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Mobile phone powering-on method and mobile phone powering-on system

A mobile phone and application system technology, applied in the direction of telephone communication, electrical components, program control devices, etc., can solve the problem of not being able to prompt the user whether the mobile phone is faulty or not.

Inactive Publication Date: 2014-07-02
SHANGHAI CHENXING ELECTRONICS SCI & TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The technical problem to be solved by the present invention is to overcome the defect that the mobile phone in the prior art cannot prompt the user which step the mobile phone is powered on, how long it will take to complete the booting process, and whether there is a fault in the booting process. The booting method and mobile phone booting system, by calculating and displaying the elapsed time and remaining time of each stage in real time at each stage of mobile phone booting, clearly and intuitively help users grasp the progress of mobile phone booting, and can quickly determine booting failures

Method used

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  • Mobile phone powering-on method and mobile phone powering-on system

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0039] Such as figure 1 As shown, the mobile phone power-on method of the present embodiment includes the following steps:

[0040] S 101 , Start the bootloader, calculate and display the elapsed time of the bootloading phase and the remaining time of the bootloading phase in real time;

[0041] S 102 , When the bootloader is completed, start the kernel, calculate and display the elapsed time of the kernel phase and the remaining time of the kernel phase in real time;

[0042] S 103 . When the boot kernel is completed, start an application system including at least one application program, calculate and display the elapsed time of the application system phase and the remaining time of the application system phase in real time.

[0043] Wherein, for the bootloading phase, the kernel phase and the application system phase, the elapsed time and the remaining time are all calculated. The elapsed time is obtained by timing from the beginning of a stage, and the average operati...

Embodiment 2

[0047] Compared with Embodiment 1, the mobile phone booting method of the present embodiment only has the following differences:

[0048] In this step S 101 Before also includes a step S 100 :

[0049] S 100 , presetting the total time of a bootloading phase, the total time of a kernel phase and the total time of an application system phase;

[0050] The step S 101 Also includes: calculating and displaying a total remaining time in real time, the total remaining time being the sum of the remaining time of the bootloading phase, the total time of the kernel phase and the total time of the application system phase;

[0051] The step S 102 It also includes: calculating in real time, updating the total remaining time as the sum of the remaining time of the kernel phase and the total time of the application system phase, and displaying the updated total remaining time;

[0052] The step S 103 It also includes: calculating in real time, updating the total remaining time as th...

Embodiment 3

[0055] Such as figure 2 As shown, the mobile phone starting system of the present embodiment includes:

[0056] A bootloader module 1 is used to start the bootloader and enable a kernel module 2 after the bootloader is started. The bootloader module 1 includes a first timing unit for real-time calculation of the used bootloader phase. time as the first time, and the remaining time of the bootloading phase as the second time;

[0057] The kernel module 2 is used to start the kernel and enable an application system module 3 after the kernel startup is completed. The kernel module 2 includes a second timing unit for real-time calculation and updates the first time to the kernel stage. elapsed time, update this second time to the remaining time of the kernel phase;

[0058] The application system module 3 is used to start an application system including at least one application program, and the application system module 3 includes a third timing unit for real-time calculation a...

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Abstract

The invention discloses a mobile phone powering-on method and a mobile phone powering-on system. The mobile phone powering-on method comprises the following steps: a boot loader is started, and the elapsed time of a boot loading stage and the remaining time of the boot loading stage are calculated and displayed in real time; when boot loader starting is completed, the kernel is started, the elapsed time of a kernel stage and the remaining time of the kernel stage are calculated and displayed in real time; and when kernel starting is completed, an application system including at least one application program is started, and the elapsed time of an application system stage and the remaining time of the application system stage are calculated and displayed in real time. According to the mobile phone powering-on method and the mobile phone powering-on system of the invention, the elapsed time and the remaining time of each stage of mobile phone powering-on are calculated and displayed in real time in the stage to clearly and intuitively help users to know the condition of mobile phone powering-on, and a mobile phone powering-on failure can be quickly determined.

Description

technical field [0001] The invention relates to a mobile phone starting method and a mobile phone starting system. Background technique [0002] Now, the use of mobile phones has become very popular. The mobile phone needs to go through three independent stages successively: boot startup stage, kernel startup stage and application system startup stage. Among them, the boot startup stage is the bootloading stage. As the first stage after the mobile phone is turned on, the work of the bootloading stage is mainly the power-on detection of various hardware, flash memory partition, etc., and the system of the mobile phone has not yet started in the bootloading stage. After the bootloading is completed, it enters the kernel startup stage, and the system of the mobile phone starts to start. The kernel is the most basic part of the operating system, also known as the kernel. The kernel is a piece of software that provides secure access to hardware for many applications, this acce...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04M1/725G06F9/445
Inventor 盖方良
Owner SHANGHAI CHENXING ELECTRONICS SCI & TECH CO LTD