JP6159576B2 - Control device and program - Google Patents

Description

  The present invention relates to a technique for remotely operating a device.

  A technology for remotely controlling home appliances using a communication terminal such as a mobile phone is known. Patent Document 1 describes a technique for outputting a video signal obtained by imaging the operation state of a device to an operation terminal in order to check the operation state of the device remotely operated by such a technique.

JP 2001-238273 A

However, in the technique described in Patent Document 1, since the current video of the device is simply displayed, the user must compare the difference from the state before the operation in detail, which is inconvenient.
An object of this invention is to enable it to confirm the operation state of an apparatus on a communication terminal reliably without a trouble.

  The present invention transmits a signal reception unit that receives an operation signal representing an operation of a device from a communication terminal, and a control signal that controls the device according to the operation signal received by the signal reception unit. When the time set for the control signal has elapsed from the time when the control signal is transmitted by the signal transmission unit and the signal transmission unit, an image of the device is captured and the first image representing the captured image is displayed. There is provided a control device including an imaging unit that generates one image data, and an image transmission unit that transmits the first image data generated by the imaging unit to the communication terminal.

  In the control device, the imaging unit captures an image of the device before the signal transmission unit transmits the control signal, generates second image data representing the captured image, and generates the first image data. An image processing unit that performs image processing on the first image data so that a difference between the image represented by the image data and the image represented by the second image data is enhanced, The first image data subjected to the image processing by the image processing unit may be transmitted to the communication terminal.

  In the control device, the imaging unit continuously captures a plurality of images of the device in a predetermined period before and after the signal transmission unit transmits the control signal, and the plurality of images captured by the imaging unit. In this image, an image whose difference from the image captured immediately before is specified is larger than a threshold, and the time from when the control signal is transmitted by the signal transmission unit to the time when the specified image is captured is determined. A setting unit for setting the control signal may be further provided.

  In the control device, the imaging unit captures an image of the device before the signal transmission unit transmits the control signal, generates second image data representing the captured image, and generates the first image data. A determination unit that determines whether or not the device has operated according to a difference between the image represented by the image data and the image represented by the second image data, and the image transmission unit includes: The determination result by the determination unit may be transmitted to the communication terminal together with the image data or instead of the first image data.

  In the control device, when an operation signal representing an operation of a plurality of devices is received by the signal receiving unit, the signal transmission unit is in an order according to the length of time set for the plurality of devices. A control signal may be transmitted to the plurality of devices.

  The present invention also includes a step of receiving, from a communication terminal, an operation signal representing an operation of the device, and a step of transmitting a control signal for controlling the device to the device in accordance with the received operation signal. A step of causing the imaging unit to capture an image of the device when a time set for the control signal has elapsed since the time when the control signal was transmitted, and the image captured by the imaging unit A program for executing the step of transmitting first image data to the communication terminal is provided.

  ADVANTAGE OF THE INVENTION According to this invention, the operation state of an apparatus can be confirmed on a communication terminal reliably without a trouble.

It is a figure which shows the whole structure of a remote control system. It is a figure which shows the hardware constitutions of a communication terminal. It is a figure which shows the function structure of the communication terminal which concerns on 1st Embodiment. It is a figure which shows the hardware constitutions of a control apparatus. It is a figure which shows an example of a control table. It is a figure which shows the function structure of a control apparatus. It is a sequence chart which shows operation | movement of the remote control system which concerns on 1st Embodiment. It is a figure which shows an example of the imaging | photography timing of an apparatus. It is a figure which shows an example of the image displayed on a display part. It is a figure which shows the function structure of the control apparatus which concerns on 2nd Embodiment. It is a sequence chart which shows operation | movement of the remote control system which concerns on 2nd Embodiment. It is a figure which shows an example of an image process. It is a figure which shows another example of an image process. It is a figure which shows another example of an image process. It is a figure which shows the function structure of the control apparatus which concerns on a modification. It is a figure explaining a setting process. It is a figure which shows the function structure of the control apparatus which concerns on a modification.

[First Embodiment]
1. Configuration (1) Overall Configuration of System FIG. 1 is a diagram showing an overall configuration of a remote control system 1 according to the first embodiment. The remote operation system 1 includes a communication terminal 10 and a control device 20. The communication terminal 10 and the control device 20 are connected via a network 2 including a mobile communication network and the Internet. The communication terminal 10 is, for example, a mobile phone, a smartphone, or a tablet terminal. The communication terminal 10 is used when remotely operating a plurality of devices 30 installed in a user's house. The plurality of devices 30 include, for example, an air conditioner, a light, a television, a heater, a fan, a video recorder, an audio player, a washing machine, a bath water heater, an electric lock, an electric shutter, an electric curtain, a robot cleaner, and a computer. Includes various devices to be operated. The control device 20 has a function of controlling the device 30 in accordance with an operation performed on the communication terminal 10.

(2) Configuration of Communication Terminal FIG. 2 is a diagram illustrating a hardware configuration of the communication terminal 10. The communication terminal 10 includes a processor 11 such as a CPU (Central Processing Unit), a main memory 12 such as a RAM (Random Access Memory), a communication unit 13, an input unit 14 such as a touch panel and keys, and a display such as a liquid crystal display. Unit 15 and a storage unit 16 such as a flash memory. Note that the communication terminal 10 may include a configuration for performing a voice call in addition to these configurations.

  The processor 11 controls each unit of the communication terminal 10 by executing a program stored in the storage unit 16. The main memory 12 temporarily stores programs and data. The main memory 12 is used as a work area when the processor 11 executes a program. The communication unit 13 is an interface connected to the network 2. Specifically, the network 2 includes a base station, and the communication unit 13 is wirelessly connected to this base station. The communication unit 13 communicates with the server device via the network 2. The input unit 14 inputs information corresponding to a user operation to the processor 11. The display unit 15 displays various information. The storage unit 16 stores various programs and data.

  FIG. 3 is a diagram illustrating a functional configuration of the communication terminal 10. The communication terminal 10 realizes the functions of the transmission unit 111, the reception unit 112, and the display control unit 113 when the processor 11 executes one or more programs. The transmission unit 111 transmits an operation signal representing the operation of the device 30 to the control device 20 via the communication unit 13. The receiving unit 112 receives image data from the control device 20 via the communication unit 13. The display control unit 113 causes the display unit 15 to display an image corresponding to the image data received by the receiving unit 112.

(3) Configuration of Control Device FIG. 4 is a diagram illustrating a hardware configuration of the control device 20. The control device 20 includes a processor 21 such as a CPU, a main memory 22 such as a RAM, a communication unit 23, a control signal transmission unit 24 such as an infrared light emitting diode, an imaging unit 25 such as a camera, and a storage such as a flash memory. A unit 26, a drive unit 27 such as a motor, and a turntable 28 are provided.

  The processor 21 controls each unit of the control device 20 by executing a program stored in the storage unit 26. The main memory 22 temporarily stores programs and data. The main memory 22 is used as a work area when the processor 21 executes a program. The communication unit 23 is an interface connected to the network 2. The communication unit 23 communicates with the communication terminal 10 via the network 2. The control signal transmission unit 24 transmits a control signal to the device 30 by infrared rays. The control signal transmission unit 24 has directivity in a specific direction. The imaging unit 25 captures an image and generates image data representing the captured image. The storage unit 26 stores various programs and data. The storage unit 26 also stores a control table 261.

  The drive unit 27 drives and rotates the turntable 28. The turntable 28 is a stand that can rotate in the horizontal direction and the vertical direction. As shown in FIG. 1, the control signal transmission unit 24 and the imaging unit 25 are fixed on the turntable 28. The orientations of the control signal transmission unit 24 and the imaging unit 25 are adjusted in advance so that the irradiation direction of the control signal transmission unit 24 and the optical axis direction of the imaging unit 25 substantially coincide.

  FIG. 5 is a diagram illustrating an example of the control table 261 stored in the storage unit 26. The control table 261 is used when transmitting a control signal to the device 30. In the control table 261, identification information of the device 30, an operation signal, a control signal, the direction of the device 30, and a set time are stored in association with each other.

  The identification information of the device 30 is information for identifying the device 30. The identification information of the device 30 includes, for example, the manufacturer name and model type of the device 30. The operation signal is a signal representing the operation of the device 30. The control signal is a signal that controls the device 30. The control signal is registered in the server device by, for example, a service provider for remotely operating the device 30 or the manufacturer of the control device 20, and is downloaded from the server device in advance. The direction of the device 30 is the direction of the target device 30 viewed from a predetermined installation point of the control device 20. The set time is the time from when the device 30 starts operating according to the control signal until it can be recognized from the outside that it has actually operated.

  The set time is set in advance for each control signal. For example, since the appearance of an air conditioner does not change immediately after the power is turned on, it cannot be visually recognized that the air conditioner is turned on until the louver is opened. In this case, the time from when the control signal s1 for turning on the power to the air conditioner is transmitted until the louver opens is measured, and the measured time is set as the set time in the control signal s1. For example, when the louver opens 5 seconds after the control signal s1 is transmitted to the air conditioner, the set time of 5 seconds is set in the control signal s1. The set time is similarly set for other control signals.

  FIG. 6 is a diagram illustrating a functional configuration of the control device 20. The control device 20 implements the functions of the signal reception unit 211, the signal transmission unit 212, the drive control unit 213, the imaging control unit 214, and the image transmission unit 215 by the processor 21 executing one or more programs. The control device 20 is an example of a computer according to the present invention. The signal receiving unit 211 receives an operation signal representing the operation of the device 30 from the communication terminal 10 via the communication unit 23. The signal transmission unit 212 refers to the control table 261 and transmits a control signal for controlling the device 30 to the device 30 via the control signal transmission unit 24 in accordance with the operation signal received by the signal reception unit 211. The drive control unit 213 refers to the control table 261 and causes the drive unit 27 to rotate the turntable 28 so that the control signal transmission unit 24 faces the device 30. The imaging control unit 214 refers to the control table 261, and when the set time set for the control signal has elapsed since the control signal was transmitted by the signal transmission unit 212, the imaging control unit 214 sends the device 30 to the imaging unit 25. Let's take a picture of The image transmission unit 215 transmits first image data representing an image captured by the imaging unit 25 to the communication terminal 10 via the communication unit 23.

2. Operation Next, the operation of the remote operation system 1 will be described. In the remote operation system 1, the device 30 is controlled according to the operation performed on the communication terminal 10, and an image representing the operation state of the device 30 as a result of the operation is presented to the user.

  FIG. 7 is a sequence chart showing the operation of the remote operation system 1. The user inputs an operation signal representing the operation of the device 30 via the input unit 14. For example, when the air conditioner is turned on, an operation signal S1 representing an operation of turning on the air conditioner is input. When the operation signal is input, the process of step S101 is started.

  In step S <b> 101, the transmission unit 111 transmits the input operation signal to the control device 20 via the communication unit 13. When an operation signal is transmitted from the communication terminal 10, the signal reception unit 211 receives this operation signal via the communication unit 23.

  In step S102, the drive control unit 213 causes the drive unit 27 to rotate the turntable 28 so that the control signal transmission unit 24 faces the device 30 to be controlled. Specifically, the drive control unit 213 specifies the direction of the device 30 stored in the control table 261 in association with the operation signal received from the communication terminal 10. Subsequently, the drive control unit 213 causes the drive unit 27 to rotate the turntable 28 so that the identified direction of the device 30 matches the irradiation direction of the control signal transmission unit 24. For example, when the operation signal S1 is received from the communication terminal 10, the direction D1 stored in association with the operation signal S1 is specified in the control table 261 shown in FIG. In this case, the turntable 28 is rotated so that the irradiation direction of the control signal transmission unit 24 is the direction D1.

  In step S <b> 103, the signal transmission unit 212 transmits a control signal corresponding to the operation signal received from the communication terminal 10 to the control target device 30 via the control signal transmission unit 24. Specifically, the signal transmission unit 212 reads the control signal stored in association with the operation signal received from the communication terminal 10 from the control table 261. Subsequently, the signal transmission unit 212 transmits the read control signal via the control signal transmission unit 24. For example, when the operation signal S1 is received from the communication terminal 10, the control signal s1 stored in association with the operation signal S1 in the control table 261 shown in FIG. 5 is read. In this case, the control signal s1 is transmitted from the control signal transmission unit 24. Here, in step S102, the control signal transmission unit 24 is adjusted so as to face the device 30 to be controlled. Therefore, the control signal s1 transmitted from the control signal transmission unit 24 reaches the air conditioner that is the device 30 to be controlled.

  In step S <b> 104, the device 30 operates according to the control signal received from the control device 20. For example, when the air conditioner receives the control signal s1 from the control device 20, the power supply of the air conditioner is turned on.

  In step S105, the imaging control unit 214 causes the imaging unit 25 to control the device 30 when the set time set for the control signal has elapsed since the control signal was transmitted from the control signal transmission unit 24. Let's take a picture of Specifically, the imaging control unit 214 starts a timer when a control signal is transmitted from the control signal transmission unit 24 and starts measuring time. In addition, the imaging control unit 214 specifies the set time stored in association with the control signal transmitted in step S103 in the control table 261, and when this set time has elapsed since the control signal was transmitted, The unit 25 is caused to take an image of the device 30 to be controlled. The imaging unit 25 captures an image of the device 30 to be controlled under the control of the imaging control unit 214, and generates image data representing the captured image. This image data is an example of first image data.

  Here, as described above, the control signal transmission unit 24 and the imaging unit 25 are fixed so that the irradiation direction of the control signal transmission unit 24 and the optical axis direction of the imaging unit 25 substantially coincide with each other. For this reason, when the control signal transmission unit 24 is adjusted to face the control target device 30 in step S102, the imaging unit 25 also faces the control target device 30. Therefore, in step S105, an image of the device 30 to be controlled can be taken without rotating the turntable 28 again.

  FIG. 8 is a diagram illustrating an example of the shooting timing of the device 30. FIG. 8 illustrates the shooting timing when shooting an image of an air conditioner in response to transmission of the control signal s1. When the control signal s1 is transmitted to the air conditioner at time t0, the power supply of the air conditioner is turned on according to the control signal s1. However, at the time t0, the louver of the air conditioner is still closed. When several seconds have elapsed from time t0, the louver starts to open, and at time t5, which is 5 seconds after time t0, the louver opens completely. When the control signal s1 is transmitted, the set time of 5 seconds stored in association with the control signal s1 is specified in the control table 261 shown in FIG. 5, and therefore the time t5 after 5 seconds from the time t0. A picture of the air conditioner is taken. As a result, an image of the air conditioner with the louver open is taken.

  In step S <b> 106, the image transmission unit 215 transmits the image data generated by the imaging unit 25 to the communication terminal 10 via the communication unit 23. When image data is transmitted from the control device 20, the receiving unit 112 receives this image data via the communication unit 13.

  In step S <b> 107, the display control unit 113 causes the display unit 15 to display an image 151 corresponding to the image data received by the receiving unit 112. FIG. 9 is a diagram illustrating an example of an image 151 displayed on the display unit 15. This image 151 includes an image of the air conditioner with the louver open. By viewing this image, the user can confirm that the power of the air conditioner is actually turned on according to the operation of turning on the power of the air conditioner.

  The confirmation of the operation state of the device 30 on the communication terminal 10 in this way is that the control signal for turning on the power and the control signal for turning off the power are the same signal, particularly as in a television or a video recorder. This is effective when the device 30 that performs the toggle operation is remotely operated. Depending on the state before the operation, such a device 30 may be in an operation state opposite to the user's intention depending on the user's operation. For example, if the user performs an operation to turn on the television on the communication terminal 10 while the television is turned on, the television is turned off. In this case, if it can be confirmed that the TV is turned off, the user can redo the operation.

  According to the first embodiment described above, when the user operates the device 30 on the communication terminal 10, the device 30 is controlled according to this operation, and then the image of the device 30 is captured, and the captured image is displayed. It is displayed on the communication terminal 10. Furthermore, the image of the device 30 is taken at a timing at which it can be visually recognized that the device 30 has operated according to the control signal. Therefore, the operation state of the device 30 can be confirmed on the communication terminal 10 without any trouble.

  Further, according to the first embodiment, since it is sufficient to capture an image of the device 30, for example, the control device 20 does not need to be provided with various sensors for detecting the operation state of the device 30. Therefore, the configuration of the control device 20 can be simplified.

[Second Embodiment]
Next, a second embodiment of the present invention will be described. In the first embodiment described above, the example in which the image data generated by the imaging unit 25 is transmitted to the communication terminal 10 as it is has been described. In contrast, in the second embodiment, the image data generated by the imaging unit 25 is subjected to image processing and then transmitted to the communication terminal 10. The configuration of the communication terminal 10 and the configuration of the control device 20 according to the second embodiment are basically the same as those described in the first embodiment. However, the control device 20 according to the second embodiment includes a functional configuration different from the functional configuration described in the first embodiment. Hereinafter, the difference from the first embodiment will be mainly described.

  FIG. 10 is a diagram illustrating a functional configuration of the control device 20 according to the second embodiment. The control device 20 realizes the function of the image processing unit 216 in addition to the function described in the first embodiment. In the second embodiment, the imaging control unit 214 causes the imaging unit 25 to capture an image of the device 30 before the signal transmission unit 212 transmits the control signal. Under the control of the imaging control unit 214, the imaging unit 25 captures an image of the device 30 even before the signal transmission unit 212 transmits a control signal, and generates second image data representing the captured image. The image processing unit 216 performs image processing on the first image data so that the difference between the image represented by the first image data and the image represented by the second image data is emphasized. The image transmission unit 215 transmits the first image data subjected to image processing by the image processing unit 216 to the communication terminal 10.

  FIG. 11 is a sequence chart showing the operation of the remote control system 1 according to the second embodiment. The processing in steps S201 and S202 is the same as the processing in steps S101 and S102 described in the first embodiment.

  In step S <b> 203, the imaging control unit 214 causes the imaging unit 25 to capture an image of the target device 30 before the control signal is transmitted from the signal transmission unit 212. The imaging unit 25 captures an image of the device 30 to be controlled under the control of the imaging control unit 214, and generates reference image data representing the captured image. This reference image data is an example of second image data.

  The processing in steps S204 to S206 is the same as the processing in steps S103 to S105 described in the first embodiment. In the following description, the image data representing the image captured in step S206 is referred to as “target image data”. This target image data is an example of first image data.

  In step S207, the image processing unit 216 emphasizes the difference between the image 50 represented by the reference image data generated in step S203 and the image 51 represented by the target image data generated in step S206. Is subjected to image processing. Specifically, the image processing unit 216 extracts a difference between the image 50 represented by the reference image data and the image 51 represented by the target image data. Subsequently, the image processing unit 216 performs image processing on the target image data so that the extracted difference is emphasized.

  FIG. 12 is a diagram illustrating an example of image processing. In FIG. 12, reference image data representing the air conditioner image 50 with the louver closed is generated in step S203, and target image data representing the air conditioner image 51 with the louver opened is generated in step S206. The image processing performed is illustrated. In this example, the louver portion surrounded by the broken line is different between the image 50 and the image 51, and thus the louver portion is extracted as the difference between the image 50 and the image 51. In this case, image processing for changing the hue, brightness, or saturation of the louver portion, such as coloring the louver portion red, is performed on the target image data.

  FIG. 13 is a diagram illustrating another example of image processing. In this example, a louver portion is extracted as a difference between the image 50 and the image 51 as in the example shown in FIG. However, the target image data is subjected to image processing for adding a surrounding line 52 or an arrow image 53 to the louver portion.

  FIG. 14 is a diagram illustrating another example of image processing. In this example, a louver portion is extracted as a difference between the image 50 and the image 51 as in the example shown in FIG. However, image processing for cutting out the louver portion is performed on the target image data.

  In step 208, the image transmission unit 215 transmits the target image data subjected to the image processing in step S 207 to the communication terminal 10 via the communication unit 23. The subsequent processing is the same as in the first embodiment.

  According to the second embodiment described above, since the difference between the state before the device 30 operates and the state after the device 30 is displayed with emphasis, the operation state of the device 30 can be easily recognized. .

[Modification]
The present invention is not limited to the first and second embodiments described above, and may be modified as follows. Further, the following modifications may be combined with each other.

(1) In the first and second embodiments described above, the example in which the set time is set in advance has been described. However, the set time may be set by the control device 20. In this case, the control device 20 performs setting processing before performing the processing described in the first or second embodiment.

  FIG. 15 is a diagram illustrating a functional configuration of the control device 20 according to the present modification. The control device 20 realizes the function of the setting unit 217 in addition to the function described in the first embodiment. In the setting process, the imaging control unit 214 causes the imaging unit 25 to continuously capture a plurality of images of the device 30 during a predetermined period before and after the signal transmission unit 212 transmits the control signal. The setting unit 217 identifies an image in which a difference amount from the image captured immediately before is larger than a threshold in the plurality of images captured by the imaging unit 25, and from the time when the control signal is transmitted by the signal transmission unit 212, The time until the specified image is taken is set as a set time in the control signal. This difference amount is an amount representing the degree of difference between the two images to be compared. For example, the difference amount is obtained by extracting a difference between two images to be compared, specifying a region where a change has occurred, and calculating the number of pixels in the specified region. Further, the time from when the control signal is transmitted to when the identified image is taken is measured using a timer, for example. The set time set by the setting unit 217 is stored in the control table 261 in association with the control signal.

  FIG. 16 is a diagram illustrating the setting process. FIG. 16 illustrates a process for setting a set time for the control signal s1. In this example, the image 60 is captured 1 second before the control signal s1 is transmitted to the air conditioner, and the images 61 to 66 are captured 1 to 6 seconds after the control signal s1 is transmitted to the air conditioner. Since the images 60 to 64 all represent an air conditioner with the louver closed, there is almost no change between the image taken immediately before and the difference amount from the image taken immediately before is Below threshold. On the other hand, the image 65 represents the air conditioner with the louver open, and a large change occurs in the louver portion with the image 64 taken immediately before, so the difference from the image 65 taken immediately before is different. The amount is greater than the threshold. In this case, an image 65 photographed 5 seconds after the control signal s1 is transmitted is specified, and a set time of 5 seconds is set in the control signal s1.

  According to this modification, for example, even if the user does not perform the operation of setting the set time himself, an appropriate set time is set.

(2) In the first and second embodiments described above, the control device 20 may determine whether or not the device 30 has operated, and transmit the determination result to the communication terminal 10.

  FIG. 17 is a diagram illustrating a functional configuration of the control device 20 according to the present modification. The control device 20 implements the function of the determination unit 218 in addition to the function described in the first embodiment. In the present modification, the imaging control unit 214 causes the imaging unit 25 to capture an image of the device 30 before the signal transmission unit 212 transmits a control signal, as in the second embodiment described above. Under the control of the imaging control unit 214, the imaging unit 25 captures an image of the device 30 even before the signal transmission unit 212 transmits a control signal, and generates second image data representing the captured image.

  The determination unit 218 determines whether or not the device 30 has operated according to the difference between the image represented by the first image data and the image represented by the second image data. Specifically, the determination unit 218 calculates a difference amount between the image represented by the first image data and the image represented by the second image data, and if the calculated difference amount is larger than the threshold, the device 30 Judge that it worked. This difference amount is obtained by, for example, extracting the difference between these images, specifying the region where the change has occurred, and calculating the number of pixels in the specified region. For example, as shown in FIG. 12, before the signal transmission unit 212 transmits the control signal, an image 50 of the air conditioner with the louver closed is taken, and after the signal transmission unit 212 transmits the control signal, the louver When the image 51 of the air conditioner in the open state is taken, the difference between the image 50 and the image 51 is larger than the threshold value because there is a large change in the louver portion between the image 50 and the image 51. In this case, it is determined that the device 30 to be controlled has been operated.

  Also, the determination unit 218 determines whether or not the device 30 has operated according to a difference in a preset region between the image represented by the first image data and the image represented by the second image data. Good. For example, in the case where the change that can be visually recognized that the device 30 has been operated is lighting of the power lamp, since the ratio of the power lamp area to the entire image area is small, even if the power lamp is lit, There is a case where the difference amount of the image does not exceed the threshold value. In such a case, if the area of the power lamp is set in advance, when the power lamp is turned on, the difference amount in the area of the power lamp becomes larger than the threshold value, so that it is determined that the device 30 has operated.

  The image transmission unit 215 transmits the determination result by the determination unit 218 to the communication terminal 10 via the communication unit 23 together with the first image data or instead of the first image data. For example, when it is determined that the device 30 to be controlled has been operated, a message indicating that the device 30 has been operated is transmitted to the communication terminal 10. In this case, the determination result received from the control device 20 is displayed on the display unit 15 of the communication terminal 10.

  According to this modification, it is determined whether or not the device 30 has been operated by the control device 20 and the determination result is displayed, so that the operating state of the device 30 can be easily recognized.

(3) In the first and second embodiments described above, when an operation signal representing the operation of the plurality of devices 30 is input by the user, the signal transmission unit 212 sets the set time set in the plurality of devices 30. The control signals may be transmitted to the plurality of devices 30 in the order according to the length of each.

  For example, the signal transmission unit 212 may transmit the control signal to the plurality of devices 30 in order from the device whose set time is short. Here, an operation signal S1 representing an operation for turning on the power of the air conditioner by the user, an operation signal S2 representing an operation for turning on the lighting, and an operation signal S3 representing an operation for turning on the power of the television are collectively shown. The case where it is input will be described as an example. In this case, first, the control signal s1 corresponding to the operation signal S1, the control signal s2 corresponding to the operation signal S2, and the control signal s3 corresponding to the operation signal S3 are read from the control table 261 shown in FIG.

  Here, in the control table 261 shown in FIG. 5, the set time corresponding to the control signal s1 is “5 seconds”, the set time corresponding to the control signal s2 is “1 second”, and corresponds to the control signal s3. The set time is “3 seconds”. In this case, first, the control signal s2 having the shortest set time is transmitted toward the illumination. Next, the control signal s3 having the second shortest set time is transmitted to the television. Finally, the control signal s1 having the longest set time is transmitted to the air conditioner. Thereby, when the operation signal showing the operation of the plurality of devices 30 is input by the user, it is possible to shorten the time taken until the image of the device 30 that is first photographed is presented to the user.

  Or the signal transmission part 212 may transmit a control signal to the some apparatus 30 in an order from the apparatus with the long setting time set. In this case, first, the control signal s1 having the longest set time is transmitted to the air conditioner. Next, the control signal s3 having the second longest set time is transmitted to the television. Finally, the control signal s2 having the shortest set time is transmitted toward the illumination. Thereby, when the operation signal showing operation of the some apparatus 30 is input by the user, the time taken until all the images of these apparatuses 30 are shown can be shortened.

(4) In 1st and 2nd embodiment mentioned above, the control apparatus 20 is provided with moving mechanisms, such as a wheel, a caterpillar, and a leg, and may move between several rooms. When the device 30 to be controlled is installed in another room, the control device 20 moves to a predetermined position in the room and starts the process of step S102 or S202.

(5) 1st and 2nd embodiment mentioned above demonstrated the example whose communication terminal 10 is a mobile phone, a smart phone, and a tablet terminal. However, the communication terminal 10 is not limited to these terminals, and may be a notebook personal computer, for example.

(6) In the first and second embodiments described above, the example in which the function of the control device 20 is realized by the processor 21 executing the program has been described. However, the function of the control device 20 may be realized by an ASIC (Application Specific Integrated Circuit). For example, the image processing unit 216, the setting unit 217, or the determination unit 218 may be realized by an ASIC.

(7) The program executed by the processor 11 of the communication terminal 10 and the processor 21 of the control device 20 may be downloaded via a communication line such as the Internet. The program is provided in a state of being recorded on a computer-readable recording medium such as a magnetic recording medium (magnetic tape, magnetic disk, etc.), an optical recording medium (optical disk, etc.), a magneto-optical recording medium, or a semiconductor memory. May be.

(8) In the first and second embodiments described above, the example in which the control signal transmission unit 24 transmits the control signal to the device 30 using infrared rays has been described. However, the control signal transmission unit 24 may transmit a control signal to the device 30 using light other than infrared light, or may transmit a control signal to the device 30 using radio waves.

  In this modification, the imaging unit 25 may have a fisheye lens and may capture an image with a field angle of 360 degrees along the horizontal direction. Thereby, even if it does not change the direction of the imaging part 25, the image of the whole room in which the apparatus 30 was installed can be image | photographed. Furthermore, the control device 20 may generate a plane image by converting the coordinates of the captured image into polar coordinates, and cut out a portion including the device 30 from the plane image. This processing may be performed by the image processing unit 216 described in the second embodiment, for example. In this case, image data representing an image of a part including the device 30 is transmitted to the communication terminal 10.

  According to this modification, a control signal can be transmitted to the device 30 and an image of the device 30 can be taken without using the drive unit 27 and the turntable 28.

(9) In the first and second embodiments described above, the example in which the set time is set in advance has been described. However, the set time may be downloaded from a server device connected to the network 2 and stored in the control table 261. At this time, the control device 20 may download the set time corresponding to the device 30 by transmitting the identification information (model number, etc.) of the device 30 to the server device.

DESCRIPTION OF SYMBOLS 1 Remote operation system, 10 Communication terminal, 20 Control apparatus, 21 Processor, 22 Main memory, 23 Communication part, 24 Control signal transmission part, 25 Imaging part, 26 Storage part, 27 Drive part, 28 Turntable, 111 Transmission part, 112 reception unit, 113 display control unit, 211 signal reception unit, 212 signal transmission unit, 213 drive control unit, 214 imaging control unit, 215 image transmission unit, 216 image processing unit, 217 setting unit, 218 determination unit

Claims (5)

A signal receiving unit that receives an operation signal representing the operation of the device from the communication terminal;
In response to the operation signal received by the signal receiver, a signal transmitter that transmits a control signal for controlling the device to the device;
When the time set for the control signal has elapsed from the time when the control signal is transmitted by the signal transmission unit, an image of the device is captured, and first image data representing the captured image is captured. An image capturing unit that generates and generates second image data representing the captured image by capturing an image of the device before the signal transmission unit transmits the control signal ;
An image processing unit that performs image processing on the first image data so that a difference between the image represented by the first image data and the image represented by the second image data is emphasized;
A control device comprising: an image transmission unit configured to transmit the first image data subjected to the image processing by the image processing unit to the communication terminal. The imaging unit continuously captures a plurality of images of the device in a predetermined period before and after the signal transmission unit transmits the control signal,
In the plurality of images captured by the imaging unit, an image having a difference amount from a previously captured image that is greater than a threshold value is identified, and the identified image from the time when the control signal is transmitted by the signal transmission unit The control device according to claim 1, further comprising: a setting unit that sets, in the control signal, a time until the time when the image is captured. Before SL according to the difference between the first image and the second image data representing the image data represents an image, further comprising a determination unit which determines whether or not the device has operated,
The image transmission unit, the first with the image data or in place of the first image data, the control device according to the determination result by the determination section to claim 1 or 2 transmits to the communication terminal. When the signal transmission unit receives an operation signal representing an operation of a plurality of devices by the signal receiving unit, the plurality of devices in the order according to the length of time set in the plurality of devices. control device according to any one of claims 1 to 3 for transmitting a control signal to. On the computer,
Receiving an operation signal representing the operation of the device from the communication terminal;
Transmitting a control signal for controlling the device to the device according to the received operation signal;
When a time set for the control signal elapses from the time when the control signal is transmitted, an image of the device is captured by the imaging unit, and first image data representing the captured image is generated. And steps to
Before the control signal is transmitted, causing the imaging unit to capture an image of the device, and generating second image data representing the captured image;
Applying image processing to the first image data such that a difference between the image represented by the first image data and the image represented by the second image data is enhanced;
Transmitting the first image data subjected to the image processing to the communication terminal.

Images