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Method for turning on screen of intelligent watch by raising hand

A technology for smart watches and bright screens, applied in clocks, visual time indication devices, and data processing input/output processes, etc., can solve problems such as low energy saving, high R&D costs, and inconvenience

Active Publication Date: 2017-08-22
广州七喜集团有限公司 +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Most of the smart watches use a touch screen. In order to save energy and avoid misuse, it is often set to automatically turn off the screen at regular intervals when the watch is not operated. To check the time of the watch, most of them need to press the button or double-click the screen to restart. Wake up the screen, this method is a bit inconvenient in some specific situations, such as running or holding things in your hands
With the development of smart watch development technology, there is a way to automatically turn on the screen. However, it is easy to misidentify and turn on the screen to consume power. In order to reduce misidentification, the hardware circuit of the watch generally needs to be equipped with a variety of electronic devices or programs. It requires complex software algorithms, which is not energy-saving, and the development cost is high

Method used

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  • Method for turning on screen of intelligent watch by raising hand
  • Method for turning on screen of intelligent watch by raising hand
  • Method for turning on screen of intelligent watch by raising hand

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Experimental program
Comparison scheme
Effect test

Embodiment approach

[0060] As a preferred embodiment of the present invention: see Figure 4 , in step S2, the method for judging whether the gesture action corresponding to the judgment object conforms to the law of changing the Y direction of raising the hand is:

[0061] Step S201, determine the Y-axis acceleration G in the object Y Arrange by storage time, and count the first Y-axis acceleration G Y To the Y-axis acceleration G whose value is closest to zero Y The number of , recorded as N; then judge the first N Y-axis acceleration G in the judgment object Y Whether they are all negative values, the last M-N Y-axis acceleration G Y Whether they are all positive values ​​and whether they satisfy and Among them, k 1 % is the preset minimum negative value ratio, k 2 % is the preset maximum positive value ratio; if the judgment results are all yes, it means the Y-axis acceleration G in the judgment object Y If the storage time shows an upward trend from negative value to positive value...

Embodiment 1

[0093] Embodiment 1 of the present invention is based on the above-mentioned inventive concepts, and adopts the following specific schemes for the parameters that need to be preset in the present invention:

[0094] X-axis acceleration G X , Y-axis acceleration G Y , Y-axis minimum value deviation threshold C 1 , Y-axis maximum deviation threshold C 2 , X-axis minimum value deviation threshold C 3 and X-axis maximum deviation threshold C 4 The unit of is 3.9mg, here m means 10 -3 , g represents the standard gravitational acceleration.

[0095] In step S201, the minimum negative value ratio k 1 The value of % is 1 / 6, and the largest positive value accounts for k 2 The value of % is 1 / 4.

[0096] In step S202, the Y-axis minimum value deviation threshold C 1 The value of 20, the Y-axis maximum deviation threshold C 2 The value of is 26, and the number of Y-axis accounts for k 3 The value of % is 1 / 4.

[0097] In step S205, the X-axis minimum value deviation threshold...

Embodiment 2

[0100] The second implementation of the present invention is based on the above-mentioned inventive concept, and adopts the following specific schemes for the parameters that need to be preset in the present invention:

[0101] X-axis acceleration G X , Y-axis acceleration G Y , Y-axis minimum value deviation threshold C 1 , Y-axis maximum deviation threshold C 2 , X-axis minimum value deviation threshold C 3 and X-axis maximum deviation threshold C 4 The unit of is 3.9mg, here m means 10 -3 , g represents the standard gravitational acceleration.

[0102] In step S201, the minimum negative value ratio k 1 The value of % is 1 / 4, and the largest positive value accounts for k 2 The value of % is 3 / 5.

[0103] In step S202, the Y-axis minimum value deviation threshold C 1 The value of is 35, and the Y-axis maximum deviation threshold C 2 The value of is 45, and the number of Y-axis accounts for k 3 The value of % is 2 / 5.

[0104] In step S205, the X-axis minimum value ...

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PUM

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Abstract

The invention discloses a method for turning on a screen of an intelligent watch by raising a hand. The method adopts a gravity sensor module to acquire component data of gravity acceleration in the X direction and the Y direction of a display screen of the intelligent watch, namely, X-axis acceleration and Y-axis acceleration, takes M groups of the X-axis acceleration and the Y-axis acceleration as a judgment object, and judges whether a gesture action corresponding to the judgment object conforms to a hand raising gesture rule. The hand raising gesture rule is used for judging whether the Y direction changes from a negative direction to a positive direction, whether the magnitude of an absolute value of a numerical value of the Y-axis acceleration changes slowly and whether the magnitude of an absolute value of a numerical value of the X-axis acceleration changes slowly from the beginning when a user raises the hand wearing the intelligent watch to the final stage when the user looks at the display screen of the intelligent watch. Therefore, whether the current gesture action conforms to the hand raising gesture rule or not is at least regarded as a hand raising screen turning-on condition for controlling whether the display screen is turned on, thereby realizing the hand raising screen turning-on function of the intelligent watch. The method provided by the invention can be used for automatically turning on the display screen when the user raises the hand to look at the intelligent watch.

Description

technical field [0001] The invention relates to a method for raising a hand and brightening a screen of a smart watch. Background technique [0002] Watches are indispensable carry-ons in people's daily life. A watch, or a wristwatch, refers to an instrument worn on the wrist for timing or displaying time. With the development of mobile technology, many traditional electronic products have begun to add mobile functions, and watch products have also shown a trend of being connected to smart phones or the Internet. The so-called smart watch refers to a watch that has information processing capabilities and meets the basic technical requirements of watches. In addition to indicating time, it also has one or more functions such as reminder, navigation, calibration, monitoring, and interaction. The display method includes pointers. , numbers, images, etc. [0003] Most of the smart watches use a touch screen. In order to save energy and avoid misuse, it is often set to automat...

Claims

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Application Information

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IPC IPC(8): G04G9/00G09G5/00G06F3/01
CPCG04G9/00G06F3/011G09G5/00G09G2330/021
Inventor 刘乃灯
Owner 广州七喜集团有限公司
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