JP2005316745A - Input method defined by starting position and moving direction, control module, and its electronic product - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an input method defined by a starting position and a moving direction, a control module, and an electronic product for it. <P>SOLUTION: A first contact position on a touch screen principally is defined as the starting position, the starting position measured in first touch is associated with a gesture in a different moving direction, a parameter data assembly applicable to comparison among the control modules is defined, it is detected whether a matching gestures is generated on the touch screen or not, a movement gesture based on the contact starting position and the corresponding moving direction are matched with each other to be compared with the parameter data assembly defined in the control module, and the comparison result is outputted to a server. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

The present invention belongs to a technical field of an input method, a control module, and an electronic product thereof defined by a kind of starting position and moving direction. In particular, the present invention relates to an input method, a control module, and an electronic product thereof, which are defined by a kind of starting position and moving direction, and which provide a server with different control signals generated by different gestures and are used for subsequent control functions.

Known touch screens include a capacitor type, an electric resistance type, an electromagnetic type, a pressure type, an inductance type, a surface acoustic wave (SAW) type, an ultrasonic type, an optical type and the like based on the physical principle of detecting a touch point. Commonly seen are the electric resistance type and the capacitor type, which are mainly applied to consumer electronic products such as notebook PCs and PDAs. The method of use is to move the stylus or fingers on the touch panel to perform handwriting of characters or a click function like a mouse.

As shown in FIG. 1, a kind of touch screen 9 shown in US Pat. No. 6,414,671 can detect a change in the capacitor of a touch position on a finger 8 or a touch panel 90 of a stylus. At the moment when the finger 8 touches the touch panel 90, a contact capacitor is generated on the surface of the touch panel 90. Since the surface of the touch panel 90 is one sensor matrix, the X direction processing unit 91, the Y direction processing unit 92, and the one arithmetic unit 93 which the touch panel 90 and the touch screen 9 are provided are electrically connected to each other. Since the X-direction processing unit 91 and the Y-direction processing unit 92 can continue and track the trajectory of the contact capacitor of the finger 8, the XY coordinate position parameter of the finger 8 position localized by the arithmetic unit 93 is localized. To do. At the same time, the arithmetic unit 93 can also measure the change in different distances of the touch pressure of the finger 8 on the touch panel 90 to determine the Z coordinate parameter. Further, the arithmetic unit 93 transmits the detected X, Y, Z coordinate parameters to the position movement unit 94, the gesture unit 95 and the transmission interface 96, and the position movement unit 94 calculates the position movement amounts ΔX, ΔY, The value is transmitted to the server 97 via the transmission interface 96, and the relative position movement amount required by the cursor on the server 97 is provided. The gesture unit 95 is used to determine a touching method of the finger 8, that is, a gesture operation such as a tap, a double tap, or a drag. At this time, the server 97 is a device such as a general PC, a notebook PC, or a portable electronic product.

The known structure has the following drawbacks.
That is, the calculation of the position movement amounts ΔX and ΔY and the determination of the gesture input method are convenient, but this method is mainly used for the relative position movement amount required by the cursor in general Windows (registered trademark) software. However, its application range is quite limited.
The present invention provides an input method, a control module, and an electronic product thereof that are defined by a starting position and a moving direction that solve the above-described problems of the structure.

In order to solve the above problems, the present invention provides an input method, a control module, and an electronic product thereof defined by the following starting position and moving direction.
It mainly provides a variety of control functions by touch screen, which can be used more broadly, is defined by a kind of starting position and moving direction, and provides different control signals to the server that cause different gestures, The input method used for the control function, which can change the gesture defined by a kind of starting position and moving direction into different control signals, and provides each kind of server for the use of the subsequent control function, a kind of start An electronic product that is defined by position and direction of movement and uses different gestures as versatile control functions.
The input method of the present invention is to identify different gestures on the touch screen by the control module, and to provide different control signals that cause different gestures to the server for use in subsequent control functions. The first touch position on the touch screen is set as the start position, gestures of different movement directions are combined with the start position, and a parameter data collection that can be compared in the control module is defined, and then the touch screen is displayed on the touch screen. Detecting whether or not a matching gesture has occurred, comparing the movement gesture matching the starting position and the corresponding movement direction with the parameter data set defined in the control module, and comparing the results To the server,
The control module of the present invention is electrically connected to the touch screen and one server, identifies gestures of different movement directions corresponding to the start position on the touch screen, and provides the server with different control signals that are generated. The control module is electrically connected to the coordinate processing unit that is electrically connected to the touch screen, the parameter storage unit in which a comparable parameter data collection is installed, the coordinate processing unit, and the parameter storage unit. An arithmetic unit connected to the server, and a transmission interface electrically connected to the server,
The coordinate processing unit receives mutually corresponding coordinate parameters to which a gesture on the touch screen is converted, and the arithmetic unit sets a first contact position on the touch screen as a start position, and the start position is a gesture position. The coordinate parameters received by the coordinate processing unit and the parameters stored in the parameter data concentration are compared with each other according to the moving direction, and the control signal corresponding to the gesture is output and the transmission interface is matched. Transmits the control signal generated by the arithmetic unit to the server,
The electronic product of the present invention includes a server, a touch screen electrically connected to the server, and a control module electrically connected to the server and the touch screen.
The control module includes a coordinate processing unit for the touch screen, a parameter storage unit for presetting a collection of parameter data that can be compared to the inside, an arithmetic unit that is electrically connected to the coordinate processing unit and the parameter storage unit, and an electrical connection to the server. A transmission interface to connect
The coordinate processing unit receives mutually corresponding coordinate parameters to which gestures on the touch screen change,
The arithmetic unit sets the first contact position on the touch screen as a start position, and associates the movement direction of the gesture with the start position as a rule of judgment, and the coordinate parameter received by the coordinate processing unit and the parameter data concentration The parameters to be stored in are compared with each other, the control signal corresponding to the gesture is output,
The transmission interface is an input method defined by a start position and a moving direction, a control module, and an electronic product thereof, wherein the control signal generated by the arithmetic unit is transmitted to the server.

As described above, the present invention has a drawback that its application range is narrow because a known input method provides and uses a relative position movement amount required by a cursor on general Windows (registered trademark) software. Can be solved. That is, the input method, the control module, and the electronic product of the present invention are defined by the start position and the moving direction of the gesture, output different control signals, and the touch screen is divided into a plurality of areas, each of which is the present invention. Therefore, it is possible to provide a variety of control functions for the touch screen, and to expand the application range.

As shown in FIG. 2, in the first comparative example of the input method of the present invention, the position setting of the first touch screen 1 is mainly the start position P1, corresponding to the first movement direction 11 and the second movement direction 12. The first moving direction 11 and the second moving direction 12 extend in opposite directions along the axial direction with the start position P1 as a reference.
In this embodiment and each of the other embodiments, the first contact position of the finger or object on the surface of the touch screen 1 is regarded as a start position in the present embodiment and the touch screen. One point can be any position on the surface, and all are regarded as the start position P1. Therefore, if it matches the definition of the start position P1, the start position P1 moves toward the first movement direction 11, or the start position P1 moves toward the second movement direction 12, It is regarded as a valid control action.

Next, as shown in FIG. 3, in the second embodiment of the input method of the present invention, the first movement direction 11 and the second movement in the first embodiment are based on the start position P2 measured at the time of the first contact. In addition to corresponding to the moving direction 12, it further corresponds to the third moving direction 13 and the fourth moving direction 14. The first movement direction 11 and the second movement direction 12 are each extended in opposite axial directions with respect to the start position P2, and the third movement direction 13 and the fourth movement direction 14 are also the start points. The position P2 is used as a reference, and each extends in a direction perpendicular to the axial direction.
All the first contact at any position on the surface of the touch screen 2 by a finger or an object is regarded as the start position P2, and if it matches, the first position moves from the start position P2 toward the first movement direction 11, and the start position It moves in the second movement direction 12 from P2, moves in the third movement direction 13 from the start position P2, or moves in the fourth movement direction 14 from the start position P2. These are all considered to be valid control actions.

As shown in FIG. 4, in the third embodiment of the input method of the present invention, the start position P3 measured at the first contact is used as a reference. In addition to the first moving direction 11, the second moving direction 12, the third moving direction 13, and the fourth moving direction 14, the fifth moving direction 15, the sixth moving direction 16, the seventh moving direction. Corresponds to 17 and the eighth movement direction 18.
The fifth movement direction 15 is interposed between the first movement direction 11 and the third movement direction 13, and the sixth movement direction 16 is interposed between the first movement direction 11 and the fourth movement direction 14. The seventh movement direction 17 is interposed between the second movement direction 12 and the fourth movement direction 14, and the eighth movement direction 18 is interposed between the second movement direction 12 and the third movement direction 13. . Through actual tests, it has been confirmed that the depression angle in any two adjacent moving directions is an arbitrary angle between 30 degrees and 45 degrees, and both have sufficiently good control effects. .
All first touches at any given place on the surface of the touch screen 3 by a finger or an object are regarded as their starting positions P3TP. If they match, it moves from the start position P3 toward the first movement direction 11, from the start position P3 toward the second movement direction 12, and from the start position P3 to the third movement direction 13 Or move from the start position P3 toward the fourth movement direction 14, and move from the start position P3 toward the fifth movement direction 15, and move from the start position P3 to the sixth position. It moves in the movement direction 16, moves from the start position P3 toward the seventh movement direction 17, or moves from the start position P3 toward the eighth movement direction 18. These are all considered valid control actions.

As shown in FIG. 5, in the fourth embodiment of the input method of the present invention, the start position P4 measured at the first contact is used as a reference. Corresponding to the ninth movement direction 19 and the tenth movement direction 20, the ninth movement direction 19 moves clockwise, and the tenth movement direction 20 moves counterclockwise.
All first touches at any given location on the surface of the touch screen 4 by a finger or an object are considered as the start position P4. If they coincide with each other, it moves from the start position P4 toward the ninth movement direction 19, or from the start position P4 toward the tenth movement direction 20. These are all considered valid control actions.

該電子製品5が含むコントロールモジュール52は該タッチスクリーン51に電気的に接続する座標処理ユニット521、内部に比較に供することができるパラメーター資料集を予め設置するパラメーター記憶ユニット522、該座標処理ユニット521及び該パラメーター記憶ユニット522に電気的に接続する演算ユニット523、及び該サーバ53に電気的に接続する伝送インターフェース524を具える。該座標処理ユニット521は該タッチスクリーン51上のジェスチャーが転換する対応する座標パラメーター501を受取り、該演算ユニット523は該タッチスクリーン5 1における第一回接触位置に応じて、開始位置を設定し、該開始位置をジェスチャーの移動方向に対応し判断の基準とする。該座標処理ユニット521が受け取った座標パラメーターとパラメーター資料集中に保存するパラメーターを相互に比較し、該ジェスチャーに対応するコントロール信号502を出力する。しかも、該伝送インターフェース524は該演算ユニット523が生じるコントロール信号502を該サーバ53に伝送し使用に供する。 As shown in FIGS. 6 and 7, in the example in which the input method combining the first embodiment, the second embodiment, and the third embodiment is applied to the electronic product 5, a plurality of pieces are displayed on the touch screen 51 of the electronic product 5. Divide into areas. The areas are a first area 511, a second area 512, and a third area 513, respectively, and outside this, the control module 52 is installed inside the electronic product 5, and they are electrically connected to the touch screen 51 and the server 53, respectively. Connecting. The control module 52 identifies the starting positions P1 ′, P2 ′, P3 ′ at which the first area 511, the second area 512, and the third area 513 occur on the touch screen 51, respectively, in different moving directions. Different control signals 502 corresponding to gestures and resulting in them are provided for control use of the server 53. The gestures of different movement directions corresponding to the start positions P1 ′, P2 ′, P3 ′ are explanations related to the gestures of different movement directions corresponding to the start positions P1, P2, P3 shown in FIGS. Please refer to. The description is not repeated here.
In the present embodiment, the electronic product 5 is a touch-controlled remote controller, and can recognize different movement direction gestures corresponding to different start positions on the touch screen 51, and generates a control signal 502 to be generated. The server 53 can be provided with a remote control function as a selection item of various medium control items such as channel increase / decrease and volume level. Gestures of different movement directions corresponding to the start positions P1 ′, P2 ′, P3 ′ in the first area 511, the second area 512, and the third area 51 partitioning on the touch screen 51 correspond. The resulting control items and their export control signals 502 are shown in Table 1, respectively.

The control module 52 included in the electronic product 5 includes a coordinate processing unit 521 that is electrically connected to the touch screen 51, a parameter storage unit 522 that preliminarily sets a parameter material collection that can be used for comparison, and the coordinate processing unit 521. And an arithmetic unit 523 electrically connected to the parameter storage unit 522 and a transmission interface 524 electrically connected to the server 53. The coordinate processing unit 521 receives a corresponding coordinate parameter 501 that the gesture on the touch screen 51 changes, and the arithmetic unit 523 sets a start position according to the first contact position on the touch screen 51, The start position corresponds to the movement direction of the gesture and is used as a criterion for determination. The coordinate processing unit 521 compares the received coordinate parameter with the parameter stored in the parameter data concentration, and outputs a control signal 502 corresponding to the gesture. In addition, the transmission interface 524 transmits the control signal 502 generated by the arithmetic unit 523 to the server 53 for use.

該電子製品5、6はタッチコントロール式のリモコンである他に、その他のタッチコントロール式入力方法をコントロール機能として必要とする電子裝置とすることができる。それらもまた予めモジュール化したコントロールモジュール52、62によりタッチスクリーンに接続し、実際に応用に供することができるコントロール信号を出力し、異なるサーバに組合せ、多種のコントロール機能を実現することができる。 As shown in FIGS. 8 and 9, in another example of the electronic product 6 that combines the input methods of the second embodiment and the fourth embodiment, the electronic product 6 is a touch-control type remote controller. The components of the electronic product 6 include a touch screen 61. The connection method and related functions of the control module 62 and the server 63 are similar to those of the electronic product 5 described above, and also on the touch screen 61 of the electronic product 6. A plurality of areas are defined. The difference is that the area on the touch screen 61 is a fourth area 611 and a fifth area 612, respectively, and the control module 62 comprising it is a starting position P2 ″ in the fourth area 611 and the fifth area 612, respectively. P4 "is generated, corresponding to a gesture in a different direction of movement, and the different control signal 602 from which it is generated is provided to the server 63 for use in subsequent controls. For the gestures in different movement directions corresponding to the start positions P2 ″ and P4 ″, refer to the description regarding the gestures in different movement directions corresponding to the start positions P2 and P4 shown in FIGS. The description is not repeated here.
Different movement direction gestures corresponding to the starting positions P2 ", P4" where the fourth area 611 and the fifth area 612 divide on the touch screen 61 respectively occur are the corresponding control item and its export control signal 602. Are shown in Table 2.

The electronic products 5 and 6 can be electronic devices that require other touch control type input methods as control functions besides the touch control type remote control. They can also be connected to the touch screen by the control modules 52 and 62 modularized in advance, output control signals that can be actually used for application, and combined with different servers to realize various control functions.

It is a component part with which a well-known touch screen is provided, and an instruction diagram of its operation. In the first embodiment of the input method of the present invention, it is an instruction diagram for explaining that the first movement direction and the second movement direction correspond to the position P1 of the first contact. In the second embodiment of the input method of the present invention, with reference to the position P2 of the first contact, in addition to corresponding to the first movement direction and the second movement direction of FIG. 2, in the third movement direction and the fourth movement direction It is an instruction figure explaining corresponding. In the third embodiment of the input method of the present invention, with reference to the position P3 of the first contact, in addition to corresponding to the first movement direction, the second movement direction, the third movement direction, the fourth movement direction in FIG. It is an instruction figure explaining corresponding to the 5th movement direction, the 6th movement direction, the 7th movement direction, and the 8th movement direction. In the fourth embodiment of the input method of the present invention, based on the position P4 of the first contact, corresponding to the ninth movement direction and the tenth movement direction, the ninth movement direction is clockwise, and the tenth movement direction is It is an instruction figure explaining that it is counterclockwise. It is an instruction figure explaining combining the input method of the 1st example, the 2nd example, and the 3rd example with an electronic product. 6 is a circuit block diagram illustrating that the electronic product component of FIG. 6 includes a touch screen, a control module, and a server, and that the first area, the second area, and the third area are defined on the touch screen of the electronic product. It is. It is an instruction figure explaining that the input method of the 2nd example and the 4th example combine with another electronic product. FIG. 9 is a circuit block chart illustrating that the electronic product component of FIG. 8 includes a touch screen, a control module, and a server, and that the fourth area and the fifth area are defined on the touch screen of the electronic product.

Explanation of symbols

1 ~ 4 touch screen
11 First movement direction
12 Second moving direction
13 Third movement direction
14 Fourth movement direction
15 Fifth movement direction
16 Sixth direction of movement
17 7th movement direction
18 Eighth movement direction
19 Ninth travel direction
20 Tenth direction of travel
5, 6 Electronic products
501 Position parameter
502 Control signal
51, 61 touch screen
511 First Zone
512 Second area
513 3rd area
52, 62 Control module
521 Coordinate processing unit
522 Parameter storage unit
523 Arithmetic unit
524 transmission interface
53, 63 servers
611 Zone 5
612 Sixth Area
P1 ~ P4, P1 '~ P3', P2 ”, P4” start position

Claims (23)

An input method mainly defined by the starting position and direction of movement, the control module identifies different gestures on the touch screen and thus gives different control signals to the server for use of subsequent control functions. The input method includes the following steps:
A) The first contact position on the touch screen is set as a start position, the start position corresponds to each gesture of different movement directions, and a parameter data collection that can be compared in the control module is defined.
B) Detect whether there is a gesture that matches step A) on the touch screen,
C) The movement gesture corresponding to the start position and the movement direction corresponding to each other is compared with the collection of parameter data defined in the control module, and the comparison result is output to the server. Input method defined by start position and moving direction. The step is based on the start position, and the first movement direction and the second movement direction extend in opposite directions along the axial direction, respectively, and the start position, the first movement direction, and the 2. The input method defined by the start position and the moving direction according to claim 1, wherein the gestures along the second moving direction define parameter data collections corresponding to each other. The input method of the definition of the start position and the movement direction is based on the start position, further corresponds to the third movement direction and the fourth movement direction, and the third movement direction and the fourth movement direction are respectively relative to the axial direction. And a parameter data set corresponding to gestures corresponding to the start position, the third movement direction, and the fourth movement direction defined in the control module. An input method defined by a start position and a movement direction according to claim 2. The start position is an origin, the first movement direction extends rightward along the start position, the second movement direction extends leftward along the start position, and the third movement direction is 4. The input method defined by the start position and the movement direction according to claim 3, wherein the input direction extends above the start position, and the fourth movement direction extends below the start position. Based on the start position, in addition to associating the first movement direction, the second movement direction, the third movement direction, and the fourth movement direction, a fifth movement direction, a sixth movement direction, and a seventh movement The fifth movement direction is interposed between the first movement direction and the third movement direction, and the sixth movement direction is between the first movement direction and the fourth movement direction. The seventh movement direction is interposed between the second movement direction and the fourth movement direction, and the eighth movement direction is interposed between the second movement direction and the third movement direction. The input method defined by the start position and the moving direction according to claim 3. Based on the start position, the first movement direction, the second movement direction, the third movement direction, the fourth movement direction, the fifth movement direction, the sixth movement direction, the seventh movement direction, and the 6. The depression angle of any two adjacent movement directions in the eighth movement direction is an arbitrary angle between 30 degrees and 45 degrees, defined by the start position and the movement direction according to claim 5 input method. The step A) is set with the start position as a reference, and the ninth movement direction and the tenth movement direction are made to correspond, the ninth movement direction is clockwise, and the tenth movement direction is counterclockwise. 3. The starting position and movement according to claim 2, wherein in the control module, the starting position and the gestures along the first movement direction and the second movement direction define a parameter data collection corresponding to each other. Input method defined by direction. A control module that is mainly electrically connected to the touch screen and one server, identifies gestures of different movement directions corresponding to the start position on the touch screen, and uses the resulting different control signals for the control use of the server. The control module includes a coordinate processing unit, a parameter storage unit, an arithmetic unit, and a transmission interface;
The coordinate processing unit is electrically connected to the touch screen, receives gestures on the touch screen and converts them into corresponding coordinate parameters;
The parameter storage unit has a parameter data collection that can be used for comparison in advance.
The arithmetic unit is electrically connected to the coordinate processing unit and the parameter storage unit, sets the position of the first contact on the touch screen as a start position, and associates the movement direction of the gesture with the start position, and the determination rule And comparing the coordinate parameters received by the coordinate processing unit with the parameters stored in the parameter data collection, and outputting a control signal corresponding to the matching gesture,
The transmission interface is electrically connected to the server, and transmits a control signal generated by the arithmetic unit to the server. The setting of the control module is based on the start position, and the first movement direction and the second movement direction are each extended in the axial relative direction. In the parameter storage unit, the start position, the first movement direction, and the 9. The control module according to claim 8, wherein the gestures along the second movement direction define parameter data collections corresponding to each other. The setting of the control module is based on the starting position, and the third movement direction and the fourth movement direction are made to correspond to each other, and the third movement direction and the fourth movement direction are each perpendicular to the axial direction and extended in opposite directions. 10. The control module according to claim 9, wherein in the parameter storage unit, a parameter material collection is defined in which the start position and the gestures along the third movement direction and the fourth movement direction correspond to each other. The setting of the control module is based on the start position, the first movement direction extends to the right of the start position, the second movement direction extends to the left of the start position, and the third movement direction. Extends above the start position, and the fourth movement direction extends below the start position, and the start position, the third movement direction, and the fourth movement direction gestures in the parameter storage unit. 11. The control module according to claim 10, wherein a collection of parameter data corresponding to each other is defined. The setting of the control module is based on the start position, and corresponds to the first movement direction, the second movement direction, the third movement direction, and the fourth movement direction. Corresponding to the moving direction, the seventh moving direction and the eighth moving direction, the fifth moving direction is interposed between the first moving direction and the third moving direction, and the sixth moving direction is the first moving direction. And the fourth movement direction, the seventh movement direction is interposed between the second movement direction and the fourth movement direction, and the eighth movement direction is the second movement direction and the third movement. In the parameter storage unit, there is a parameter data collection in which the start position and the gestures of the fifth movement direction, the sixth movement direction, the seventh movement direction, and the eighth movement direction correspond to each other. Features that define Control module according to claim 10 wherein. The setting of the control module is based on the start position, the first movement direction, the second movement direction, the third movement direction, the fourth movement direction, the fifth movement direction, the sixth movement direction, The control module according to claim 10, wherein a depression angle between any two adjacent movement directions in the seventh movement direction and the eighth movement direction is an arbitrary angle between 30 degrees and 45 degrees. . The setting of the control module is based on the start position, and corresponds to the ninth movement direction and the tenth movement direction, the ninth movement direction is clockwise and the tenth movement direction is counterclockwise. 10. The control module according to claim 9, wherein the starting material, the gestures along the ninth movement direction, and the tenth movement direction define parameter data collections corresponding to each other. Mainly includes server, touch screen, control module,
The touch screen is electrically connected to the server;
The control module is electrically connected to the server and the touch screen, identifies different movement direction gestures corresponding to the start position on the touch screen, and provides the server with different control signals that result. Used for control,
The control module comprises a coordinate processing unit, a parameter storage unit, an arithmetic unit, a transmission interface,
The coordinate processing unit is electrically connected to the touch screen and receives mutually corresponding coordinate parameters to which gestures on the touch screen change;
The parameter storage unit has a parameter data collection that can be compared in advance.
The arithmetic unit is electrically connected to the coordinate processing unit and the parameter storage unit, sets a first contact position on the touch screen as a start position, and associates a movement direction of a gesture with the start position, and a rule of judgment The coordinate parameters received by the coordinate processing unit and the parameters stored in the parameter data concentration are compared with each other, and the control signal corresponding to the gesture is output and
The electronic product, wherein the transmission interface is electrically connected to the server and transmits a control signal generated by the arithmetic unit to the server. The control module sets the start position as a reference, and extends the first movement direction and the second movement direction in the relative direction along the axial direction, respectively, and the start position and the first movement in the parameter storage unit. 16. The electronic product according to claim 15, wherein a collection of parameter data corresponding to the direction and the gesture along the second movement direction is defined. The setting of the control module is based on the starting position, and the third movement direction and the fourth movement direction are made to correspond to each other, and the third movement direction and the fourth movement direction are each perpendicular to the axial direction and extended in opposite directions. 17. The electronic product according to claim 16, wherein in the parameter storage unit, a parameter material collection in which the start position and the gestures along the third movement direction and the fourth movement direction correspond to each other is defined. The setting of the control module is based on the start position, the first movement direction extends to the right of the start position, the second movement direction extends to the left of the start position, and the third movement direction. 18. The electronic product according to claim 17, wherein is extended above the start position, and the fourth movement direction is extended below the start position. The setting of the control module is based on the start position, and corresponds to the first movement direction, the second movement direction, the third movement direction, and the fourth movement direction. Corresponding to the moving direction, the seventh moving direction and the eighth moving direction, the fifth moving direction is interposed between the first moving direction and the third moving direction, and the sixth moving direction is the first moving direction. And the fourth movement direction, the seventh movement direction is interposed between the second movement direction and the fourth movement direction, and the eighth movement direction is the second movement direction and the third movement. In the parameter storage unit, there is a parameter data collection in which the start position and the gestures of the fifth movement direction, the sixth movement direction, the seventh movement direction, and the eighth movement direction correspond to each other. Features that define Electronic products according to claim 17. The setting of the control module is based on the start position, the first movement direction, the second movement direction, the third movement direction, the fourth movement direction, the fifth movement direction, the sixth movement direction, 20. The electronic product according to claim 19, wherein a depression angle between any two adjacent movement directions in the seventh movement direction and the eighth movement direction is an arbitrary angle between 30 degrees and 45 degrees. . The setting of the control module is based on the start position, and corresponds to the ninth movement direction and the tenth movement direction, the ninth movement direction is clockwise and the tenth movement direction is counterclockwise. 16. The electronic product according to claim 15, wherein the starting material and the gestures along the ninth movement direction and the tenth movement direction define a parameter data collection corresponding to each other. The electronic product is a touch-controlled remote controller, and on the touch-controlled remote controller, the gestures of different movement directions corresponding to the start position are identified, and a control signal generated by the gesture is transmitted to the server to select a selection item. 16. The electronic product according to claim 15, wherein the electronic product is used for control functions such as channel increase / decrease and volume level. 16. The electronic product according to claim 15, wherein the touch screen is divided into a plurality of areas to provide various control functions to the server.

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