CN107438109B - Wearable device safety management method, transparent server side and cloud architecture system - Google Patents

Abstract

The wearable device safety management method comprises the following steps: s1, classifying application software inside the wearable device system end, and assigning different data storage modes to different types of application software; s2, the wearable device divides different storage areas at the transparent server side for application software of different categories to store data for the application software of the corresponding categories; and S3, the transparent server side stores the data of the application software received through the transparent network according to the divided storage areas. Based on the transparent computing architecture, the operating system mirror image of the wearable device terminal is stored in the transparent server, so that the safety of the system and data can be ensured, and the privacy of a user can be ensured; the method can selectively store background data of all application software, ensures the safety, selectivity, uniqueness and flexibility of the data, and has better expansibility and compatibility.

Description

Wearable device safety management method, transparent server side and cloud architecture system

Technical Field

The invention relates to a security management method, a transparent server and a cloud architecture system, in particular to a security management method, a transparent server and a cloud architecture system suitable for wearable equipment.

Background

A wearable device is a portable device that is worn directly on the body or integrated into the clothing or accessories of the user. Wearable equipment is not only a hardware equipment, realizes powerful function through software support and data interaction, high in the clouds interaction more, and wearable equipment will bring very big transition to our life, perception.

The conventional wearable device terminals are usually installed locally, necessary and unnecessary data generated by application software running of all the wearable device terminals are stored in internal self-contained storage or external storage chips of the wearable device terminals, the expandability is poor, the storage space is limited, the cache multi-speed is slowed down, the safety is low, and the user experience is reduced to a great extent.

And as the dependence of people on the network is increasingly strengthened, the wearable device strengthens the dependence, and when health indexes, behavior habits, life preferences and work history traces are printed everywhere, the risk of personal privacy disclosure is greatly increased. The more personal data can be obtained, the greater the amount of private information therein. We may even find everything about a person, as long as we have enough data. As is known, the internet releases huge amounts of data all the time, whether it is sold around businesses, or personal consumption habits, identity characteristics, etc., become data stored in various forms. The vast amount of data is hidden behind a great deal of economic and political interest, and particularly through data integration, analysis and mining, the data integration and control power shown by the data integration and mining are far beyond the past. Therefore, with existing wearable devices, the privacy of the user is not well protected.

Transparent computing is a new computing model. The method is characterized by software (including OS) clouding, calculation downlink and stream type calculation. The method emphasizes that software resources are placed in a cloud end for unified scheduling management and safety and controllability, the calculation is carried out on a terminal, application software and data stream type loading execution are carried out, the execution is immediately cleaned, the occupied storage space is small, the energy consumption is reduced, and meanwhile information leakage is avoided. The method has the advantages of easy realization of unified management and unified deployment for the terminal equipment adopting a transparent computing mode, safety, controllability and convenience in maintenance.

Comparison document 1: CN105512584A discloses a security management method for smart bracelet, which includes: when a safety management instruction for an intelligent bracelet connected with a terminal is received, the terminal enters a safety management mode to acquire position information of the intelligent bracelet; judging whether the position information is in a preset position area or not; and when the position information is not in the position area, outputting alarm information.

Comparison document 2: CN105872964A discloses an intelligent terminal safety management system, in which a data wiping module, a mobile phone deadlock module, an identity authentication module, a block data real-time uploading module and a hierarchical encryption module are added; the design mode of the system is a client-side and server-side mode, the local terminal realizes a service function, and the server-side realizes a control function. The data erasing module is used for erasing the mobile phone information irrecoverably, the data erasing function is realized locally, the data can be erased locally directly or remotely, and after the terminal receives the instruction, the instruction is firstly analyzed and then the instruction is executed.

The security management method or system disclosed by the two comparison documents provides a thought and a scheme for realizing security management on the intelligent terminal, but the storage form of the data is single, the security, the selectivity and the flexibility of the data are poor, and the expandability and the compatibility are poor.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a wearable device security management method, a transparent server side and a cloud architecture system, wherein the system side of the security management method can be selectively set aiming at required application software, data are stored in the transparent server side, local data storage is effectively reduced, data security can be improved, the data storage has selectivity and better flexibility, and the system has good expandability and compatibility.

In order to solve the technical problems, the invention adopts the following technical scheme:

the wearable equipment safety management method specifically comprises the following steps:

s1, classifying application software inside the wearable device system end, and assigning different data storage modes to different types of application software;

s2, the wearable device divides different storage areas at the transparent server side for application software of different categories to store data for the application software of the corresponding categories;

and S3, the transparent server side stores the data of the application software received through the transparent network according to the divided storage areas.

Further, the air conditioner is provided with a fan,

the step S1 specifically includes the following steps:

s1.1, automatically executing a basic application software starting instruction by a wearable device terminal;

s1.2, a storage area is appointed and set for an operating system of application software loaded on a wearable device terminal, and a path is appointed to store data for the corresponding application software according to a security policy instruction set arranged at a transparent server end;

s1.3, the application software obtains the storage space of the wearable device terminal based on the transparent computing cloud architecture through self-checking.

Further, the air conditioner is provided with a fan,

and storing the operating system of the wearable device terminal at a transparent server side.

Further, the air conditioner is provided with a fan,

the wearable equipment terminal can be a smart watch, a smart bracelet or a smart sports shoe.

The invention also provides a transparent server side for implementing the wearable device safety management method, which specifically comprises the following steps:

a wearable device operating system; a set of security policy instructions; a base application software; driving software; an application software and storage module;

the wearable device operating system is used for storing an operating system loaded by the wearable device application software;

the security policy instruction set is used for storing a security policy instruction, and the security policy instruction designates a storage path for application software;

the basic application software is used for the wearable equipment terminal to automatically execute a basic application software starting instruction, and the basic application software is loaded and operated from a system file;

the driving software is used for ensuring the normal operation of hardware equipment;

the storage module is used for storing various types of data, and different storage areas are correspondingly divided in the storage module according to the classification of the application software.

Further, the air conditioner is provided with a fan,

the wearable equipment terminal can be a smart watch, a smart bracelet or a smart sports shoe.

The invention also provides a cloud architecture system for implementing the wearable device security management method, which comprises the following steps:

the system comprises a transparent server end and a wearable device terminal, wherein the transparent server end is connected with the wearable device terminal through a transparent network;

the cloud architecture system comprises the transparent server side, and the transparent server side comprises: a wearable device operating system; a set of security policy instructions; a base application software; driving software; an application software and storage module;

the wearable device operating system is used for storing an operating system loaded by the wearable device application software;

the security policy instruction set is used for storing a security policy instruction, and the security policy instruction designates a storage path for application software;

the basic application software is used for the wearable equipment terminal to automatically execute a basic application software starting instruction, and the basic application software is loaded and operated from a system file;

the driving software is used for ensuring the normal operation of hardware equipment;

the storage module is used for storing various types of data, and different storage areas are correspondingly divided in the storage module according to the classification of the application software.

Further, the air conditioner is provided with a fan,

the wearable device terminal comprises an application software module, the application software module is used for storing application software loaded by the wearable device terminal, and the application software module is divided into different application software storage areas according to the classification of the application software.

For example, application software can be divided into self-contained software and third-party software.

Further, the air conditioner is provided with a fan,

the wearable equipment terminal can be a smart watch, a smart bracelet or a smart sports shoe.

The invention has the beneficial effects that:

based on a transparent computing architecture (cloud architecture), the operating system image of the wearable device terminal is stored in the cloud end (transparent server end), so that the safety of the system and data can be ensured, the stability of the system is enhanced, and the privacy of a wearable device user is ensured.

The invention can selectively store all application software background data in the cloud (transparent server) or cache, thereby ensuring the safety, selectivity, uniqueness and flexibility of the data.

The invention is based on a transparent computing architecture (cloud architecture), locally stores no data, and has strong expansibility and good compatibility.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a wearable device security management cloud architecture system according to an embodiment of the present invention.

Detailed Description

The present invention will be further described with reference to the following examples and drawings, but the scope of the present invention is not limited thereto.

As shown in fig. 1, the present embodiment provides a cloud architecture system for wearable device security management, including:

the system comprises a transparent server end and a wearable device terminal, wherein the transparent server end is connected with the wearable device terminal through a transparent network;

the cloud architecture system includes a transparent server side, and the transparent server side includes: a wearable device operating system; a set of security policy instructions; a base application software; driving software; an application software and storage module;

the wearable device operating system is used for storing an operating system loaded by the wearable device application software;

the security policy instruction set is used for storing a security policy instruction, and the security policy instruction designates a storage path for application software;

the basic application software is used for the wearable equipment terminal to automatically execute a basic application software starting instruction, and the basic application software is loaded and operated from a system file;

the driving software is used for ensuring the normal operation of hardware equipment;

the storage module is used for storing various types of data, and different storage areas are correspondingly divided in the storage module according to the classification of the application software.

The wearable device terminal comprises an application software module, the application software module is used for storing application software loaded by the wearable device terminal, and the application software module is divided into different application software storage areas according to the classification of the application software.

For example, application software can be divided into self-contained software and third-party software.

The wearable equipment terminal can be a smart watch, a smart bracelet or a smart sports shoe.

The safety management method of the wearable device safety management cloud architecture system specifically comprises the following steps:

s1, classifying application software inside the wearable device system end, and assigning different data storage modes to different types of application software;

s2, the wearable device divides different storage areas at the transparent server side for application software of different categories to store data for the application software of the corresponding categories;

and S3, the transparent server side stores the data of the application software received through the transparent network according to the divided storage areas.

The step S1 specifically includes the following steps:

s1.1, automatically executing a basic application software starting instruction by a wearable device terminal;

s1.2, a storage area is appointed and set for an operating system of application software loaded on a wearable device terminal, and a path is appointed to store data for the corresponding application software according to a security policy instruction set arranged at a transparent server end;

s1.3, the application software obtains the storage space of the wearable device terminal based on the transparent computing cloud architecture through self-checking.

And storing the operating system of the wearable device terminal at a transparent server side.

The embodiment is based on a transparent computing architecture, the operating system image of the wearable device terminal is stored in a cloud (a transparent server), the security of the system and data can be guaranteed, the system stability is enhanced, and the privacy of a wearable device user is guaranteed.

According to the embodiment, all application software background data can be selectively stored in a cloud (transparent server side) or cached, so that the safety, selectivity, uniqueness and flexibility of the data are ensured.

The embodiment is based on a transparent computing architecture, data is not stored locally, and the method is strong in expansion performance and good in compatibility.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. A wearable device safety management method is characterized in that,

the method specifically comprises the following steps:

s1, classifying application software inside the wearable device system end, and assigning different data storage modes to different types of application software; the method specifically comprises the following steps:

s1.1, automatically executing a basic application software starting instruction by a wearable device terminal;

s1.2, a storage area is appointed and set for an operating system of application software loaded on a wearable device terminal, and the operating system image of the wearable device terminal is stored in a transparent server side; assigning a path to corresponding application software according to a security policy instruction set arranged at a transparent server end to store background data;

s1.3, the application software obtains a storage space of the wearable device terminal based on the transparent computing cloud architecture through self-checking;

s2, the wearable device divides different storage areas at the transparent server side for application software of different categories to store background data for the application software of the corresponding categories according to application software of different categories;

and S3, the transparent server side stores the application software background data received through the transparent network according to the divided storage areas.

2. The wearable device security management method of claim 1,

the wearable equipment terminal is an intelligent watch, an intelligent bracelet or an intelligent sports shoe.

3. The transparent server side adopting the wearable device security management method of any one of claims 1-2, comprising a wearable device system file, wherein the wearable device system file specifically comprises:

a wearable device operating system; a set of security policy instructions; a base application software; driving software; an application software and storage module;

the wearable device operating system is used for storing an operating system loaded by the wearable device application software;

the security policy instruction set is used for storing a security policy instruction, and the security policy instruction designates a storage path for application software;

the basic application software is used for the wearable equipment terminal to automatically execute a basic application software starting instruction, and the basic application software is loaded and operated from a system file;

the driving software is used for ensuring the normal operation of hardware equipment;

the storage module is used for storing background data of various types of application software, and different application software background data storage areas are correspondingly divided in the storage module according to the classification of the application software.

4. The transparent server side of claim 3,

the wearable equipment terminal is an intelligent watch, an intelligent bracelet or an intelligent sports shoe.

5. A cloud architecture system using the wearable device security management method of any of claims 1-2, comprising:

the system comprises a transparent server end and a wearable device terminal, wherein the transparent server end is connected with the wearable device terminal through a transparent network;

the transparent server side includes: a wearable device operating system; a set of security policy instructions; a base application software; driving software; an application software and storage module;

the wearable device operating system is used for storing an operating system loaded by the wearable device application software;

the security policy instruction set is used for storing a security policy instruction, and the security policy instruction designates a storage path for application software;

the basic application software is used for the wearable equipment terminal to automatically execute a basic application software starting instruction, and the basic application software is loaded and operated from a system file;

the driving software is used for ensuring the normal operation of hardware equipment;

the storage module is used for storing background data of various types of application software, and different application software background data storage areas are correspondingly divided in the storage module according to the classification of the application software.

6. The cloud architecture system of claim 5,

the wearable device terminal comprises an application software module, the application software module is used for storing application software loaded by the wearable device terminal, and the application software module is divided into different application software storage areas according to the classification of the application software.

7. The cloud architecture system of claim 5,

the wearable equipment terminal is an intelligent watch, an intelligent bracelet or an intelligent sports shoe.

Images