JP2006222504A - Remote control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a remote controller, the usability of use of which is improved and for simplifying the operations of various apparatuses for carrying out menu display, such as a television receiver. <P>SOLUTION: The remote controller 100 is provided with a touch panel 103 and a button 101; and when the touch panel 103 is slid clockwise or counter clockwise while a user touches an upper half region of the touch panel 103 by a finger, a control signal for selecting a channel corresponding to this operation is transmitted by an infrared ray. When the touch panel 103 is slid clockwise or counterclockwise, while the user touches the lower-half region of the touch panel 103 by a finger, a control signal for adjusting a sound volume corresponding to this operation is transmitted by infrared rays. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a remote control system, and more particularly to a remote control system for remotely operating various devices that perform menu display.

  Conventionally, an operation unit of a remote controller (hereinafter abbreviated as a remote controller) for remotely operating a television receiver or the like is provided with a plurality of keys corresponding to functions that can be executed by the television receiver. When pressed, a control signal corresponding to each function is transmitted to the television receiver by infrared rays or the like, so that the television receiver can execute a desired function.

However, in the case of a remote control that is installed in a humid place such as a bathroom or a place where there is a risk of being operated with hands with water, such as a remote control that remotely controls a device such as a water heater, Water will enter through the gap between the housing and the equipment, resulting in equipment failure. Therefore, a touch panel on which the device control instruction screen is displayed is provided on the front surface of the remote control casing, and the direction of movement is determined by rubbing the surface of the touch panel with a finger or the like along either the vertical or horizontal direction of the touch panel. The control instruction screen of the touch panel is switched according to the moving distance, and the surface of the touch panel is rubbed along either the vertical or horizontal direction of the touch panel at the position of the desired control instruction screen to respond to the control instruction screen. The instruction signal is output to the device, and the control instruction screen of the device can be sequentially switched with a simple operation, and can be operated remotely without causing the device to malfunction (for example, Patent Document 1).
JP 2003-111173 A

However, the conventional remote control has to be operated while looking at the buttons on the remote control. In the case of a remote control that can be operated by rubbing the surface of the touch panel, it is necessary to rub the surface of the touch panel in the vertical and horizontal directions. There was a problem that it was not suitable.
The present invention has been made in view of such a situation, and enables easy operation with one hand without looking at a remote controller.

The remote controller according to claim 1 includes a touch panel provided on the housing, slide position detecting means for detecting a slide position slid in a state where the touch panel is touched with a finger, and a state where the touch panel is touched with the finger. A slide direction detecting means for detecting the slide direction slid, a slide speed detecting means for detecting a slide speed slid while the touch panel is touched with a finger, a slide position detected by the slide position detecting means, Generation means for generating a control signal corresponding to the slide direction detected by the slide direction detection means and the slide speed detected by the slide speed detection means; and sending means for sending the control signal generated by the generation means. It is characterized by providing.
The touch panel is circular, and when the slide position detecting means detects that the upper half of the touch panel has been slid with a finger in a circular arc shape, the generating means is a control signal for channel selection or selection of various setting items. Can be generated.
The touch panel is circular, and when the slide position detecting means detects that the lower half of the touch panel is slid with a finger in a circular arc shape, the generating means generates a control signal for volume adjustment. Can do.
The remote control system according to claim 4 is a remote control system including a remote controller and a device controlled by the remote controller, and the remote controller is touched with a touch panel provided on the housing and the touch panel with a finger. Slide position detecting means for detecting a slide position slid in a state, slide direction detecting means for detecting a slide direction in which the touch panel is touched with a finger, and a touch panel being slid in a touched state with a finger Corresponding to the slide speed detected by the slide speed detecting means, the slide position detected by the slide position detecting means, the slide direction detected by the slide direction detecting means, and the slide speed detected by the slide speed detecting means. Raw to generate control signals And a sending means for sending the control signal generated by the generating means, the device corresponding to the control signal received by the receiving means and the receiving means for receiving the control signal sent from the remote controller. And a screen generating means for generating a user interface screen, and an executing means for executing a function instructed on the user interface screen generated by the screen generating means.
The remote control system control method according to claim 5 is a remote control system control method for controlling a remote control system including a remote controller having a touch panel and a device controlled by the remote controller, wherein the touch panel is touched by a finger. A slide position detecting step for detecting a slide position slid in a touched state, a slide direction detecting step for detecting a slide direction in which the touch panel is touched with a finger, and a state in which the touch panel is touched with a finger In the slide speed detection step for detecting the slide speed slid in the slide position, the slide position detected in the slide position detection step, the slide direction detected in the slide direction detection step, and the slide speed detection step The apparatus includes a generation step for generating a control signal corresponding to the issued slide speed, and a transmission step for transmitting the control signal generated in the generation step. The device receives the control signal transmitted from the remote controller. A step of generating a user interface screen corresponding to the control signal received in the receiving step, and an execution step of executing a function instructed in the user interface screen generated in the screen generating step. It is characterized by that.
The remote control system control program according to claim 6 is a remote control system control program for controlling a remote control system including a remote controller having a touch panel and a device controlled by the remote controller. A slide position detecting step for detecting a slide position slid in a touched state, a slide direction detecting step for detecting a slide direction in which the touch panel is touched with a finger, and a state in which the touch panel is touched with a finger The slide speed detection step for detecting the slide speed slid by the slide position, the slide position detected in the slide position detection step, the slide direction detected in the slide direction detection step, and the slide speed detection step. And generating a control signal corresponding to the slide speed detected in the step, and a sending step for sending the control signal generated in the generating step. A receiving step for receiving, a screen generating step for generating a user interface screen in response to the control signal received in the receiving step, and an executing step for executing a function instructed on the user interface screen generated in the screen generating step Are executed.
The remote control program according to claim 7 is a remote control program for controlling a remote controller having a touch panel, a slide position detecting step for detecting a slide position slid while the touch panel is touched with a finger, and the touch panel. In a slide direction detection step for detecting a slide direction in which the touch panel is touched with a finger, a slide speed detection step for detecting a slide speed in which the touch panel is slid in a touched state with a finger, and a slide position detection step A generation step for generating a control signal corresponding to the detected slide position, the slide direction detected in the slide direction detection step, and the slide speed detected in the slide speed detection step, and the control generated in the generation step. Characterized in that to execute a sending step of sending a signal to the remote controller.

  According to the remote control system of the present invention, an operation screen displayed on the screen of a device such as a display control device can be changed and a desired function can be instructed by sliding the remote control touch panel with a finger in an arc shape. Since it did in this way, operativity can be improved.

  FIG. 1 shows an external view of an embodiment of a remote controller (hereinafter abbreviated as a remote controller) to which the present invention is applied. As shown in the figure, the remote controller 100 includes a circular button 101 and a touch panel 103 arranged in a donut shape around the button 101.

  FIG. 2 is a block diagram showing a configuration example of the remote controller 100 shown in FIG. As shown in the figure, the remote controller 100 includes a button 101, an interface 102, a touch panel 103, a touch motion sensor 104, a control unit 105, an LED (Light Emitting Diode) control unit 106, an LED 107, and light emission control. The unit 110 and the light emitting unit 111 are configured.

  The button 101 is operated when selecting an item displayed on the cursor, as will be described later. The interface 102 supplies a digital signal corresponding to an electrical signal output when the button 101 is operated to the control unit 105.

  When touched with a finger or the like, the touch panel 103 detects its position and supplies a detection signal to the touch motion sensor 104. This position detection is performed at regular time intervals, and detection signals are sequentially supplied to the touch motion sensor 104.

The touch motion sensor 104 determines whether the finger is touching the upper half area or the lower half area of the touch panel 103 based on the detection signal supplied from the touch panel 103 and the change thereof. Further, the touch motion sensor 104 determines whether the finger is moving in the arc shape on the touch panel 103 clockwise or in the arc shape in the counterclockwise direction.
Furthermore, the touch motion sensor 104 determines the speed at which the finger moves while touching the touch panel 103 based on the change in the detection signal. Data indicating these determination results is supplied to the control unit 105.

  As will be described later with reference to the flowchart of FIG. 7, the control unit 105 controls each unit corresponding to data indicating the determination result supplied from the touch motion sensor 104 and executes various processes. .

  The LED control unit 106 controls the LED 107 and controls the light emission of the LED 107. The LED 107 emits light under the control of the LED control unit 106. The light emission control unit 110 supplies a control signal corresponding to a predetermined command to the light emitting unit 111 to control light emission of the light emitting unit 111. The light emitting unit 111 emits infrared light in accordance with a control signal supplied from the light emission control unit 110 and transmits a predetermined command.

  FIG. 3 is a block diagram illustrating a configuration example of the television receiver 200 that can be controlled by the remote controller 100 of FIG. As shown in the figure, the television receiver 200 includes a light receiving unit 201, an interface (I / F) 202, a control unit 203, an overlay graphic processing unit 204, an audio processing unit 206, a tuner 210, The video signal processing unit 211, the audio signal processing unit 212, the video output processing unit 213, the audio output processing unit 214, the display unit 220, the speaker 230, and the like are included.

  The light receiving unit 201 receives the infrared rays emitted from the light emitting unit 111 of the remote controller 100, converts the infrared rays into corresponding electric signals, and supplies the signals to the I / F 202. The I / F 202 supplies control data corresponding to the electrical signal supplied from the light receiving unit 201 to the control unit 203. The control unit 203 controls each unit based on the control data supplied from the I / F 202 and executes various processes corresponding to the operation of the remote controller 100.

  Under the control of the control unit 203, the overlay graphic processing unit 204 generates an overlay graphic composed of characters and graphics to be superimposed on the video and supplies the generated graphic to the video output processing unit 213.

  The sound processing unit 206 generates a sound signal based on a command from the control unit 203 and supplies the sound signal to the sound output processing unit 214.

  The tuner 210 extracts a video / audio signal of a predetermined channel from a reception signal received by an antenna (not shown), supplies the video signal to the video signal processing unit 211, and supplies the audio signal to the audio signal processing unit 212. It has become.

  The video signal processing unit 211 performs predetermined processing on the video signal supplied from the tuner 210 and then supplies the video signal to the video output processing unit 213. The audio signal processing unit 212 performs predetermined processing on the audio signal supplied from the tuner 210 and then supplies the audio signal to the audio output processing unit 214.

  The video output processing unit 213 generates a composite video signal obtained by superimposing the overlay graphic generated by the overlay graphic processing unit 204 on the video signal supplied from the video signal processing unit 211, and supplies it to the display unit 220. The display unit 220 displays a video corresponding to the composite video signal supplied from the video output processing unit 213 on the screen.

  The audio output processing unit 214 synthesizes the audio signal supplied from the audio signal processing unit 212 and the audio signal supplied from the audio processing unit 206 and supplies the synthesized signal to the speaker 230. The speaker 230 outputs the audio signal supplied from the audio output processing unit 214.

  FIG. 4 shows an example of an operation screen for selecting a terrestrial broadcast channel. As shown in the figure, the television receiver 200 has a “1” key, a “3” key, a “4” key, a “6” key, and a “6” key for selecting a terrestrial broadcast channel. The “8” key is displayed in an arc shape imitating the touch panel 103 of the remote controller 100. Furthermore, a “BS” key for selecting a BS broadcast is displayed at the left end, and a “record” key for selecting a recording function is displayed at the right end.

  Each key is connected on an arc, and each key moves in the left-right direction in accordance with the operation of the remote controller 100. When the key moves in the left direction, the “10” key appears next to the “8” key, and the “12” key appears next, and moves in the left direction like the other keys.

  The cursor is fixed at the center, and by moving the key to the left and right by operating the remote controller 100, the desired key is moved onto the cursor, and then the "start" button 101 is pressed to move the cursor onto the cursor. A certain key can be selected.

  The “BS” key and “record” key are normally fixed and do not move. In order to move the “BS” key onto the cursor, a predetermined position on the left side of the touch panel 103 of the remote controller 100 is touched for a predetermined period of time, and then the remote controller 100 is operated by a method described later. Similarly, when the “record” key is moved onto the cursor, a predetermined position on the right side of the touch panel 103 of the remote controller 100 is touched for a predetermined period of time, and then the remote controller 100 is operated by a method described later.

  FIG. 5 shows an example of an operation screen for selecting a BS broadcast channel. As shown in the figure, the television receiver 200 includes a “1” key, a “2” key, a “3” key, a “4” key, and a “5” for selecting a BS broadcast channel. "Key is displayed. Furthermore, a “CS” key for selecting a CS broadcast is displayed at the left end, and a “terrestrial” key for selecting a terrestrial broadcast is displayed at the right end.

  Each key is connected and arranged on an arc, and each key moves in the left-right direction according to the operation of the remote controller 100. When the key moves in the left direction, the “6” key appears next to the “5” key, and the “7” key appears next, and moves in the left direction like the other keys.

  The cursor is fixed at the center, and by moving the key to the left and right by operating the remote controller 100, the desired key is moved onto the cursor, and then the "start" button 101 is pressed to move the cursor onto the cursor. A certain key can be selected.

  The “CS” key and the “ground” key are normally fixed and do not move. In order to move the “CS” key onto the cursor, a predetermined position on the left side of the touch panel 103 of the remote controller 100 is touched for a predetermined period of time, and then the remote controller 100 is operated by a method as described later. Similarly, when the “ground” key is moved onto the cursor, a predetermined position on the right side of the touch panel 103 of the remote controller 100 is touched for a predetermined period of time, and then the remote controller 100 is operated by a method described later.

  Next, an operation method of the touch panel 103 of the remote controller 100 will be described. As shown in FIG. 6A, when the upper half area of the touch panel 103 is touched with a finger and the finger is stroked in an arc shape in the clockwise direction, each key on the screen moves to the right. Further, when the stroke speed is increased, the number of keys displayed on the screen is increased, the interval between adjacent keys is narrowed, and the key can be selected quickly.

  Further, as shown in FIG. 6B, when the upper half area of the touch panel 103 is touched with a finger and the finger is stroked in an arc shape counterclockwise, each key on the screen is moved to the left. Moving. Further, when the stroke speed is increased, the number of keys displayed on the screen is increased, the interval between adjacent keys is narrowed, and the key can be selected quickly.

  Also, as shown in FIG. 6C, the volume can be increased by touching the lower half area of the touch panel 103 with a finger and moving the finger so as to stroke it counterclockwise in an arc shape. ing. Further, as shown in FIG. 6D, the volume can be lowered by touching the lower half area of the touch panel 103 with a finger and moving the finger so as to stroke it in an arc shape in a clockwise direction. Yes.

  Next, the operation procedure of the remote controller 100 will be described with reference to the flowchart of FIG. First, in step S <b> 1, the control unit 105 of the remote controller 100 determines whether or not the touch panel 103 has been operated based on data indicating a determination result supplied from the touch motion sensor 104.

  As a result, if it is determined that the touch panel 103 is operated by touching the finger, the process proceeds to step S2. On the other hand, when it is determined that the touch panel 103 is not operated, the process of step S1 is repeatedly executed.

  In step S <b> 2, the control unit 105 determines whether a finger has touched the upper half area of the touch panel 103. As a result, when it is determined that the finger has touched the upper half area of the touch panel 103, the process proceeds to step S3. On the other hand, if it is determined that the finger has touched the lower half area of the touch panel 103, the process proceeds to step S10.

  In step S <b> 10, volume control data corresponding to the operation status of the touch panel 103 is generated by the control unit 105 and supplied to the light emission control unit 110. The light emission control unit 110 controls the light emission unit 111 based on the sound volume control data supplied from the control unit 105, and infrared rays corresponding to the sound volume control data are emitted. Then, it returns to step S1 and the process after step S1 is repeatedly performed.

  On the other hand, in step S <b> 3, the control unit 105 determines whether or not the direction (sliding direction) in which the finger touches the touch panel 103 is the right direction (clockwise direction). As a result, when it is determined that the slide direction is the right direction, the process proceeds to step S4. On the other hand, if it is determined that the sliding direction is the left direction (counterclockwise direction), the process proceeds to step S7.

  In step S4, it is determined whether or not the speed at which the touch panel 103 is stroked (slid) with a finger is equal to or higher than a reference value. As a result, if it is determined that the value is not greater than the reference value, the process proceeds to step S5. On the other hand, when it determines with it being more than a reference value, it progresses to Step S6.

  In step S <b> 5, the control unit 105 generates data indicating that the touch panel 103 has been slid rightward (clockwise direction) at a normal speed with a finger and is supplied to the light emission control unit 110.

  The light emission control unit 110 controls the light emission unit 111 based on the data supplied from the control unit 105. The light emitting unit 111 emits infrared light according to the control of the light emission control unit 110, and transmits the data using infrared light.

  On the other hand, in step S <b> 6, the control unit 105 generates data indicating that the touch panel 103 has been slid rightward with a finger at a high speed and supplies the data to the light emission control unit 110. The light emission control unit 110 controls the light emission unit 111 based on the data supplied from the control unit 105. The light emitting unit 111 emits infrared light according to the control of the light emission control unit 110, and transmits the data using infrared light.

  In step S3, if the control unit 105 determines that the direction in which the finger is stroked on the touch panel 103 (slide direction) is the left direction, the process proceeds to step S7, and the touch panel 103 is stroked (slid) with the finger. It is determined whether the speed is equal to or higher than a reference value. As a result, if it is determined that the value is not greater than the reference value, the process proceeds to step S8. On the other hand, when it determines with it being more than a reference value, it progresses to Step S9.

  In step S <b> 8, data indicating that the control unit 105 has slid leftward (counterclockwise direction) with the finger on the touch panel 103 at a normal speed is generated and supplied to the light emission control unit 110.

  The light emission control unit 110 controls the light emission unit 111 based on the data supplied from the control unit 105. The light emitting unit 111 emits infrared light according to the control of the light emission control unit 110, and transmits the data using infrared light.

  On the other hand, in step S <b> 9, data indicating that the control unit 105 has slid leftward on the touch panel 103 at a high speed is generated and supplied to the light emission control unit 110. The light emission control unit 110 controls the light emission unit 111 based on the data supplied from the control unit 105. The light emitting unit 111 emits infrared light according to the control of the light emission control unit 110, and transmits the data using infrared light.

  FIG. 8 is a flowchart showing a processing procedure of the television receiver 200. First, in step S21, when the control unit 203 of the television receiver 200 receives data transmitted by infrared rays from the light emitting unit 111 of the remote controller 100 by the light receiving unit 201, it corresponds to the infrared light received by the light receiving unit 201. It is determined whether or not the data to be displayed indicates that it has been slid rightward (clockwise direction) with a finger on the touch panel 103 at a normal speed.

  As a result, if it is determined that the data corresponding to the infrared light received by the light receiving unit 201 is slid rightward (clockwise direction) with a finger on the touch panel 103 at a normal speed, step Proceed to S22.

  On the other hand, if it is determined that the data corresponding to the infrared light received by the light receiving unit 201 does not indicate that the finger is slid rightward (clockwise) on the touch panel 103 at the normal speed, step S23. Proceed to

  In step S22, the control unit 203 executes processing corresponding to the control signal. For example, when a screen as shown in FIG. 4 is displayed, the control unit 203 assigns each key “1”, “3”, “4”, “6”, “8” to a predetermined first distance. The overlay graphic processing unit 204 is instructed to create an overlay graphic that is moved rightward only by the right direction and to output it to the video output processing unit 213.

  Based on a command from the control unit 203, the overlay graphic processing unit 204 creates an overlay graphic in which each key is moved rightward by a predetermined first distance, and outputs the generated overlay graphic to the video output processing unit 213. The video output processing unit 213 generates a video signal obtained by combining the overlay graphic supplied from the overlay graphic processing unit 204 with the video signal supplied from the video signal processing unit 211 and supplies the generated video signal to the display unit 220. The display unit 220 displays the video signal supplied from the video output processing unit 213.

  Then, it returns to step S21 and the process of step S21 is repeatedly performed. By repeatedly executing the process of step S22, each key displayed on the screen of the display unit 220 is visually recognized to move rightward at normal speed.

  In step S23, when the control unit 203 of the television receiver 200 receives the data transmitted from the light emitting unit 111 of the remote controller 100 by infrared light by the light receiving unit 201, the infrared light received by the light receiving unit 201 is converted into the infrared light received by the light receiving unit 201. It is determined whether or not the corresponding data indicates that it has been slid rightward (clockwise direction) with a finger on the touch panel 103 at a high speed.

  As a result, when it is determined that the data corresponding to the infrared light received by the light receiving unit 201 is slid rightward (clockwise direction) with the finger on the touch panel 103 at a high speed, step S24 is performed. Proceed to

  On the other hand, if it is determined that the data corresponding to the infrared light received by the light receiving unit 201 does not indicate that the data is slid rightward (clockwise) with the finger on the touch panel 103, the process proceeds to step S25. move on.

  In step S24, the control unit 203 executes processing corresponding to the control signal. For example, when the screen as shown in FIG. 4 is displayed, each key “1”, “3”, “4”, “6”, “8” is set to the second longer than the predetermined first distance. The overlay graphic processing unit 204 is instructed to create an overlay graphic that is moved to the right by the distance and has a narrower interval between keys so that more keys can be displayed and to output to the video output processing unit 213.

  Based on a command from the control unit 203, the overlay graphic processing unit 204 moves each key to the right by a predetermined second distance, and reduces the interval between the keys so that more keys can be displayed. An overlay graphic is created and output to the video output processing unit 213. The video output processing unit 213 generates a video signal obtained by combining the overlay graphic supplied from the overlay graphic processing unit 204 with the video signal supplied from the video signal processing unit 211 and supplies the generated video signal to the display unit 220. The display unit 220 displays the video signal supplied from the video output processing unit 213.

  Then, it returns to step S21 and the process after step S21 is repeatedly performed. By repeatedly executing the process of step S24, each key displayed on the screen of the display unit 220 is visually recognized to move rightward at high speed.

  Further, in step S25, when the data transmitted from the light emitting unit 111 of the remote controller 100 by infrared light is received by the light receiving unit 201 by the control unit 203 of the television receiver, the infrared light received by the light receiving unit 201 is handled. It is determined whether or not the data to be displayed indicates that it has been slid leftward (counterclockwise direction) with a finger on the touch panel 103 at a normal speed.

  As a result, when it is determined that the data corresponding to the infrared light received by the light receiving unit 201 is slid leftward (counterclockwise direction) with the finger on the touch panel 103 at a normal speed, Proceed to step S26.

  On the other hand, if it is determined that the data corresponding to the infrared light received by the light receiving unit 201 does not indicate that the data is slid leftward (counterclockwise) with the finger on the touch panel 103 at the normal speed, step Proceed to S27.

  In step S26, the control unit 203 executes a process corresponding to the control signal. For example, when the screen shown in FIG. 4 is displayed, the keys “1”, “3”, “4”, “6”, “8” are moved to the left by a predetermined first distance. The overlay graphic processing unit 204 is instructed to create the generated overlay graphic and output it to the video output processing unit 213.

  Based on a command from the control unit 203, the overlay graphic processing unit 204 creates an overlay graphic in which each key is moved leftward by a predetermined first distance, and outputs the generated graphic to the video output processing unit 213. The video output processing unit 213 generates a video signal obtained by combining the overlay graphic supplied from the overlay graphic processing unit 204 with the video signal supplied from the video signal processing unit 211 and supplies the generated video signal to the display unit 220. The display unit 220 displays the video signal supplied from the video output processing unit 213.

  Then, it returns to step S21 and the process after step S21 is repeatedly performed. By repeatedly executing the process of step S26, each key displayed on the screen of the display unit 220 is visually recognized to move to the left at normal speed.

  In step S27, when the control unit 203 of the television receiver receives data transmitted from the light emitting unit 111 of the remote controller 100 by infrared rays by the light receiving unit 201, it corresponds to the infrared rays received by the light receiving unit 201. It is determined whether or not the data to be displayed indicates that the touch panel 103 has been slid leftward (counterclockwise direction) with a finger at a high speed.

  As a result, if it is determined that the data corresponding to the infrared ray received by the light receiving unit 201 indicates that the touch panel 103 is slid leftward (counterclockwise direction) with a finger at a high speed, step Proceed to S28.

  On the other hand, if it is determined that the data corresponding to the infrared light received by the light receiving unit 201 does not indicate that the finger is slid leftward (counterclockwise direction) on the touch panel 103 at a high speed in step S21. Returning to step S21, the processes after step S21 are repeatedly executed.

  In step S28, the control unit 203 executes processing corresponding to the control signal. For example, when the screen as shown in FIG. 4 is displayed, each key “1”, “3”, “4”, “6”, “8” is set to the second longer than the predetermined first distance. The overlay graphic processing unit 204 is instructed to create an overlay graphic that is moved to the left by the distance and has a narrower interval between keys so that more keys can be displayed and to output to the video output processing unit 213.

  Based on a command from the control unit 203, the overlay graphic processing unit 204 moves each key to the left by a predetermined second distance and reduces the interval between the keys so that more keys can be displayed. An overlay graphic is created and output to the video output processing unit 213. The video output processing unit 213 generates a video signal obtained by combining the overlay graphic supplied from the overlay graphic processing unit 204 with the video signal supplied from the video signal processing unit 211 and supplies the generated video signal to the display unit 220. The display unit 220 displays the video signal supplied from the video output processing unit 213.

  Then, it returns to step S21 and the process of step S21 is repeatedly performed. By repeatedly executing the process of step S28, each key displayed on the screen of the display unit 220 is visually recognized to move leftward at high speed.

  Each key on the screen moves in accordance with the operation of the remote controller 100. After the key corresponding to the desired channel is moved on the cursor set at the center of the screen, when the “start” button 101 is pressed, the control unit 203 instructs the tuner 210 to select the channel on the cursor when the “start” button 101 is pressed.

  The tuner 210 selects a channel instructed by the control unit 203 based on a command from the control unit 203, supplies a video signal to the video signal processing unit 211 among the video and audio signals of the selected channel, The audio signal is supplied to the audio signal processing unit 212.

  The video signal processing unit 211 supplies the video signal supplied from the tuner 210 to the video output processing unit 213. The audio signal processing unit 212 supplies the audio signal supplied from the tuner 210 to the audio output processing unit 214. The video output processing unit 213 supplies the video signal supplied from the video signal processing unit 211 to the display unit 220, and the display unit 220 displays the video signal. The audio output processing unit 214 supplies the audio signal supplied from the audio signal processing unit 212 to the speaker 230, and the speaker 230 outputs this audio signal.

  Further, as shown in FIG. 5, when a BS broadcast channel is selected, a desired channel is selected in the same procedure as in the case of terrestrial broadcast shown in FIG. 220 can be displayed.

  Selection of terrestrial broadcasting, BS broadcasting, and CS broadcasting can be performed, for example, by pressing the left end of the touch panel 103 for a predetermined time or more. That is, when the screen shown in FIG. 4 is displayed on the display unit 220 and the left end of the touch panel 103 is continuously pressed for a predetermined time or longer, the BS broadcast channel channel selection screen is displayed as shown in FIG. Is displayed.

  Further, when the screen shown in FIG. 5 is displayed, if the left end of the touch panel 103 is further pressed for a predetermined time or longer, a CS channel selection screen is displayed. Further, in the screen shown in FIG. 5, when the right end of the touch panel 103 is kept pressed for a predetermined time or longer, the channel selection screen for terrestrial broadcasting shown in FIG. 4 is displayed. Further, on the screen shown in FIG. 4, when the right end of the touch panel 103 is continuously pressed for a predetermined time or longer, a recording setting screen (not shown) is displayed on the display unit 220, and recording setting can be performed.

  As described above, by stroking the touch panel 103 with a finger, a desired channel can be easily selected sensuously, and execution of other various functions such as recording settings can be instructed.

  It should be noted that the configuration and operation of the above-described embodiment are examples, and it goes without saying that they can be changed as appropriate without departing from the spirit of the present invention.

  As an application example of the present invention, for example, the present invention can be applied to a user interface for controlling various devices that perform menu display with a remote controller or the like.

It is an external view of one embodiment of a remote controller in the present invention. It is a block diagram which shows the structural example of the remote control of FIG. FIG. 2 is a block diagram illustrating a configuration example of a television receiver controlled by the remote controller in FIG. 1. It is a figure which shows the channel selection screen example of the terrestrial broadcast displayed on the display part. It is a figure which shows the channel selection screen example of BS broadcast displayed on the display part. It is a figure which shows the operating method of the touchscreen of a remote control. It is a flowchart for demonstrating the process sequence of a remote control. It is a flowchart for demonstrating the process sequence of a television receiver.

Explanation of symbols

100 Remote control 101 Button 102, 202 Interface (I / F)
103 Touch Panel 104 Touch Motion Sensor 105, 203 Control Unit 106 LED Control Unit 107 LED
DESCRIPTION OF SYMBOLS 110 Light emission control part 111 Light emission part 200 Television receiver 201 Light receiving part 204 Overlay graphic processing part 206 Audio | voice processing part 210 Tuner 211 Video signal processing part 212 Audio | voice signal processing part 213 Video | video output processing part 214 Audio | voice output processing part 220 Display part 230 Speaker

Claims (7)

A touch panel provided in the housing;
Slide position detecting means for detecting a slide position slid in a state where the touch panel is touched with a finger;
Slide direction detecting means for detecting a slide direction slid in a state where the touch panel is touched with a finger;
A slide speed detecting means for detecting a slide speed slid while the touch panel is touched with a finger;
Generation for generating a control signal corresponding to the slide position detected by the slide position detection means, the slide direction detected by the slide direction detection means, and the slide speed detected by the slide speed detection means Means,
A remote controller comprising: sending means for sending the control signal generated by the generating means. The touch panel is circular, and when the slide position detection means detects that the upper half of the touch panel is slid in a circular arc with the finger, the generation means is used for channel selection or selection of various setting items. The remote controller according to claim 1, wherein a control signal is generated. The touch panel is circular, and when the slide position detecting means detects that the lower half of the touch panel is slid in a circular arc with a finger, the generating means generates a control signal for volume adjustment. The remote controller according to claim 1 or 2, characterized in that: A remote control system comprising a remote controller and a device controlled by the remote controller,
The remote controller is
A touch panel provided in the housing;
Slide position detecting means for detecting a slide position slid in a state where the touch panel is touched with a finger;
Slide direction detecting means for detecting a slide direction slid in a state where the touch panel is touched with a finger;
A slide speed detecting means for detecting a slide speed slid while the touch panel is touched with a finger;
Generation for generating a control signal corresponding to the slide position detected by the slide position detection means, the slide direction detected by the slide direction detection means, and the slide speed detected by the slide speed detection means Means,
Sending means for sending the control signal generated by the generating means,
The equipment is
Receiving means for receiving the control signal sent from the remote controller;
Screen generating means for generating a user interface screen in response to the control signal received by the receiving means;
A remote control system comprising: execution means for executing a function instructed on the user interface screen generated by the screen generation means. A remote control system control method for controlling a remote control system comprising a remote controller having a touch panel and devices controlled by the remote controller,
The remote controller is
A slide position detecting step for detecting a slide position slid while the touch panel is touched with a finger;
A slide direction detecting step for detecting a slide direction in which the touch panel is slid while being touched with a finger;
A slide speed detecting step for detecting a slide speed slid while the touch panel is touched with a finger;
Generation for generating a control signal corresponding to the slide position detected in the slide position detection step, the slide direction detected in the slide direction detection step, and the slide speed detected in the slide speed detection step Steps,
A sending step for sending the control signal generated in the generating step;
The equipment is
Receiving the control signal sent from the remote controller;
A screen generating step for generating a user interface screen in response to the control signal received in the receiving step;
A remote control system control method comprising: an execution step of executing a function instructed on the user interface screen generated in the screen generation step. A remote control system control program for controlling a remote control system comprising a remote controller having a touch panel and devices controlled by the remote controller,
To the remote controller,
A slide position detecting step for detecting a slide position slid while the touch panel is touched with a finger;
A slide direction detecting step for detecting a slide direction in which the touch panel is slid while being touched with a finger;
A slide speed detecting step for detecting a slide speed slid while the touch panel is touched with a finger;
Generating control signals corresponding to the slide position detected in the slide position detection step, the slide direction detected in the slide direction detection step, and the slide speed detected in the slide speed detection step Steps,
Sending out the control signal generated in the generating step; and
In the equipment,
Receiving the control signal sent from the remote controller;
A screen generating step for generating a user interface screen in response to the control signal received in the receiving step;
A remote control system control program that executes an execution step of executing a function instructed on the user interface screen generated in the screen generation step. A remote control program for controlling a remote controller having a touch panel,
A slide position detecting step for detecting a slide position slid while the touch panel is touched with a finger;
A slide direction detecting step for detecting a slide direction in which the touch panel is slid while being touched with a finger;
A slide speed detecting step for detecting a slide speed slid while the touch panel is touched with a finger;
Generating control signals corresponding to the slide position detected in the slide position detection step, the slide direction detected in the slide direction detection step, and the slide speed detected in the slide speed detection step Steps,
A remote control program for causing the remote controller to execute a sending step for sending the control signal generated in the generating step.

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