Sliding method for touch control
First Claim
1. A sliding method for touch control comprising the steps of:
- (A) providing an electronic device and an input module, wherein the electronic device includes a touch display interface and a data module, and the input module is used to touch at a first position and a second position with a distance away from the first position on the touch display interface;
(B) locating the input module on the touch display interface to generate a time signal;
(C) comparing the time signal with a preset time signal;
(D) stopping actuation when the time signal is less than a preset time signal; and
(E) using the distance and the time signal to derive a velocity function signal when the time signal is not less than the preset time signal and the input module is located at the second position, and comparing the velocity function signal with a preset velocity function to determine a sliding velocity.
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Abstract
The present invention discloses a sliding method for touch control comprising the following steps. First, an input module is used to touch a first position and a second position on a touch display interface, and the touch display interface generates a time signal while being touched. The time signal is compared with a preset time signal to determine stopping actuation or sliding. In case of a sliding motion, first direction actuation is performed when a first direction function is larger than a second direction function, whereas second direction actuation is performed. Next, a velocity function signal is derived according to the distance and the time signal, and then compared with the first and second preset velocity functions to determine first, second or third velocity actuation.
15 Citations
8 Claims
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1. A sliding method for touch control comprising the steps of:
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(A) providing an electronic device and an input module, wherein the electronic device includes a touch display interface and a data module, and the input module is used to touch at a first position and a second position with a distance away from the first position on the touch display interface; (B) locating the input module on the touch display interface to generate a time signal; (C) comparing the time signal with a preset time signal; (D) stopping actuation when the time signal is less than a preset time signal; and (E) using the distance and the time signal to derive a velocity function signal when the time signal is not less than the preset time signal and the input module is located at the second position, and comparing the velocity function signal with a preset velocity function to determine a sliding velocity. - View Dependent Claims (2, 3)
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4. A sliding method for touch control comprising the steps of:
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(A) providing an electronic device and an input module, wherein the electronic device includes a touch display interface and a data module, and the input module is used to touch a first position and a second position with a distance away from the first position on the touch display interface; (B) locating the input module on the touch display interface to generate a time signal; (C) comparing the time signal with a preset time signal; (D) stopping actuation when the time signal is less than the preset time signal; and (E) deriving a first direction function and a second direction function from the distance when the time signal is not less than the preset time signal and the input module is located at the second position; and (F) controlling the data module to perform a first direction actuation when the first direction function is larger than the second direction function;
controlling the data module to perform a second direction actuation when the first direction function is larger than the second direction function. - View Dependent Claims (5)
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6. A sliding method for touch control comprising the steps of:
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(A) providing an electronic device and an input module, wherein the electronic device includes a touch display interface and a data module, and the input module is used to touch a first position and a second position with a distance away from the first position on the touch display interface; (B) locating the input module on the touch display interface to generate a time signal; (C) comparing the time signal with a preset time signal; (D) stopping actuation when the time signal is less than the preset time signal; (E) deriving a distance signal from the distance when the time signal is not less than the preset time signal and the input module is located at the second position, and comparing the distance signal with a preset distance signal to determine a sliding velocity. - View Dependent Claims (7, 8)
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Specification