JP2009135725A - Apparatus for remote controller, and method for controlling remote control - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an apparatus for remote controller capable of improving convenience in remote controller operation, without causing contentions, even when a remote controller is operated by a plurality of mobile terminals. <P>SOLUTION: When a device selection requests for contention between mobile terminals (125, 128) with respect to devices (101, 107, 113, 119, 131, 137), in a remote controller control apparatus, device selecting operation at the side of a mobile terminal (125, 128) which has issued the device selection request later, is waited after completion of device selecting operation, at the side of a mobile terminal (125, 128) which has first issued the device selection request. When the operation from a dedicated remote controller (105, 111, 117, 123, 135, 141) attached to the device (101, 107, 113, 119, 131, 137) contends with operation from the mobile terminal (125, 128), the operation from the dedicated remote controller takes precedence and operation from the mobile terminal (125, 128) is discarded. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a remote control device and a remote control method that allow a device connected to a network to be remotely controlled using a mobile terminal, and in particular, allows a device in a direction to which a mobile terminal is turned to be selected as a remote control operation target. The present invention relates to a technology that enables a user to select a device intended by the user without moving his / her line of sight to the list even when the device responds.

  Conventionally, a dedicated infrared remote control device is attached to a television or the like, and remote control can be performed by operating the remote control device in the direction of the parent device. The interface was intuitive and easy to understand, just by pointing the remote control terminal in your hand to the device in front of you.

  However, as the number of home appliances and AV devices increases, there are as many dedicated remote control devices as there are, and there is a problem that the complexity of selecting a remote control increases.

  When performing remote control operations on home appliances and AV devices connected to a home network, a list of devices connected to the network is displayed on a remote control terminal capable of network communication, and the user selects the operation target device from the list. It has been. This method makes it possible to combine the remote control terminals of the respective devices into one mobile terminal.

  However, on the other hand, the operation target device has to be selected from the list of all devices connected to the home network, and the easy-to-understand interface of simply operating the remote control terminal at the device in front of the user is impaired.

  In Japanese Patent Laid-Open No. 2006-60411 (Patent Document 1), an infrared command is issued from a remote control terminal, a device that has received the infrared command is set as an operation target device candidate, and a list of operation target device candidates is displayed on the remote control terminal. Means for facilitating device selection by doing so are described.

Japanese Patent Laid-Open No. 2005-217645 (Patent Document 2) discloses that a device that receives an infrared command from a remote control terminal transmits GUI (Graphical User Interface) information necessary for operating the device itself via a network. A means for enabling any device to be operated with a general-purpose portable terminal by returning to the terminal is described.
JP 2006-60411 A JP 2005-217645 A

  A mobile terminal represented by a mobile phone may have an infrared interface or a wireless LAN connection function. Therefore, the remote control operation means described in Patent Document 1 and Patent Document 2 can be applied to a mobile phone.

  On the other hand, mobile phones have become widespread, and it is becoming an era when one person has one mobile terminal. For example, if there are multiple people in the living room, there may be multiple remote control terminals that can be used in common with the installed devices. If a TV, recorder, and player are installed adjacent to each other, May wish to operate the TV remote control, and at the same time other people may want to operate the player remote control.

  In Patent Document 1, there is a description of a means (apparatus selection means) for solving a conflict between devices when a plurality of adjacent devices simultaneously receive an infrared command issued by one remote control terminal. There is no idea that there are multiple remote control terminals. Therefore, it is not possible to cope with a case where there are a plurality of remote controllers as in the above example, and a conflict of device selection means occurs.

  In order to mediate the competition of the device selection means, it is necessary to centrally manage information such as which mobile terminal is trying to select which device or which mobile terminal is controlling which device. For this purpose, as disclosed in Patent Document 2, it is an easy solution to provide a server on the network and manage the status of remote control in the server. However, it is not necessary to install a server in the home network, and the cost is high.

  Accordingly, an object of the present invention is to provide a remote control device and a remote control method capable of improving the convenience of remote control operation without causing competition even when the remote control operation is performed by a plurality of portable terminals.

  The above and other objects and novel features of the present invention will be apparent from the description of this specification and the accompanying drawings.

  Of the inventions disclosed in the present application, the outline of typical ones will be briefly described as follows.

  In other words, the outline of a typical one is that when a device selection request is continuously received from a plurality of mobile terminals, the device selection operation by the mobile terminal that issued the device selection request later is the same as the mobile device that issued the device selection request first. A remote control master unit is provided for performing a device selection waiting process for waiting for a device selection operation by the terminal to end.

  Among the inventions disclosed in the present application, effects obtained by typical ones will be briefly described as follows.

  That is, the effect obtained by the representative one can improve the convenience of remote control operation without causing competition even when the remote control operation is performed by a plurality of portable terminals.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. Note that components having the same function are denoted by the same reference symbols throughout the drawings for describing the embodiment, and the repetitive description thereof will be omitted.

  First, the environment in which the present invention is implemented will be described.

  The present invention can be effectively implemented when a home device (AV device, air conditioner, white goods, etc.) connected to a network means such as a home network is operated by remote control.

  Home appliances often come with a dedicated infrared remote control. If a dedicated remote control attached to the device is used, it is convenient to operate the device or change settings. On the other hand, when there are a plurality of devices, there are a plurality of dedicated remote controllers. Searching for a dedicated remote controller for the device to be operated or changing the device to operate each device, the more the device becomes, the more annoying it becomes.

  Since these devices are connected to the network, it is possible to prepare one operation terminal and perform an operation by selecting a device to be operated on the operation terminal. A mobile terminal such as a mobile phone or a PDA (Personal Digital Assistant) can be used as the operation terminal. Regarding the device selection operation, selection is made from a list of all devices connected to the home network.

  Many choices are displayed in the device list, and the operation target device selection operation is troublesome for the user. As a countermeasure, for example, a device list can be grouped for each room, and a device can be easily searched by first selecting a room. However, when many devices such as a living room are concentrated, many selection candidates are displayed in the device list, and the troublesome operation of device selection cannot be solved.

  In the case of a dedicated remote controller for a piece or device, it is only necessary to operate the dedicated remote controller toward the operation target device, and there is no need to select the device. Such an operation method is intuitive and natural for the user. In other words, the device may be selected by operating the portable terminal used as the operation terminal toward the operation target device. For example, if the mobile terminal is operated toward the TV, the TV can be operated, and if the mobile terminal is operated toward the air conditioner, the air conditioner can be operated.

  In order to identify the device to which the portable terminal is directed, it is preferable to use infrared rays having a high directivity. The equipment side already has an infrared interface for use with a dedicated remote control, and many mobile phones and PDAs are also equipped with an infrared interface, which can be used without increasing the number of parts. Is possible. Since the directivity is high, it is convenient to select a device to which the portable terminal is directed.

  A device selection infrared command (hereinafter abbreviated as device selection IR command) including ID information of the mobile device is issued from the portable terminal, and the device that has received this infrared command (hereinafter abbreviated as IR command) is “selected. As the “device”, its own ID information is transmitted to the portable terminal via the network means.

  The mobile terminal receives the ID information of the device, and transmits operation information specified by the user to the corresponding device via the network means, thereby enabling the remote control operation of the device from the mobile terminal. At this time, GUI information (such as an operation screen) necessary for the operation of the device can be sent from the device to the portable terminal, and functions unique to the device can be operated.

  With the above mechanism, the user can operate the device by remote control as if the user intended the device to be operated by pointing the mobile terminal and using the dedicated remote control of the device.

  However, there are the following problems.

  (1) Although the directivity of infrared communication is high, for example, when devices are installed adjacent to each other, such as a television and a recorder, a plurality of devices receive a device selection IR command from a mobile terminal, and the devices Conflicts can occur in the selection. For example, the user wants to operate the television, but both the television and the recorder respond, and the device cannot be selected.

  (2) When a plurality of users issue IR commands in succession using a dedicated remote controller or their own mobile terminal, there is a possibility that remote control operations will compete. On the device side, it is necessary to decide whether to give priority to remote control operation from the dedicated remote controller or from which portable terminal.

  Hereinafter, embodiments of a remote control device devised to solve the above problems in an environment where the present invention is implemented will be described.

  With reference to FIG. 1, the structure of a house in which a home network by a device including a remote control device according to an embodiment of the present invention is introduced and an outline of operations in the home network will be described. FIG. 1 is a configuration diagram showing a configuration of a house in which a home network including devices including a remote control device according to an embodiment of the present invention is introduced.

  In FIG. 1, devices connected to the home network are arranged in a living room 145 and a bedroom 146. In the living room 145, a device A101, a device B107, a device C113, a device D119, and a router 143 that functions as a home network hub are arranged.

  In the bedroom 146, a device E131 and a device F137 are arranged. In this embodiment, these devices are, for example, the device A 101 is a television, the device B 107 is an HDD recorder, the device C 113 is a DVD player, the device D 119 is an air conditioner, the device E is a television in the bedroom 146, and the device F is an air conditioner in the bedroom 146. Assume that there is.

  In this embodiment, the router 143 provides a wireless LAN function and includes an antenna 144 for that purpose. The wireless LAN provided by the router 143 can reach the bedroom 146 as well.

  The device A 101 is provided with a device A dedicated remote controller 105 having an infrared light emitting unit 106. If this device A dedicated remote controller 105 is used, the remote control operation of the device A 101 by infrared rays can be performed as usual even in a home where the home network assumed in the present embodiment is not constructed.

  Similarly, the device B 107 includes the device B remote control 111 including the infrared light emitting unit 112, the device C 113 includes the device C dedicated remote control 117 including the infrared light emitting unit 118, and the device D 119 includes the infrared light emitting unit 124. A remote controller 123 dedicated to the device D is attached, a remote controller 135 dedicated to the device E including the infrared light emitting unit 136 is attached to the device E131, and a remote controller 141 dedicated to the device F including the infrared light emitting unit 142 is attached to the device F137.

  The device A101 includes an infrared light receiving unit 103, a pilot lamp 104 indicating an operation state, and an antenna 102 for communicating with the router 143. The device B 107 includes an infrared light receiving unit 109, a pilot lamp 110 indicating an operation state, and an antenna 108 for communicating with the router 143. The device C113 includes an infrared light receiving unit 115, a pilot lamp 116 indicating an operation state, and an antenna 114 for communicating with the router 143.

  The device D119 includes an infrared light receiving unit 121, a pilot lamp 122 indicating an operation state, and an antenna 120 for communicating with the router 143. The device E131 includes an infrared light receiving unit 133, a pilot lamp 134 indicating an operation state, and an antenna 132 for communicating with the router 143. The device F137 includes an infrared light receiving unit 139, a pilot lamp 140 indicating an operation state, and an antenna 138 for communicating with the router 143.

  The portable terminal (a) 125 functions as an operation terminal in the home network. The mobile terminal (A) 125 may use a mobile phone or a PDA, for example.

  The portable terminal (A) 125 includes an infrared light emitting unit 127 and an antenna 126 for communicating with the router 143. Similarly, the portable terminal (B) 128 includes an infrared light emitting unit 130 and an antenna 129 for communicating with the router 143.

  In the home network of this embodiment, the device A 101, the device B 107, the device C 113, the device D 119, the device E 131, the device F 137, the mobile terminal (A) 125, and the mobile terminal (B) 128 can communicate with each other.

  First, in order to explain the outline of the overall operation, consider a case where the user picks up the portable terminal (A) 125 and issues a device selection IR command to the device A. The issued device selection IR command includes the ID information of the portable terminal (a) 125.

  With this ID information, the mobile terminal (a) 125 can be identified on the home network. Here, in order to explain the basic operation, it is assumed that the device selection IR command from the portable terminal (a) 125 reaches only the device A101 and does not reach other devices.

  The device A 101 receives the device selection IR command and obtains ID information of the portable terminal (a) 125. The device A 101 returns a response to the portable terminal (a) 125 via the home network. This response includes the ID information of the device A101. The portable terminal (a) 125 and the device A 101 can communicate with each other on the home network using the mutual ID information.

  The user operates the portable terminal (a) 125, an operation signal is transmitted to the device A101, and the device A101 operates according to the received operation signal. At this time, first, GUI information suitable for the operation of the device A 101 can be transmitted from the device A 101 to the mobile terminal (A) 125.

  In the portable terminal (a) 125, a menu screen is displayed on the display based on the received GUI information, and the operation by the user can be facilitated.

  As described above, the user selects a desired device simply by pointing the portable terminal (a) 125 without operating the user to select a desired device from a list of devices connected to the home network. Can be operated.

  In the outline of the above operation, it is assumed that the device selection IR command from the portable terminal (a) 125 reaches only the device A101 and does not reach other devices. In practice, there are cases where devices are installed adjacent to each other, such as televisions and HDD recorders.

  The infrared irradiation range 147 shown in FIG. 1 shows how the device selection IR command from the portable terminal (a) 125 reaches the device A101, the device B107, and the device C113. In this case, the device A 101, the device B 107, and the device C 113 each return a response to the mobile terminal (A) 125. In this state, the portable terminal (a) 125 cannot determine with which device it should communicate.

  A method for dealing with a case where there are a plurality of devices that have received the device selection IR command and contention between the devices has occurred will be described.

  As one proposal, there is a method in which the mobile terminal (a) 125 receives a response from each device, creates a list, and presents this list to the user to select an operation target device. However, in this case, it is necessary for the user to move the line of sight to the portable terminal (a) 125 and perform a device selection operation from the list. In this case, simply by operating the mobile terminal toward a desired device, the advantage of this embodiment that enables operation of the device is impaired.

  When performing remote control operation toward a device, the user's line of sight is often directed toward the device after the remote control is picked up.

  In the present embodiment, each device includes pilot lamps 104, 110, 116, 122, 134, 140. When a plurality of devices receive a device selection IR command and a conflict occurs, it is convenient that a desired device can be selected depending on the lighting state of the pilot lamp of the device to which the user's line of sight is directed. Specific means will be described later.

  Next, the configuration of a device including the remote control device according to one embodiment of the present invention will be described with reference to FIG. FIG. 2 is a block diagram showing the configuration of a device including a remote control device according to one embodiment of the present invention.

  FIG. 2 illustrates an example of a device A 101 as a device. Other devices have the same configuration as the remote control device.

  In FIG. 2, the device A 101 includes a television receiver 201, a system bus 204, a processor 203, a RAM 205, a ROM 206, a timer 207, a wireless LAN adapter 208, a control signal receiving unit 202, and an infrared light receiving unit 103.

  The television receiver 201 provides a general television receiver function. Through the control signal receiving unit 202, power ON / OFF, volume adjustment, and other various adjustments can be performed. The details of the television receiver 201 are not related to the essence of the present invention, and the description thereof is omitted.

  The portion of the television receiver 201 differs depending on the device. For example, the device B107 is HDD recorder means (not shown) that provides an HDD recorder function, and the device C113 is DVD player means (not shown) that provides a DVD player function.

  To the system bus 204, a processor 203, a RAM 205, a ROM 206, a timer 207, a wireless LAN adapter 208, a control signal receiving unit 202, and an infrared light receiving unit 103 are connected. The processor 203 executes a program stored in the ROM 206.

  Multiple tasks are generated by executing the program. Although a task is a virtual concept, in the present embodiment, it is illustrated as being in the RAM 205 used as a work area for program execution.

  The processor 203, RAM 205, ROM 206, timer 207, and processing of each task constitute a remote control device, and the remote control device may be included in, for example, a processing unit inside the device, or a process different from the device. It may be implemented as a circuit or a processing device.

  Here, only the outline of these tasks will be described, and details of each task will be described later. The command extraction function 209 is a task that acquires communication signals (commands and notifications) sent from the infrared light receiving unit 103 and the wireless LAN adapter 208 and passes them to the command classification function 210.

  The command classification function 210 classifies whether a command is via a LAN (hereinafter abbreviated as a LAN command), a command via an infrared ray (hereinafter abbreviated as an IR command), or an IR command from a dedicated remote controller of the device. It is a task that starts necessary processing.

  The remote control priority management function 211 is a task that performs ID information storage, priority timeout management, and the like of a portable terminal that has priority for remote control operation of the device A.

  The task of the remote control master function 213 plays three roles.

  The first function is a function for storing and providing ID information of a device that is currently a remote control master.

  The second function is a function that receives the same device selection IR command and provides means for selecting a device that the user wants to operate from among a plurality of devices competing for device selection.

  The third function is a function of arbitrating so that any one device becomes the remote control master when any device connected to the home network is not the remote control master.

  Of these functions, only one of the devices connected to the home network can provide the second function. The first function and the third function are effective in any device.

  By the third function of the remote control master function 213 task incorporated in each device connected to the home network, one of the plurality of devices is selected as the remote control master, and the second task of the remote control master function 213 is selected. Provides the functionality of

  In a device other than the remote control master, the second function of the task of the remote control master function 213 does not operate. The first function of the task of the remote control master function 213 operates in any device.

  The remote control priority management function 211 and the remote control master function 213 form a remote control master unit.

  Next, the configuration of a mobile terminal in a home network by a device including a remote control device according to an embodiment of the present invention will be described with reference to FIG. FIG. 3 is a configuration diagram showing a configuration of a mobile terminal in a home network by a device including a remote control device according to an embodiment of the present invention.

  In FIG. 3, the portable terminal (a) 125 includes a system bus 302, a processor 301, a RAM 303, a ROM 304, a keypad 305, an LCD display 308, a wireless LAN adapter 309, and an infrared light emitting unit 127.

  A processor 301, a RAM 303, a ROM 304, a keypad 305, an LCD display 308, a wireless LAN adapter 309, and an infrared light emitting unit 127 are connected to the system bus 302. The processor 301 executes a program stored in the ROM 304. The RAM 303 is used as a work area.

  The keypad 305 includes a plurality of push button switches, one of which functions as the device selection button 306.

  Further, there may be a push button switch that functions as the remote control operation end button 307. The LCD display 308 can display a GUI combining graphics and characters. The infrared light emitting unit 127 transmits an IR command according to a signal from the processor 301. The wireless LAN adapter 309 includes an antenna 126 and performs communication with a wireless LAN provided by the router 143.

  Next, referring to FIG. 4, the state of the pilot lamp of the device including the remote control device according to one embodiment of the present invention will be described. FIG. 4 is a diagram showing a state of a pilot lamp of a device including a remote control device according to one embodiment of the present invention.

  FIG. 4 shows the state of the pilot lamp at the time of device selection when the device selection IR command from the portable terminal (a) 125 reaches the devices A101, B107, and C113.

  The device can be selected according to the lighting state of the pilot lamp of the device to which the user's line of sight is directed. Reference numeral 401 in FIG. 4 is a table for explaining lighting states of the pilot lamps of the devices A101, B107, and C113 in the respective states. Column 402 represents the state.

  A column 403 represents the state of the pilot lamp 104 of the device A101. A column 404 represents the state of the pilot lamp 110 of the device B107. A column 404 represents the state of the pilot lamp 116 of the device C113. A row 406 represents a steady state in which the devices A101, B107, and C113 are all off. A row 407 represents a state immediately after each device receives the device selection IR command.

  In this state, the pilot lamps of the devices A101, B107, and C113 are all lit in orange. The user can know that the devices A101, B107, and C113 have reacted by watching the state of the pilot lamp and pressing the device selection button 306 that the user has performed.

  A row 408 represents the device selection state [1]. Only the pilot lamp 104 of the device A101 is lit in orange, and the pilot lamps of the devices B107 and C113 are turned off.

  A row 409 represents the device selection state [2]. Only the pilot lamp 110 of the device B107 is lit in orange, and the pilot lamps of the devices A101 and C113 are turned off.

  A row 410 represents a device selection state [3]. Only the pilot lamp 116 of the device C113 is lit in orange, and the pilot lamps of the devices A101 and B107 are turned off.

  With a certain interval, the device selection state [1] is followed by the device selection state [2], the device selection state [2] is followed by the device selection state [3], and the device selection state [3] is followed by the device selection state [1]. ] And transition. The user can select a device by pressing the device selection button 306 when the pilot lamp of the desired device is lit.

  For example, when the device selection button 306 is pressed in the device selection state [3], a transition is made to the device selection confirmation state exemplified in the row 411. At this time, the pilot lamp 116 of the selected device C113 is lit red, and the result of device selection is transmitted to the user.

  At this time, it is determined which terminal controls which device by remote control. In this example, it is determined that the portable terminal (a) 125 operates the device C113 by remote control.

  In the present embodiment, this is expressed as “the portable terminal (A) 125 has the remote control priority for the device C113”. When the remote control operation by the user is completed, the state transitions to a steady state in which the device C113 exemplified in the row 412 is on.

  At this time, the pilot lamp 116 of the device C113 is lit in green. The management of each state described above and the turning on or off of the pilot lamp of each device are performed by the second function of the remote control master function of the device that is the remote control master.

  Next, the operation of the command extraction function of the device including the remote control device according to one embodiment of the present invention will be described with reference to FIG. FIG. 5 is a diagram showing the operation of the command extraction function of the device including the remote control device according to one embodiment of the present invention.

  The infrared remote command decoding means 501 decodes the IR command from the infrared signal from the infrared light receiver 103 and sends it to the remote command queue 504. The wireless LAN remote command decoding means 502 extracts the LAN command from the communication signal from the wireless LAN adapter 208.

  The switch 503 makes an inquiry to the remote control priority management function 211 and sends only the LAN command from the terminal having the remote control priority to the remote control command queue 504. LAN commands from terminals without remote control priority are discarded.

  For example, if an inquiry is made to the remote control priority management function 211 that the terminal having the remote control priority is the portable terminal (a) 125, the switch 503 will send the LAN command from the portable terminal (a) 125 as follows. The LAN commands from other terminals are discarded after being sent to the remote control command queue 504. The remote control command queue 504 sends a command to the task of the command sorting function 210 by FIFO (first-in first-out).

  Next, the operation of the command sorting function of the device including the remote control device according to one embodiment of the present invention will be described with reference to FIG. FIG. 6 is a diagram showing the operation of the command sorting function of the device including the remote control device according to one embodiment of the present invention.

  First, in step 601, the process branches depending on whether the IR command or the LAN command. In the case of a LAN command, the command is sent to the command processing task 613 via the switch 610, the LAN command queue 609, the switch 611, and the switch 612 (see 607 in FIG. 6).

  In the case of an IR command from the dedicated remote controller, the process reaches step 606 via steps 601 and 602.

  In step 606, a remote control priority management function (to be described later) is notified, and the IR command of the dedicated remote controller is sent to the dedicated remote command queue 608. At this time, the switch 610, the switch 611, and the switch 612 are inverted (see 614 in FIG. 6).

  When these switches are reversed, all LAN commands including the LAN commands staying in the LAN command queue 609 are discarded. The IR command of the dedicated remote controller is sent to the command processing task 613 via the switch 612.

  With this operation, the dedicated remote controller can perform remote control operation of the device in preference to any portable terminal.

  In the case of an IR command from any portable terminal, the process reaches step 603 via step 601 and step 602. If the IR command is a device selection IR command in step 603, the process proceeds to step 615, and if it is any other IR command, nothing is done (step 605).

  In step 615, a value in a remote control master state storage area 215, which will be described later, is checked. If the value is a value indicating a remote control master arbitrating state, nothing is done (step 605). Otherwise, the process proceeds to the remote control master arbitration 604 task. The remote control master arbitration 604 task provides a third function of the remote control master function (described later).

  Arbitration (remote control master arbitration) that determines which device is the remote control master or which device is the remote control master when no device is the remote control master is executed.

  Next, the operation of the remote control priority management function of the device including the remote control device according to one embodiment of the present invention will be described with reference to FIG. FIG. 7 is a diagram showing the operation of the remote control priority management function of the device including the remote control device according to one embodiment of the present invention.

  When the task of the remote control priority management function 211 is activated, an event standby state 701 is entered.

  When the following five events occur, different operations are performed depending on the event, and the state transitions to the event standby state 701 again.

  The remote control priority is a right given to a mobile terminal that is permitted to perform remote control operations on the device. ID information of the portable terminal having the remote control priority is held in the remote control priority storage area 212. When a certain time (for example, 15 seconds) has passed since the last remote control operation from the mobile terminal having the remote control priority has arrived, or when the user explicitly ends the remote control operation using the remote control end button 307 of the mobile terminal. The remote control priority is deleted.

  Also, when the IR command arrives from the dedicated remote controller, the remote controller priority is deleted. When the remote control priority storage area 212 is empty, a LAN command from any portable terminal is not accepted.

  When a command processing task 613 (to be described later) receives a remote control priority setting notification of the device from the remote control master, a priority obtained by adding ID information of the mobile terminal that has acquired the remote control priority to the task of the remote control priority management function 211 Issue configuration notification.

  When this notification is received, the process goes to step 703 via step 702. In step 703, the ID information of the portable terminal having the remote control priority is set in the remote control priority storage area 212.

  When a remote control priority reference request is generated, a remote control ID reference event is generated, and the process reaches step 705 via step 704. In step 705, ID information of the portable terminal having the remote control priority set in the remote control priority storage area 212 is returned.

  The remote controller priority reference request is generated when the switch 503 is operated. The switch 503 can pass only a LAN command from a portable terminal having a remote control priority.

  When a certain period of time has elapsed since the last LAN command was received from the mobile terminal, a timeout event occurs in the task of the command processing 613, and the remote control priority management function 211 receives a notification indicating a timeout. When this notification is received, a timeout notification reception event occurs, and the process goes to step 709 via step 706.

  In step 709, the remote control priority storage area 212 is emptied. In the next step 710, the remote control master is notified that the remote control priority has been lost.

  When an IR command is received from the dedicated remote controller, a dedicated remote command reception event is issued from step 606 of the command sorting function 210 task. When a dedicated remote command reception event occurs, the process goes to step 709 via step 707. The operations in step 709 and step 710 are as described above.

  When the user explicitly terminates the remote control operation by pressing the remote control operation end button 307, an operation end event occurs in the task of the command processing 613. When an operation end event occurs, the command processing task 613 issues a remote control operation end notification to the task of the remote control priority management function 211.

  When the remote control operation end notification is received, the process goes to step 709 via step 708. The operations in step 709 and step 710 are as described above.

  Next, referring to FIG. 8, the command processing operation of the device including the remote control device according to the embodiment of the present invention will be described. FIG. 8 is a diagram showing command processing operations of a device including a remote control device according to an embodiment of the present invention.

  When the command processing task 613 is activated, it enters a command waiting state 801 until an event occurs. When any event occurs, a value in a remote control master state storage area 215 to be described later is checked. If the value is a value indicating a remote control master arbitrating state, the process goes to step 803 via step 802.

  During remote control master arbitration, in step 803 all LAN commands and notifications are transferred to the remote control master function 213 task. The task of the remote control master function 213 in the remote control master arbitration state receives only notifications related to the remote control master among the transferred LAN commands and notifications, and ignores other LAN commands and notifications. When the processing in step 803 is completed, the process transits to a command waiting state 801.

  In the command waiting state 801, a time-out event occurs when a certain time elapses after receiving the last LAN command. When a timeout event occurs, the process goes to step 805 via step 804. In step 805, a timeout notification is issued to the task of the remote control priority management function 211.

  This notification is captured in step 706 of the task of the remote control priority management function 211. When the processing in step 805 is completed, the process transits to a command waiting state 801.

  When the device selection LAN command is received from the portable terminal, the process proceeds to step 807 via step 806. In step 807, a device selection LAN command reception event is issued to the remote control master function 213 task. The device selection LAN command reception event is captured in step 910 described later. When the processing in step 807 is completed, the process transits to a command waiting state 801.

  When the operation end LAN command is received from the portable terminal, the process proceeds to step 809 via step 808. In step 809, a remote control operation end notification is issued to the task of the remote control priority management function 211.

  This notification is captured at step 708 of the task of the remote control priority management function 211. When the processing in step 809 is completed, the process transits to a command waiting state 801.

  When the remote controller priority setting notification is received from the remote controller master, the process proceeds to step 811 via step 810. In step 811, a priority setting notification is issued to the task of the remote control priority management function 211. ID information of the mobile terminal that has acquired the remote control priority is added to the priority setting notification.

  This priority setting notification is captured at step 702 of the task of the remote control priority management function 211. When the processing in step 811 is completed, the process transits to a command waiting state 801.

  If a command other than the above is received, step 812 is reached. In step 812, the received command is transmitted to the control signal receiving unit 202. In the case of the device A101, for example, remote control commands such as "TV reception start", "Volume increase / decrease", and "Channel switching" are transmitted. When the processing in step 812 is completed, the process transits to a command waiting state 801.

  Next, the operation of the remote control master function of the device including the remote control device according to one embodiment of the present invention will be described with reference to FIGS. 9 is a diagram showing a device selection operation of a remote control master function of a device including a remote control device according to an embodiment of the present invention, and FIG. 10 is a remote control of a device including a remote control device according to an embodiment of the present invention. FIG. 11 is a diagram illustrating a master arbitration operation of a master function, FIG. 11 is a diagram illustrating an example of a device list of devices including a remote control device according to an embodiment of the present invention, and FIG. 12 is a remote controller according to an embodiment of the present invention. FIG. 13 is a diagram illustrating an example of a priority list of devices including a control device, and FIG. 13 is a diagram illustrating a comparison operation of device list entries of a remote control master function of a device including a remote control device according to an embodiment of the present invention.

  The first function of the task of the remote control master function 213 is a function for storing and providing ID information of a device that is currently the remote control master. The ID information of the device that is currently the remote control master is set in the remote control master storage area 214 by the master arbitration function that is the third function of the task of the remote control master function 213. By referring to the remote control master storage area 214, the ID information of the device that is the remote control master can be known.

  The second function of the task of the remote control master function 213 will be described with reference to FIG. The second function is a function that receives the same device selection IR command and provides means for selecting a device that the user wants to operate from among a plurality of devices competing for device selection.

  For example, it is assumed that a device selection IR command is issued from the portable terminal (a) 125 and reaches the devices A101, B107, and C113. Each device issues a device selection IR command reception notification to the remote control master. The device selection IR command reception notification includes ID information of the mobile terminal that has issued the device selection IR command. The remote control master receives a device selection IR command reception notification from each device and creates a device list. The device list is a list created in the device list set 216.

  The device list will be described with reference to FIG. The device list set 216 can hold a plurality of device lists. The device list 1101 indicates that the device A 101, the device B 107, and the device C 113 have received the device selection IR command from the portable terminal (a) 125.

  Each element of the device list will be described. An element 1102 indicates a number for identifying a device list in the device list set 216. Element 1103 indicates the portable terminal ID that issued the device selection IR command.

  Here, the terminal ID of the portable terminal (A) is shown. Element 1104 is a time stamp indicating the time when this device list was created. Element 1105 indicates a pointer to the semaphore list. The semaphore is stored in the semaphore list 1109. Element 1110 indicates the first semaphore.

  The semaphore list 1109 can store a plurality of semaphores. A semaphore is set when there is a duplication of device list entries that are candidates for device selection between device lists. Element 1106, element 1107, and element 1108 are device list entries indicating ID information of devices that have received the device selection IR command.

  Here, ID information of the devices A, B, and C is stored. The number of device list entries is not particularly limited. When the remote control master creates the device list 1101, after receiving the earliest device selection IR command reception notification, it adds to the device list 1101 the devices that have been notified within a certain waiting time (for example, 100 milliseconds). go.

  Further, the remote control master has a priority list 217 as a list of devices for which remote control priority has been established at present. The priority list 217 will be described with reference to FIG.

  A column 1203 shows ID information of a portable terminal having a remote control priority, and a column 1204 shows ID information of a device for which the remote control priority is set. A row 1201 shows a state where the portable terminal (a) 125 has a remote control priority for the device A101.

  A row 1202 shows a state where the portable terminal (b) 128 has the remote control priority for the device D119. The remote control master refers to the priority list 217 when creating the device list. If the device that issued the device selection IR command reception notification is in the priority list column 1204, the remote control master does not put the corresponding device in the device list.

  The manner in which the remote control master creates a device list will be described with reference to the flowchart of FIG. The second function of the normal remote control master function is in a state 902 waiting for an inter-device competition arbitration request.

  When the first device selection IR command reception notification is received, an event occurs and measurement of a certain waiting time (for example, 100 milliseconds) is started using the timer 207, and the process proceeds to step 903 and step 904.

  Here, it is assumed that the device selection IR command is received from the device A 101, and that the mobile terminal that issued the device selection IR command is the mobile terminal (A) 125. Since it is within the waiting time, the process branches from step 904 to step 905.

  In step 905, the priority list 217 is referred to, and it is determined whether or not the column 1204 has the ID information of the device A101. If there is no ID information of the device A101 in the column 1204, a new device list is allocated for the portable terminal (a) 125, and the ID information of the device A101 is entered in the entry.

  If there is ID information of the device A 101 in the column 1204, no entry is added. Then, the state 902 is entered again. When the device selection IR command reception notification is received from the device B 107 and the device C 113 within the waiting time, the ID information of each device is similarly entered in the device list for the portable terminal (a) 125. When the above waiting time elapses, a timeout event occurs.

  Then, the process proceeds to step 903 and step 904. Since the waiting time has expired, the process proceeds from step 904 to step 914. In step 914, device list entries are compared.

  Details of the processing in step 914 will be described with reference to FIG. In step 1301 of FIG. 13, the device list created before the device list currently being created (device list ID = 01) is selected from the device lists included in the device list set 216. Search by comparing timestamps.

  If there is no device list created before the device list currently being created, step 902 is entered to enter the state 907. If there is a previously created device list (assuming device list ID = 00), the elements of the device list entry with device list ID = 01 and the device list entry with device list ID = 00 are compared, and the same device entry It is confirmed whether there is any (step 1303).

  For example, assume that the device list 1111 in FIG. 11 represents a device list with device list ID = 01, and the device list 1101 represents a device list with device list ID = 00. Device list entry 1116 (device B) overlaps with device list entry 1107.

  The device list entry 1117 (device C) is duplicated with the device list entry 1108. When there is the same device list entry in this way, the semaphore 1120 is added to the semaphore list indicated by the pointer 1115 to the semaphore list.

  As the value of the semaphore, “00” that is the device list ID of the device list 1101 is set (step 1305). If there is no duplication of device list entries, the process proceeds to step 1306. If there is no duplication of the device list entry, the semaphore is not set, and the state 907 is entered through step 1306.

  In the remote control master function 901 shown in FIG. 9, one instance is executed by multitasking for each portable terminal. Each instance shares a set 216 of device lists. As will be described later, when the device selection by the mobile terminal is confirmed, the device list becomes unnecessary.

  The device list is to be deleted, but before that, another device list having the same semaphore value as the device list ID to be deleted is searched.

  In the above example, when the device list 1101 is deleted, the value of the semaphore in the other device list is referred to, and if there is a matching semaphore, the semaphore is cleared. Since the device list ID = 00 of the device list 1101 is set in the semaphore 1120 of the device list 1111, the semaphore 1120 is cleared.

  In this way, the semaphore in the device list is cleared by another remote control master function task instance. Returning to the description of step 1306 in FIG. The loop returns to step 1306 unless all semaphores are cleared. That is, when all semaphores are cleared, the process can proceed to state 907.

  Returning to the description of FIG. At the time of exiting step 914, the device list of FIG. 11 is completed. In the following description, the device list 1101 in FIG. 11 will be described as an example.

  In the pilot lamp operation state 907, the pilot lamp of each device is turned on and off according to the device list.

  First, the timer 207 is used to start measuring the device selection time limit (for example, 30 seconds). When this time limit is exceeded, a timeout event occurs.

  Next, in order to indicate to the user that the device A101, the device B107, and the device C113 are in a competitive state regarding the device selection for remote control operation, the pilot lamps of the three devices are set as illustrated in the row 407 of FIG. All lights up orange.

  The pilot lamp on / off command is issued from the device serving as the remote control master to each device via the LAN.

  After a predetermined time (for example, 500 milliseconds) elapses, the device shifts to the device selection state [1] exemplified in the row 408. In this state, the pilot lamp 104 of the device A101 is turned on in orange, and the pilot lamp 110 of the device B107 and the pilot lamp 116 of the device C113 are turned off.

  After a certain time (for example, 1000 milliseconds) elapses, the device shifts to the device selection state [2] exemplified in the row 409. In this state, the pilot lamp 110 of the device B107 is turned on in orange, and the pilot lamp 104 of the device A101 and the pilot lamp 116 of the device C113 are turned off.

  After a certain time (for example, 1000 milliseconds) elapses, the device shifts to the device selection state [3] exemplified in the row 410. In this state, the pilot lamp 116 of the device C113 is lit in orange, and the pilot lamp 104 of the device A101 and the pilot lamp 110 of the device B107 are turned off.

  After a predetermined time (for example, 1000 milliseconds) elapses, the process shifts to the row 408 again. Thereafter, the three states exemplified in the row 408, the row 409, and the row 410 are repeated.

  In this pilot lamp operation state 907, when a device selection LAN command is issued from a portable terminal (in this example, portable terminal (A) 127) to a device that is a remote control master, the pilot lamp is turned on at that time. The device is confirmed as the remote control operation target device.

  When the device selection LAN command from the portable terminal arrives at the device that is the remote control master, an event occurs, and the process goes to step 911 through step 908 and step 910.

  In step 911, an entry is added to the priority list 217. For example, if the device A101 is selected, an entry having the ID information of the portable terminal (A) 125 as the value of the column 1203 and the ID information of the device A101 as the value of the column 1204 is added. Next, in step 912, a notification that the mobile terminal (A) 125 has acquired priority is issued to the selected device A101.

  With this notification, the device A101 executes step 703 in FIG. 7 through step 811 in FIG. 8, and the ID information of the portable terminal (A) 125 is set in the remote control priority storage area 212 of the device A101.

  In the pilot lamp operation state 907, LAN commands from portable terminals other than the portable terminal (A) 125 and LAN commands other than the device selection LAN command of the portable terminal (A) 125 are ignored in Step 910.

  In the pilot lamp operation state 907, when a device selection time limit (for example, 30 seconds) is exceeded, a time-out event occurs, and step 908 is followed by step 909. This is a case where the device selection LAN command is not issued from the portable terminal (a) 127 to the device that is the remote control master within the time limit. In this case, the device selection is interrupted, the device list 1101 is deleted in step 909, and the corresponding semaphore in the other device list is cleared, and the state 902 is returned.

  When the device selection is completed, the portable terminal (a) 125 has the remote control priority for the device A101. As described with reference to FIG. 7, the remote controller priority is lost due to a timeout, the arrival of an IR command from the dedicated remote controller of the device A 101, or the end of an explicit remote controller operation by the user.

  When the remote control priority is lost, in step 710 in FIG. 7, a remote control priority loss notification is issued from the device A 101 to the device that is the remote control master. When the remote control master receives the remote control priority loss notification, step 913 is executed through step 903. In step 913, the corresponding entry is deleted from the priority list 217.

  The remote control master arbitration function, which is the third function of the remote control master function, will be described with reference to FIG. Remote control master arbitration is to make any one device a remote control master when no device connected to the home network is a remote control master.

  When the device receives the device selection IR command from the mobile terminal, it goes through the task of the command extraction function 209 in FIG. 5 and the task of the command sorting function 210 in FIG. 6, and goes through the steps 601, 602, and 603, and the remote control master Arbitration 604 is reached.

  Remote control master arbitration starts from step 1001. In step 1001, data indicating “adjusting” is set in the remote control master state storage area 215. In step 1002, a remote control master search notification is broadcast to the home network. Next, a state 1003 for waiting for a response to the broadcast is entered. When the state 1003 is entered, the response queuing time measurement is started (reset) using the timer 207.

  In the notification waiting state 1003, a response received after the broadcast is issued is waited for. When the response waiting time has passed, a time-out event occurs, and the process goes to step 1006 through step 1005. This means that there was no response to the remote control master search notification broadcast.

  Therefore, this device that has issued the remote control master search notification broadcast becomes the remote control master. In step 1006, the ID information of the device itself is set in the remote control master storage area 214. In step 1007, a remote control master establishment completion notification is broadcast.

  In step 1014, the data in the remote control master state storage area 215 is cleared. In step 1015, a device selection IR command reception notification is issued to the remote control master. Further, in order for this device itself to become the remote control master, the flow shifts to the state 902 in FIG.

  When a remote control master search notification (broadcast) from another device is received in the notification standby state 1003, an event is generated, and the process reaches step 1009 through step 1005 and step 1008.

  In this case, after the device itself broadcasts the remote control master search notification, it receives the remote control master search notification broadcast from another device. The device that has issued the remote control master search notification broadcast first has priority to become the remote control master.

  Therefore, the device that has issued the remote control master search notification broadcast later is notified that this device itself has the priority to become the remote control master. Therefore, in step 1009, a remote control master establishment preparation notification is issued to the device that issued the remote control master search notification. Next, the notification standby state 1003 is entered again. In this case, however, the response waiting time is not reset.

  In the notification standby state 1003, an event is generated when a remote control master establishment preparation notification is received from another device, and the state 1011 is entered through steps 1005, 1008, and 1010.

  This means that this device itself broadcasts a remote control master search notification, but there is a device that has issued a remote control master search notification broadcast earlier than this device, and that device has returned a notification that the remote control master is being established. It is a case.

  Since another device is about to become the remote control master, it enters the waiting state 1011 until the device is established as the remote control master.

  In the state 1011, an event occurs when a notification from another device is received. If the notification is a remote control master establishment completion notification, the process proceeds to step 1013. The ID information of the counterpart device included in the remote control master establishment completion notification is set in the remote control master storage area 214.

  Next, in step 1014, the data in the remote control master state storage area 215 is cleared. In step 1015, a device selection IR command reception notification is issued to the remote control master.

  When a remote control master establishment completion notification is received from another device in the notification standby state 1003, an event is generated, and the process goes to step 1013 through step 1005, step 1008, step 1010, and step 1016. In step 1013, ID information of the counterpart device included in the remote control master establishment completion notification is set in the remote control master storage area 214.

  Next, in step 1014, the data in the remote control master state storage area 215 is cleared. In step 1015, a device selection IR command reception notification is issued to the remote control master.

  When a remote control master presence notification from another device is received in the notification standby state 1003, an event is generated, and the process reaches step 1013 through step 1005, step 1008, step 1010, step 1016, and step 1017.

  In step 1013, ID information of the counterpart device included in the remote control master presence notification is set in the remote control master storage area 214. Next, in step 1014, the data in the remote control master state storage area 215 is cleared. In step 1015, a device selection IR command reception notification is issued to the remote control master. If the result of step 1017 is No, the process returns to the state 1003 (reference numeral 1004 is a connection symbol indicating that the flowchart continues).

  Although detailed description has been given mainly with reference to the flowchart as described above, how an actual operation will be described will be described with a specific example.

  Assume that a device selection IR command is issued from the portable terminal (a) 125, and the device A101, the device B107, and the device C113 receive it. Immediately after that, it is assumed that a device selection IR command is issued from the portable terminal (B) 128, and the device B107, device C113, and device D119 receive the command.

  However, the device selection IR command from the portable terminal (b) 128 is ignored while the device A 101, the device B 107, and the device C 113 are each performing remote control master arbitration by receiving the device selection IR command from the portable terminal (b) 125. End up.

  Therefore, the device selection IR command issuance from the portable terminal (b) 128 is performed after the remote control master arbitration of each device, particularly the device B107 and the device C113.

  When the device selection IR command is received from the portable terminal (a) 125, the device A101, the device B107, and the device C113 send a device selection IR command reception notification to the remote control master. Immediately before transmitting the device selection IR command reception notification, remote control master arbitration (see FIG. 10) is performed, and any one device on the LAN becomes the remote control master.

  By the second function of the remote control master function, a task instance (see FIG. 9) of the remote control master function 213 is created for the portable terminal (a) 125. By this instance, a device list 1101 is created in the device list set 216.

  It is assumed that “00” is stored in the element 1102 of the device list 1101 as a device list ID. The element 1103 stores ID information of the portable terminal (a) 125. Element 1104 stores the device list creation time as a time stamp. In the element 1105, a pointer (fixed value) to the semaphore list is set.

  Here, since the remote control master receives the device selection IR command reception notification from the device A 101, the device B 107, and the device C 113, the ID information of the device A 101 is stored in the element 1106 as the device list entry.

  Similarly, the element 1107 stores the ID information of the device B, and the element 1108 stores the ID information of the device C113. The order of the device list entries stored in the element 1106, the element 1107, and the element 1108 is not particularly defined, and the device ID information may be stored in the order of arrival of the device selection IR command reception notification.

  It is assumed that there is no entry in the priority list 217 at this time. Assume that no device list other than the device list 1101 exists in the device list set 216. If the device selection IR command reception notification from another device does not arrive after waiting for a certain time (for example, 100 milliseconds), the device list 1101 is completed.

  On the other hand, the device selection IR command reception notification is also sent to the remote control master from the device B107, device C113, and device D119 that have received the device selection IR command from the portable terminal (b) 128.

  By the second function of the remote control master function, a task instance (see FIG. 9) of the remote control master function 213 is created for the portable terminal (b) 128. By this instance, a device list 1111 is created in the device list set 216. It is assumed that “01” is stored as the device list ID in the element 1112 of the device list 1111.

  The element 1113 stores ID information of the portable terminal (B) 128. Element 1114 stores the device list creation time as a time stamp. The time stamp value of the device list 1111 is a time later than the time stamp of the device list 1101. In the element 1115, a pointer (fixed value) to the semaphore list is set.

  Here, since the remote control master receives the device selection IR command reception notification from device B107, device C113, and device D119, the ID information of device B107 is stored in element 1116 as a device list entry.

  Similarly, ID information of the device C113 is stored in the element 1117, and ID information of the device D119 is stored in the element 1118. If a device selection IR command reception notification from another device does not arrive after waiting for a certain time (for example, 100 milliseconds), the device list 1111 is completed.

  At this time, the device list 1101 exists in the priority list 217. Therefore, the device list entries are compared in step 914 (FIG. 9).

  First, in step 1301 (FIG. 13), a device list having a time stamp older than the device list 1111 is searched. A device list 1101 exists as an old device list. Therefore, the device list entries are compared in step 1303 after step 1302.

  When the device list entry of the device list 1101 and the device list entry of the device list 1111 are compared, the device list entry 1107 and the device list entry 1116 have the ID information of the device B 107.

  In addition, the device list entry 1108 and the device list entry 1117 include ID information of the device C113. If the device list entries overlap in this way, the semaphore is inserted into the semaphore list of the newer device list 1111 through step 1304 and step 1305.

  As the value of this semaphore, “00” that is the device list ID of the device list 1101 is set. Since the semaphore is set, an infinite loop is entered in step 1306. Therefore, the device selection operation by the device list 1111 is awaited until the semaphore is cleared.

  Returning to the description of the instance of the remote control master function task for the portable terminal (a) 125. Since no semaphore is set in the device list of the portable terminal (a) 125, the state 907 (device selection state) of FIG. 9 is entered.

  As exemplified in the row 408, the row 409, and the row 410 in FIG. 4, the pilot lamps of the device A101, the device B107, and the device C113 rotate in order and emit orange light. The user of the portable terminal (a) 125 can confirm the device selection by pressing the device selection button 306 of the portable terminal (a) 125 when the pilot lamp of the device desired to be operated lights in orange.

  Here, it is assumed that the device A101 is selected. In step 911 (FIG. 9), the task instance of the remote control master function 213 adds an entry to the priority list 217, and the ID information of the portable terminal (A) 125 is set as the value of the column 1203 and the value of the device A101 is set as the value of the column 1204 ID information is stored.

  Next, in step 912, a priority acquisition notification by the portable terminal (a) 125 is issued to the device A101. Upon receiving the notification, device A 101 stores the ID information of portable terminal (A) 125 in remote control priority storage area 212 in step 703 (FIG. 7) through step 810 (FIG. 8) and step 811 (same as above). .

  Next, in step 915, the semaphore reset of the other device list and the device list 1101 are deleted. A semaphore entry in which the device list ID “00” of the device list 1101 is set is in the device list 1111.

  Therefore, the semaphore entry in the device list 1111 is cleared and the device list 1101 is deleted. Since the semaphore is cleared, the device selection operation based on the device list 1111 is resumed. This will be described later.

  As described above, the ID information of the portable terminal (A) 125 and the ID information of the device A101 are stored in the priority list of the remote control master, and the ID information of the portable terminal (A) 125 is stored in the remote control priority storage area 212 of the device A101. Is stored, the LAN communication from the device A101 to the portable terminal (A) 125 becomes possible, and the ID information of the device A101 can be notified to the portable terminal (A) 125.

  The portable terminal (a) 125 receives the ID information of the device A101, and can thereafter issue a remote control operation command from the portable terminal (a) 125 to the device A101 via the LAN.

  The remote controller operation command issuance from the portable terminal (a) 125 to the device A101 is interrupted and a certain time (for example, 30 seconds) elapses, or the remote controller operation end button 307 of the portable terminal (a) 125 is pressed explicitly. Depending on whether the command is issued, the remote control priority is lost.

  If the predetermined time has elapsed, the remote control priority storage area is cleared in step 709 through step 805 (FIG. 8) and step 706 (FIG. 7), and the priority loss notification is sent to the remote control master in step 710. publish. When the remote control master receives the priority loss notification of the device A101, the remote control master deletes the entry of the device A101 from the priority list in step 913 through step 903 (FIG. 9).

  On the other hand, the semaphore is cleared and the device selection operation by the device list 1111 is resumed. The device B107 and the device C113 have been device selection candidates by the portable terminal (a) 125, but have been released by the deletion of the device list 1101.

  An instance of the remote control master function task for the portable terminal (b) 128 enters the state 907 (device selection state). Similar to the device selection operation by the device list 1101, the pilot lamps of the device B107, device C113, and device D119 are rotated, and the user of the portable terminal (b) 128 lights the pilot lamp of the device that the user desires to operate in orange. Then, the device selection can be confirmed by pressing the device selection button 306 of the portable terminal (a) 125.

  Here, it is assumed that the device D119 is selected. In step 911 (FIG. 9), the task instance of the remote control master function 213 adds an entry to the priority list 217, the ID information of the portable terminal (b) 128 as the value of the column 1203, and the value of the device D119 as the value of the column 1204. ID information is stored.

  Next, in step 912, a priority acquisition notification by the portable terminal (b) 128 is issued to the device D119. Upon receipt of the notification, the device D119 stores the ID information of the portable terminal (b) 128 in the remote control priority storage area 212 in step 703 (FIG. 7) through step 810 (FIG. 8) and step 811 (same as above). .

  Next, in step 915, the semaphore reset of the other device list and the device list 1111 are deleted. Since only the device list 1111 exists at this time, only the device list 1111 is deleted.

  As described above, the ID information of the portable terminal (b) 128 and the ID information of the device D119 are stored in the priority list of the remote control master, and the ID information of the portable terminal (b) 128 is stored in the remote control priority storage area 212 of the device D119. Is stored, the LAN communication from the device D119 to the portable terminal (b) 128 becomes possible, and the ID information of the device D119 can be notified to the portable terminal (b) 128.

  The portable terminal (B) 128 receives the ID information of the device D119, and can thereafter issue a remote control operation command from the portable terminal (B) 128 to the device D119 via the LAN.

  As described above, even if the device selection IR command is continuously issued from the portable terminal (b) 125 and the portable terminal (b) 128, or the reachable ranges of the device selection IR commands overlap, selection candidates Even if the devices overlap, it is possible to prevent competition for device selection by each mobile terminal by waiting for the device selection operation.

  In addition, while the device selection by the portable terminal (A) 125 is performed in the living room 145, the device E131 and the device F137 may be selected by another portable terminal (C) (not shown) at the same time in the bedroom 146. Is possible.

  In this case, the reach of the device selection IR command does not overlap because it is a separate room, the device list entry for the portable terminal (c) does not overlap with the device list entry of the portable terminal (b) 125, and the device selection operation is performed. This is because there is no need to wait.

  Of course, the device selection IR command reachable range of two portable terminals does not overlap even in the same room, and if the device list entries do not overlap, device selection and remote control operation can be performed simultaneously on each portable terminal. .

  Up to this point, the competition between device selection operations by the portable terminal (A) 125 and the portable terminal (B) 128 has been described. On the other hand, the device A 101 is provided with a remote control dedicated to the device A. Similarly, a dedicated remote control is attached to other devices.

  A dedicated remote control is necessary to enable conventional remote control operations even in an environment where there is no home network or portable terminal. Here, what happens when the remote control operation from the dedicated remote control and the operation from the mobile terminal compete with each other will be described by taking the mobile terminal (A) 125 and the device A dedicated remote control 105 as an example.

  Assume that a dedicated IR command is issued from the device A dedicated remote controller 105 to the device A101 while the portable terminal (a) 125 selects the device A101 and obtains priority to perform the remote control operation.

  When the device A 101 receives a dedicated IR command from the device A dedicated remote controller 105, the device A 101 starts processing, and the command extraction function 209 and the command classification function 210 operate. Processing proceeds from step 601 (FIG. 6) to step 606 through step 602. In step 606, a dedicated IR command reception event is issued to the remote control priority management function 211 (FIG. 7).

  Then, the process of step 709 is performed through step 707. In step 709, the remote control priority storage area is cleared. In step 710, a priority loss notification is issued to the remote control master.

  The remote control master function task instance 901 (FIG. 9) deletes the priority entry of the portable terminal (A) 125 from the priority list 217 in step 913. The command sorting function 210 operates as indicated by 614 in FIG. 6 since there is a command input from the dedicated remote controller after step 606.

  That is, the dedicated IR command is put into the dedicated remote command queue 608. When there is a dedicated IR command in the dedicated remote command queue 608, the first switching means 610, the second switching means 611, and the third switching means 612 are reversed to discard all remote control commands from the LAN and the dedicated remote control. The dedicated IR command from the command queue 608 is sent to the command processing task 613.

  In the command processing task 613 (FIG. 8), a command arrival event occurs, and the process reaches step 812 through step 802, step 804, step 806, step 808, and step 810. In step 812, the sent dedicated IR command is sent to the control signal receiving unit 202 (FIG. 2), and the remote control operation of the device A101 is performed.

  As described above, the operation from the device A dedicated remote controller 105 is given top priority, the priority of the portable terminal (b) 125 is deleted, and the LAN commands from the queued portable terminal (b) 125 are also discarded. . By giving the highest priority to the operation from the dedicated remote controller, the following effects can be expected.

  For example, a remote control operation of a living room TV is taken as an example. Suppose a parent in a family has a dedicated remote control. Even if the child is operating the TV using his / her mobile terminal, the operation performed by the parent from the dedicated remote control is given priority. If the parent performs an operation of prohibiting remote control operation from the portable terminal using the dedicated remote control, the operation by the child can be blocked. For example, when you want to watch TV late at night and still want to turn off the TV as a parent, you can use the highest priority of the dedicated remote control.

  In this embodiment, a combination of a general LCD display 308 and a push button of the keypad 305 is assumed as a user interface of the mobile terminal. However, a display having a touchpad function is used, and buttons and icons are used as the display. The user can change to a means for giving an input instruction by touching the screen with a finger or a pen.

  As mentioned above, the invention made by the present inventor has been specifically described based on the embodiment. However, the present invention is not limited to the embodiment, and various modifications can be made without departing from the scope of the invention. Needless to say.

  The present invention relates to a remote control device and a remote control method that enable remote control using a mobile terminal, and is widely applied to home appliances, AV equipment, and the like that control a device connected to a home network using a plurality of mobile terminals. Is possible.

It is a block diagram which shows the structure of the house in which the home network by the apparatus containing the remote control apparatus which concerns on one embodiment of this invention is introduced. It is a block diagram which shows the structure of the apparatus containing the remote control apparatus which concerns on one embodiment of this invention. It is a block diagram which shows the structure of the portable terminal in a home network by the apparatus containing the remote control apparatus which concerns on one embodiment of this invention. It is a figure which shows the state of the pilot lamp of the apparatus containing the remote control apparatus which concerns on one embodiment of this invention. It is a figure which shows operation | movement of the command extraction function of the apparatus containing the remote control apparatus which concerns on one embodiment of this invention. It is a figure which shows operation | movement of the command classification function of the apparatus containing the remote control apparatus which concerns on one embodiment of this invention. It is a figure which shows operation | movement of the remote control priority management function of the apparatus containing the remote control apparatus which concerns on one embodiment of this invention. It is a figure which shows the operation | movement of the command processing of the apparatus containing the remote control apparatus which concerns on one embodiment of this invention. It is a figure which shows the apparatus selection operation | movement of the remote control master function of the apparatus containing the remote control apparatus which concerns on one embodiment of this invention. It is a figure which shows the master arbitration operation | movement of the remote control master function of the apparatus containing the remote control apparatus which concerns on one embodiment of this invention. It is a figure which shows an example of the apparatus list | wrist of the apparatus containing the remote control apparatus which concerns on one embodiment of this invention. It is a figure which shows an example of the priority list | wrist of the apparatus containing the remote control apparatus which concerns on one embodiment of this invention. It is a figure which shows the comparison operation | movement of the apparatus list entry of the remote control master function of the apparatus containing the remote control apparatus which concerns on one embodiment of this invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 101 ... Device A, 102 ... Wireless LAN antenna of device A, 103 ... Infrared light receiving unit of device A, 104 ... Pilot lamp of device A, 105 ... Dedicated remote control of device A, 106 ... Infrared light emitting unit of dedicated remote control of device A 107: Device B, 108: Wireless LAN antenna of device B, 109: Infrared light receiving unit of device B, 110: Pilot lamp of device B, 111: Dedicated remote control of device B, 112: Infrared light emission of dedicated remote control of device B 113: Device C, 114: Wireless LAN antenna of device C, 115: Infrared light receiving unit of device C, 116: Pilot lamp of device C, 117 ... Dedicated remote control of device C, 118: Infrared light of dedicated remote control of device C Light emitting unit, 119 ... device D, 120 ... wireless LAN antenna of device D, 121 ... infrared receiving unit of device D, 122 ... device D Pilot lamp, 123 ... Dedicated remote control for device D, 124 ... Infrared light emitting unit of dedicated remote control for device D, 125 ... Mobile terminal (A), 126 ... Wireless LAN antenna of mobile terminal (A), 127 ... Mobile terminal (A) Infrared light emitting unit, 128 ... Mobile terminal (B), 129 ... Wireless LAN antenna of mobile terminal (B), 130 ... Infrared light emitting unit of mobile terminal (B), 131 ... Device E, 132 ... Wireless LAN antenna of Device E DESCRIPTION OF SYMBOLS 133 ... Infrared light-receiving part of apparatus E, 134 ... Pilot lamp of apparatus E, 135 ... Dedicated remote controller of apparatus E, 136 ... Infrared light emitting part of exclusive remote controller of apparatus E, 137 ... Apparatus F, 138 ... Wireless LAN of apparatus F Antenna: 139: Infrared light receiving unit of device F, 140: Pilot lamp of device F, 141: Dedicated remote control of device F, 142: Dedicated remote control of device F 143 ... Router, 144 ... Router wireless LAN antenna, 145 ... Living, 146 ... Bedroom, 147 ... Infrared irradiation range, 201 ... TV receiver means, 202 ... Control signal receiver of TV receiver means, 203 ... Processor, 204 ... System bus, 205 ... RAM, 206 ... ROM, 207 ... Timer, 208 ... Wireless LAN adapter, 209 ... Command extraction function, 210 ... Command sorting function, 211 ... Remote control priority management function, 212 ... Remote control priority Right storage area, 213 ... Remote control master function, 214 ... Remote control master storage area, 215 ... Remote control master status storage area, 216 ... Set of equipment list, 217 ... Priority list, 301 ... Processor, 302 ... System bus, 303 ... RAM 304 ROM, 305 Keypad, 30 6 ... Device selection button, 307 ... Remote control end button, 308 ... LCD display, 309 ... Wireless LAN adapter, 501 ... Infrared remote control command decoding means, 502 ... Wireless LAN remote control command decoding means, 503 ... Switching means (switch), 504 ... Remote control command queue, 608 ... Dedicated remote control command queue, 609 ... LAN command queue, 610 ... First switching means (switch), 611 ... Second switching means (switch), 612 ... Third switching means (switch 613, command processing task.

Claims (5)

When a remote control operation is performed on a specific device among a plurality of devices connected to a network using a mobile terminal, a device selection request by an infrared command transmitted from the mobile terminal is received, and the device to be operated is A remote control device to identify,
When the device selection request is continuously received from a plurality of mobile terminals, the device selection operation by the mobile terminal that has issued the device selection request later is the device selection operation by the mobile terminal that has previously issued the device selection request. A remote control device comprising: a remote control master unit for performing a device selection wait process for waiting until completion of the operation. The remote control device according to claim 1,
The remote control device is provided in each of the plurality of devices, and the plurality of remote control master units perform arbitration processing between the plurality of remote control master units, and the remote control master unit provided in a specific device A remote control device that is registered as a remote control master and that performs the device selection waiting process by a remote control master unit registered as the remote control master. The remote control device according to claim 1 or 2,
When the remote control operation from the dedicated remote control device of the device conflicts with the remote control operation from the mobile terminal, the remote control master unit prioritizes the remote control operation from the dedicated remote control device and discards the remote control operation from the mobile terminal A remote control device characterized by that. When a remote control operation is performed on a specific device among a plurality of devices connected to a network using a mobile terminal, a device selection request by an infrared command transmitted from the mobile terminal is received, and the device to be operated is A remote control method to identify,
When the device selection request is continuously received from a plurality of mobile terminals, the device selection operation by the mobile terminal that has issued the device selection request later is the device selection operation by the mobile terminal that has previously issued the device selection request. A remote control method characterized by performing a device selection process for waiting until the end of the operation. In the remote control method according to claim 4,
When a remote control operation from the dedicated remote control device of the device conflicts with a remote control operation from the mobile terminal, the remote control operation from the dedicated remote control device is prioritized and the remote control operation from the mobile terminal is discarded. Remote control method.

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