JP2009253639A - Remote controller - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a novel remote controller for preventing a user who operates the remote controller from being conscious of the directivity. <P>SOLUTION: The operator 101 is trying to operate the remote controller 102 for remotely controlling a television receiver 103. The remote controller 102 has a circular (or semispherical) appearance having no features for determining, for example, a direction, has a remote-control signal emission section having directivity and an input operation section for detecting an inputted direction, and can freely set (vertical and horizontal) operation axes. In the remote controller by general infrared transmission, it is required that the front (infrared transmission section) of the remote controller should be directed to a light reception section in a television receiver body. In the remote controller, a number of remote control signal emission sections directed multi-directionally are arranged, and the position of the active remote control signal emission section in the remote control signal emission sections is determined by the touch operation of the user so that the position is directed to the light reception section of the television receiver body. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a remote control device (hereinafter referred to as “remote control device”), and more particularly to a remote control device capable of selecting directivity.

  In general, a remote control device performs remote operation by irradiating a control target device such as a television receiver with an infrared remote control signal emitted from one infrared irradiation unit, and has directivity. Yes.

  For example, in the apparatus described in Patent Document 1 below, the remote controller includes a case unit and an input unit for remotely operating the electronic device. The part is configured in a pad shape capable of inputting information by sliding contact or touch. Then, the information is input from the approximate center of the input unit by sliding in the upward direction, the downward direction, the left direction, and the right direction, or by touching the approximate center of the input unit.

JP 2006-203755 A

  The direction of the remote control device described in Patent Document 1 is determined in the remote control device itself, and in the relationship between the user and the remote control device, the user always uses the remote control device from a certain direction. ing. For this reason, it was necessary to turn to the direction where a user is easy to use.

  An object of the present invention is to provide a new remote control device that does not make the control target device aware of directivity.

  According to one aspect of the present invention, a plurality of remote control signal emitting units provided at positions for emitting remote control signals in different directions, an input sensing unit for sensing input, and position information sensed by the input sensing unit And determining an operation axis as a reference for operation in the controlled device, and selecting a remote control signal emission unit located on the operation axis among the remote control signal emission units as an active remote control signal emission unit There is provided a remote control device including an operation axis generation / remote control signal emission unit determination unit for determining. Furthermore, it has a sensor unit for detecting movement along the operation axis, and a signal from the remote control signal emitting unit is operated so that an operation according to the movement detected by the sensor unit is performed in the controlled device. Is preferably generated. It is preferable to have a display unit for displaying the operation axis.

  Further, it is preferable that a large number of light sources are arranged on the display unit, and the operation axis is displayed by turning on the operation axis from among the light sources. The operation axis is preferably displayed by a light source that is lit along two orthogonal directions with the input position as a reference. It is preferable that the remote control signal emitting unit and the input sensing unit are arranged on a cylindrical surface. Further, it is preferable that an operation axis serving as a reference for an operation in the controlled device is determined based on a position not detected by the input detection unit.

  In addition, a joystick unit may be provided, and an input sensing unit that senses a tilted direction of the joytic unit as an input may be provided. Further, an operation unit including a direction button may be provided, and an input sensing unit for sensing an input to the direction button may be provided. A touch panel display unit is provided, and the touch panel display unit includes a GUI display function and an operation function for operating the controlled device, and the touch panel display unit serves as the input sensing unit. You may make it. Based on the direction or position sensed by the input sensing unit, the reference position for determining the operation axis, the tracing direction, the direction of operating the controlled device, and the correspondence between the active remote control signal emitting unit are determined. It is preferable. It is preferable that a plurality of multifunction keys are provided, and a function of changing the functions of the plurality of multifunction keys according to the operation axis determined by the operation axis determination unit is provided. Furthermore, it has a setting start button, and it is preferable that the timing at which the operation axis can be set is the timing at which the setting start button is pressed. The timing at which the operation axis can be set is preferably a timing at which the switch of the controlled device is turned on. Furthermore, it has a movement detection sensor which detects a movement, It is good to make the timing when the setting of the said operation axis is reset into the timing which the said movement detection sensor detected the movement. The timing at which the setting of the operation axis is reset may be a timing at which the switch of the controlled device is turned on.

  Since the remote control device of the present invention has a mechanism that can determine the directivity later, the direction of installation with respect to the controlled device can be freely set. In addition, since it is omnidirectional to the person who operates, there is no need to check the top, bottom, left and right of the remote control, and there is no need to carry it around.

  It can be operated even in the dark, and it can be operated easily even if there are restrictions on the movement of the body, increasing the degree of freedom of operation, improving the design of the remote control, and more universal design.

  Hereinafter, a remote control device according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a diagram showing a state in which a remote control device according to the present embodiment is used. FIG. 1A is a perspective view showing an example of the operation direction, and FIG. 1B is a view of the state of FIG. As shown in FIGS. 1A and 1B, for example, an operator 101 sleeping on his / her back on a bed operates a remote control device 102 according to the present embodiment to remotely control the television device 103. The remote control device 102 has, for example, a circular (or hemispherical) appearance that does not determine the orientation, and has a directional remote control signal emitting unit and an input operation unit that senses the input direction. The operation axis (up / down / left / right) can be freely set.

  The directivity of the remote control device 102 will be described. The directivity of this remote control device has two meanings. First, the first directivity is directivity with respect to a television receiver that is a controlled device. In a general remote controller using infrared transmission, the front surface (infrared transmitter) of the remote controller needs to be directed to the light receiving unit of the television receiver main body. In the remote control device according to the present embodiment, the position of the remote control signal emitting unit can be determined later by the user's touch operation so that the remote control signal emitting unit is directed to the light receiving unit of the television receiving device main body. There is no need to point it at the table, and it is possible to operate it without leaving the table or floor.

  The second directivity is directivity for the operator. In general, the top, bottom, left, and right of the remote control device are designed (determined), so you must hold them accordingly. The remote controller shown in FIG. 1 is not designed so that the top, bottom, left, and right are clear, and the directionality can be freely set by the operator touching and setting each time. There is no need to check the direction of the switch.

  FIG. 2 is a diagram showing an external configuration example of the remote control device according to the present embodiment. In the remote control device according to the present embodiment, the position of the infrared transmission unit to be used is determined together with the determination of the operation axis.

  FIG. 3 is a functional block diagram showing a configuration example of the television receiver 103 according to the present embodiment, and FIG. 6 is a functional block diagram showing a configuration example of the remote control device. As shown in FIG. 3, the television receiver 103 includes a front end 51 that receives a signal from an antenna, a demultiplexer 53, a program information decoding unit 61, a program guide data generation unit 65, and video / audio. A decoding unit 55, a screen synthesis unit 67 that synthesizes the video signal and the program guide signal, an audio output unit 57 that outputs audio, a display unit 71, a control unit 75, a memory unit 77, and a remote control signal light receiving unit. 73. The control unit (CPU) 75 is configured to control various functions of the television and perform various operations based on the remote control signal acquired from the remote control signal light receiving unit 73.

  On the other hand, the remote control device 102a illustrated in FIG. 6 includes a touch sensor 401 that functions as an input sensing unit, a control unit 402, an information storage unit 403, a signal transmission unit 404, and an LED display unit 405. . More specifically, for example, the remote control device 102a includes a substantially cylindrical base portion 14 and a hemispherical display portion 16 formed thereon. For example, a large number of remote control signal emitting portions 10a are arranged on the side surface of the base portion 14 so that light rays are emitted radially outward. In addition, a touch sensor associated with each remote control signal emitting unit 10a is disposed. Each remote control signal emitting unit 10 a and touch sensor are stored in the information storage unit 403. Further, the display unit 16 is provided with many LEDs in the vicinity of the surface thereof. Furthermore, a sensor such as a touch sensor is also arranged on the hemispherical display unit 16. This sensor has the same function as a touch pad of a personal computer, for example, and changes or moves the direction of the focus of the GUI in the television receiver via the remote control signal according to the direction that the user traces. Can be done.

  FIG. 4 is a diagram showing several examples showing the relationship between the shape of the remote control device and the operation direction. FIG. 4 shows a touch sensor type remote control device 102 a having a substantially cylindrical base portion 14 and a substantially hemispherical portion 16 provided on the base portion 14. Reference numeral 10a denotes an infrared signal transmission unit that is provided on the side surface (circumferential surface) of the base unit 14 and transmits a directional remote control signal. For example, when a position on the side surface of the base unit 14 is touched, only the remote control signal emitting unit 10b provided at or near this position is activated, and the other remote control signal emitting units 10a are in a resting state. Also, this position becomes the reference position in the remote control device.

  With reference to FIG. 1, a procedure for determining the coordinate axes of the remote control device with reference to the touched position P2 will be described. The user is aware of the position of the television receiving device 103 (more specifically, the remote control signal light receiving unit P3), and a line 106 connecting P3 and the center point P1 of the remote control device 102 is a circle on which the remote control device 102 is fixed. Touch the vicinity of the point P2 that intersects (circle when viewed from above) and the back thereof. Then, in the control unit 402 of the remote control device 102, for example, a connection line 106 connecting P2 and the point P3 and a line 107 perpendicular thereto are determined. These lines 106 and 107 become the current operation axes (vertical operation axis 106 and horizontal operation axis 107) of the remote control device 102. Thereafter, the operator 101 need only be aware of the vertical operation axis 106 and the horizontal operation axis 107. There is no need to be particularly aware of the positional relationship between the remote control device 102 and the television receiver 103.

  Returning to FIG. 4, an example of the operation direction display of the remote controller 102a will be described. In remote control device 102a according to the present embodiment, the operation direction is determined by reference position P2 touched as described above. With this touch position P2 as a reference, the vertical operation axis is indicated by a vertical operation direction guide line 11a, and the horizontal operation axis is indicated by a horizontal operation direction guide line 11b. These shafts 11a and 11b are preferably clearly indicated to the operator. Therefore, for example, a plurality of light sources such as LEDs are arranged in the substantially hemispherical portion 16, and the operation direction guideline 11 a that clearly indicates the vertical operation axis 106 and the horizontal operation axis 107 determined on the basis of the touch position P 2. 11b shines. With the guide lines 11a and 11b formed by the light, the user can know the direction of his / her operation in his / her vicinity.

  FIG. 4B is a diagram illustrating another example of the remote control device. A remote control device 102b shown in FIG. 4B is a joystick type remote control device. The joystick-type remote control device 102b includes a substantially cylindrical base portion 17 and a column-shaped tiltable portion 21 having a smaller diameter than the base portion 17 formed so as to stand upright on the base portion 17, for example. The retractable portion 21 is configured to be tilted from the normal direction (vertical direction) of the upper surface of the base portion 17. For example, when tilted in the direction indicated by the symbol AR1 or in the opposite direction, the direction AR1 becomes the direction that the operator wants to make the vertical operation axis 21a, and the direction orthogonal to that becomes the direction that makes the horizontal scanning axis 21b. Further, the remote control signal emitting unit 10b located in the direction indicated by the symbol AR1 is the currently selected and active remote control signal emitting unit among the multiple remote control signal emitting units 10a. For example, on the upper surface of the retractable part 21, these axes may be clearly shown by shining with an LED or the like.

  FIG. 4C is a diagram illustrating an example of a button-type remote control device. This button-type remote control device 102 c is provided with operation buttons on the upper surface of a cylindrical flat plate portion 31. The operation buttons include four direction buttons 35a to 35d and a determination button 33. When the direction button 35a is pressed, this position becomes the reference position. A plurality of remote control signal emitting portions 10a are provided on the side surface (circumferential surface) of the flat plate portion 31, and one of the direction buttons 35a to 35d that is pressed before the determination button 35a is pressed and the center of the circle. Any one of the remote control signal emitting units 10b located on the line L1 passing through is activated, and the other remote control signal emitting units 10a are in a resting state. There are two remote control signal emitting units located on the line, but it is preferable to determine in advance which of the two remote control signal emitting units is active. In general, it is preferable that the remote control signal emitting unit located on the side opposite to the pressed button is activated. At this time, since the direction keys 35a and 35c serve as a reference for determining the vertical operation axis (L1), the LEDs provided on these keys are lit to clearly indicate the position of the vertical operation axis L1. it can.

  FIG. 4D shows, for example, a remote control device 102d in which a button-type remote control-like GUI is displayed on an LCD screen having a touch panel. When the touch screen LCD screen is touched, the same as FIG. As shown in the drawing, the position P2 touched by the button P2 becomes the reference position, and the direction keys 45a to 45d and the enter key 43 are displayed on the GUI. When the position P2 is touched, the line L2 passing through the button 45a and the button 45c at the opposite position becomes the vertical operation axis, and the direction keys 45a to 45d and the determination key 43 are displayed on the touch panel type LCD screen. Further, the signal emitting unit 10b located on the vertical operation axis becomes active.

  In the touch sensor type, an electrostatic sensor is used to detect touch and sliding. The joystick type senses the tilt of the stick. In the button type, the buttons are arranged in a radial pattern to sense the pressed button. Since the touch liquid crystal type displays a button type, a direction guide light source (LED) is unnecessary.

  Here, the relationship between the direction (axis) set in the remote controller and the operation screen in the television receiver will be described. FIG. 5 is a diagram illustrating a relationship between an operation and an operation screen when an operation is performed on the television receiver using the remote control device 102a according to the present embodiment.

  FIG. 5A is a diagram illustrating an example in which the screen operation is performed in the vertical direction, and FIG. 5B is a diagram illustrating an example in which the screen operation is performed in the horizontal direction. An example using the hemispherical remote control device 102a shown in FIG. When the position P2 of the pedestal part 14 is touched, the remote control signal emitting part 10b is based on the position selected by touching from among the many remote control signal emitting parts 10a arranged on the side surface (circumferential surface) of the pedestal part 14. Is determined. In addition, a light guide indicating a vertical operation axis indicated by reference numeral 11a and a light guide indicating a horizontal operation axis indicated by reference numeral 11b are displayed on the hemispherical portion 16.

  When operating the EPG screen, menu screen, etc. of the television receiver to move the cursor upward on the display screen, the vertical direction determined on the remote control device 102a is traced along the reference numeral 11a. The information relating to the movement transmitted to the remote controller control unit via is converted into a remote control signal and transmitted from the remote control signal emitting unit 10a. This remote control signal is received by the remote control receiving unit 73 in the television receiver, and one program in the EPG 72 displayed on the display unit 71 is focused on one of the programs 75 as indicated by arrows 77a and 77b. As described above, the focus (cursor) position is changed.

  Similarly, when it is desired to move the focus to the left and right 77c / 77d, the remote control device may be traced in the horizontal direction as shown in FIG.

  Note that the top, bottom, left, and right (vertical axis, horizontal axis) on the remote control device 102a can be used not only to operate a GUI such as an EPG or a menu but also to operations such as volume adjustment and channel switching. For example, the volume can be increased by tracing the remote control device upward, and the volume can be decreased by tracing the remote device downward. As described above, when changing the function to be operated, it is preferable to perform a touch operation after performing a process such as pressing a function selection button.

  Next, a method for determining the operation axis in the remote control device will be described with reference to FIG. As shown in FIG. 7A, when a hand H is touched on any point P2 of the base part 14 of the remote control device 102a, one point P2 of the circle formed by the cross-section of the base part 14 becomes the point P2. A coordinate axis having a horizontal operation axis as a tangent line as a contact and a vertical operation line as a line (normal line) perpendicular to the tangent line is determined. This is the reference direction for operations on the remote controller. In this example, it is determined that the touched side is in the downward direction.

  As shown in FIG. 7B, when the position of P2 of the tiltable portion 21 on the base portion 17 is tilted to the opposite side with the hand H, the tilted side is determined to be on the upper side. The method of determining the upper and lower sides may be determined in advance, or may be changed by user settings. The direction may be recognized by the directionality of an arrow in a light guide as shown in FIG. The same applies to other embodiments of the remote control device.

  FIG. 8A is a diagram showing a state in which the axis is determined by touching in remote control device 102a shown in FIG. 7 (a). Assuming that the point P2 is touched with the hand H, as shown in the figure below, a circle which is a cross section cut at the touched point P2 is determined, and the touched point P2 is a contact point of the circle, and a tangent line including the contact point P2 The operation axis is determined such that a vertical line extending in the vertical direction from 1 to 2 is defined as the vertical direction, and a line orthogonal thereto is defined as the horizontal axis. The remote control signal emitting unit is determined in the same manner.

  FIG. 8B is a diagram illustrating the relationship between the remote control device and the coordinate axes and touch positions stored in the information storage unit illustrated in FIG. 5, and a more detailed table is stored in the information storage unit.

  When Table 1 is associated with FIG. 8B, depending on which position from positions 1) to 16) is touched, as shown in Table 1, the position directly above (active), the position directly below, right, The left position is uniquely determined based on the information stored in the information storage unit. As a simple calculation means, the following calculation may be performed.

Assuming that the total number of LEDs is 16 (16 in Table 1), and directly above is x, right below, right, and left can be determined by the following equations.
Directly: Position of the remainder value of (n / 2 + x) / n Right: Position of the remainder value of (n / 4 + x) / n Left: Position of the remainder value of (3n / 4 + x) / n For example, x = 13 Then, the position immediately below is in the position of 5). The right is 1) and the left is 9).

  As a method for determining the direction, as shown in FIG. 7C, for example, a large number of thermal sensors or electrostatic sensors T are arranged on the surface of the hemispherical portion 16 or the side surface of the base portion 14, and the remote control device. If the hand H is placed so as to be covered, it may be detected and the position 131 where the hand is not applied may be set to “up” on the remote control, for example. As the touch sensor, a known sensor can be used, and the type of sensor is not limited. Further, a position where no touch is made may be used as a reference.

  FIG. 9 is a diagram illustrating a guide display example of the set axis. A description will be given by taking the remote control device 102a shown in FIG. FIG. 9A is a diagram illustrating an example in which the guide shafts 11 a and 11 b are displayed in a cross shape in the hemispherical portion 16 so as to shine and float. The semicircular spherical portion 16 has LEDs arranged radially. Among them, the LEDs corresponding to the guide shafts 11a and 11b determined by the above procedure illuminate, and the cross shaft emerges as a guide shaft. FIG. 9B shows the reference point by turning on the LED of the base 14 close to the above point (assuming that the LED arranged near the remote control signal emitting unit is here). It is configured as follows. The guide shaft does not shine, but the LED 10b that is lit is used as a reference to help the user assume the guide shaft.

  Next, processing in the remote control device according to the present embodiment will be described with reference to FIG. This process is stored in the information storage unit 403 of the remote control device, for example. In step S1, processing is started (Start), and in step S2, it is detected whether or not the touch sensor of the remote control device is touched. Here, when a touch is detected (Yes), the process proceeds to step S3, where an operation axis is determined based on the touch position, and a remote control signal emitting unit to be used (activated) is determined.

  Subsequently, it progresses to step S4 and an operation guide is produced | generated by LED etc. The position of the cursor in the controlled device can be changed by tracing with the finger along the operation guide. Next, in step S5, when a certain period of time has elapsed (Yes), the process ends (step S7: the operation axis and the active remote control signal emitting unit may be canceled, or the operation axis may be canceled by some operation. And the position of the active remote control signal emitting unit may be stored until the next update). If another point is touched before the predetermined time has elapsed (step S6), the operation axis and the active remote control signal emitting unit are changed, and the process returns to step S3.

  It is preferable that the position of the guide shaft is different from the position where the process of determining the axis when touched is performed and the position of the remote control signal emitting unit. For example, the determination process of the operation axis and the active remote control signal emitting unit occurs when any sensor of the base unit 14 is touched, and the actual operation process on the axis is performed. It is preferable that the semicircular spherical portion 16 be provided when it is detected that the sensor is traced along the guide axis. The timing for determining the axis of the remote control and the active remote control signal emitting unit (when to set / when to reset) can be determined as follows, for example.

  For example, after setting (or pressing) a dedicated button provided on the remote control device, setting (performing touching operation, etc.) is performed. Thus, it can be set at any time.

  Alternatively, a mechanism may be employed in which a shaft on the remote control device is reset when a vibration sensor or the like is provided inside the remote control device and the remote control device is lifted and repositioned. For example, it is possible to make the point touched for the first time after repositioning become “below” the remote control. However, setting is required every time the remote control device is moved. When the switch of the television receiver is turned off, the remote control axis also disappears (reset). When the switch of the receiving device is turned on, the axis may be set first.

  FIG. 11 is a diagram showing a configuration example of a remote control device according to a modification of the embodiment of the present invention. In FIG. 11, simultaneously with the process of determining the axis and the active remote control signal emitting unit, the LED is caused to emit light so as to indicate frequently used buttons (16d, four in this case). Here, the remote control signal emitting unit is not shown, but it is preferable to arrange it at a position different from the buttons 16a and 16d. In this way, a plurality of LEDs and touch sensors are embedded in the periphery (side surface) of the base unit 14, and the axis and the active remote control signal emitting unit are set. You can set the location of frequently used buttons.

  For example, the color buttons (blue / red / green / yellow) used for the operation of the television receiver are defined so as to be in front of the remote controller (“down”). The operator touches to set the direction axis on the remote control and determines “down”. Then, the four LEDs 16d in front of the remote controller ("down") become active so that the function of the color button is assigned. At the same time, the four LEDs shine in blue, red, green and yellow according to the function. In this way, the color buttons can be arranged at the same time as the axis setting at a position where the operator can easily operate.

  As described above, according to the remote control device according to the present embodiment, the remote control device is omnidirectional with respect to the television receiver, and can be freely placed, and is also omnidirectional with respect to the user who operates the television receiver. There is an advantage that there is no need to check the top, bottom, left and right of the remote control, and there is no need to change the remote control. Further, there is an advantage that it can be operated even in a dark place and can be easily operated even if there is a restriction on the movement of the body such as when sleeping. In other words, the degree of freedom of operation increases and the design of the remote control also increases, making it a more universal design.

  In the above embodiment, a plurality of infrared transmission units are arranged around the periphery in order to realize a remote controller having no directivity. However, instead of lighting all of these, the infrared transmission unit is determined when the operation axis is determined. Since one can be determined, only one infrared transmitter can be active. Therefore, there is an advantage that power consumption can be suppressed while realizing an omni-directional remote controller.

  The present invention is applicable to a remote control device.

It is a figure which shows a mode that the remote control apparatus by one embodiment of this invention was utilized. It is a figure which shows the example of an external appearance structure of the remote control apparatus by this Embodiment. It is a functional block diagram which shows the example of 1 structure of the television receiver by this Embodiment. It is a figure which shows some examples which show the relationship between the shape of a remote control device, and an operation direction. It is a figure which shows the relationship between operation and an operation screen at the time of performing operation with respect to a television receiver using the remote control apparatus by this Embodiment. It is a functional block diagram which shows one structural example of a remote control device. It is a figure which shows the determination method of the operation axis in a remote control apparatus, (c) is a figure which shows another example of the determination method of the operation axis in a remote control apparatus. It is a figure which shows a mode that the axis | shaft was decided by touching in the remote control apparatus shown to Fig.7 (a). It is a figure which shows the relationship between a remote control device, the coordinate axis memorize | stored in the information storage part shown in FIG. 5, and a touch position. It is a figure which shows the example of a guide of the set axis | shaft. It is a flowchart figure which shows the flow of a process in the remote control apparatus by this Embodiment. It is a figure which shows one structural example of the remote control apparatus by the modification of embodiment of this invention.

Explanation of symbols

101: operator 102: remote control 103: television 104: direction desired to be the operator's vertical operation axis 105: direction desired to be the operator's horizontal operation axis 106: direction facing the television 107: a direction perpendicular to the direction 107: 106

Claims (16)

A plurality of remote control signal emitting portions provided at positions to emit remote control signals in different directions;
An input sensing unit for sensing input;
Based on the position information sensed by the input sensing unit, an operation axis serving as a reference for operation in the controlled device is determined, and a remote control signal emitting unit located on the operation axis of the remote control signal emitting unit is provided. A remote control device comprising: an operation axis generation / remote control signal output unit determination unit that selects and determines an active remote control signal output unit.   Furthermore, it has a sensor unit for detecting movement along the operation axis, and a signal from the remote control signal emitting unit is operated so that an operation according to the movement detected by the sensor unit is performed in the controlled device. The remote controller according to claim 1, wherein:   The remote control device according to claim 1, further comprising a display unit that displays the operation axis.   The remote controller according to claim 3, wherein a plurality of light sources are arranged on the display unit, and the operation axis is displayed by being lit along the operation axis from among the light sources.   The remote controller according to claim 4, wherein the operation axis is displayed by a light source that is lit along two orthogonal directions with respect to the input position. The remote control signal emitting unit;
The remote control device according to claim 1, wherein the input sensing unit is arranged on a cylindrical surface.   The remote controller according to claim 6, wherein an operation axis serving as a reference for an operation in the controlled device is determined based on a position that is not detected by the input detection unit.   6. The remote control device according to claim 1, further comprising an input sensing unit that includes a joytic unit and senses a direction in which the joytic unit is tilted as an input.   6. The remote control device according to claim 1, further comprising an operation unit including a direction button, and an input detection unit configured to detect an input to the direction button.   A touch panel display unit is provided, and the touch panel display unit includes a GUI display function and an operation function for operating the controlled device, and the touch panel display unit serves as the input sensing unit. The remote control device according to any one of claims 1 to 5, wherein:   Based on the direction or position sensed by the input sensing unit, the reference position for determining the operation axis, the tracing direction, the direction of operating the controlled device, and the correspondence between the active remote control signal emitting unit are determined. The remote control device according to claim 1, wherein the remote control device is a remote control device.   2. The apparatus according to claim 1, further comprising a function of changing a function of the plurality of multi-function keys according to an operation axis determined by the operation axis determination unit. Item 12. The remote control device according to any one of Items 11 to 11.   Furthermore, it has a setting start button, The timing which can set the said operation axis is made into the timing which pushed the said setting start button, The any one of Claim 1-12 characterized by the above-mentioned. The remote control device described.   The remote control device according to any one of claims 1 to 12, wherein a timing at which the operation axis can be set is a timing at which a switch of the controlled device is turned on.   Furthermore, it has a movement detection sensor which detects a movement, The timing when the setting of the said operation axis is reset is made into the timing which the said movement detection sensor detected the movement. The remote control device according to any one of the above.   13. The remote control device according to claim 1, wherein a timing at which the setting of the operation axis is reset is a timing at which a switch of the controlled device is turned on.

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