CN110718297A - Intelligent operating system verification method and device based on health all-in-one machine - Google Patents

Abstract

The invention discloses an intelligent operating system verification method and device based on a health all-in-one machine, wherein a cloud system is used for mapping a standard intelligent operating system to an operating equipment end to obtain an equipment end system; the cloud system sends test data to the equipment end system and verifies each module of the equipment end system; responding to the test data to verify the functions of all modules of the equipment end system, and receiving test return data from the equipment end; comparing the test return data with known test return data corresponding to a properly functioning device side running the intelligent operating system; and determining whether the equipment end system is functioning properly based on the comparison. By the method, the early investment of a company can be reduced, and personnel developing the application can concentrate on the development of scene services without worrying about the integration of resources; the development period is shortened, the development uniformity is ensured by the uniform basic function interface, and the secondary investment risk of basic function module replacement is reduced.

Description

Intelligent operating system verification method and device based on health all-in-one machine

Technical Field

The application relates to the field of operating systems, in particular to an intelligent operating system verification method and device based on a health all-in-one machine.

Background

At present, an operating system of the health all-in-one machine needs to be developed secondarily in real time according to requirements when being applied and arranged. The general system does not intentionally consider the support of the health industry, so that basic functions and services of the health industry can not be basically integrated into the system, and a large amount of time, manpower and financial resources are required to be invested in the early stage when a company develops and applies the general system based on the system, so that the basic functions and the services support upper-layer services by researching and researching the technology and searching and integrating resources, and the investment is large, the time period is long, and the risk is high. Meanwhile, companies are faced with the risk that subsequent basic function module replacement, outage and the like need secondary re-development and integration.

Disclosure of Invention

The invention provides an intelligent operating system verification method and device based on a health all-in-one machine, aiming at reducing the early investment of a company and enabling personnel developing application to be more concentrated in the development of scene services without worrying about the integration of resources; the development period is shortened, the development uniformity is ensured by the uniform basic function interface, and the secondary investment risk of basic function module replacement is reduced.

In order to solve the above problem or at least partially solve the above technical problem, in an embodiment of the present application, there is provided a method for verifying an intelligent operating system based on a health kiosk, where the intelligent operating system includes a device side system and a cloud side system, the method including:

the cloud system maps the standard intelligent operating system to the running equipment end to obtain an equipment end system; wherein the device-end system has a plurality of modules, including: an application layer, an API layer (interface layer), an application operating environment, a kernel and device hardware;

the cloud system sends test data to the equipment end system and verifies each module of the equipment end system;

receiving test return data from the equipment end in response to the test data verifying the functionality of the respective modules of the equipment end system;

comparing the test return data with known test return data corresponding to a properly functioning device side running the smart operating system;

and determining whether the device end system is functioning properly based on the comparison.

In another embodiment of the present application, a health-based all-in-one machine-based smart operating system verification apparatus is further provided, where the smart operating system includes an equipment-side system and a cloud-side system, and the apparatus includes:

the mapping module is used for mapping the standard intelligent operating system to the running equipment end by the cloud system to obtain an equipment end system; wherein the device-end system has a plurality of modules, including: an application layer, an API layer (interface layer), an application operating environment, a kernel and device hardware;

the sending module is used for sending test data to the equipment end system by the cloud end system and verifying each module of the equipment end system;

the verification module is used for responding to the test data to verify the functions of all modules of the equipment end system and receiving test return data from the equipment end;

a comparison module for comparing the test return data with known test return data corresponding to a correctly operating device end operating the intelligent operating system;

a determination module to determine whether the equipment end system is functioning properly based on the comparison.

The invention discloses an intelligent operating system verification method and device based on a health all-in-one machine, wherein a cloud system is used for mapping a standard intelligent operating system to an operating equipment end to obtain an equipment end system; the cloud system sends test data to the equipment end system and verifies each module of the equipment end system; responding to the test data to verify the functions of all modules of the equipment end system, and receiving test return data from the equipment end; comparing the test return data with known test return data corresponding to a properly functioning device side running the intelligent operating system; and determining whether the equipment end system is functioning properly based on the comparison. By the method, the early investment of a company can be reduced, and personnel developing the application can concentrate on the development of scene services without worrying about the integration of resources; the development period is shortened, the development uniformity is ensured by the uniform basic function interface, and the secondary investment risk of basic function module replacement is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present application 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 should be clear that the drawings in the following description are only intended to illustrate some embodiments of the present application, and that for a person skilled in the art, it is possible to derive from these drawings, without inventive effort, technical features, connections or even method steps not mentioned in the other drawings.

FIG. 1 is a schematic structural diagram of an intelligent operating system based on a health all-in-one machine according to the invention;

FIG. 2 is a schematic flow chart illustrating a method for verifying an intelligent operating system based on a health-care integrated machine according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of an intelligent operating system verification apparatus based on a health all-in-one machine according to another embodiment of the present invention.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terminology used in the embodiments of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the examples of this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise, and "a" and "an" typically include at least two, but do not exclude the presence of at least one.

It should be understood that although the terms first, second, third, etc. may be used to describe XXX in the embodiments of the present application, these XXX should not be limited to these terms. These terms are only used to distinguish XXX from each other. For example, a first XXX may also be referred to as a second XXX, and similarly, a second XXX may also be referred to as a first XXX, without departing from the scope of embodiments of the present application.

The words "if", as used herein, may be interpreted as "at … …" or "at … …" or "in response to a determination" or "in response to a monitoring", depending on the context. Similarly, the phrase "if it is determined" or "if it is monitored (a stated condition or event)" may be interpreted as "when determining" or "in response to determining" or "when monitoring (a stated condition or event)" or "in response to monitoring (a stated condition or event)", depending on the context.

It is also noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a good or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such good or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a commodity or system that includes the element.

The device side may be any type of computing device capable of running an operating system. For example, the device side may be a mobile phone, a laptop computer, a desktop computer, a tablet computer, a watch, a wearable device, a smart speaker, a smart appliance, or any other similar type of computing device.

As shown in fig. 1, the smart operating system includes a device side system and a cloud side system. The device end system includes: an application layer: based on the application developed by the system, the service of a specific scene is realized;

an application framework: the system comprises an API layer (interface layer), an upper layer application and a system bottom layer basic function and service module, wherein the upper layer application is communicated with the system bottom layer basic function and service module through an interface to realize specific scene services;

an application running environment: the system level basic function and service module provides basic service for upper layer development;

kernel: the bottom layer kernel system drives hardware to work;

hardware of the device: hardware required for normal operation of the equipment;

the application execution environment comprises: 1) maintenance, including version management and upgrading of the system, and remote operation monitoring, configuration and debugging of the equipment; 2) interaction, namely expanding the support of basic mouse, keyboard and touch screen, such as voice and semantic recognition and understanding, voiceprint-based identity recognition and face-based identity recognition; 3) health, support of characterization data measurement, detection of equipment communication protocol, health data framework, establishment and maintenance of health files, and nursing framework; 4) the user is used for uniformly managing the user information; 5) the peripheral IoT is connected with the external equipment in multiple communication modes, so that the capacity of the equipment is expanded, and unified operation and data integration are facilitated; 6) and the security is ensured by encryption and strict authorization.

The cloud system includes: the service interface is a unified interface for providing services to the outside; the business service supports the corresponding cloud service of the equipment end system; basic services for supporting basic services of upper-layer services, such as information transmission and data storage; the infrastructure is mainly a hardware server and a server operating system.

As shown in fig. 2, a verification method for an intelligent operating system based on a health all-in-one machine is provided, where the intelligent operating system includes a device side system and a cloud side system, and the system includes:

the cloud system maps the standard intelligent operating system to the running equipment end to obtain an equipment end system; wherein the device-end system has a plurality of modules, including: an application layer, an API layer (interface layer), an application operating environment, a kernel and device hardware;

the cloud system sends test data to the equipment end system and verifies each module of the equipment end system;

receiving test return data from the equipment end in response to the test data verifying the functionality of the respective modules of the equipment end system;

comparing the test return data with known test return data corresponding to a properly functioning device side running the smart operating system;

and determining whether the device end system is functioning properly based on the comparison.

According to the intelligent operating system verification method based on the health all-in-one machine, a standard intelligent operating system is mapped to a running equipment end through a cloud system to obtain an equipment end system; the cloud system sends test data to the equipment end system and verifies each module of the equipment end system; responding to the test data to verify the functions of all modules of the equipment end system, and receiving test return data from the equipment end; comparing the test return data with known test return data corresponding to a properly functioning device side running the intelligent operating system; and determining whether the equipment end system is functioning properly based on the comparison. By the method, the early investment of a company can be reduced, and personnel developing the application can concentrate on the development of scene services without worrying about the integration of resources; the development period is shortened, the development uniformity is ensured by the uniform basic function interface, and the secondary investment risk of basic function module replacement is reduced.

In another embodiment, as shown in fig. 3, an apparatus for verifying a smart operating system based on a health kiosk, the smart operating system including a device side system and a cloud side system, the apparatus includes:

the mapping module is used for mapping the standard intelligent operating system to the running equipment end by the cloud system to obtain an equipment end system; wherein the device-end system has a plurality of modules, including: an application layer, an API layer (interface layer), an application operating environment, a kernel and device hardware;

the sending module is used for sending test data to the equipment end system by the cloud end system and verifying each module of the equipment end system;

the verification module is used for responding to the test data to verify the functions of all modules of the equipment end system and receiving test return data from the equipment end;

a comparison module for comparing the test return data with known test return data corresponding to a correctly operating device end operating the intelligent operating system;

a determination module to determine whether the equipment end system is functioning properly based on the comparison.

An application layer: based on the application developed by the system, the service of a specific scene is realized;

an application framework: the system comprises an API layer (interface layer), an upper layer application and a system bottom layer basic function and service module, wherein the upper layer application is communicated with the system bottom layer basic function and service module through an interface to realize specific scene services;

an application running environment: the system level basic function and service module provides basic service for upper layer development;

kernel: the bottom layer kernel system drives hardware to work;

hardware of the device: hardware required for normal operation of the equipment;

the application execution environment comprises: 1) maintenance, including version management and upgrading of the system, and remote operation monitoring, configuration and debugging of the equipment; 2) interaction, namely expanding the support of basic mouse, keyboard and touch screen, such as voice and semantic recognition and understanding, voiceprint-based identity recognition and face-based identity recognition; 3) health, support of characterization data measurement, detection of equipment communication protocol, health data framework, establishment and maintenance of health files, and nursing framework; 4) the user is used for uniformly managing the user information; 5) the peripheral IoT is connected with the external equipment in multiple communication modes, so that the capacity of the equipment is expanded, and unified operation and data integration are facilitated; 6) and the security is ensured by encryption and strict authorization.

The cloud system comprises: the service interface is a unified interface for providing services to the outside; the business service supports the corresponding cloud service of the equipment end system; basic services for supporting basic services of upper-layer services, such as information transmission and data storage; the infrastructure is mainly a hardware server and a server operating system.

According to the intelligent operating system verification device based on the health all-in-one machine, the standard intelligent operating system is mapped to the running equipment end through the cloud system to obtain the equipment end system; the cloud system sends test data to the equipment end system and verifies each module of the equipment end system; responding to the test data to verify the functions of all modules of the equipment end system, and receiving test return data from the equipment end; comparing the test return data with known test return data corresponding to a properly functioning device side running the intelligent operating system; and determining whether the equipment end system is functioning properly based on the comparison. By the method, the early investment of a company can be reduced, and personnel developing the application can concentrate on the development of scene services without worrying about the integration of resources; the development period is shortened, the development uniformity is ensured by the uniform basic function interface, and the secondary investment risk of basic function module replacement is reduced.

It is also noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a good or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such good or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a commodity or system that includes the element.

The foregoing description shows and describes several preferred embodiments of the invention, but as aforementioned, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. An intelligent operating system verification method based on a health all-in-one machine is characterized in that the method comprises the following steps:

the cloud system maps the standard intelligent operating system to the running equipment end to obtain an equipment end system; wherein the device-end system has a plurality of modules, including: an application layer, an API layer (interface layer), an application operating environment, a kernel and device hardware;

the cloud system sends test data to the equipment end system and verifies each module of the equipment end system;

receiving test return data from the equipment end in response to the test data verifying the functionality of the respective modules of the equipment end system;

comparing the test return data with known test return data corresponding to a properly functioning device side running the smart operating system;

and determining whether the device end system is functioning properly based on the comparison.

2. The intelligent operating system verification method based on the health all-in-one machine as claimed in claim 1, wherein the application layer: based on the application developed by the system, the service of a specific scene is realized;

an application framework: the system comprises an API layer (interface layer), an upper layer application and a system bottom layer basic function and service module, wherein the upper layer application is communicated with the system bottom layer basic function and service module through an interface to realize specific scene services;

an application running environment: the system level basic function and service module provides basic service for upper layer development;

kernel: the bottom layer kernel system drives hardware to work;

hardware of the device: hardware required for normal operation of the device.

3. The health-based all-in-one machine-based smart operating system verification method of claim 2, wherein the application execution environment comprises: 1) maintenance, including version management and upgrading of the system, and remote operation monitoring, configuration and debugging of the equipment; 2) interaction, namely expanding the support of basic mouse, keyboard and touch screen, such as voice and semantic recognition and understanding, voiceprint-based identity recognition and face-based identity recognition; 3) health, support of characterization data measurement, detection of equipment communication protocol, health data framework, establishment and maintenance of health files, and nursing framework; 4) the user is used for uniformly managing the user information; 5) the peripheral IoT is connected with the external equipment in multiple communication modes, so that the capacity of the equipment is expanded, and unified operation and data integration are facilitated; 6) and the security is ensured by encryption and strict authorization.

4. The health-based all-in-one machine-based smart operating system verification method of claim 1, wherein the cloud system comprises: the service interface is a unified interface for providing services to the outside; the business service supports the corresponding cloud service of the equipment end system; basic services for supporting basic services of upper-layer services, such as information transmission and data storage; the infrastructure is mainly a hardware server and a server operating system.

5. The utility model provides an intelligent operating system verifies device based on healthy all-in-one, intelligent operating system includes equipment end system and cloud end system, its characterized in that, the device includes:

the mapping module is used for mapping the standard intelligent operating system to the running equipment end by the cloud system to obtain an equipment end system; wherein the device-end system has a plurality of modules, including: an application layer, an API layer (interface layer), an application operating environment, a kernel and device hardware;

the sending module is used for sending test data to the equipment end system by the cloud end system and verifying each module of the equipment end system;

the verification module is used for responding to the test data to verify the functions of all modules of the equipment end system and receiving test return data from the equipment end;

a comparison module for comparing the test return data with known test return data corresponding to a correctly operating device end operating the intelligent operating system;

a determination module to determine whether the equipment end system is functioning properly based on the comparison.

6. The intelligent operating system verification device based on health all-in-one machine as claimed in claim 5, wherein the application layer: based on the application developed by the system, the service of a specific scene is realized;

an application framework: the system comprises an API layer (interface layer), an upper layer application and a system bottom layer basic function and service module, wherein the upper layer application is communicated with the system bottom layer basic function and service module through an interface to realize specific scene services;

an application running environment: the system level basic function and service module provides basic service for upper layer development;

kernel: the bottom layer kernel system drives hardware to work;

hardware of the device: hardware required for normal operation of the device.

7. The health-based all-in-one smart operating system verification apparatus as claimed in claim 6, wherein the application execution environment comprises: 1) maintenance, including version management and upgrading of the system, and remote operation monitoring, configuration and debugging of the equipment; 2) interaction, namely expanding the support of basic mouse, keyboard and touch screen, such as voice and semantic recognition and understanding, voiceprint-based identity recognition and face-based identity recognition; 3) health, support of characterization data measurement, detection of equipment communication protocol, health data framework, establishment and maintenance of health files, and nursing framework; 4) the user is used for uniformly managing the user information; 5) the peripheral IoT is connected with the external equipment in multiple communication modes, so that the capacity of the equipment is expanded, and unified operation and data integration are facilitated; 6) and the security is ensured by encryption and strict authorization.

8. The health-based all-in-one smart operating system verification device of claim 5, wherein the cloud system comprises: the service interface is a unified interface for providing services to the outside; the business service supports the corresponding cloud service of the equipment end system; basic services for supporting basic services of upper-layer services, such as information transmission and data storage; the infrastructure is mainly a hardware server and a server operating system.

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