turning on power of television 100 to control signal transmission unit 230 (step). S510). When the control signal is output, the control signal transmission unit 230 of the remote control adapter 200a transmits the control signal created by the processing unit 300 to the television 100 described above using infrared rays (step S512). FIG. 13 is a diagram illustrating a situation where the power of the television 100 is turned on by such control.

  As described above, the remote control adapter according to the present embodiment includes the reception unit, the control signal transmission unit, and the EEPROM that stores the association table. Since these are included, when the remote control adapter according to the present embodiment receives a control signal for the first device, if the data of the control signal is included in the relationship table, it is based on the data included in the relationship table. Then, the remote control adapter transmits a control signal for the second device.

  For example, when the first device is a DVD player and the second device is a television, if the viewer transmits a control signal for the DVD player to view content, the remote control adapter transmits a control signal to the television. A control signal for the DVD player is also transmitted to the DVD player. Thus, if the viewer performs an operation on the DVD player, the television is linked so that the content can be viewed. There is no need for the viewer to perform an operation just to turn on the TV.

  In addition to the case where the TV operates in cooperation, the TV power is turned off when the lighting device is turned off, the DVD player is turned off when the TV is turned off, and the power of multiple devices is continuously turned on. If the power is turned off, control of turning off the power of other devices is also possible.

  Since these operations are performed based on information stored in the EEPROM, the operations are realized if they are considered relevant in the history of operations by the user. It is unnecessary to define a control corresponding to one key, such as when a multi-remote control is used. As a result, a remote controller adapter that can guess the user's intention and control the device according to the guessed intention, and a plurality of devices can perform the operation according to the guess and the guessed intention. And a control system.

  Further, the remote controller adapter uses a value corresponding to the time zone when the control signal is received when determining whether or not to register data in the relevance table. Further, although not necessarily required, in the case of the present embodiment, the value corresponds to a combination of control signals. As a result, for example, if the illumination power source and the television power source are continuously turned on between 19:00 and 21:00, it is possible to perform control such that such control is registered as data in the relevance table. Become. When such control becomes possible, it is possible to reasonably guess the user's intention without using artificial intelligence or other advanced systems. In determining whether or not to register data in the relevance table, an operation with less dependence on the individuality of the user by using a value corresponding to one of the time zone when the control signal is received and the combination of the control signals This is because registration of data in the relevance table can be facilitated in advance. In determining whether or not to register data in the relevance table, many people use the values corresponding to the time zone when the control signal is received and the combination of the control signals. It can be prevented that no operation is automatically performed.

  Further, the remote control adapter determines whether or not the group of control signals represents a series of controls based on the length of the period in which the control signals are received. In making this determination, the remote control adapter uses a threshold value corresponding to the time zone. This is because the time required for the control may differ between day and night even if a series of control is attempted. For example, the time required for the operation to turn on the entrance lamp, enter the living room, and turn on the TV after returning home varies greatly between evening and midnight.

  Note that the processing unit of the remote control adapter according to the first modification of the embodiment of the present invention changes the contents of the relevance table to conform to the next command received by the operation unit 260. May be. The instructions include an instruction for changing the contents of the relevance table, an instruction for stopping the update of the first history table and the second history table, and data of the first history table and the second history table. And an instruction for erasing data. As a result, the remote control adapter can accurately control the device.

  Further, the EEPROM of the remote control adapter according to the second modification of the embodiment of the present invention may store a relevance table in advance when the remote control adapter is produced. Thereby, after the remote controller adapter is attached to the device, the user's intention can be immediately estimated and the device can be controlled in accordance with the estimated intention.

  Further, the remote control adapter according to the third modification of the embodiment of the present invention may be realized by operating hardware other than the hardware described above in the same manner as the hardware described above. For example, a hard disk or the like may be included instead of the EEPROM 240.

  In addition, in step S514, the processing unit of the remote control adapter according to the fourth modification example of the embodiment of the present invention receives a plurality of control signals in the period represented by the threshold value that does not correspond to the reception time zone. It may be determined whether or not is received.

  In addition, in step S516, the processing unit of the remote control adapter according to the fifth modification of the embodiment of the present invention uses a coefficient corresponding to only the combination of the contents of each signal group and the signal group with the same combination of contents. Points may be calculated by multiplying the number of times received.

  In the remote control adapter according to the sixth modification of the embodiment of the present invention, the state of the attached device may be stored in the EEPROM 240. Thereby, when the remote control adapter receives a certain control signal, the remote control adapter can grasp the state of the device at that time, so that the volume management and the like can be easily performed. By using the time detected by the clock 340, it is possible to control the volume of the television 100 to be automatically reduced after 22:00.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

It is a figure showing the room where the electronic device with which the remote control adapter which concerns on embodiment of this invention was mounted | worn is arrange | positioned. It is a figure showing the one aspect | mode of the attachment with respect to the television of the remote control adapter which concerns on embodiment of this invention. It is a block diagram showing the functional structure of the remote control adapter which concerns on embodiment of this invention. It is a figure showing the format of a remote control code in the control signal which the remote control adapter which concerns on embodiment of this invention communicates between remote control devices. It is a figure showing the correspondence of the data of the remote control code memorize | stored in EEPROM which concerns on embodiment of this invention. It is a figure showing an example of the content of the relevance table which concerns on embodiment of this invention. It is a figure showing an example of the content of the 2nd history table concerning an embodiment of the invention. The figure showing the control signal which the remote control device which concerns on embodiment of this invention transmitted, and the data of the remote control code with respect to a lighting fixture among the data of the remote control code which EEPROM memorize | stores, and the data of the remote control code with respect to an air conditioner is there. It is a figure showing the content of the point table memorize | stored in EEPROM which concerns on embodiment of this invention. It is a figure showing the content of the point list memorize | stored in EEPROM which concerns on embodiment of this invention. It is a figure showing the data table of a threshold value memorize | stored in EEPROM which concerns on embodiment of this invention. It is a flowchart showing the procedure of the conversion process of the control signal of the remote control adapter which concerns on embodiment of this invention. It is a figure showing the condition where the power supply of the television was turned on by the remote control adapter which concerns on embodiment of this invention.

Explanation of symbols

  10 rooms, 100 TV, 102 light receiving unit, 103 control circuit, 104 cable, 105 driver, 106 amplifier, 107 display, 110 air conditioner, 120 HDD recorder, 130 remote control device, 132 light emitting unit, 200 remote control adapter, 200a remote control adapter, 210 Receiving unit, 220 CPU, 230 control signal transmitting unit, 240 EEPROM, 250 battery, 260 operation unit, 300 processing unit, 320 buffer, 340 clock.

Claims (6)

Receiving means for receiving a first control signal including information representing a device and information representing control of the device;
A first storage means for storing data of the same signal as the first control signal in the second control signal, the information indicating the control of the device being associated with the first control signal; ,
Of the first control signal, the signal corresponding to the data of the signal stored in the first storage means is associated with a signal having a different content of information representing the device, and the second control signal A second storage means for storing data;
Transmitting means for transmitting the second control signal using infrared rays;
Control means for controlling a procedure for transmitting the second control signal;
Third storage means for storing the first control signal received by the reception means and the reception time of the first control signal detected by the detection means in association with each other;
A fourth storage means for storing a signal group that is a group of the plurality of first control signals in the order received by the reception means;
The control means includes
Whether the information representing the device included in the first control signal received by the receiving unit represents the same device as the first control signal associated with the data stored in the first storage unit. A first determination means for determining;
When the information representing the device included in the first control signal received by the receiving unit represents the same device as the first control signal associated with the data stored in the first storage unit, First creating means for creating the second control signal corresponding to the data stored in one storage means and the first control signal received by the receiving means;
When the information representing the device included in the first control signal received by the receiving unit represents a device different from the first control signal associated with the data stored in the first storage unit, Second creation means for creating the second control signal corresponding to the data stored in the second storage means and the first control signal received by the reception means;
Means for controlling the transmission means to transmit the second control signal created by the first creation means and the second control signal created by the second creation means;
Detection means for detecting time;
By multiplying the coefficient corresponding to the combination of each signal constituting the signal group and the time zone in which the signal group is received by the number of times the signal group with which the combination of the signals is common is received, A calculating means for calculating a value corresponding to the number of times of receiving the signal group having a common combination;
Second determination means for determining whether the value calculated by the calculation means exceeds a first threshold;
When the value calculated by the calculating means exceeds the first threshold, the second control signal corresponding to the signal received later in the signal group is associated with the signal received earlier in the signal group. Means for controlling the second storage means to store the adapter. Receiving means for receiving a first control signal including information representing a device and information representing control of the device;
A first storage means for storing data of the same signal as the first control signal in the second control signal, the information indicating the control of the device being associated with the first control signal; ,
Of the first control signal, the signal corresponding to the data of the signal stored in the first storage means is associated with a signal having a different content of information representing the device, and the second control signal A second storage means for storing data;
Transmitting means for transmitting the second control signal using infrared rays;
Control means for controlling a procedure for transmitting the second control signal;
Third storage means for storing the first control signal received by the reception means and the reception time of the first control signal detected by the detection means in association with each other;
A fourth storage means for storing a signal group that is a group of the plurality of first control signals in the order received by the reception means;
The control means includes
Whether the information representing the device included in the first control signal received by the receiving unit represents the same device as the first control signal associated with the data stored in the first storage unit. A first determination means for determining;
When the information representing the device included in the first control signal received by the receiving unit represents the same device as the first control signal associated with the data stored in the first storage unit, First creating means for creating the second control signal corresponding to the data stored in one storage means and the first control signal received by the receiving means;
When the information representing the device included in the first control signal received by the receiving unit represents a device different from the first control signal associated with the data stored in the first storage unit, Second creation means for creating the second control signal corresponding to the data stored in the second storage means and the first control signal received by the reception means;
Means for controlling the transmission means to transmit the second control signal created by the first creation means and the second control signal created by the second creation means;
Detection means for detecting time;
A calculating means for calculating a value corresponding to the number of times the signal group is received with the same combination of contents of the signal groups;
Second determination means for determining whether the value calculated by the calculation means exceeds a first threshold;
When the value calculated by the calculating means exceeds the first threshold, the second control signal corresponding to the signal received later in the signal group is associated with the signal received earlier in the signal group. Means for controlling the second storage means to store.   The calculation means includes means for calculating the value by multiplying the number of times the signal group having the same content combination is received by a coefficient corresponding to the content combination of each of the signal groups. 2. The instrument according to 2.   The means for calculating the value multiplies the number of times the signal group having the same content combination is received by a coefficient corresponding to the time zone in which the signal group is received, in addition to the content combination of the signal groups. The instrument of claim 3 including means for calculating the value. The instrument further includes third determination means for determining whether or not the reception means has received each signal constituting the signal group during a period represented by a second threshold value,
The fourth storage means stores, in association with each other, a signal group that is a signal received by receiving the first control signal a plurality of times in succession when the reception interval is equal to or less than the second threshold. The instrument of claim 2 comprising: The third judging means judges whether or not the receiving means has received each signal constituting the signal group during a period represented by a threshold value corresponding to the time zone of the reception time among the second threshold values. Including means for
The means for storing is a signal received by receiving the first control signal a plurality of consecutive times when the reception interval is equal to or smaller than a second threshold corresponding to the time zone of the reception. 6. The instrument of claim 5, comprising means for storing signal groups in association.

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