CN104853148B

CN104853148B - Apparatus assembly stable operation system

Info

Publication number: CN104853148B
Application number: CN201410766129.3A
Authority: CN
Inventors: 张宇
Original assignee: XUNMEI ELECTRONICS TECHNOLOGY Co Ltd
Current assignee: Gaoxinxing Xunmei Chongqing Technology Co ltd
Priority date: 2014-12-12
Filing date: 2014-12-12
Publication date: 2018-08-17
Anticipated expiration: 2034-12-12
Also published as: CN104853148A

Abstract

The present invention provides a kind of apparatus assembly stable operation system, including safety monitoring platform, data processing equipment, local device assembly management platform, cloud device assembly management platform, apparatus assembly process unit and video equipment, the apparatus assembly process unit includes multiple equipment component manager, the safety monitoring platform, local device assembly management platform, cloud device assembly management platform and video equipment are connect with data processing equipment respectively, the data output end of the cloud device assembly management platform is connect with local device assembly management platform, the data output end of the local device assembly management platform is connect by apparatus assembly process unit with safety monitoring platform, the cloud device assembly management platform is also connected with Software upgrade module and network module in turn.With the above mentioned technical proposal, the present invention has the advantages that reasonable for structure, it automatically updates apparatus assembly, and provide the apparatus assembly to match with video equipment to the user, and use multiple equipment component manager, cause platform software that can not use after preventing an apparatus assembly manager collapse, enhances user experience.

Description

Equipment component stable operation system

Technical Field

The invention belongs to the technical field of security monitoring, and particularly relates to a stable operation system of an equipment assembly.

Background

In a security monitoring platform, because the device Software Development Kit (SDK) used by each security manufacturer does not have a uniform standard, for newly accessed devices, the video devices can be accessed and used only by manually copying and installing device components, which causes great inconvenience to users. Meanwhile, when the equipment component is replaced, the security monitoring platform needs to be restarted, so that the user experience is poor. Meanwhile, due to the fact that technical levels of security manufacturers are different, the issued equipment components are likely to be broken down or cannot be used, and therefore platform software cannot be used.

Disclosure of Invention

The invention aims to provide a device component stable operation system with a reasonable structure, which automatically updates device components, provides device components matched with video equipment for users, and adopts a plurality of device component managers to prevent platform software from being unavailable after one device component manager is crashed, thereby enhancing user experience.

The invention aims to realize the technical scheme, which comprises a security monitoring platform, a data processing device, a local device component management platform, a cloud device component management platform, a device component process unit and a video device, wherein the device component process unit comprises a plurality of device component managers, the security monitoring platform, the local device component management platform, the cloud device component management platform and the video device are respectively connected with the data processing device, the data output end of the cloud device component management platform is connected with the local device component management platform, the data output end of the local device component management platform is connected with the security monitoring platform through the device component process unit, and the cloud device component management platform is further sequentially connected with a software upgrading module and a network module; wherein,

the data processing equipment performs access analysis on the video equipment, finds out key information required by the equipment when the equipment is used, generates an equipment component code signal from the key information, and sends the equipment component code signal to a local equipment component management platform;

the local equipment component management platform receives an equipment component code signal from the data processing equipment, compares the equipment component code signal with a local equipment component, transmits equipment component data to an equipment component process unit if the comparison is successful, feeds back a comparison result to the data processing equipment if the comparison is failed, and transmits the equipment component code signal to the cloud equipment component management platform by the data processing equipment;

the network module establishes network connection with a server on the internet through network interconnection equipment;

the software upgrading module is used for downloading equipment component data of security manufacturers in real time and transmitting the equipment component data to the cloud equipment component management platform for storage;

the cloud device component management platform receives a device component code signal from the data processing device, transmits device component data matched with the device component code signal to the local device component management platform, stores the device component data in the local device component management platform, and transmits the device component data to the device component process unit by the local device component management platform;

and the equipment component process unit receives the equipment component data from the local equipment component management platform and installs the equipment components.

The system comprises a security monitoring platform, data processing equipment, a local equipment component management platform, a cloud equipment component management platform, an equipment component process unit, video equipment, a software upgrading module and a network module.

The network module establishes network connection with a server on the internet through network interconnection equipment; the software upgrading module is used for downloading equipment component data of security manufacturers in real time and transmitting the equipment component data to the cloud equipment component management platform for storage;

the data processing equipment performs access analysis on the video equipment, finds out key information required by the equipment when the equipment is used, generates an equipment component code signal from the key information, and sends the equipment component code signal to a local equipment component management platform. And the local equipment component management platform compares the received equipment component code signal with a local equipment component.

And if the comparison is successful, transmitting the device component data to a device component process unit, namely transmitting the device component data to a plurality of device component managers in the device component process unit, and installing the device components by the device component managers. The security monitoring platform is connected with the equipment component process unit, and after the equipment component is installed, the video equipment can be started.

And if the comparison fails, feeding back the comparison result to the data processing equipment, and transmitting the equipment component code signal to the cloud equipment component management platform by the data processing equipment. The cloud device component management platform receives device component code signals from the data processing device, transmits the device component data matched with the device component code signals to the local device component management platform, stores the device component data in the local device component management platform, transmits the device component data to the device component process unit through the local device component management platform, namely transmits the device component data to a plurality of device component managers in the device component process unit, and the device component managers install the device components. The security monitoring platform is connected with the equipment component process unit, and after the equipment component is installed, the video equipment can be started.

When one equipment component manager in the equipment component process unit crashes, the security monitoring platform controls to switch to another equipment component manager, and good operation of the security monitoring platform is guaranteed.

Further, the network module is a network adapter supporting ethernet, and the network interconnection device includes a router and a switch.

Further, the network module is a WIFI network module, and the network interconnection device is a wireless router.

Further, the video device is a monitor.

Furthermore, the security monitoring platform is connected with the local equipment component management platform through a serial port.

Further, the number of the device component managers is 3.

By adopting the technical scheme, the video equipment management system has the advantage of reasonable structure, automatically updates the equipment components, provides the equipment components matched with the video equipment for users, and adopts a plurality of equipment component managers to prevent platform software from being unavailable after one equipment component manager is crashed, so that the user experience is enhanced.

Drawings

Fig. 1 is a schematic diagram of the structural principle provided by the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings.

As shown in fig. 1, as a specific embodiment, the system comprises a security monitoring platform, a data processing device, a local device component management platform, a cloud device component management platform, a device component process unit and a video device, wherein the device component process unit comprises 3 device component managers, the security monitoring platform, the local device component management platform, the cloud device component management platform and the video device are respectively connected with the data processing device, a data output end of the cloud device component management platform is connected with the local device component management platform, a data output end of the local device component management platform is connected with the security monitoring platform through the device component process unit, and the cloud device component management platform is further sequentially connected with a software upgrading module and a network module; wherein,

And if the comparison is successful, transmitting the device component data to a device component process unit, namely transmitting the device component data to 3 device component managers in the device component process unit, and installing the device components by the device component managers. The security monitoring platform is connected with the equipment component process unit, and after the equipment component is installed, the video equipment can be started.

And if the comparison fails, feeding back the comparison result to the data processing equipment, and transmitting the equipment component code signal to the cloud equipment component management platform by the data processing equipment. The cloud device component management platform receives device component code signals from the data processing device, transmits the device component data matched with the device component code signals to the local device component management platform, stores the device component data in the local device component management platform, transmits the device component data to the device component process unit through the local device component management platform, namely transmits the device component data to 3 device component managers in the device component process unit, and the device component managers install the device components. The security monitoring platform is connected with the equipment component process unit, and after the equipment component is installed, the video equipment can be started.

And when the first equipment component manager in the equipment component process unit crashes, the security monitoring platform controls the switching to the second equipment component manager. And when the first equipment component manager in the equipment component process unit crashes, the security monitoring platform controls to switch to the third equipment component manager. Therefore, the good operation of the security monitoring platform is ensured.

As shown in fig. 1, as a specific embodiment, the network module is a network adapter supporting ethernet, and the network interconnection device includes a router and a switch.

As shown in fig. 1, as a specific embodiment, the network module is a WIFI network module, and the network interconnection device is a wireless router.

As shown in fig. 1, the video device is a monitor as a specific embodiment.

As shown in fig. 1, as a specific implementation manner, the security monitoring platform is connected to the local device component management platform through a serial port.

As shown in fig. 1, the number of the device component managers is 3 as a specific embodiment.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent structures made by using the contents of the present specification and the drawings can be directly or indirectly applied to other related technical fields, and are within the scope of the present invention.

Claims

1. The equipment component stable operation system is characterized by comprising a security monitoring platform, data processing equipment, a local equipment component management platform, a cloud equipment component management platform, an equipment component process unit and video equipment, wherein the equipment component process unit comprises a plurality of equipment component managers; wherein,

the data processing equipment finds out key information required by the video equipment when in use and generates equipment component code signals from the key information;

the local equipment component management platform compares the equipment component code signal with a local equipment component;

the software upgrading module is used for downloading the equipment component data of a security manufacturer in real time;

the cloud device component management platform transmits the device component data matched with the device component code signals to a local device component management platform;

the equipment component process unit receives equipment component data from a local equipment component management platform and installs an equipment component;

the security monitoring platform is connected with the equipment component process unit, and after the equipment component is installed, the video equipment can be started.

2. The device component steady operation system of claim 1, wherein the network module is an ethernet enabled network adapter and the network interconnect device comprises a router and a switch.

3. The device component steady operation system of claim 1, wherein the network module is a WIFI network module and the network interconnect device is a wireless router.

4. The equipment assembly steady operation system of any one of claims 1-3, wherein the video equipment is a monitor.

5. The device component stable operation system according to claim 1, wherein the security monitoring platform is connected to the local device component management platform through a serial port.

6. The device component steady operation system of claim 1, wherein the number of device component managers is 3.