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System interaction method and wearable equipment

A wearable device and interaction method technology, applied in the fields of instruments, electrical digital data processing, digital data processing components, etc., can solve problems such as increased power consumption and the impact of wearable device battery life.

Inactive Publication Date: 2020-03-24
MOBVOI INFORMATION TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, since wearable devices can run interactive applications, their power consumption will increase accordingly, which will affect the battery life of wearable devices

Method used

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  • System interaction method and wearable equipment
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  • System interaction method and wearable equipment

Examples

Experimental program
Comparison scheme
Effect test

example 1

[0041] Example 1, explaining the processing during the boot process of the wearable device:

[0042] During the boot process of the wearable device, when the coprocessor of the wearable device receives an interface switching notification from the main processor, the coprocessor switches the operation authority of the display screen and touch interaction to the a main processor, so that the main processor completes the boot process;

[0043] When the coprocessor of the wearable device receives the boot completion notification sent by the main processor, the coprocessor reacquires the operation authority of the display screen and touch interaction.

[0044] Wherein, when the coprocessor reacquires the operation authority of the display screen and touch interaction, it also includes: the wearable device enters a standby state, and the main processor of the wearable device is in a sleep state.

[0045] When starting up, in the initial state, the operation authority of the display...

example 2

[0052] Example 2. This example mainly focuses on the processing of the main processor and the coprocessor in the wearable device when the wearable device is in the standby state, including the aforementioned processing of S11-S13.

[0053] The aforementioned S13, the coprocessor of the wearable device determines whether to wake up the main processor of the wearable device based on the judgment result, specifically including:

[0054] When the coprocessor of the wearable device determines that the target application is the first type of application, the coprocessor wakes up the main processor of the wearable device, so that the The main processor is in a working state and processes the interactive operation for the target application;

[0055] When the coprocessor of the wearable device determines that the target application is not an application of the first type, the coprocessor processes the interactive operation for the target application.

[0056] Wherein, the method also...

example 3

[0075] Since the channel control pin of the analog switch is controlled by the coprocessor, in the case of shutdown (both the main processor and the coprocessor are turned off), the state of CH_SEL is unstable, and the MIPI (Mobile Industry Processor Interface, MobileIndustry Processor) of the screen cannot be guaranteed. Interface) and the stable connection of the I2C interface of the touch screen. Of course, the screen display and touch interaction are not required when the computer is turned off.

[0076] In this example, the operation authority of the display screen and touch interaction is handed over to the coprocessor. And the operation authority of touch interaction is in the main processor, which can be handed back to the co-processor.

[0077] In addition, in most scenarios, the operation authority of the display screen and touch interaction is the coprocessor, because if the switch control right is placed on the main processor, then the problem of direct interface s...

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Abstract

The invention discloses a system interaction method and wearable equipment. The system interaction method is applied to wearable equipment provided with a main processor and a coprocessor. The power consumption of the coprocessor is smaller than that of the main processor, and the system interaction method comprises the following steps: when the wearable equipment is in a standby state and the main processor of the wearable equipment is in a sleep state, the coprocessor of the wearable equipment detects an interactive operation of a user for a target application; the coprocessor of the wearable equipment judges whether the target application is a first type of application or not to obtain a judgment result; and the coprocessor of the wearable equipment determines whether to wake up the main processor of the wearable equipment based on the judgment result.

Description

technical field [0001] The present application relates to the field of device control, in particular to a system interaction method and wearable devices. Background technique [0002] The shipments of wearable devices have been increasing year after year, and they have moved from a single function to multi-function, and are more portable and practical. In wearable devices (such as smart watches), in addition to its most basic functions, there are many interactive applications that can be developed in many fields such as healthcare, navigation, social networking, business and media, and can be developed through different scenarios. of interactive applications to bring changes to users' lives. However, since the wearable device can run interactive applications, its power consumption will increase accordingly, which will affect the battery life of the wearable device accordingly. Therefore, how to reduce the power consumption of wearable devices to ensure their long battery l...

Claims

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Application Information

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IPC IPC(8): G06F1/3293G06F1/3234
CPCG06F1/3243G06F1/3293
Inventor 孙雷助吴玉锦李媛媛
Owner MOBVOI INFORMATION TECH CO LTD
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