CN112926353A - Distributed cloud processing method for field data - Google Patents

Abstract

The invention relates to a field data distributed cloud processing method which comprises the step of providing a field data distributed cloud processing platform used for monitoring personnel in an office place on the basis of the combination of a field analysis mode and a cloud distributed analysis mode.

Description

Distributed cloud processing method for field data

Technical Field

The invention relates to the field of cloud processing, in particular to a field data distributed cloud processing method.

Background

Cloud processing is software based on an application virtualization technology, application virtualization is achieved by the cloud, a first global family is introduced into the field of personal users, and a brand-new software use mode is created: no installation, no reloading and no garbage. The cloud processing integrates software searching, downloading, using and managing, a software resource platform, an application platform and a service platform are built for netizens, and the current software obtaining and using mode is improved.

According to a shutdown notification sent by a cloud software team in 2014, 3, 17, the cloud processing will stop updating various resources, and shutdown of the cloud processing will stop processing all subordinate websites in 2014, 4, 17. At the moment, the cloud treasury and the cloud resource sharing station cannot continue to access; but can still normally use the software installed in the cloud and the self-made cloud edition software.

Disclosure of Invention

In order to solve the technical problems related to the related field, the invention provides a field data distributed cloud processing method, which can adopt a hierarchical matching mechanism for matching office staff with contacts in an office place in advance to perfect the technical scheme of monitoring of the office staff, and more importantly, complex processing and storage environments are placed in a cloud end, so that the efficiency and the speed of local monitoring are improved.

Therefore, the present invention needs to have at least two important points:

(1) firstly, matching a human face object appearing in an office place with a reference face pattern of any one office worker, and then matching the human face object failed in matching with each reference face pattern of each contact person of a company corresponding to the office place, thereby perfecting a personnel monitoring mechanism of the office place;

(2) a distributed cloud processing structure comprising a plurality of cloud control nodes, cloud storage nodes and cloud servers is established, and storage and operation resources of field devices are effectively released.

According to an aspect of the present invention, a distributed cloud processing method for field data is provided, the method including providing a distributed cloud processing platform for field data, the distributed cloud processing platform being used for monitoring staff in an office on the basis of a combination of a field analysis mode and a cloud distributed analysis mode, the distributed cloud processing platform including:

the face analysis equipment is used for carrying out face analysis operation on spliced contents of all images captured at all positions of an office to obtain all human face objects;

a local storage device located in an office place for storing a reference face pattern of each office worker in advance;

the signal uploading device is respectively connected with the face analysis device and the local storage device and is used for uploading image areas occupied by the human face objects in the splicing content of the images to a cloud server as recorded images when one human face object is not matched with the reference face pattern of any office worker;

the first cloud processing node is connected with the cloud server and used for receiving the recorded image and performing image enhancement processing based on logarithmic transformation on the recorded image so as to obtain and output a corresponding first processed image;

the second cloud processing node is connected with the first cloud processing node and used for receiving the first processed image and executing midpoint filtering processing on the first processed image so as to obtain and output a corresponding second processed image;

the cloud storage node is used for storing reference facial patterns of contact persons of companies corresponding to the office;

the cloud server is respectively connected with the second cloud processing node, the cloud storage node and the signal uploading device through a network and is used for sending out a suspicious person detection signal when the second processed image is not matched with the reference facial pattern of any contact person;

and the wireless transceiver is connected with the cloud server through a network and is used for wirelessly forwarding the received suspicious personnel detection signal to an internal network of safety management corresponding to the office or a mobile terminal of a safety manager of the office.

The field data distributed cloud processing method is compact in structure and wide in application. Because the existing office personnel monitoring scheme is improved in two aspects of a personnel identification mechanism and the overall layout of the system, the reliability and the real-time performance of office personnel monitoring are improved.

Detailed Description

Embodiments of the present invention will be described in detail below.

With the development of society, people have higher and higher requirements on office places, and the excellent office places can improve office efficiency and are beneficial to the communication of organizations and the physical health of staff. The office space comprises the space, temperature, lighting, ventilation and sound absorption facilities and conditions of a working area, and also comprises the styles and colors of decoration and decoration of office walls and doors and windows, the styles and placing modes of office tables, chairs and cabinets and the placing modes of various office equipment, office supplies and drinking equipment. Generally, the basic elements constituting a healthy and safe office space are:

1. air. Good ventilation conditions are required in offices, and indoor ventilation and good air conditions can improve the efficiency of work.

2. Light rays. The light of the office is sufficient, and the local illumination needs to meet the requirements, and the modes of artificial light or combination of the artificial light and natural light and the like can be adopted.

3. And (4) sound. The office needs to keep a quiet and peaceful atmosphere, and the ground, the wall surface and the ceiling should be provided with certain sound absorption and silencing devices.

4. A space. Office area building must be firm safe, and putting of office equipment should be neat, and the overall arrangement is reasonable, and office space and seat space need be suitable, will leave the passageway between the seat, will pay attention to the safety of putting of table chair, equipment in the corner of passageway.

5. And (5) greening. Some flowers and trees are placed in the office, so that the air in the office is fresher, and the arrangement is more elegant.

Office staff need to take care of maintaining the office environment and should check every day when going to work: whether the temperature of the workplace meets the requirements or not; whether the door and the window are tight and safe; whether the lighting is sufficient for the job; whether noise interference and air pollution exceed standards or not; office furniture and equipment are not sufficient, etc.

In the prior art, the detection of suspicious personnel in an office place is only limited to a mode of matching the characteristics of field personnel with the characteristics of office personnel, and the specific matching operation and the storage of related data are locally carried out, so that on one hand, the detection range of the suspicious personnel is expanded, and some invalid alarms are caused, and on the other hand, the excessively complicated storage and operation are placed at a local equipment end, so that the local equipment runs slowly and system resources are insufficient.

In order to overcome the defects, the invention provides a field data distributed cloud processing method, which comprises the step of providing a field data distributed cloud processing platform for monitoring personnel in an office on the basis of the combination of a field analysis mode and a cloud distributed analysis mode, wherein the field data distributed cloud processing platform can effectively solve the corresponding technical problem.

The field data distributed cloud processing platform shown according to the embodiment of the invention comprises:

the face analysis equipment is used for carrying out face analysis operation on spliced contents of all images captured at all positions of an office to obtain all human face objects;

a local storage device located in an office place for storing a reference face pattern of each office worker in advance;

the signal uploading device is respectively connected with the face analysis device and the local storage device and is used for uploading image areas occupied by the human face objects in the splicing content of the images to a cloud server as recorded images when one human face object is not matched with the reference face pattern of any office worker;

the first cloud processing node is connected with the cloud server and used for receiving the recorded image and performing image enhancement processing based on logarithmic transformation on the recorded image so as to obtain and output a corresponding first processed image;

the second cloud processing node is connected with the first cloud processing node and used for receiving the first processed image and executing midpoint filtering processing on the first processed image so as to obtain and output a corresponding second processed image;

the cloud storage node is used for storing reference facial patterns of contact persons of companies corresponding to the office;

the cloud server is respectively connected with the second cloud processing node, the cloud storage node and the signal uploading device through a network and is used for sending out a suspicious person detection signal when the second processed image is not matched with the reference facial pattern of any contact person;

and the wireless transceiver is connected with the cloud server through a network and is used for wirelessly forwarding the received suspicious personnel detection signal to an internal network of safety management corresponding to the office or a mobile terminal of a safety manager of the office.

Next, a detailed description of the structure of the field data distributed cloud processing platform according to the present invention is continued.

In the field data distributed cloud processing platform:

the cloud server is further configured to send a reliable person detection signal when the second processed image matches a reference facial pattern of a contact person.

The field data distributed cloud processing platform may further include:

and the humidity measuring equipment is arranged on the shell of the local storage equipment and is used for measuring the humidity on the shell position of the local storage equipment.

The field data distributed cloud processing platform may further include:

and the instant humidifying equipment is connected with the humidity measuring equipment and used for realizing corresponding humidifying action based on the received humidity.

In the field data distributed cloud processing platform:

the wireless transceiver device, the local storage device and the signal uploading device share the same user control interface, and the user control interface is realized by an SOC chip.

In the field data distributed cloud processing platform:

the wireless transceiver is internally provided with a counter for accumulating the operation times of the addition level of the wireless transceiver in real time.

The field data distributed cloud processing platform may further include:

and the metal radiating fin is arranged near the signal uploading equipment, is used for being connected with the shell of the signal uploading equipment and is used for realizing the heat dissipation treatment of the signal uploading equipment.

In the field data distributed cloud processing platform:

the local storage device, the signal uploading device and the wireless transceiving device share the same parameter configuration interface.

In the field data distributed cloud processing platform:

the parameter configuration interface is one of an IIC control interface, a serial control interface or a parallel control interface.

In addition, the System on Chip is called SOC for short, i.e. System on Chip. From a narrow sense, the method is the chip integration of the core of an information system, and integrates key components of the system on one chip; in a broad sense, an SOC is a micro-miniature system, and if a Central Processing Unit (CPU) is the brain, the SOC is a system including the brain, heart, eyes, and hands. The academia at home and abroad generally tends to define the SOC as integrating a microprocessor, an analog IP core, a digital IP core and a memory (or off-chip memory control interface) on a single chip, which is usually custom-made or standard product oriented to a specific application. The basic content of the SOC definition is mainly two-fold: one is its formation and the other is its formation process. The system-level chip can be composed of a system-level chip control logic module, a microprocessor/microcontroller CPU core module, a digital signal processor DSP module, an embedded memory module, an interface module for communicating with the outside, an analog front-end module containing ADC/DAC, a power supply and power consumption management module, a radio frequency front-end module, user defined logic (which can be realized by FPGA or ASIC) and a micro-electro-mechanical module for a wireless SOC, and more importantly, a SOC chip is embedded with a basic software (RDOS or COS and other application software) module or loadable user software and the like.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature.

Although the present invention has been described with reference to the above embodiments, it should be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the spirit and scope of the invention. Therefore, the protection scope of the present invention should be subject to the scope defined by the claims of the present application.

Claims (9)

1. A field data distributed cloud processing method comprises the steps of providing a field data distributed cloud processing platform used for monitoring personnel in an office on the basis of combination of a field analysis mode and a cloud distributed analysis mode, wherein the field data distributed cloud processing platform comprises:

the face analysis equipment is used for carrying out face analysis operation on spliced contents of all images captured at all positions of an office to obtain all human face objects;

a local storage device located in an office place for storing a reference face pattern of each office worker in advance;

the signal uploading device is respectively connected with the face analysis device and the local storage device and is used for uploading image areas occupied by the human face objects in the splicing content of the images to a cloud server as recorded images when one human face object is not matched with the reference face pattern of any office worker;

the first cloud processing node is connected with the cloud server and used for receiving the recorded image and performing image enhancement processing based on logarithmic transformation on the recorded image so as to obtain and output a corresponding first processed image;

the second cloud processing node is connected with the first cloud processing node and used for receiving the first processed image and executing midpoint filtering processing on the first processed image so as to obtain and output a corresponding second processed image;

the cloud storage node is used for storing reference facial patterns of contact persons of companies corresponding to the office;

the cloud server is respectively connected with the second cloud processing node, the cloud storage node and the signal uploading device through a network and is used for sending out a suspicious person detection signal when the second processed image is not matched with the reference facial pattern of any contact person;

and the wireless transceiver is connected with the cloud server through a network and is used for wirelessly forwarding the received suspicious personnel detection signal to an internal network of safety management corresponding to the office or a mobile terminal of a safety manager of the office.

2. The method of claim 1, wherein:

the cloud server is further configured to send a reliable person detection signal when the second processed image matches a reference facial pattern of a contact person.

3. The method of claim 2, wherein the platform further comprises:

and the humidity measuring equipment is arranged on the shell of the local storage equipment and is used for measuring the humidity on the shell position of the local storage equipment.

4. The method of claim 3, wherein the platform further comprises:

and the instant humidifying equipment is connected with the humidity measuring equipment and used for realizing corresponding humidifying action based on the received humidity.

5. The method of claim 4, wherein:

the wireless transceiver device, the local storage device and the signal uploading device share the same user control interface, and the user control interface is realized by an SOC chip.

6. The method of claim 5, wherein:

the wireless transceiver is internally provided with a counter for accumulating the operation times of the addition level of the wireless transceiver in real time.

7. The method of claim 6, wherein the platform further comprises:

and the metal radiating fin is arranged near the signal uploading equipment, is used for being connected with the shell of the signal uploading equipment and is used for realizing the heat dissipation treatment of the signal uploading equipment.

8. The method of claim 7, wherein:

the local storage device, the signal uploading device and the wireless transceiving device share the same parameter configuration interface.

9. The method of claim 8, wherein:

the parameter configuration interface is one of an IIC control interface, a serial control interface or a parallel control interface.