CN113810505A

CN113810505A - System for cloud synchronization of face recognition camera data and use method thereof

Info

Publication number: CN113810505A
Application number: CN202111229606.9A
Authority: CN
Inventors: 杨飏; 欧阳彬
Original assignee: Shanghai Delinwei Information Technology Co ltd
Current assignee: Shanghai Delinwei Information Technology Co ltd
Priority date: 2021-10-21
Filing date: 2021-10-21
Publication date: 2021-12-17

Abstract

The invention discloses a system for synchronizing data cloud of a face recognition camera, which comprises a shell, a cover plate and a connecting clamping groove, wherein the cover plate is fixed at the top of the shell; through setting up signal transceiver, equalizer and optic fibre, make signal transceiver strengthen the stability of signal wave band through the equalizer at top when catching data signal or wiFi signal, and inside signal wave band that signal transceiver received can conduct simultaneously through both sides optic fibre gets into control module, and input long-range regulation and control module respectively through the inside inlayed CPU chip signal wave band of control module, the high in the clouds database, local repository, picture processing module and people's face capture module, make the device part can make operating instruction at same time whole signal wave bands of passing through, the speed of device to information processing has been strengthened.

Description

System for cloud synchronization of face recognition camera data and use method thereof

Technical Field

The invention belongs to the technical field of face recognition, and particularly relates to a system for synchronizing data of a face recognition camera in a cloud mode and a using method of the system.

Background

Face recognition is a biometric technology for identity recognition based on facial feature information of a person. A series of related technologies, also commonly called face recognition and face recognition, are used to collect images or video streams containing faces by using a camera or a video camera, automatically detect and track the faces in the images, and then perform face recognition on the detected faces.

However, in the existing system and method for synchronizing the data cloud of the face recognition camera, the data transmission speed is low in the actual use process, so that workers at the cloud end cannot receive shot pictures for comparison at the first time, and can not search rapidly if suspicious people come in, and further potential threats are caused to the personal safety of surrounding people.

Disclosure of Invention

The invention aims to provide a system for synchronizing data cloud of a face recognition camera and a using method thereof, which improve the stability of a signal wave band through an equalizer at the top of a signal transceiver and transmit signal data through optical fibers at two sides of the signal transceiver simultaneously so as to solve the problem that the existing data transmission speed proposed in the background technology is slow, so that a worker at the cloud end cannot receive and compare a shot picture at the first time, and can not search quickly if a suspicious person comes out, thereby causing potential threat to the personal safety of surrounding personnel.

In order to achieve the purpose, the invention provides the following technical scheme: a system for cloud synchronization of data of a face recognition camera comprises a shell, a cover plate and a connecting clamping groove, wherein the cover plate is fixed at the top of the shell, and the connecting clamping groove is formed in the bottom of the shell;

mobilizable fixed block is installed to connecting groove's bottom, mobilizable installing support is installed to the bottom of fixed block, the front end surface mosaic of casing has the web camera, mobilizable base is installed to the rear end of installing support, the internally mounted of casing has the mainboard, signal transceiver is installed to the top front end of mainboard, install control module in the middle of the top of mainboard, local repository is installed on the top right side of mainboard, the remote control module is installed at the top of mainboard, protecting sheathing is installed on the top right side of mainboard, picture processing module is installed to the top rear end of mainboard, people's face seizure module is installed to the top left end of mainboard, the rear end of casing is fixed with power source.

As a preferred embodiment, the light filling lamps are all installed at four corners of the surface of the network camera, the top of the fixing block is embedded and installed with the connecting clamping groove, the bottom of the fixing block is provided with the outer ring gear, the front end of the installing support is provided with the rotatable inner ring gear, and the inner ring gear and the outer ring gear are mutually meshed.

Adopt above-mentioned scheme, after outer ring gear and inner circle gear accomplish the concatenation with the male mode, can install the fixed block in the surface of installing support, the mode through remote client control remote regulation and control module can drive the device and rotate, thereby can drive outer ring gear through the wobbling mode of casing when the network camera need rotate and rotate inside the inner circle gear, and then make the network camera can swing, reduce and shoot the dead angle, and can strengthen the network camera and have sufficient light source to shoot under the not enough environment of light through the peripheral light filling lamp of network camera, avoid the blurred condition of shooting picture appearance.

As a preferred embodiment, an equalizer connected in an embedded manner is installed on the top of the surface of the signal transceiver, optical fibers connected with the control module are respectively arranged on the left side and the right side of the rear end of the top of the signal transceiver, and coils are respectively arranged on the left side and the right side of the surface of the equalizer.

By adopting the scheme, the signal transceiver strengthens the stability of the signal wave band through the equalizer at the top, avoids the signal wave band from shaking to cause the signal stability to be poor, and the signal wave band received by the signal transceiver can be conducted simultaneously through the optical fibers at two sides, so that the speed of the control module for processing information is effectively improved, the speed of face recognition is improved, and the synchronization performance is improved.

As a preferred embodiment, an embedded CPU chip is installed on the top surface of the control module, and the CPU chip controls the remote control module, the image processing module, the face capture module, the local repository, and the network camera, respectively.

By adopting the scheme, the signal wave band received by the control module can be simultaneously input into the remote control module, the cloud database, the local repository, the picture processing module and the face capturing module through the CPU chip, so that the device parts can make working instructions through the signal wave band at the same time.

As a preferred embodiment, the top of protecting sheathing is equipped with the sealed lid that closely laminating form links up, and the internally mounted of protecting sheathing has the high in the clouds database, the surface of high in the clouds database is equipped with the conduction pencil of establishing ties with local repository, and the high in the clouds database surface mounting has the loading chip.

Adopt above-mentioned scheme, can effectively improve protecting sheathing's dustproof performance through the sealed lid at protecting sheathing top, avoid the dust thing in the air to fall into protecting sheathing inside and cause the device deposition serious and lead to high in the clouds database and local repository conduction data to receive the influence, can carry through the conduction pencil of establishing ties with local repository through the high in the clouds database in addition, and load at the high in the clouds fast through loading chip, ensure the synchronism between local data and the high in the clouds data.

As a preferred embodiment, the living body detection module is embedded inside the remote control module, the top of the remote control module is provided with control elements which are distributed in a transverse equidistant arrangement manner, and the connection part of the picture processing module and the face capture module is provided with a wire harness.

Adopt above-mentioned scheme, make long-range regulation and control module can rationally distinguish live body and building through live body detection module, avoid the network camera to carry out indiscriminate shooting to catching the picture, not only can the memory of rational utilization local repository, and the accuracy nature of device has been improved, and the control unit at live body detection module through the top can long-range manual control, the staff of the cloud department of being convenient for carries out more accurate selecting the picture, and the pencil of the junction through picture processing module and face capture module can carry out the face screening with the picture that picture processing module caught the completion, further improve the accuracy nature of device.

As a preferred embodiment, a method for using cloud synchronization of data of a face recognition camera includes the following steps:

s1: starting the network camera, inserting an external power plug into a power interface at the rear end of the shell to electrify and start the network camera;

s2: the mounting bracket moves, after the outer ring gear and the inner ring gear are spliced in an inserting mode, the fixing block can be mounted on the surface of the mounting bracket, and the device can be driven to rotate by controlling the remote regulation and control module through the remote client, so that the outer ring gear can be driven to rotate inside the inner ring gear in a shell swinging mode when the network camera needs to rotate, and the network camera can swing;

s3: the network transceiving speed is increased, when the signal transceiver captures a data signal or a WiFi signal, the stability of a signal wave band is enhanced through an equalizer at the top, the signal wave band received by the signal transceiver can be conducted into the control module through optical fibers at two sides simultaneously, and the signal wave band is respectively input into the remote control module, the cloud database, the local repository, the picture processing module and the face capturing module through a CPU chip signal wave band embedded in the control module, so that all device parts can make working instructions through the signal wave band at the same time, and the speed of the device for processing information is increased;

s4: the picture that the discernment was accomplished is taken a picture and is handled, when the picture that local repository will be inside to be stored is input to picture processing module inside, distinguish live body and peripheral architectural equipment through face capture module, and catch face image one by one through digital fast slow door after face capture module and the inside data comparison of high in the clouds database are accomplished, ensure that face image has the supply face of a plurality of angles, avoid appearing the face and match the appearance error.

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

the system for synchronizing the data cloud of the face recognition camera and the using method thereof are characterized in that a signal transceiver, an equalizer and optical fibers are arranged, so that the signal transceiver enhances the stability of a signal wave band through the equalizer at the top when capturing a data signal or a WiFi signal, the signal wave band received by the signal transceiver can be conducted into a control module through the optical fibers at two sides simultaneously, and the signal wave band is respectively input into a remote control module, a cloud database, a local repository, a picture processing module and a face capturing module through a CPU chip signal wave band embedded in the control module, so that device parts can make working instructions through the signal wave band at the same time, and the speed of the device for processing information is enhanced.

According to the system for synchronizing the data cloud of the face recognition camera and the using method of the system, the mounting support, the outer ring gear and the inner ring gear are arranged, after the outer ring gear and the inner ring gear are spliced in an inserted mode, the fixing block can be mounted on the surface of the mounting support, the device can be driven to rotate in a mode of controlling the remote regulation and control module through the remote client side, and therefore when the network camera needs to rotate, the outer ring gear can be driven to rotate inside the inner ring gear in a shell swinging mode, and the network camera can swing.

According to the system for synchronizing the data cloud of the face recognition camera and the using method thereof, the local repository, the picture processing module and the face capturing module are arranged, when pictures stored inside the local repository are input into the picture processing module, living bodies are distinguished from peripheral building equipment through the face capturing module, and after the face capturing module is compared with internal data of the cloud database, face images are captured one by one through a digital speed gate, so that the face images are ensured to have supply surfaces with multiple angles, and errors caused by face matching are avoided.

Drawings

FIG. 1 is a schematic view of the housing structure of the present invention;

FIG. 2 is a schematic view of the structure of the mounting block and the mounting bracket of the present invention;

FIG. 3 is a schematic structural diagram of a motherboard according to the present invention;

FIG. 4 is a schematic structural diagram of a remote control module according to the present invention;

FIG. 5 is a schematic view of the internal structure of the protective housing of the present invention;

in the figure: 1. a housing; 2. a cover plate; 3. a connecting clamping groove; 4. a fixed block; 401. an outer ring gear; 5. mounting a bracket; 501. an inner ring gear; 6. a network camera; 601. a light supplement lamp; 7. a base; 8. a main board; 9. a signal transceiver; 901. an equalizer; 902. a coil; 903. an optical fiber; 10. a control module; 1011. a CPU chip; 11. a local repository; 12. a remote regulation module; 1201. a living body detection module; 1202. a control element; 13. a protective housing; 1301. a sealing cover; 1302. a cloud database; 1303. a conductive wire bundle; 1304. loading a chip; 14. a picture processing module; 15. a face capture module; 1501. a digital fast and slow gate; 1502. a wire harness; 16. and a power interface.

Detailed Description

The present invention will be further described with reference to the following examples.

The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention. The conditions in the embodiments can be further adjusted according to specific conditions, and simple modifications of the method of the present invention based on the concept of the present invention are within the scope of the claimed invention.

Referring to fig. 1-5, the invention provides a system for cloud synchronization of data of a face recognition camera, which comprises a shell 1, a cover plate 2 and a connecting slot 3, wherein the cover plate 2 is fixed at the top of the shell 1, and the connecting slot 3 is arranged at the bottom of the shell 1;

mobilizable fixed block 4 is installed to connecting clamping groove 3's bottom, mobilizable installing support 5 is installed to fixed block 4's bottom, casing 1's front end surface mosaic has network camera 6, mobilizable base 7 is installed to installing support 5's rear end, casing 1's internally mounted has mainboard 8, signal transceiver 9 is installed to mainboard 8's top front end, install control module 10 in the middle of mainboard 8's the top, local repository 11 is installed on mainboard 8's top right side, remote control module 12 is installed at mainboard 8's top, protecting sheathing 13 is installed on mainboard 8's top right side, picture processing module 14 is installed to mainboard 8's top rear end, people's face capture module 15 is installed to mainboard 8's top left end, casing 1's rear end is fixed with power source 16.

Light filling lamp 601 is all installed to network camera 6's surperficial four corners department, and the top of fixed block 4 is the embedding form and installs with connecting slot 3, and the bottom of fixed block 4 is equipped with outer lane gear 401, and the front end of installing support 5 is equipped with rotatable inner ring gear 501, and inner ring gear 501 is the interlock form each other with outer lane gear 401.

After outer ring gear 401 and inner circle gear 501 accomplish the concatenation with the male mode, can install fixed block 4 in the surface of installing support 5, can drive the device through the mode of remote client control remote regulation and control module 12 and rotate, thereby can drive outer ring gear 401 and rotate inside inner circle gear 501 through the wobbling mode of casing 1 when network camera 6 needs to rotate, and then make network camera 6 can swing, reduce and shoot the dead angle, and can strengthen network camera 6 through the peripheral light filling lamp 601 of network camera 6 and have sufficient light source to shoot under the not enough environment of light, avoid taking the picture and appear the blurred condition.

The top of the surface of the signal transceiver 9 is provided with an embedded equalizer 901, the left and right sides of the top rear end of the signal transceiver 9 are provided with optical fibers 903 connected with the control module 10, and the left and right sides of the surface of the equalizer 901 are provided with coils 902.

The signal transceiver 9 strengthens the stability of the signal wave band through the equalizer 901 at the top, avoids the signal wave band from shaking to cause signal stability deterioration, and the signal wave band received by the signal transceiver 9 can be conducted simultaneously through the optical fibers 903 at two sides, so that the speed of the control module 10 for processing information is effectively improved, the speed of face recognition is improved, and the synchronization performance is improved.

The top surface of the control module 10 is provided with an embedded CPU chip 1011, and the CPU chip 1011 controls the remote control module 12, the image processing module 14, the face capture module 15, the local repository 11 and the network camera 6 respectively.

The signal wave band received by the control module 10 can be simultaneously input into the remote control module 12, the cloud database 1302, the local repository 11, the image processing module 14 and the face capture module 15 through the CPU chip 1011, so that all the device components can make work instructions through the signal wave band at the same time

The top of protecting sheathing 13 is equipped with the sealed lid 1301 that the form that closely laminates links up, and the internally mounted of protecting sheathing 13 has cloud end database 1302, and the surface of cloud end database 1302 is equipped with the conduction pencil 1303 with local repository 11 series connection, and cloud end database 1302 surface mounting has loading chip 1304.

The sealed lid 1301 at protective housing 13 top can effectively improve protective housing 13's dustproof performance, avoids the dust thing in the air to fall into protective housing 13 inside to cause the device deposition serious and lead to cloud end database 1302 and local repository 11 conduction data to receive the influence, can carry through the conduction pencil 1303 with local repository 11 series connection through cloud end database 1302 in addition to load at the cloud end through loading chip 1304 fast, ensure the synchronism between local data and the cloud end data.

The living body detection module 1201 is embedded in the remote control module 12, the control elements 1202 are arranged on the top of the remote control module 12 in a transverse and equidistant manner, and the wiring harness 1502 is arranged at the joint of the picture processing module 14 and the face capture module 15.

The remote control module 12 can reasonably distinguish living bodies and buildings through the living body detection module 1201, and avoid the network camera 6 to carry out undifferentiated shooting on captured pictures, not only can reasonably utilize the memory of the local repository 11, but also improves the accuracy of the device, and the living body detection module 1201 can be remotely and manually controlled through the control unit 1202 at the top, so that workers at the cloud end can pick pictures more accurately, and the wiring harness 1502 at the joint of the picture processing module 14 and the face capture module 15 can carry out face screening on the pictures captured and completed by the picture processing module, thereby further improving the accuracy of the device.

The embodiment also provides a use method for cloud synchronization of the data of the face recognition camera, which comprises the following steps:

s1: starting the network camera 6, inserting an external power plug into a power interface 16 at the rear end of the shell 1, and electrifying and starting the network camera 6;

s2: the mounting bracket 5 moves, after the outer ring gear 401 and the inner ring gear 501 are spliced in an inserting mode, the fixing block 4 can be mounted on the surface of the mounting bracket 5, and the device can be driven to rotate by controlling the remote regulation and control module 12 through the remote client, so that when the network camera 6 needs to rotate, the outer ring gear 401 can be driven to rotate inside the inner ring gear 501 through the swinging mode of the shell 1, and the network camera 6 can swing;

s3: the network transceiving speed is that when the signal transceiver 9 captures a data signal or a WiFi signal, the stability of a signal band is enhanced by the top equalizer 901, and the signal band received by the signal transceiver 9 can be conducted into the control module 10 through the optical fibers 903 on both sides, and the signal band is respectively input into the remote control module 12, the cloud database 1302, the local repository 11, the image processing module 14 and the face capture module 15 through the CPU chip 1011 embedded in the control module 10, so that all device components can make a working instruction through the signal band at the same time, and the speed of the device for processing information is enhanced;

s4: after the shooting and processing are completed, when the local repository 11 inputs the internally stored pictures into the picture processing module 14, the living body is distinguished from the surrounding building equipment through the face capturing module 15, and after the comparison between the face capturing module 15 and the internal data of the cloud database 1302 is completed, the face images are captured one by one through the digital cache 1501, so that the face images are ensured to have supply surfaces with multiple angles, and the occurrence of errors in face matching is avoided.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a system that is used for synchronous in high in clouds of face identification camera data which characterized in that: the novel multifunctional shell comprises a shell body (1), a cover plate (2) and a connecting clamping groove (3), wherein the cover plate (2) is fixed at the top of the shell body (1), and the connecting clamping groove (3) is arranged at the bottom of the shell body (1);

mobilizable fixed block (4) is installed to the bottom of connecting slot (3), mobilizable installing support (5) are installed to the bottom of fixed block (4), the front end surface mosaic of casing (1) has network camera (6), mobilizable base (7) are installed to the rear end of installing support (5), the internally mounted of casing (1) has mainboard (8), signal transceiver (9) is installed to the top front end of mainboard (8), install control module (10) in the middle of the top of mainboard (8), local repository (11) are installed on the top right side of mainboard (8), remote control module (12) are installed at the top of mainboard (8), protecting sheathing (13) are installed on the top right side of mainboard (8), picture processing module (14) are installed to the top rear end of mainboard (8), the human face capturing module (15) is installed at the left end of the top of the main board (8), and a power supply interface (16) is fixed to the rear end of the shell (1).

2. The system of claim 1, wherein the cloud synchronization module is configured to: light filling lamp (601) are all installed to the surperficial four corners department of network camera (6), the top of fixed block (4) is embedding form and connecting slot (3) installation, and the bottom of fixed block (4) is equipped with outer lane gear (401), the front end of installing support (5) is equipped with rotatable inner ring gear (501), and inner ring gear (501) and outer lane gear (401) are mutual interlock form.

3. The system of claim 1, wherein the cloud synchronization module is configured to: the embedded connection type optical fiber signal transceiver is characterized in that an embedded connection type equalizer (901) is installed on the top of the surface of the signal transceiver (9), optical fibers (903) connected with the control module (10) are arranged on the left side and the right side of the rear end of the top of the signal transceiver (9), and coils (902) are arranged on the left side and the right side of the surface of the equalizer (901).

4. The system of claim 1, wherein the cloud synchronization module is configured to: the top surface of the control module (10) is provided with an embedded CPU chip (1011), and the CPU chip (1011) respectively controls the remote control module (12), the picture processing module (14), the face capture module (15), the local repository (11) and the network camera (6).

5. The system of claim 4 for cloud synchronization of face recognition camera data, wherein: the top of protecting sheathing (13) is equipped with sealed lid (1301) that the form of closely laminating links up, and the internally mounted of protecting sheathing (13) has cloud end database (1302), the surface of cloud end database (1302) is equipped with leads (1303) of establishing ties with local repository (11), and cloud end database (1302) surface mounting has loading chip (1304).

6. The system of claim 1, wherein the cloud synchronization module is configured to: the living body detection module (1201) is embedded in the remote control module (12), the control elements (1202) which are transversely and equidistantly distributed are arranged at the top of the remote control module (12), and a wiring harness (1502) is arranged at the joint of the picture processing module (14) and the face capturing module (15).

7. A method for using cloud synchronization of face recognition camera data, the system for cloud synchronization of face recognition camera data according to any one of claims 1 to 6, comprising the steps of:

s1: starting the network camera, namely inserting an external power plug into a power interface (16) at the rear end of the shell (1) to electrify and start the network camera;

s2: the mounting bracket moves, after the outer ring gear (401) and the inner ring gear (501) are spliced in an inserting mode, the fixing block (4) can be mounted on the surface of the mounting bracket (5), and the device can be driven to rotate in a mode of controlling the remote control module (12) through a remote client, so that when the network camera (6) needs to rotate, the outer ring gear (401) can be driven to rotate inside the inner ring gear (501) in a swinging mode of the shell (1), and further the network camera (6) can swing;

s3: the network transceiving speed is increased, when a signal transceiver (9) captures a data signal or a WiFi signal, the stability of a signal wave band is enhanced through an equalizer (901) at the top, the signal wave band received by the signal transceiver (9) can be conducted into a control module (10) through optical fibers (903) at two sides at the same time, and the signal wave band is respectively input into a remote control module (12), a cloud database (1302), a local repository (11), a picture processing module (14) and a face capturing module (15) through a CPU chip (1011) embedded in the control module (10), so that all device parts can make working instructions through the signal wave band at the same time, and the speed of the device for processing information is increased;

s4: after recognition, photographing and processing are completed, when pictures stored inside are input into the picture processing module (14) through the local repository (11), living bodies are distinguished from surrounding building equipment through the face capturing module (15), and after the face capturing module (15) is compared with data inside the cloud database (1302), face images are captured one by one through the digital cache (1501) so as to ensure that the face images have supply surfaces with multiple angles and avoid errors caused by face matching.