CN111246241B - High-density video acquisition, analysis and storage integrated machine, system and method - Google Patents

Abstract

The invention discloses a high-density video acquisition, analysis and storage all-in-one machine, a system and a method thereof, wherein the all-in-one machine comprises a server mainboard control module, a USB interface expansion module, an infrared module, a video box, a video acquisition module, an SAS controller, a storage module and an exchange module, the server mainboard control module can be in wireless communication with a cabinet switch through a server service network and a server BMC network, a management terminal can remotely operate the infrared module on the USB interface expansion module to realize remote control on the video box, and the server mainboard control module can store acquired and analyzed data into the storage module through the SAS controller. The invention adopts the ultrahigh-density modular design, can realize the control, video acquisition and analysis, storage and remote management of a plurality of video boxes in one standard server case device, simplifies the wiring of a machine room, saves the space of the machine room, has high utilization rate and more convenient and faster management, and saves the operation, maintenance and management cost.

Description

High-density video acquisition, analysis and storage integrated machine, system and method

Technical Field

The invention relates to the technical field of video acquisition and processing equipment, in particular to a high-density video acquisition, analysis and storage all-in-one machine, a system and a method thereof.

Background

At present, a video box may be installed in a server for playing network resource video information. However, the control, data acquisition and analysis and data storage of the video box all need operators to perform manual operation one by one, and the video box does not support unified remote management, so that the management is inconvenient and the operation is very complicated. In addition, due to the wiring problem, the existing standard server chassis is difficult to adopt an ultrahigh-density modular design, and can not realize control, video acquisition and analysis, storage and remote management of a plurality of video boxes.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a high-density video acquisition, analysis and storage all-in-one machine, a system and a method thereof.

In order to achieve the above object, a first aspect of the present invention provides a high-density video collecting, analyzing and storing all-in-one machine, including:

the server mainboard control module is used for controlling the operation of the USB interface expansion module, the SAS controller and the video acquisition module, carrying out wireless communication with an external cabinet switch through a server service network, enabling the management terminal to access video data stored in the storage module, carrying out wireless communication with the cabinet switch through a server BMC network, and enabling the management terminal to remotely operate the infrared module mounted on the USB interface expansion module, so that the remote control of the video box is realized through the infrared module;

the USB interface expansion module is respectively in wired connection with the server mainboard control module and the infrared module;

the infrared module is provided with at least one infrared module and is used for wirelessly controlling the corresponding video box;

the video box is provided with at least one video box used for decoding and playing video streams;

the video acquisition module is respectively in wired connection with the video boxes and the server main board control module, is used for communicating with the server main board control module, acquires video signals transmitted by the video boxes, and sends obtained video data to the server main board control module after analysis and processing;

the SAS controller is in wired connection with the server mainboard control module and the storage module respectively and is used for storing and writing the video data analyzed and processed by the server mainboard control module into the storage module;

the storage module is used for storing the video data analyzed and processed by the server mainboard control module;

and the switching module is respectively in wired connection with each video box and is in wireless communication with an external cabinet switch through a video input network.

In a preferred embodiment, the analysis processing of the video capture module includes encoding and video capture analysis.

As a preferred embodiment, the SAS controller and the video capture module are connected to the server motherboard control module through respective PCI-E buses.

As a preferred embodiment, the video box is connected with the video acquisition module through an HDMI cable, and the video box is connected with the switching module through a network cable.

As a preferred embodiment, the server motherboard control module is connected to the USB interface expansion module through a USB bus.

In a preferred embodiment, the SAS controller is connected to the storage module via an SAS bus.

The second aspect of the present invention provides a high-density video acquisition, analysis and storage system, comprising:

a management terminal;

the cabinet switch is used for carrying out remote communication with the management terminal;

and at least one high-density video acquisition, analysis and storage all-in-one machine of the technical scheme.

The third aspect of the present invention provides a high-density video acquisition, analysis and storage method, comprising the following steps:

the management terminal control cabinet switch is in wireless communication with a server mainboard control module of the high-density video acquisition, analysis and storage all-in-one machine through a server BMC network, and remotely operates an infrared module mounted on the USB interface expansion module, so that remote control of a specified video box is realized through the infrared module;

the video acquisition module acquires the video signals transmitted by the video box and sends the obtained video data to the server mainboard control module after analysis and processing;

and the server mainboard control module controls the SAS controller to store and write the video data analyzed and processed by the server mainboard control module into the storage module.

Compared with the prior art, the invention has the beneficial effects that:

the invention adopts the ultrahigh-density modular design, can realize the control, video acquisition and analysis, storage and remote management of a plurality of video boxes in one standard server case device, simplifies the wiring of a machine room, saves the space of the machine room, has the advantages of higher utilization rate of the machine room, more convenient management and the like, and saves the operation, maintenance and management cost.

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 introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a structural diagram of a high-density video acquisition, analysis and storage all-in-one machine provided in an embodiment of the present invention;

fig. 2 is a structural diagram of a high-density video acquisition, analysis and storage system according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. 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 invention.

Referring to fig. 1, an embodiment of the present invention provides a high-density video acquisition, analysis and storage all-in-one machine, which includes a server motherboard control module 11, a USB interface expansion module 12, an infrared module 13, a video box 14, a video acquisition module 15, an SAS controller 16, a storage module 17, and an exchange module 18, and the following describes each component of this embodiment in detail with reference to the drawings.

The server mainboard control module 11 is used for controlling the operation of the USB interface expansion module 12, the SAS controller 16 and the video acquisition module 15, and performs wireless communication with an external cabinet switch through a server service network, so that the management terminal can access the transcoded stored video data in the storage module, and performs wireless communication with the cabinet switch through a server BMC network, so that the management terminal can remotely operate the infrared module 13 mounted on the USB interface expansion module 12, and thereby, the remote control of the video box 14 is realized through the infrared module 13.

The USB interface expansion module 12 (i.e. USB HUB) is respectively connected to the server motherboard control module 11 and the infrared module 13 by wires. In this embodiment, the server board control module 11 may be connected to the USB interface expansion module 12 through a USB bus.

The infrared module 13 is provided with at least one for wirelessly controlling the corresponding video box, and the infrared module 13 has functions of controlling the video box to be turned on and off, selecting a playing source and the like.

The video box 14 is provided with at least one for decoding and playing the video stream, and the video box 14 can play the network video resource.

The video acquisition module 15 is respectively connected with the video boxes 14 and the server main board control module 11 by wires, and is used for communicating with the server main board control module 11, acquiring video signals transmitted by the video boxes 14, and sending the obtained video data to the server main board control module 11 after analysis and processing. In this embodiment, each video box 14 may be connected to the video capture module 15 through an HDMI cable, and the video capture module 15 may be connected to the server motherboard control module 11 through a PCI-E bus.

The video acquisition module 15 can receive the network resource video information played by the HDMI output port of the video box, and perform encoding, video interception analysis (face recognition, yellow identification, etc.), and storage. The method can be used for monitoring of a live network platform, old monitoring, aging upgrading to AI face recognition equipment, transcoding and storing of network video information and the like.

The SAS controller 16 is connected to the server motherboard control module 11 and the storage module 17 by wires, and is configured to store and write video data analyzed and processed by the server motherboard control module 11 into the storage module 17. In this embodiment, the SAS controller 16 may be connected to the server motherboard control module 11 through a PCI-E bus, and the SAS controller 16 may be connected to the storage module 17 through a SAS bus.

The storage module 17 is configured to store the video data analyzed and processed by the server motherboard control module 11, and in this embodiment, the storage module 17 may be a hard disk.

The switching module 18 is wired to each video box 14 and communicates wirelessly with an external cabinet switch via a video input network. In this embodiment, the video box 14 may be connected to the switch module 18 via a network cable.

Referring to fig. 2, a second embodiment of the present invention provides a high-density video acquisition, analysis and storage system, which includes a management terminal 2 (i.e., an administrator), a cabinet switch 3 for performing remote communication with the management terminal 2, and at least one high-density video acquisition, analysis and storage all-in-one machine 1 according to the first embodiment, where each high-density video acquisition, analysis and storage all-in-one machine 1 also includes a server motherboard control module 11, a USB interface expansion module 12, an infrared module 13, a video box 14, a video acquisition module 15, an SAS controller 16, a storage module 17, and an exchange module 18, and the same parts are not described herein again.

In addition, the invention also provides a high-density video acquisition, analysis and storage method, which comprises the following steps:

the management terminal 2 controls the cabinet switch 3 to perform wireless communication with a server mainboard control module 11 of the high-density video acquisition, analysis and storage all-in-one machine through a server BMC network, and remotely operates an infrared module 13 mounted on a USB interface expansion module 12, so that remote control is realized on a specified video box 14 through the infrared module 13;

the appointed video box 14 outputs video signals to the video acquisition module 15, the video acquisition module 15 acquires the video signals transmitted by the video box 14, and sends the obtained video data to the server mainboard control module 11 after analysis and processing;

server motherboard control module 11 controls SAS controller 16 to store and write the video data analyzed and processed by server motherboard control module 11 into storage module 17.

In practical use, a plurality of high-density video acquisition, analysis and storage all-in-one machines can be installed in a standard machine room 42U cabinet, the cabinet switch is used for connecting a service network and an IPMI remote management network of the all-in-one machines, and connecting an uplink port of a switching module connected with external data of a plurality of video boxes, and the video boxes and the cabinet switch are connected by using the switching module, so that network wiring can be simplified, and equipment density can be improved.

The invention utilizes the advantages of the server that the BMC module has remote management, the PCI-E resource is enriched, the USB resource is high in stability and the like, the server mainboard is linked to the USB hub through the USB, the extended USB is connected to the infrared ray module, and the control, the video acquisition and analysis, the storage and the remote management of a plurality of video boxes can be realized in one standard 2U or 4U standard server case device. And the system supports an IPMI2.0 protocol, and an administrator can perform unified remote management on all equipment of the machine room through the IPMI2.0 protocol, so that the operation and maintenance cost and the management cost are saved.

The above embodiments are preferred embodiments of the present invention, but the present invention is not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be construed as equivalents thereof, and all such changes, modifications, substitutions, combinations, and simplifications are intended to be included in the scope of the present invention.

Claims (8)

1. The utility model provides a high density video acquisition analysis stores all-in-one which characterized in that includes:

the server mainboard control module is used for controlling the operation of the USB interface expansion module, the SAS controller and the video acquisition module, carrying out wireless communication with an external cabinet switch through a server service network, enabling the management terminal to access video data stored in the storage module, carrying out wireless communication with the cabinet switch through a server BMC network, and enabling the management terminal to remotely operate the infrared module mounted on the USB interface expansion module, so that the remote control of the video box is realized through the infrared module;

the USB interface expansion module is respectively in wired connection with the server mainboard control module and the infrared module;

the infrared module is provided with at least one infrared module and is used for wirelessly controlling the corresponding video box;

the video box is provided with at least one video box used for decoding and playing video streams;

the video acquisition module is respectively in wired connection with the video boxes and the server main board control module, is used for communicating with the server main board control module, acquires video signals transmitted by the video boxes, and sends obtained video data to the server main board control module after analysis and processing;

the SAS controller is in wired connection with the server mainboard control module and the storage module respectively and is used for storing and writing the video data analyzed and processed by the server mainboard control module into the storage module;

the storage module is used for storing the video data analyzed and processed by the server mainboard control module;

and the switching module is respectively in wired connection with each video box and is in wireless communication with an external cabinet switch through a video input network.

2. The unitary high-density video capture, analysis and storage unit of claim 1, wherein the analysis processing of the video capture module comprises encoding and video capture analysis.

3. The integrated machine for high-density video acquisition, analysis and storage according to claim 1, wherein the SAS controller and the video acquisition module are connected to the server motherboard control module via respective PCI-E buses.

4. The all-in-one machine for collecting, analyzing and storing high-density videos as claimed in claim 1, wherein the video box is connected with the video collection module through an HDMI cable, and the video box is connected with the exchange module through a network cable.

5. The integrated machine for collecting, analyzing and storing high-density video according to claim 1, wherein the server motherboard control module is connected with the USB interface expansion module through a USB bus.

6. The integrated machine for high-density video acquisition, analysis and storage according to claim 1, wherein the SAS controller is connected to the storage module via an SAS bus.

7. A high-density video capture, analysis and storage system, comprising:

a management terminal;

the cabinet switch is used for carrying out remote communication with the management terminal;

and at least one high-density video acquisition, analysis and storage all-in-one machine as claimed in any one of claims 1 to 6.

8. A high-density video acquisition, analysis and storage method is characterized by comprising the following steps:

the management terminal control cabinet switch is in wireless communication with the server mainboard control module of the high-density video acquisition, analysis and storage all-in-one machine of claims 1 to 6 through a server BMC network, and remotely operates the infrared module mounted on the USB interface expansion module, so that the designated video box is remotely controlled through the infrared module;

the video acquisition module acquires the video signals transmitted by the video box and sends the obtained video data to the server mainboard control module after analysis and processing;

and the server mainboard control module controls the SAS controller to store and write the video data analyzed and processed by the server mainboard control module into the storage module.

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