CN108345517B - Automatic monitoring and backup system - Google Patents

Abstract

The invention relates to an automatic monitoring and backup system, which is arranged on a mobile terminal, the system comprises a power monitor, a sensing unit, a reference comparison unit, a data collection unit and an automatic backup unit, when the power monitor detects that the current power of the mobile terminal is lower than a first power threshold value, generating a first enabling signal and sending the first enabling signal to the sensing unit, starting a plurality of sensing modules to realize the parameter detection of the environment, generating a comprehensive environment severe and balance measurement based on the detection result, judging whether to perform an automatic backup process according to the comparison result of the integrated environmental severity measurement and the environmental reference value, and in case that the power of the mobile terminal is lower than a second power threshold value, and the application software running in the mobile terminal is deactivated while a first enabling signal is generated and sent to the sensing unit, so that sufficient power is ensured for completing the automatic backup process of important data.

Description

Automatic monitoring and backup system

Technical Field

The invention belongs to the technical field of data backup and recovery, and particularly relates to an automatic monitoring and backup system.

Background

At present, the technical development of mobile terminals is gradually mature and widely popularized. The intelligent software installed in the mobile terminal is various in types and large in power consumption, and a power supply in the mobile terminal is often used up in a short time and is urgently required to be charged so as to maintain daily use of a user. When a user uses the mobile terminal in a severe environment due to work or living needs (such as high altitude and deep sea exploration and field survival), the power is easily and rapidly lost due to environmental influence, which causes abnormal interruption of the use process of the user, and the user does not realize active backup of important data or cannot complete the backup process of the important data based on less power of the current mobile terminal, so that the backup is not started or interrupted, which causes loss of the important data, and the safety storage performance of the user data is low, thereby reducing the user experience.

Disclosure of Invention

In summary, in order to solve the technical problem that a user cannot realize automatic data backup under the condition of ensuring sufficient power when using a mobile terminal in a severe environment, the invention provides an automatic monitoring and backup system, which is arranged on a mobile terminal and comprises a power monitor, a sensing unit, a reference comparison unit, a data collection unit and an automatic backup unit;

the sensing unit comprises one or more sub-sensing units, and the working modes of the one or more sub-sensing units are all closed in the initial state;

the power monitor is used for monitoring the current power value of a power supply of the mobile terminal, and generating a first enabling signal and sending the first enabling signal to the sensing unit when the power monitor monitors that the power value is lower than a first power threshold; further, the power monitor generates a first enable signal and transmits the first enable signal to the sensing unit while disabling the application software running in the mobile terminal when the power monitor monitors that the power value is lower than a second power threshold, wherein the second power threshold is smaller than the first power threshold.

The sensing unit receives the first enabling signal and starts the working modes of the sub-sensing units, and the sub-sensing units respectively generate corresponding sensing signals and send the sensing signals to the reference comparison unit;

the reference comparison unit compares the corresponding sensing signal with a reference value, calculates a comprehensive environment severe weighing degree based on different weight coefficients, judges whether the comprehensive environment severe weighing degree is greater than an environment reference value, and generates a second enabling signal and sends the second enabling signal to the data collection unit if the comprehensive environment severe weighing degree is greater than the environment reference value;

further, the reference comparison unit compares the corresponding sensing signal with a reference value, and calculates a comprehensive environment adverse and balance measure based on different weight coefficients, specifically including:

wherein S is the integrated environment adverse and balance measurement, Xi is a sensing signal value measured by the ith sub-sensing unit, Ri is a reference value corresponding to the ith sub-sensing unit, Wi is a weight coefficient corresponding to the ith sub-sensing unit, n is the total number of the sub-sensing units in the sensing unit,

i＝(1,2,…,n)。

the data collection unit collects application program data and user data to be backed up in the mobile terminal and sends the application program data and the user data to the automatic backup unit for backup, and after the backup is completed, the working modes of the sub-sensing units are closed.

Further, one or more sub-sensing units can include at least one item among deformation sensor, corrosion sensor, temperature sensor, humidity transducer, pressure sensor, wind speed anemograph, vibration sensor, deformation sensor, corrosion sensor, temperature sensor, humidity transducer, pressure sensor, wind speed anemograph and vibration sensor are used for detecting current mobile terminal deformation degree, mobile terminal corrosivity, ambient temperature, ambient humidity, external pressure value, wind force value and mobile terminal vibration degree respectively.

Further, the reference comparison unit adaptively configures the different weight coefficients according to the environment or sets the different weight coefficients by user-definition of the mobile terminal.

The invention is based on the proposed automatic monitoring and backup system, and solves the defect that the existing system can not automatically backup important application program data and user data based on the current environment, when the power monitor detects that the power of the current mobile terminal is lower than a first power threshold value, generating a first enabling signal and sending the first enabling signal to the sensing unit, starting a plurality of sensing modules to realize the parameter detection of the environment, generating a comprehensive environment severe and balance measurement based on the detection result, judging whether to perform automatic backup according to the comparison result of the comprehensive environment adverse balance measurement and the environment reference value, and under the condition that the power of the mobile terminal is lower than a second power threshold value, and the application software running in the mobile terminal is deactivated while a first enabling signal is generated and sent to the sensing unit, so that sufficient power is ensured for completing the automatic backup process of important data.

Drawings

FIG. 1 is a schematic diagram of an automated monitoring and backup system according to the present invention;

FIG. 2 is a schematic diagram of a sensing unit according to an embodiment of the present invention;

Detailed Description

The embodiments are described in detail below with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of an automated monitoring and backup system according to the present invention, which includes a power monitor 11, a sensing unit 12, a reference comparing unit 13, a data collecting unit 14, and an automatic backup unit 15.

The sensing unit 12 is disposed in the mobile terminal and configured to sense a current state and a surrounding environment of the mobile terminal, where the sensing unit 12 includes one or more sub-sensing units, and in an initial state of the device, a current power value of the mobile terminal is sufficient at this time, an automatic backup process is not required to be started, and at this time, working modes of the sub-sensing units are all in an off state, and no sensing signal is obtained.

The power monitor 11 is configured to detect a current power value of a power supply of the mobile terminal, and when the power monitor 11 monitors that the current power value of the mobile terminal is lower than a first power threshold, generate a first enable signal and send the first enable signal to the sensing unit 12, the sensing unit 12 receives the first enable signal and turns on an operation mode of the sub-sensing units, the sub-sensing units start to operate and detect a current state and a surrounding environment of the mobile terminal, and each sub-sensing unit generates a corresponding sensing signal and sends the sensing signal to the reference comparing unit 13.

Further, the power monitor 11 generates the first enable signal and sends it to the sensing unit when it is monitored that the current power value of the power supply of the mobile terminal is lower than a second power threshold, and simultaneously disables the running application software in the mobile terminal to ensure that sufficient power is available to complete the backup process, and the second power threshold is smaller than the first power threshold.

The reference comparison unit 13 stores reference values corresponding to different sensing signals, where the stored reference values are set by a user in a customized manner and can be freely changed, or the reference values are automatically set by the mobile terminal according to real-time reference values in the network cloud platform where the mobile terminal is located, and the network cloud platform collects sensing signal values sensed by a plurality of mobile terminals in the network and calculates the sensing signal values to obtain reference values for reference (for example, an average value of the sensing signal values in each room temperature environment).

The reference comparison unit 13 compares the corresponding sensing signal with a corresponding reference value stored therein, and calculates a comprehensive environment adverse and severe measurement based on different weighting coefficients, specifically including:

wherein S is the integrated environment adverse and balance measurement, Xi is a sensing signal value measured by the ith sub-sensing unit, Ri is a reference value corresponding to the ith sub-sensing unit, Wi is a weight coefficient corresponding to the ith sub-sensing unit, n is the total number of the sub-sensing units in the sensing unit,

i ═ 1,2, …, n. Wherein, the reference comparison unit 13 adaptively configures the different weighting factors Wi according to the environment or sets the different weighting factors Wi by the user of the mobile terminal.

The reference comparison unit 13 determines whether the calculated comprehensive environment severity is greater than an environment reference value, and if so, generates a second enable signal and sends the second enable signal to the data collection unit 14; the data collection unit 14 collects application data and user data to be backed up in the mobile terminal, and sends the application data and user data to the automatic backup unit 15 for backup, and after the backup is completed, the working mode of the plurality of sub-sensing units is closed.

One or more sub-sensing units of this application can include deformation sensor, corrosion sensor, a weighing sensor and a temperature sensor, humidity transducer, pressure sensor, wind speed anemograph, at least one among the vibration sensor, as a specific embodiment shown in fig. 2, its a plurality of sub-sensing units include deformation sensor, corrosion sensor, a weighing sensor and a temperature sensor, humidity transducer, pressure sensor, wind speed anemograph, vibration sensor, n is 7 this moment, above-mentioned deformation sensor, corrosion sensor, a weighing sensor and a temperature sensor, humidity transducer, pressure sensor, wind speed anemograph and vibration sensor are used for detecting current mobile terminal deformability respectively, mobile terminal corrosivity, ambient temperature, ambient humidity, the ambient pressure value, wind force value and mobile terminal vibration degree.

Further, the application data and the user data that need to be backed up in the mobile terminal and are collected by the data collection unit 14 are incremental backup data, and are backed up to the automatic backup unit 15 in an incremental backup manner.

The above embodiments are only preferred embodiments of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are also within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (5)

1. An automatic monitoring and backup system is characterized in that the system is arranged on a mobile terminal and comprises a power monitor, a sensing unit, a reference comparison unit, a data collection unit and an automatic backup unit;

the sensing unit comprises a plurality of sub-sensing units, and the working modes of the sub-sensing units are all closed in an initial state;

the power monitor is used for monitoring the current power value of a power supply of the mobile terminal, and generating a first enabling signal and sending the first enabling signal to the sensing unit when the power monitor monitors that the power value is lower than a first power threshold;

the sensing unit receives the first enabling signal and starts the working modes of the sub-sensing units, and the sub-sensing units respectively generate corresponding sensing signals and send the sensing signals to the reference comparison unit;

the reference comparison unit compares the corresponding sensing signal with a reference value, calculates a comprehensive environment severe weighing degree based on different weight coefficients, judges whether the comprehensive environment severe weighing degree is greater than an environment reference value, and generates a second enabling signal and sends the second enabling signal to the data collection unit if the comprehensive environment severe weighing degree is greater than the environment reference value;

the data collection unit collects application program data and user data to be backed up in the mobile terminal and sends the application program data and the user data to the automatic backup unit for backup, and after the backup is completed, the working modes of the sub-sensing units are closed.

2. The system of claim 1, wherein the plurality of sub-sensing units comprise a deformation sensor, a corrosion sensor, a temperature sensor, a humidity sensor, a pressure sensor, a wind speed and pressure gauge and a vibration sensor, and the deformation sensor, the corrosion sensor, the temperature sensor, the humidity sensor, the pressure sensor, the wind speed and pressure gauge and the vibration sensor are used for respectively detecting the current deformation degree of the mobile terminal, the corrosion degree of the mobile terminal, the ambient temperature, the ambient humidity, the external pressure value, the wind force value and the vibration degree of the mobile terminal.

3. The system of claim 1, wherein the power monitor is to disable running application software in the mobile terminal while generating and sending a first enable signal to the sensing unit when the power value is monitored to be below a second power threshold, wherein the second power threshold is less than the first power threshold.

4. The system of claim 1, wherein the reference comparison unit adaptively configures the different weight coefficients according to an environment or sets the different weight coefficients by a user of the mobile terminal.

5. The system of claim 1, wherein the reference comparison unit compares the corresponding sensor signal with a reference value to calculate a composite environmental severity metric based on different weighting factors, and specifically comprises:

wherein S is the integrated environment severity measurement, Xi is a sensing signal value measured by the ith sub-sensing unit, Ri is a reference value corresponding to the ith sub-sensing unit, Wi is a weight coefficient corresponding to the ith sub-sensing unit, n is the total number of sub-sensing units in the sensing unit, and i is (1,2, …, n).

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