JP2005027025A - Device and method for remote control, program for executing the method, and recording medium - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To easily control an appliance while confirming the operating state of the appliance whether an operator is located outside or inside the room. <P>SOLUTION: An operator's operation is detected as an operation signal and the detected operation signal is stored (S208). The stored operation signal is taken out for each predetermined time (S210), and a control signal is transmitted to an electric appliance on the basis of the obtained operation signal (S216 and S218). When the control signal is transmitted to the electric appliance, information about the operation of the electric appliance that has transmitted the control signal is received (S220), and the information about the operation of the electric appliance displayed on the screen of a portable telephone is updated (S230). <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a remote operation device for remotely operating an electric device installed indoors such as a home, a remote operation method, a program for executing the method, and a recording medium, and in particular, a remote operation device that can be remotely operated even outdoors. The present invention relates to a remote operation method, a program for executing the method, and a recording medium.
[0002]
[Prior art]
Conventionally, when operating electric devices such as an air conditioner, a television, a video, and an audio, the remote operation is performed by an attached dedicated remote controller. A remote controller with a learning function that can remotely operate a plurality of electrical devices with a single remote controller is also known. When remote control is performed using these remote controllers, it is only necessary to point the output unit for transmitting a radio signal toward the electric device, press a button corresponding to the setting item to be changed, and change the setting to a desired setting. However, since these remote controllers only instruct the operation of the electric equipment, the operation status of the electric equipment cannot be confirmed using the remote control. For this reason, it has been used only within a limited range such that the operator can directly confirm the operating status of the electric device visually, such as indoors.
[0003]
On the other hand, as a remote operation system capable of operating an electric device from the outside, JP 2002-281169 A (Patent Document 1) discloses a remote operation for operating an electric device via the Internet using a mobile phone from outside. An operating system is disclosed. The remote control system described in Patent Document 1 has a function of connecting to the Internet through a mobile phone network and is connected to a mobile phone having a function of browsing a home page and a communication line such as the Internet and a telephone line to provide a home page And a remote operation adapter having a function of controlling the home appliance connected to the communication line and detecting the status of the home appliance. The service device provides a screen for instructing the operation of the home appliance to the mobile phone as a home page, and transmits the content of the operation of the home appliance instructed on the home page to the remote operation adapter. The remote operation adapter receives the content of the operation of the home appliance transmitted from the service device, and controls the home appliance connected to the remote operation adapter. In addition, information related to the operation of home appliances is transmitted from the remote operation adapter and displayed on the home page. In this remote operation system, when a user accesses a home page using a mobile phone, information on the operation of home appliances and items that can be set are displayed on the home page. Select the displayed item, set the home appliance, and select the Enter button. The settings are sent from the mobile phone to the remote operation adapter via the service device, and the home appliance is controlled by the remote operation adapter. The When the home appliance is controlled, a home page reflecting the control result is transmitted to the mobile phone.
[0004]
According to the invention disclosed in this publication, using a mobile phone having an Internet connection function, while watching a home page displayed on the screen of the mobile phone, or using an interactive user interface using the home page, It becomes possible to remotely control household appliances in the home.
[0005]
[Patent Document 1]
JP 2002-281169 A
[0006]
[Problems to be solved by the invention]
However, the remote control device described in Japanese Patent Application Laid-Open No. 2002-281169 can operate a plurality of electrical devices from both outside and indoors using a single mobile phone. It is necessary to select the item displayed on the home page and select the enter button after setting. Therefore, for example, when only the temperature of the air conditioner is changed, the determination button must be selected after the temperature is set. Therefore, operation input is troublesome as compared with a conventional remote controller in which the setting of the electric device is completed simply by pressing the button corresponding to the setting item to be changed.
[0007]
The present invention has been made in order to solve the above-described problems, and its purpose is to perform remote operation that can be operated while confirming the operating state of the device, both indoors and outdoors, and with simple operation input. An apparatus, a remote operation method, a program for executing the method, and a recording medium are provided.
[0008]
[Means for Solving the Problems]
A remote control device according to a first invention is a device for remotely operating a device. The remote operation device is configured to set an apparatus based on an operation signal so as to satisfy an operation signal detection means for detecting an operation by the operator of the device as an operation signal and at least a predetermined condition regarding time. A control signal is transmitted based on the received information, a transmission unit for transmitting a control signal for changing the control signal to the device, a reception unit for receiving information on the operation of the device to which the control signal is transmitted. Means for informing the operator of the operating state of the device.
[0009]
According to the first invention, the operation signal detection means detects an operation by the operator of the remote operation device as an operation signal. The transmission means transmits a control signal for changing the setting of the device to the device based on the operation signal so that at least a predetermined condition regarding time is satisfied. Thereby, for example, if the control signal is transmitted every predetermined time, the control signal is automatically transmitted by the remote operation device. Therefore, the operator does not need to separately perform an operation for instructing the remote control device to transmit the control signal. Further, the receiving means receives information related to the operation of the device, and notifies the operator of the operating state of the device. For this reason, even if it is a case where the operator operates from the outdoors, for example, it can operate, confirming the operating state of an apparatus. As a result, it is possible to provide a remote control device that can be operated while checking the operating state of the device regardless of whether it is indoors or outdoors, and that allows simple operation input.
[0010]
In addition to the configuration of the first invention, the remote operation device according to the second invention is means for designating a device to be remotely operated from among the plurality of devices so as to selectively remotely operate the plurality of devices. Further included.
[0011]
According to the second invention, it is possible to designate a device that performs a remote control device among a plurality of devices. Thereby, for example, a plurality of devices can be operated with one remote control device.
[0012]
In the remote control device according to the third invention, in addition to the configuration of the first or second invention, the predetermined condition relating to time is a condition that a control signal is transmitted every predetermined time.
[0013]
According to the third invention, the transmission means can transmit the control signal to the device every predetermined time.
[0014]
In the remote control device according to the fourth aspect of the invention, in addition to the configuration of the first or second aspect of the invention, the predetermined condition regarding time is that the predetermined time elapses after the operator performs the operation. If the next operation is not performed, the control signal is transmitted.
[0015]
According to the fourth aspect of the invention, the control signal can be transmitted to the device when the next operation is not performed until a predetermined time has elapsed since the operator performed the operation.
[0016]
In the remote control device according to the fifth aspect of the invention, in addition to the configuration of any one of the first to fourth aspects of the invention, the transmission means performs a remote operation in addition to satisfying a predetermined condition regarding time. Means for transmitting a control signal so as to satisfy a condition relating to the change of.
[0017]
According to the fifth aspect, the transmission means transmits the control signal so as to satisfy the condition regarding the change of the device that performs remote operation in addition to the predetermined condition regarding time. Thereby, for example, the control signal can be transmitted when the device to be remotely operated is changed.
[0018]
In the remote control device according to the sixth invention, in addition to the configuration of any one of the first to fifth inventions, there are a plurality of types of operation signals, and the remote control device determines the number of types of operation signals. Means for determining and means for storing the order in which the operation signals are detected, and the transmission means is detected last when it is determined that the number of types of operation signals is one; Means for transmitting a control signal based on the operation signal is included.
[0019]
According to the sixth invention, there are a plurality of types of control signals, and when there is only one type of control signal, a control signal based on the last detected operation signal is transmitted. Thus, for example, when a plurality of operation signals of the same type are detected, the control signal is not transmitted based on all the operation signals, and the control signal is transmitted based on the operation last performed by the operator. be able to. As a result, the number of control signals to be transmitted can be suppressed, and the burden on the remote control device can be suppressed.
[0020]
In the remote control device according to the seventh invention, in addition to the configuration of any one of the first to fifth inventions, there are a plurality of types of operation signals, and the remote control device determines the number of types of operation signals. And a transmission means for transmitting a control signal based on all the operation signals detected by the operation signal detection means when it is determined that there are a plurality of types of operation signals. Including means.
[0021]
According to the seventh aspect, there are a plurality of types of control signals, and when there is only one type of control signal, a control signal based on all detected operation signals is transmitted. Thereby, a control signal can be transmitted based on all the operations of the operator. As a result, a control signal according to the operator's intention can be transmitted reliably.
[0022]
In the remote control device according to the eighth invention, in addition to the configuration of any of the first to seventh inventions, the receiving means receives information related to the operation of the device when the remote control device is activated. Including means.
[0023]
According to the eighth aspect, when the remote control device is activated, information related to the operation of the device is received. Thereby, when operating a device remotely, it can be operated after confirming the operating state of the device. As a result, appropriate remote operation can be performed according to the operating state of the device.
[0024]
A remote operation method according to a ninth aspect is a method for remotely operating a device. This remote operation method includes an operation signal detection step for detecting an operation by an operator of the remote operation device as an operation signal, and setting the device based on the operation signal so as to satisfy at least a predetermined condition regarding time. A transmission step for transmitting the control signal to be changed to the device, a reception step for receiving information on the operation of the device to which the control signal is transmitted, and an operation state of the device to which the control signal is transmitted based on the received information. A notification step of notifying the operator.
[0025]
According to the ninth aspect, the operation by the operator of the remote control device is detected as the operation signal in the operation signal detection step. In the transmission step, a control signal for changing the setting of the device is transmitted to the device based on the operation signal so that at least a predetermined condition regarding time is satisfied. Thereby, for example, if the control signal is transmitted every predetermined time, the control signal is automatically transmitted by the remote operation device. Therefore, the operator does not need to separately perform an operation for instructing the remote control device to transmit the control signal. Further, the receiving means receives information related to the operation of the device, and notifies the operator of the operating state of the device. For this reason, even if it is a case where the operator operates from the outdoors, for example, it can operate, confirming the operating state of an apparatus. As a result, it is possible to provide a remote control device that can be operated while checking the operating state of the device regardless of whether it is indoors or outdoors, and that allows simple operation input.
[0026]
In addition to the configuration of the ninth invention, the remote operation method according to the tenth invention includes a step of designating a device to be remotely operated among the plurality of devices so as to selectively remotely operate the plurality of devices. In addition.
[0027]
According to the tenth aspect, it is possible to designate a device that performs a remote control device among a plurality of devices. Thereby, for example, a plurality of devices can be operated with one remote control device.
[0028]
In the remote control method according to the eleventh invention, in addition to the configuration of the ninth or tenth invention, the predetermined condition relating to time is a condition that a control signal is transmitted every predetermined time. .
[0029]
According to the eleventh aspect, in the transmission step, the control signal can be transmitted to the device every predetermined time.
[0030]
In the remote control method according to the twelfth invention, in addition to the configuration of the ninth or tenth invention, the predetermined condition relating to time is that a predetermined time has elapsed since the operator performed the operation. If the next operation has not been performed before, the condition is that a control signal is transmitted.
[0031]
According to the twelfth aspect, the control signal can be transmitted to the device when the next operation is not performed until a predetermined time elapses after the operator performs the operation.
[0032]
In the remote operation method according to the thirteenth invention, in addition to the configuration of any of the ninth to twelfth inventions, the transmission step performs a remote operation in addition to satisfying a predetermined condition regarding time. The method includes a step of transmitting a control signal so as to satisfy a condition regarding the change of the device.
[0033]
According to the thirteenth aspect, in the transmission step, in addition to satisfying a predetermined condition regarding time, a control signal is transmitted so as to satisfy a condition regarding change of a device that performs remote operation. Thereby, for example, the control signal can be transmitted when the device to be remotely operated is changed.
[0034]
In the remote operation method according to the fourteenth invention, in addition to the configuration of any of the ninth to thirteenth inventions, there are a plurality of types of operation signals, and the remote operation method includes the number of types of operation signals. And a step of storing the order in which the operation signals are detected, and the transmission step determines the last detected operation signal when it is determined that the number of operation signals is one. Transmitting a control signal based thereon.
[0035]
According to the fourteenth aspect, there are a plurality of types of control signals, and when there is only one type of control signal, a control signal based on the last detected operation signal is transmitted. Thus, for example, when a plurality of operation signals of the same type are detected, the control signal is not transmitted based on all the operation signals, and the control signal is transmitted based on the operation last performed by the operator. be able to. As a result, the number of control signals to be transmitted can be suppressed, and the burden on the remote control device can be suppressed.
[0036]
In the remote control method according to the fifteenth invention, in addition to the configuration of any of the ninth to thirteenth inventions, there are a plurality of types of operation signals, and the remote operation method includes the number of types of operation signals. The step of transmitting includes a step of transmitting a control signal based on all the operation signals detected by the operation signal detecting step when it is determined that there are a plurality of types of operation signals. .
[0037]
According to the fifteenth aspect, there are a plurality of types of control signals, and when there is only one type of control signal, a control signal based on all detected operation signals is transmitted. Thereby, a control signal can be transmitted based on all the operations of the operator. As a result, a control signal according to the operator's intention can be transmitted reliably.
[0038]
In the remote operation method according to the sixteenth aspect of the invention, in addition to the configuration of any of the ninth to fifteenth aspects of the invention, the remote operation method is executed by a remote operation device that remotely operates an apparatus. The receiving step includes a step of receiving information related to operation of the device when the remote control device is activated.
[0039]
According to the sixteenth aspect, when the remote control device is activated, information related to the operation of the device is received. Thereby, when operating a device remotely, it can be operated after confirming the operating state of the device. As a result, appropriate remote operation can be performed according to the operating state of the device.
[0040]
A program according to a seventeenth aspect is a program for causing a remote control device for remotely controlling a device to execute the remote control method according to any of the ninth to sixteenth aspects.
[0041]
According to the seventeenth aspect of the invention, it is possible to provide a program that allows a remote operation device to execute a remote operation method that can be operated while checking the operating state of a device regardless of whether it is indoors or outdoors and that allows simple operation input. .
[0042]
A recording medium according to the eighteenth invention is a recording medium recording the program according to the seventeenth invention.
[0043]
According to the eighteenth aspect of the invention, there is provided a recording medium that records a program that allows a remote operation device to execute a remote operation method that can be operated while checking the operating state of a device regardless of whether it is indoors or outdoors. Can be provided.
[0044]
DETAILED DESCRIPTION OF THE INVENTION
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.
[0045]
<First Embodiment>
As shown in FIG. 1, mobile phone 500 according to the present embodiment remotely controls air conditioner 200, a television 300, video 400, and audio 450, which are electric devices placed inside house 100. . The mobile phone 500 performs a remote operation by accessing a network such as the Internet or a LAN (Local Area Network) using a radio signal. For this reason, the electrical equipment is connected to the network. Thereby, remote operation can be performed both indoors and outdoors. Note that in this embodiment, the air conditioner 200, the television 300, the video 400, and the audio 450 are remotely operated, but the electric devices that are remotely operated are not limited to the above, and include a washing machine, a refrigerator, and a microwave oven. Other devices such as doors and windows may be remotely operated. Further, remote operation may be performed by directly transmitting and receiving wireless signals between the mobile phone 500 and the electric device without going through the network. Furthermore, the device for performing the remote operation is not limited to the mobile phone 500, but may be, for example, a PDA (Personal Digital Assistant), a wristwatch, or a remote controller having only a function of performing the remote operation.
[0046]
With reference to FIG. 2, an internal structure of mobile phone 500 according to the present embodiment will be described. The mobile phone 500 is connected to a telephone line and a remote communication circuit 502 for remotely operating an electric device, a network communication circuit 504 for connecting to a network such as the Internet, and a voice signal is transmitted and received. And a normal conversation communication circuit 506.
[0047]
The remote operation circuit 502 includes an input interface 508, a display interface 510, a designation circuit 512, a display circuit 514, a notification circuit 516, a reception circuit 518, a temporary storage circuit 520, a control signal generation circuit 522, a transmission Circuit 524.
[0048]
The input interface 508 detects an operation by the operator as an operation signal. The display interface 510 displays operation guidance for each electrical device. In addition, information related to the operation of the device is displayed, and the operating state of the device is notified to the operator. The designation circuit 512 designates an air conditioner 200, a television 300, a video 400, and an audio 450 to be remotely operated by the mobile phone 500 in accordance with the operation of the operator. The display circuit 514 causes the display interface 510 to display an operation guide corresponding to the electrical device designated by the designation circuit 512. When the mobile phone 500 receives information related to the operation of the electrical device, the notification circuit 516 displays a notification mark described later on the display interface 510 in order to notify the operator that the information has been received. In addition, you may alert | report by a sound. The receiving circuit 518 receives information related to the operation of the electric device transmitted from the electric device. The temporary storage circuit 520 temporarily stores the operation signal detected by the input interface 508. Further, when the operation signal is detected continuously, the order is also stored.
[0049]
The control signal generation circuit 522 takes out the operation signal stored in the temporary storage circuit 520 every predetermined time, for example, every 3 seconds. The predetermined time is not limited to 3 seconds.
[0050]
The control signal generation circuit 522 further includes a control type determination circuit 526 for determining the type of the operation signal. Here, the type of operation signal refers to an item whose setting can be changed. For example, when operating the air conditioner 200, “power source”, “operation mode”, “air volume”, and the like. Therefore, the operation signals related to the power source such as “power ON” and “power OFF” are determined to be the same type. The operation signals related to the operation mode such as “cooling”, “heating”, “dehumidification”, and “automatic” are determined to be the same type. The operation signals relating to the air volume are determined to be the same type, such as “high air volume”, “low air volume”, “slight air volume”, and “automatic air volume”. The control type discrimination circuit 526 discriminates the types of such operation signals and discriminates the number thereof.
[0051]
The transmission circuit 524 transmits a control signal for changing the setting of the electrical device to the electrical device based on the operation signal extracted by the control signal generation circuit 522. The transmission circuit 524 includes a single control signal transmission circuit 528 and a batch transmission circuit 530.
[0052]
When the control type determination circuit 526 determines that the type of the operation signal is one, the single control signal transmission circuit 528 controls the control signal based on the last detected operation signal within a predetermined time. Send. When the control type determination circuit 526 determines that there are a plurality of types of operation signals, the collective transmission circuit 530 transmits a control signal based on all detected operation signals.
[0053]
The control signal is transmitted to each electrical device via a network connected using the network communication circuit 504. In addition, you may comprise so that a control signal may be directly transmitted to each electric equipment with a radio signal not via the network communication circuit 504.
[0054]
With reference to FIG. 3, the internal structure of air conditioner 200, television 300, video 400, and audio 450 will be described.
[0055]
Air conditioner 200, television 300, video 400, and audio 450 each include an electric device operation circuit 600. The electric equipment operation circuit 600 includes a reception circuit 602, a control circuit 604 connected to the reception circuit 602, an internal information acquisition circuit 606, and a transmission circuit 608 connected to the internal information acquisition circuit 606.
[0056]
The receiving circuit 602 receives a control signal transmitted from the mobile phone 500. The control circuit 604 controls the electric device based on the received control signal. The internal information acquisition circuit 606 acquires information regarding the operation of the electrical device and sends the acquired information to the transmission circuit 608. The transmission circuit 608 transmits information related to the operation of the electrical device acquired by the internal information acquisition circuit 606 to the mobile phone 500.
[0057]
A remote operation method using mobile phone 500 according to the present embodiment will be described with reference to FIGS. As shown in FIG. 4, mobile phone 500 according to the present embodiment includes a screen 550 and an operation unit 552. This mobile phone 500 has a plurality of functions, and a menu corresponding to these functions is displayed on the screen 550. Here, a “remote control” menu for performing remote operation of the electric device is displayed by the mobile phone 500. The operator causes the mobile phone 500 to perform a desired operation by operating the cross key 552A, the numeric keypad 552B, the menu key 552C, and the like of the operation unit 552.
[0058]
It is assumed that the operator operates the operation unit 552, selects the “remote control” menu, and activates the remote operation function of the mobile phone 500. When the remote operation function is activated, simultaneously with activation, the receiving circuit 518 receives information on the operation of each electric device. As shown in FIG. 5, the name of the electric device and the operation are displayed in the first display area 554 of the screen 550. Display information about. Here, an air conditioner 200, a television 300, a video 400, and an audio 450 are displayed as electric device names.
[0059]
The information related to the operation includes information on whether the power is on or off. When the power is on, the operation mode is set for the air conditioner 200, the currently broadcast channel is played for the television 300, and the currently broadcast channel is played for the video 400. If the state of recording or stop is the audio 450, the state of MD, CD, cassette, or radio is displayed. Here, it is displayed that the TV 300 and the video 400 are turned on, and the air conditioner 200 and the audio 450 are turned off.
[0060]
Second display area 556 displays the names of electric devices that can be remotely operated. Here, an air conditioner 200, a television 300, a video 400, and an audio 450 are displayed.
[0061]
When an electric device to be remotely controlled is selected from the electric devices displayed in second display area 556, when an electric device whose power is off is selected, mobile phone 500 changes to the selected electric device. On the other hand, a control signal instructing power ON is transmitted. When an electrical device whose power is ON is selected, a control signal for instructing power OFF is not transmitted in order to maintain the power ON state.
[0062]
Here, it is assumed that the air conditioner 200 is selected as the electric device that performs remote operation.
[0063]
Referring to FIG. 6, when air conditioner 200 is selected, since the power supply of air conditioner 200 is OFF, a control signal instructing power ON of air conditioner 200 is transmitted to air conditioner 200. At this time, the control signal corresponding to the default value is also transmitted from the mobile phone 500 at the same time so that the air conditioner 200 operates with the default values regarding “operation mode”, “set temperature”, “swing”, “wind direction”, and “air volume”. Is done.
[0064]
When the control signal is transmitted, information related to the operation of the air conditioner 200 is displayed in the first display area 554. In the second display area 556, items that can be changed among the settings of the air conditioner 200 are displayed. Here, “room temperature”, “operation mode”, “power consumption”, and “set temperature” are displayed in the first display area 554. In the second display area 556, “temperature setting”, “setting”, and “power OFF” are displayed.
[0065]
A case where “temperature setting” is selected will be described with reference to FIG. In this case, the screen 550 becomes a “temperature setting screen”, and the “display mode”, “room temperature”, and “current set temperature” are displayed in the first display area 554. In the second display area 556, the changed set temperature is displayed.
[0066]
In this state, the set temperature can be changed by operating the cross key 552A of the operation unit 552. If the upper key 553A of the cross key 552A is pressed, the set temperature increases by 1 ° C. each time the key is pressed. If the down key 553B is pressed, the set temperature decreases by 1 ° C. each time it is pressed. For example, assuming that the current set temperature is 21 ° C., if the upper key 553A is pressed three times, the temperature increases in the order of 22 ° C., 23 ° C., 24 ° C., and if the lower key 553B is pressed three times, 20 ° C., 19 ° C. , Decrease in order of 18 ° C.
[0067]
Here, in the state where the screen 550 is a “temperature setting screen”, pressing the numeric keypad 552B or the menu key 552C causes the type of operation signal to differ from the temperature such as the operation mode, wind direction, and air volume of the air conditioner 200. You may comprise so that a thing can be changed. Moreover, you may comprise so that the electric equipment which performs remote operation can be changed.
[0068]
The operation performed by the operator on the operation unit 552 is detected as an operation signal and stored in the temporary storage circuit 520 together with the order thereof. The operation signal stored in the temporary storage circuit 520 is taken out by the control signal generation circuit 522 every predetermined time, for example, every 3 seconds. Here, since only the set temperature of the air conditioner 200 has been changed, the control type determination circuit 526 of the control signal generation circuit 522 determines that the number of operation signals is one. Therefore, the control signal is transmitted to the air conditioner 200 based only on the last detected operation signal among the operation signals detected within a predetermined time. For example, if the current set temperature is 21 ° C. and the up key 553A is pressed three times to change the setting to 24 ° C., a control signal indicating only 24 ° C. is transmitted.
[0069]
On the other hand, if the settings of different types of operation signals such as temperature, operation mode, wind direction, and air volume are changed within a predetermined time, the control type determination circuit 526 has a plurality of types of operation signals. Is determined. Therefore, a control signal is transmitted to the air conditioner 200 based on all detected operation signals.
[0070]
When the control signal is transmitted, the receiving circuit 518 receives information related to the operation of the air conditioner 200 after changing the setting based on the instruction of the control signal. If the operator is operating the mobile phone 500 when the reception circuit 518 receives information related to the operation of the air conditioner 200, a notification mark 558 is displayed in the second display area 556. If it is not in operation, the information regarding the operation of the air conditioner 200 displayed in the first display area 554 is updated.
[0071]
The left key 553C of the cross key 552A is a “return” key for returning the screen 550 to the previous display form. When the “return” key (the left key 553C of the cross key 552A) is pressed, as shown in FIG. 8, the display form of the screen 550 returns to the previous display form for selecting the “temperature setting screen”. At this time, since the mobile phone 500 has received information related to the operation of the air conditioner 200 after the setting has been changed, the “reception history” menu is added to the second display area 556. When this “reception history” menu is selected, as shown in FIG. 9, information regarding the operation of the air conditioner 200 received by the mobile phone 500 in the past is displayed on the screen 550.
[0072]
A case where the “setting” menu is selected in the state shown in FIG. 6 or FIG. 8 will be described. In the “Setting” menu, a plurality of types of setting items can be changed at once.
[0073]
When “setting” is selected, the screen 550 becomes a “setting screen” shown in FIG. On this “setting screen”, settings for “set temperature”, “swing”, “wind direction”, and “air volume” can be executed collectively. By selecting a desired state from each pull-down menu and selecting a “transmission” menu, a control signal is transmitted based on each setting.
[0074]
A case where the “power OFF” menu is selected in the state shown in FIG. 6 or 8 will be described. When the “Power OFF” menu is selected, the mobile phone 500 transmits a control signal that gives an instruction to turn off the power to the air conditioner 200.
[0075]
When ending the remote operation function of the mobile phone 500, the remote operation function of the mobile phone 500 can be ended by pressing the “OFF” key 552D of the operation unit 552.
[0076]
With reference to FIG. 11 to FIG. 13, a control structure of a program executed by mobile phone 500 according to the present embodiment will be described based on a flowchart.
[0077]
Referring to FIG. 11, in step (hereinafter “step” is represented as S) 100, mobile phone 500 receives information related to the operation of each electrical device.
[0078]
In S102, mobile phone 500 displays on screen 550 the name of the electric device that can be remotely operated and information related to the operation of each electric device.
[0079]
In S104, mobile phone 500 designates an electric device to be remotely operated according to the operation of the operator. In the present embodiment, it is assumed that the air conditioner 200 is selected.
[0080]
In S106, mobile phone 500 determines whether the power supply of the designated electrical device is OFF. If the power is off, the process proceeds to S108; otherwise, the process proceeds to S110 illustrated in FIG.
[0081]
Returning to FIG. 11, in S <b> 108, mobile phone 500 transmits a control signal instructing power ON and a control signal related to a default value of the electric device.
[0082]
Referring to FIG. 12, in S110, mobile phone 500 displays on screen 550 information related to the operation of the designated electric device and a selectable menu.
[0083]
In S112, mobile phone 500 determines whether or not a reception flag is set. If the reception flag is set, the process proceeds to S114. Otherwise, the process proceeds to S200.
[0084]
At S114, a “reception history” menu is additionally displayed in second display area 556 of screen 550.
[0085]
In S200, mobile phone 500 determines whether or not the “temperature setting” menu has been selected. When the “temperature setting” menu is selected, the process proceeds to S202 shown in FIG. Otherwise, the process proceeds to S300 shown in FIG.
[0086]
Referring to FIG. 13, mobile phone 500 displays a “temperature setting screen” on screen 550 at S 202.
[0087]
In S204, mobile phone 500 determines whether or not an operation has been performed by the operator. If an operation has been performed, the process proceeds to S208. Otherwise, the process proceeds to S206. Note that whether or not an operation has been performed is determined by whether or not an operation signal has been detected.
[0088]
In S206, mobile phone 500 determines whether or not the “return” key (left key 553C of cross key 552A) has been pressed. If the “return” key (the left key 553C of the cross key 552A) is pressed, the process returns to S110. Otherwise, the process returns to S204.
[0089]
In S208, mobile phone 500 stores the detected operation signals together with the order.
[0090]
In S210, mobile phone 500 retrieves the operation signal stored every predetermined time.
[0091]
In S212, mobile phone 500 determines the number of types of extracted operation signals.
[0092]
In S214, mobile phone 500 determines whether or not there are a plurality of types of operation signals. If there are a plurality of types of operation signals, the process proceeds to S216. Otherwise, the process proceeds to S218.
[0093]
In S216, mobile phone 500 transmits a control signal based on all detected operation signals.
[0094]
In S218, mobile phone 500 transmits a control signal based on the last detected operation signal within a predetermined time.
[0095]
At S220, mobile phone 500 receives information related to the operation of the electrical device that transmitted the control signal.
[0096]
In S222, mobile phone 500 determines whether or not the operator is performing an operation. If it is determined that an operation is being performed, the process proceeds to S224. Otherwise, the process proceeds to S230. Note that whether or not the operator is performing an operation is determined depending on whether or not an operation signal is detected.
[0097]
At S224, mobile phone 500 stores the received information regarding the operation of the electrical device.
[0098]
In S226, mobile phone 500 displays notification mark 558 in second display area 556 of screen 550 to notify the operator that information related to the operation of the electrical device has been received.
[0099]
In S228, mobile phone 500 sets a reception flag.
In S230, mobile phone 500 updates information related to the operation of the electrical device displayed in first display area 554 of screen 550.
[0100]
Returning to FIG. 12, in S300, the mobile phone 500 determines whether or not the “setting” menu is selected. If the “setting” menu is selected, the process proceeds to S302. Otherwise, the process proceeds to S400.
[0101]
In S302, mobile phone 500 displays a “setting screen”.
In S304, mobile phone 500 determines whether or not the “Send” menu has been selected. If the “Send” menu is selected, the process proceeds to S306. Otherwise, S304 is repeated until the “Send” menu is selected.
[0102]
In S306, mobile phone 500 transmits a control signal based on the setting on the “setting screen” to the electric device.
[0103]
In S400, mobile phone 500 determines whether or not the “power OFF” menu has been selected. If the “Power OFF” menu is selected, the process proceeds to S402. Otherwise, the process proceeds to S500.
[0104]
In S402, mobile phone 500 transmits a control signal instructing power OFF to the electric device.
[0105]
In S500, mobile phone 500 determines whether or not a reception flag is set. If the reception flag is set, the process proceeds to S502. Otherwise, the process proceeds to S600.
[0106]
In S502, mobile phone 500 determines whether or not the “reception history” menu has been selected. If the “reception history” menu is selected, the process proceeds to S504. Otherwise, the process proceeds to S600.
[0107]
In S504, mobile phone 500 displays a reception history screen on screen 550. In S506, mobile phone 500 determines whether or not the “return” key (left key 553C of cross key 552A) has been pressed. If the “RETURN” key is pressed, the process returns to S110. Otherwise, S506 is repeated until the return button is pressed.
[0108]
In S600, mobile phone 500 determines whether “OFF” key 552D has been pressed or not. If the “OFF” key 552D is pressed, the process proceeds to S602. Otherwise, the process returns to S200.
[0109]
In S602, mobile phone 500 ends the remote operation function.
This program is stored in advance in a memory (not shown) of the mobile phone 500, or is stored in a recording medium such as a CD-ROM or a flexible disk and distributed, and is installed in the mobile phone 500 via a computer or the like. You may do it. Alternatively, it may be stored in an Internet server and downloaded.
[0110]
The operation of the mobile phone 500 according to the present embodiment based on the above structure and flowchart will be described.
[0111]
When the “remote control” menu is selected and the remote control function of the mobile phone 500 is activated, information on the operation of each electrical device is received (S100), and the screen 550 displays the name of the remotely operable electrical device and the operation of the electrical device. The information regarding is displayed (S102).
[0112]
Thus, since the information regarding the operation of each electrical device is received when the remote operation function is activated, the operator can appropriately perform the remote operation according to the operating state of the electrical device. In addition, since the electric device to be remotely operated can be selected from the plurality of electric devices displayed on the screen 550, the plurality of electric devices can be remotely operated using one mobile phone 500.
[0113]
When an electric device to be remotely operated is designated in accordance with the operation of the operator (S104), it is determined whether or not the power supply of the designated electric device is OFF (S106). In the present embodiment, it is assumed that air conditioner 200 is designated.
[0114]
If the power is OFF (YES in S106), a control signal for instructing power ON and a control signal related to the default value of the electric device are transmitted (S108), and information regarding the operation of the designated electric device can be selected. A menu is displayed on the screen 550 (S110). If the power is ON (NO in S106), the control signal is not transmitted, and information regarding the operation of the designated electrical device and a selectable menu are displayed on screen 550 (S110).
[0115]
At this time, it is determined whether or not the reception flag is set (S112). If the reception flag is set (YES in S112), the “reception history” menu is displayed in the second display area 556 of the screen 550. Are additionally displayed (S114). Otherwise (NO in S112), the “reception history” menu is not additionally displayed.
[0116]
Next, the operator determines which menu has been selected, and performs an operation corresponding to the selected menu. (S200, S300, S400, S502, S600)
When “temperature setting” menu is selected (YES in S200), “temperature setting screen” is displayed on screen 550 (S202), and it is determined whether or not an operation has been performed by the operator (S204). . When the operation is performed (YES in S204), the detected operation signals are stored together with the order (S208). Otherwise (NO in S204), it is determined whether or not the “return” key (left key 553C of cross key 552A) has been pressed (S206). If the “return” key is pressed (YES in S206), the process returns to S110. If not (NO in S206), the process returns to S204.
[0117]
The stored operation signal is taken out every predetermined time, for example, every 3 seconds (S210). The number of types of the extracted operation signal is determined (S212), and it is determined whether there are a plurality of types of operation signals (S214).
[0118]
When the number of types of operation signals taken out is plural (YES in S214), a control signal is transmitted based on all the detected operation signals (S216). Otherwise (NO in S214), a control signal is transmitted based on the last detected operation signal within a predetermined time (S218).
[0119]
As described above, since the control signal is automatically transmitted to the electric device every predetermined time, the operator does not need to perform an operation of instructing the mobile phone 500 to transmit the control signal.
[0120]
Further, when there are a plurality of types of operation signals, the control signals are transmitted based on all the operation signals, so that it is possible to reliably transmit the control signals according to the operator's intention. When there are not a plurality of types of operation signals, that is, one, the control signal is transmitted based on the last detected operation signal. Therefore, the number of control signals to be transmitted can be suppressed, and the burden on the mobile phone 500 can be suppressed.
[0121]
When the control signal is transmitted (S216, S218), information related to the operation of the air conditioner 200 is received (S220), and it is determined whether or not an operation is performed by the operator (S222). If the operation is being performed (YES in S222), the received information is stored (S224), and notification mark 558 is displayed in second display area 556 of screen 550 (S226). Thereby, the operator can confirm that the setting of the air conditioner 200 has been changed. At this time, a reception flag is set (S228).
[0122]
If no operation has been performed (NO in S222), information related to the operation of the electrical device displayed in first display area 554 of screen 550 is updated (S230). Thereby, even if it is a case where an operator operates from the outdoors, he can operate, confirming the operating state of the air conditioner 200. FIG.
[0123]
When “setting” menu is selected (YES in S300), “setting screen” is displayed on screen 550 (S302). On this “setting screen”, the settings of the electric devices are executed at once. Whether or not the setting is completed is determined by whether or not the “Send” menu is selected. (S304) When the “transmission” menu is selected (YES in S304), a control signal corresponding to each setting is transmitted (S306). Otherwise (NO in S304), S304 is repeated until the “Send” menu is selected.
[0124]
When the “power OFF” menu is selected (YES in S400), a control signal instructing power OFF is transmitted to air conditioner 200 (S402).
[0125]
In order to select the “reception history” menu, first, it is determined whether or not a reception flag is set (S500). If the reception flag is set (YES in S500), it is determined whether or not the “reception history” menu has been selected (S502). If not (NO in S500), since “Reception History” menu is not displayed on screen 550, “Reception History” menu is not selected.
[0126]
When “Reception history” menu is selected (YES in S502), “Reception history screen” is displayed on screen 550 (S504). This “reception history screen” is displayed until the “return” key (left key 553C of cross key 552A) is pressed (NO in S506). When the “return” key (left key 553C of cross key 552A) is pressed (YES in S506), the display form of screen 550 is returned to the previous display form (S110).
[0127]
When “OFF” key 552D is pressed (YES in S600), the remote control function of mobile phone 500 is terminated (S602).
[0128]
As described above, according to the present embodiment, the operation of the cross key 552A is detected as an operation signal and stored in the temporary storage circuit 520. The operation signal stored in the temporary storage circuit 520 is taken out by the control signal generation circuit 522 every predetermined time. Based on the extracted operation signal, the transmission circuit 524 transmits a control signal to the electrical device. When the control signal is transmitted, receiving circuit 518 receives information related to the operation of air conditioner 200 after operating based on the instruction of the control signal. When the information is received, the information regarding the operation of the air conditioner 200 displayed in the first display area 554 is updated. Thereby, a control signal is automatically transmitted to an electric apparatus for every predetermined time. Therefore, the operator does not need to perform an operation to instruct the mobile phone 500 to transmit a control signal, and the operation is simple. Further, when the control signal is transmitted, information related to the operation of the device is received, and information related to the operation of the air conditioner 200 displayed in the first display area 554 is updated. For this reason, even if it is a case where the operator operates from the outdoors, for example, it can operate, confirming the operating state of an electric equipment.
[0129]
In the present embodiment, it is assumed that the air conditioner 200 is remotely operated by the mobile phone 500, but the device that executes the remote operation is not limited to the mobile phone 500. Further, the electric device that is remotely operated is not limited to the air conditioner 200.
[0130]
<Second Embodiment>
In the cellular phone 500 according to the present embodiment, the control signal generation circuit 522 uses the operation signal stored in the temporary storage circuit 520 until the predetermined time elapses after the operator performs the operation. Removed when no operation is performed. Other hardware configurations are the same as those in the first embodiment. The function about them is the same. Therefore, detailed description thereof will not be repeated here.
[0131]
Referring to FIG. 14, a control structure of a program executed by mobile phone 500 according to the present embodiment will be described based on a flowchart. In the present embodiment, S210 in the first embodiment described above is replaced with S700. Since other flows are the same as those in the first embodiment, detailed description thereof will not be repeated here.
[0132]
In S700, mobile phone 500 retrieves the operation signal stored in temporary storage circuit 520 when the next operation is not performed before a predetermined time elapses after the operator performs the operation. .
[0133]
As described above, according to the mobile phone 500 of the present embodiment, the operation signal stored in the temporary storage circuit 520 is used for the next operation until a predetermined time elapses after the operator operates the operation signal. The control signal can be transmitted to the electric device.
[0134]
<Third Embodiment>
In mobile phone 500 according to the present embodiment, control signal generation circuit 522 extracts an operation signal stored in temporary storage circuit 520 when an electric device that performs remote operation is changed. The electric device to be remotely operated is changed by pressing the numeric key 552B after pressing the menu key 552C. For example, it is assumed that “1”, “2”, “3”, and “4” of the numeric keypad 552B correspond to the air conditioner 200, the television 300, the video 400, and the audio 450, respectively. After pressing the menu key 552C, pressing the corresponding numeric key 552B changes the electrical device to be remotely operated.
Other hardware configurations are the same as those in the first embodiment. The function about them is the same. Therefore, detailed description thereof will not be repeated here.
[0135]
Referring to FIG. 15, a control structure of a program executed by mobile phone 500 according to the present embodiment will be described based on a flowchart. In the present embodiment, S210 in the first embodiment is replaced with S800. Since other flows are the same as those in the first embodiment, detailed description thereof will not be repeated here.
[0136]
In S800, mobile phone 500 retrieves the operation signal stored in temporary storage circuit 520 when the electrical device for remote operation is changed.
[0137]
As described above, according to mobile phone 500 according to the present embodiment, the operation signal stored in temporary storage circuit 520 is taken out when the electric device for remote operation is changed, and the control signal is transmitted to the electric device. can do.
[0138]
<Fourth embodiment>
In mobile phone 500 according to the present embodiment, control signal generation circuit 522 takes out the operation signal stored in temporary storage circuit 520 at regular time intervals and when the electric device that performs remote operation is changed. The method for changing the electric device is the same as that in the third embodiment. Other hardware configurations are the same as those in the first embodiment. The function about them is the same. Therefore, detailed description thereof will not be repeated here.
[0139]
With reference to FIG. 16, a control structure of a program executed by mobile phone 500 according to the present embodiment will be described based on a flowchart. In the present embodiment, S210 in the first embodiment described above is replaced with S900. Since other flows are the same as those in the first embodiment, detailed description thereof will not be repeated here.
[0140]
At S900, mobile phone 500 retrieves the operation signal stored in temporary storage circuit 520 at regular time intervals and when the electric device that performs remote operation is changed.
[0141]
As described above, according to the cellular phone 500 of the present embodiment, the operation signal stored in the temporary storage circuit 520 is taken out at regular intervals and when the electric device that performs remote operation is changed and controlled. The signal can be transmitted to an electrical device.
[0142]
In addition, you may comprise so that an operation signal may be taken out when the next operation is not performed before predetermined time passes, and when the electric equipment which performs remote operation is changed.
[0143]
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.
[Brief description of the drawings]
FIG. 1 is an overall configuration diagram showing a mobile phone according to a first embodiment and an electric device remotely operated by the mobile phone.
FIG. 2 is a control block diagram of the mobile phone according to the first embodiment.
FIG. 3 is a control block diagram of an electric device operating circuit provided in the electric device remotely operated by the mobile phone according to the first embodiment.
FIG. 4 is a diagram showing a mobile phone according to the first embodiment.
FIG. 5 is a diagram showing a mobile phone according to the first embodiment.
FIG. 6 is a diagram showing a mobile phone according to the first embodiment.
FIG. 7 is a diagram showing a mobile phone according to the first embodiment.
FIG. 8 is a diagram showing a mobile phone according to the first embodiment.
FIG. 9 is a diagram showing a reception history displayed on the screen of the mobile phone according to the first embodiment.
FIG. 10 is a diagram showing a “setting screen” displayed on the screen of the mobile phone according to the first embodiment.
FIG. 11 is a flowchart showing a control structure of the mobile phone according to the first embodiment.
FIG. 12 is a flowchart showing a control structure of the mobile phone according to the first embodiment.
FIG. 13 is a flowchart showing a control structure of the mobile phone according to the first embodiment.
FIG. 14 is a flowchart showing a control structure of a mobile phone according to a second embodiment.
FIG. 15 is a flowchart showing a control structure of a mobile phone according to a third embodiment.
FIG. 16 is a flowchart showing a control structure of a mobile phone according to a fourth embodiment.
[Explanation of symbols]
100 house, 200 air conditioner, 300 TV, 400 video, 450 audio, 500 mobile phone, 502 remote control circuit, 508 input interface, 510 display interface, 512 designation circuit, 514 display circuit, 516 notification circuit, 518 reception circuit, 520 temporary Memory circuit 522 Control signal generation circuit 526 Control type determination circuit 524 Transmission circuit 528 Single control signal transmission circuit 530 Batch transmission circuit 550 Screen 552 Operation unit 554 First display area 556 Second display area 558 Notification mark, 600 Electrical equipment operation circuit, 602 reception circuit, 604 control circuit, 606 internal information acquisition circuit, 608 transmission circuit.

Claims (18)

A remote control device for remotely controlling a device,
An operation signal detection means for detecting an operation by an operator of the remote operation device as an operation signal;
Transmitting means for transmitting a control signal for changing the setting of the device to the device based on the operation signal so as to satisfy a predetermined condition regarding at least time;
Receiving means for receiving information relating to operation of the device to which the control signal is transmitted;
And a means for notifying the operator of the operating state of the device to which the control signal has been transmitted based on the received information. The remote operation device according to claim 1, further comprising means for designating a device to be remotely operated among the plurality of devices so as to selectively remotely operate the plurality of devices. . The remote control device according to claim 1, wherein the predetermined condition relating to the time is a condition that the control signal is transmitted every predetermined time. The predetermined condition regarding the time is a condition that the control signal is transmitted when the next operation is not performed before the predetermined time elapses after the operator performs the operation. The remote control device according to claim 1 or 2. The transmission means includes means for transmitting the control signal so as to satisfy a condition regarding a change of a device that performs remote operation in addition to a predetermined condition regarding the time. 5. The remote control device according to any one of 4. The operation signal has a plurality of types.
The remote control device is:
Means for determining the number of types of the operation signal;
And means for storing the order in which the operation signals were detected,
The transmission means includes means for transmitting the control signal based on the last detected operation signal when it is determined that the type of the operation signal is one. The remote control device according to any one of the above. The operation signal has a plurality of types.
The remote control device further includes means for determining the number of types of the operation signals,
The transmission means includes means for transmitting a control signal based on all operation signals detected by the operation signal detection means when it is determined that there are a plurality of types of operation signals. The remote control device according to any one of 1 to 5. The remote control device according to claim 1, wherein the reception unit includes a unit for receiving information related to operation of the device when the remote control device is activated. A remote operation method for remotely operating a device,
An operation signal detection step of detecting an operation by an operator of the remote control device as an operation signal;
A transmission step of transmitting, to the device, a control signal for changing the setting of the device based on the operation signal so as to satisfy at least a predetermined condition regarding time;
A receiving step of receiving information relating to operation of the device to which the control signal is transmitted;
And a step of notifying the operator of the operating state of the device to which the control signal is transmitted based on the received information. The remote operation method according to claim 9, further comprising a step of designating a device to be remotely operated among the plurality of devices so as to selectively remotely operate the plurality of devices. The remote operation method according to claim 9 or 10, wherein the predetermined condition relating to the time is a condition that the control signal is transmitted every predetermined time. The predetermined condition regarding the time is a condition that the control signal is transmitted when the next operation is not performed before the predetermined time elapses after the operator performs the operation. The remote control method according to claim 9 or 10. The transmission step includes the step of transmitting the control signal so as to satisfy a condition regarding a change of a device that performs remote operation in addition to a predetermined condition regarding the time. The remote control method according to any one of the above. The operation signal has a plurality of types.
The remote operation method includes:
Determining the number of types of the operation signal;
Storing the order in which the operation signals were detected,
The transmission step includes a step of transmitting the control signal based on the last detected operation signal when it is determined that the number of types of the operation signal is one. The remote control method described in 1. The operation signal has a plurality of types.
The remote operation method further includes a step of determining the number of types of the operation signals,
The transmission step includes a step of transmitting a control signal based on all the operation signals detected by the operation signal detection step when it is determined that there are a plurality of types of the operation signals. 14. The remote control method according to any one of 13. The remote operation method is executed by the remote operation device for remotely operating the device,
The remote operation method according to claim 9, wherein the receiving step includes a step of receiving information related to operation of the device when the remote operation device is activated. A program for causing a remote control device to execute the remote control method according to any one of claims 9 to 16. A recording medium on which the program according to claim 17 is recorded.

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