CN116208662A - Centralized control method and system for equipment management - Google Patents

Abstract

The invention discloses a centralized control method and a system for equipment management, wherein the method comprises the steps of S1, establishing a connection relation, opening an APP, inputting an account number and clicking registration after intelligent equipment is connected with a network; s2, checking the connection condition of equipment, opening a webpage end after the equipment is successfully registered, logging in an account number, and entering a system equipment list page; s3, trying remote control, clicking a certain operation above the list to remotely control the equipment after the equipment is singly or multiply selected on the page, and observing the connection state between the equipment and the APP; according to the invention, the device information theme is subscribed in the MQTT server through the MDM platform, and the device terminal subscribes the control theme in the MQTT server; the device end issues device information to an MQTT, and the MQTT pushes the information to an MDM platform; the user sends a control command through the MDM platform interface; the MDM platform issues a control theme to the MQTT, and the MQTT pushes the control command to the equipment end; the equipment end executes command operation, thereby realizing the purpose of remote control.

Description

Centralized control method and system for equipment management

Technical Field

The invention relates to the technical field of network application, in particular to a centralized control method and a system for equipment management.

Background

With the development of network technology, various devices are connected to a network, and device control and management can be realized through the network. For example, the advertising integrated machine has the functions of advertising, setting a sign for prompt and the like. The advertising integrated machine is divided into a fixed type and a movable type. The fixed advertisement integrated machine is arranged at a fixed position and usually needs to be arranged at a position with a socket indoors; the mobile advertising integrated machine is not limited by sites, can be used in sites, markets and other places of outdoor activities, manages all the advertising integrated machines through one server, and uploads data to the server for storage.

An advertisement machine control system and a control method thereof and an advertisement machine of Chinese patent publication No. CN105611409B, the advertisement machine control system comprises: the system comprises a standby control unit, an application processing unit and a power supply unit; the application processing unit is used for controlling the operation of the advertising machine; the power supply unit is used for providing power for the standby control unit and providing power for the application processing unit under the control of the standby control unit; the standby control unit is used for controlling the advertisement machine to stand by and start up according to a standby scheme, and controlling the power supply unit to stop supplying power to the application processing unit when the advertisement machine stands by so as to stop working of the advertisement machine; when the advertising machine is started, the control power supply unit starts to supply power to the application processing unit so that the advertising machine starts to work. The advertisement machine control system can enable the application processing unit of the advertisement machine to stop working when the advertisement machine is in standby by arranging the standby control unit, thereby reducing the standby power consumption of the advertisement machine, saving energy and prolonging the service life of the advertisement machine;

however, as the number of advertisement integrated machines increases, the data storage amount, bandwidth and operation amount born by the server increase, so that the server cannot bear more advertisement integrated machines, and the advertisement integrated machines controlled by the server are severely limited, so that a device management centralized control method and a system thereof are required to be provided.

Disclosure of Invention

The invention aims to provide a centralized control method for equipment management and a system thereof, which have the advantages that a plurality of equipment can be put into a group, and the plurality of equipment can be remotely controlled by operating the group, so as to solve the problems in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions: a device management centralized control method and a system thereof comprise:

s1, establishing a connection relation, opening an APP after intelligent equipment is connected with a network, inputting an account number, and clicking for registration;

s2, checking the connection condition of equipment, opening a webpage end after the equipment is successfully registered, logging in an account number, and entering a system equipment list page;

s3, trying remote control, clicking a certain operation above the list to remotely control the equipment after the equipment is singly or multiply selected on the page, and observing the connection state between the equipment and the APP;

s4, grouping the equipment, namely grouping a plurality of accessed intelligent equipment, and simultaneously, directly downloading a unified instruction to a plurality of equipment in the group through the group;

s5, command customization is carried out, and relevant commands of the equipment are edited;

s6, command debugging, namely debugging operation commands of the equipment in a remote control mode one by one, and observing response speed and command execution conditions of the equipment.

Preferably, the APP in S1 may be installed on an intelligent terminal device such as a computer, a tablet, a mobile phone, etc., and may be connected by using a local area network and a wireless network.

Preferably, the checking device connection in S2 includes a signal strength check and a device number check.

Preferably, the grouping of the devices in S4 may be performed according to the usage and functions of the devices, or may be performed according to the usage habits of individuals or administrators.

Preferably, the remote control command in S5 specifically includes power on, power off, locking and unlocking in screen locking, sending an alarm in notification, sending information, executing workflow, adjusting volume in parameter setting, adjusting backlight, switching signal sources, executing new instructions in custom commands, and executing common commands.

Preferably, the device management centralized control system comprises a terminal, a device access module, a data sharing module, a device management module, a rule engine, an operation and maintenance service module, an application end and a client end.

Preferably, the terminal is in signal connection with the device access module, and the device access module is in signal connection with the data sharing module and the device management module respectively.

Preferably, the device data sharing component, the device management module, the operation and maintenance service module and the rule engine are connected through signals, and the device data sharing component, the device management module, the operation and maintenance service module and the rule engine are connected through signals with an application end.

Preferably, the terminal is in signal connection with the device access assembly through a gateway, a sub-device terminal and a software platform, the device access module comprises a protocol analyzer and a data processor, and the hose platform is in signal connection with the data processor through the protocol analyzer.

Preferably, the operation and maintenance service component comprises equipment alarm, equipment log, online debugging, firmware upgrading, remote configuration, anomaly monitoring, operation and maintenance disk and a secure tunnel, and the data sharing component comprises a time sequence library, a basic library cache unit and a service library.

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

1. according to the invention, the device information theme is subscribed in the MQTT server through the MDM platform, and the device terminal subscribes the control theme in the MQTT server; the device end issues device information to an MQTT, and the MQTT pushes the information to an MDM platform; the user sends a control command through the MDM platform interface; the MDM platform issues a control theme to the MQTT, and the MQTT pushes the control command to the equipment end; the equipment end executes command operation, thereby realizing the purpose of remote control.

2. The remote control method can perform remote control operations on the equipment, including power on and power off in power management, locking and unlocking in screen locking, sending an alarm in notification, sending information, executing workflow, adjusting volume in parameter setting, adjusting backlight, switching signal sources, executing new instructions in custom commands and executing common commands.

Drawings

FIG. 1 is a flow chart of the method of the present invention;

FIG. 2 is a system block diagram of the present invention;

fig. 3 is a flow chart of the operation of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1, the present invention provides a technical solution: the device management centralized control method and system comprises S1, creating connection relation, opening APP after intelligent device connects network, inputting account number, clicking registration;

s2, checking the connection condition of equipment, opening a webpage end after the equipment is successfully registered, logging in an account number, and entering a system equipment list page;

s3, trying remote control, clicking a certain operation above the list to remotely control the equipment after the equipment is singly or multiply selected on the page, and observing the connection state between the equipment and the APP;

s4, grouping the equipment, namely grouping a plurality of accessed intelligent equipment, and simultaneously, directly downloading a unified instruction to a plurality of equipment in the group through the group;

s5, command customization is carried out, and relevant commands of the equipment are edited;

s6, command debugging, namely debugging operation commands of the equipment in a remote control mode one by one, and observing response speed and command execution conditions of the equipment.

The APP in the S1 can be installed on intelligent terminal equipment such as a computer, a tablet, a mobile phone and the like, and can be connected by adopting a local area network and a wireless network. The mobile phone software mainly refers to software installed on the smart phone, and improves the defects and individuation of an original system. The mobile phone is enabled to perfect the functions, and a main means for richer use experience is provided for users. The operation of the mobile phone software needs to have a corresponding mobile phone system.

Remote control is typically performed over a network. The local computer is the sending end of the control instruction, called the main control end or the client end, and the non-local controlled computer is called the controlled end or the server end. The master control end and the controlled end can be located in the same room of the same local area network, or can be two or more computers connected to the Internet and located at any positions.

The checking device connection condition in S2, the checking items thereof include a signal strength check and a device number check.

Further, the signal strength refers to the signal strength used by the devices such as a computer mobile phone, and the specific performance is as follows:

(1) and (7) represents the power at the radio frequency transmit end in dBm.

(2) And (6) represents line loss such as a switching head and a feeder line connected to the antenna, and the unit is dB.

(3) And (5) represents the antenna gain, in dBi or dBd.

(4) Represents path loss and obstruction attenuation, which are the degree of signal energy loss between the transmit and receive antennas, in dB.

Radio frequency transmit power: (1) the radio frequency transmission power of the AP end is represented, and (7) the radio frequency transmission power of the wireless terminal is represented. In the network planning, it is noted that the sum of the transmit power and the antenna gain does not exceed the maximum value of the country code limit.

EIRP: effective omni-directional radiation power EIRP (Effective Isotropic Radiated Power), i.e. signal strength when the antenna end is transmitting, eirp= (1) - (2) + (3).

RSSI: the received signal strength indicator RSSI (Received Signal Strength Indicator), which indicates the signal strength at a location within the coverage of the wireless network, is the value of EIRP after a segment of transmission path loss and attenuation of the obstruction. The problem of weak signal strength encountered by the network gauge is that the RSSI is weak, and the required value of the index is not reached, so that the wireless terminal receives weak signals and even cannot receive signals.

Downlink signal strength: the signal strength of the AP received by the wireless terminal is referred to as downlink signal power= (1) - (2) + (3) - (4) + (5) - (6).

Uplink signal strength: the signal strength of the wireless terminal received by the AP is referred to as uplink signal power= (7) - (6) + (5) - (4) + (3) - (2).

Therefore, when the factors such as interference and line loss are not considered, the calculation formula of the received signal strength is as follows:

received signal strength = radio frequency transmit power + transmit side antenna gain-path loss-obstruction attenuation + receive side antenna gain.

When other parameters than the path loss are determined, the path loss can be determined, and then the effective transmission distance is calculated according to the relation between the effective transmission distance and the path loss. Please refer to the overlay calculation for specific details.

It should be noted that, the device grouping in S4 may be performed according to the use and the function of the device, or may be performed according to the usage habit of an individual or a manager. The remote control command in S5 specifically includes power on/off in power management, locking and unlocking in screen locking, sending an alarm in notification, sending information, executing workflow, adjusting volume in parameter setting, adjusting backlight, switching signal source, executing new instruction in custom command, and executing common command.

In addition, the rule engine is developed by the reasoning engine and is a component embedded in the application program, so that the business decision is separated from the application program code, and the business decision is written by using a predefined semantic module. And receiving data input, interpreting the business rule, and making a business decision according to the business rule.

The usage rule engine can reduce the maintenance and expandability costs of the application program by reducing the complexity of the components implementing the complex business logic, and has the following advantages:

separating business decision logic of a business decision maker from technical decisions of an application developer; the maintainability of codes for realizing complex logic can be effectively improved; repairing code defects during development or after deployment; coping with special conditions, i.e. the customer has not been mentioned to take into account business logic at the beginning; the method accords with the use of agile or iterative development processes by organizations.

Example 2

Referring to fig. 2, the difference between the present embodiment 2 and the embodiment 1 is that:

the embodiment also provides a centralized control system for equipment management: the system comprises a terminal, a device access module, a data sharing module, a device management module, a rule engine, an operation and maintenance service module, an application end and a client end. The operation and maintenance service refers to service work performed by a system administrator, a network administrator or a database administrator on the information system, and more refers to modification and adjustment service performed on the software after delivery, so as to improve the operation efficiency of the information system, reduce execution errors and the like.

The terminal is in signal connection with the equipment access module, and the equipment access module is in signal connection with the data sharing module and the equipment management module respectively. The data sharing is to enable users using different computers and different software in different places to read the data of other people and perform various operations, operations and analysis, so that the data sharing is realized, more people can use the existing data resources more fully, repeated labor and corresponding cost of data collection, data acquisition and the like are reduced, and the efforts are focused on developing new application programs and system integration. Because data provided by different users can come from different approaches, the data content, the data format and the data quality of the data are quite different, great difficulty is brought to data sharing, and sometimes the troublesome problem that the data format cannot be converted or information is lost after the data is converted is encountered, so that the flow and sharing of the data in various departments and software systems are seriously hindered.

The device data sharing component, the device management module, the operation and maintenance service module and the rule engine are connected through signals, and the device data sharing component, the device management module, the operation and maintenance service module and the rule engine are connected through signals with an application end.

The terminal is in signal connection with the equipment access assembly through the gateway, the sub-equipment terminal and the software platform, the equipment access module comprises a protocol analyzer and a data processor, and the hose platform is in signal connection with the data processor through the protocol analyzer. Protocol parsing refers to analyzing the protocol header and trailer of a network packet by a program to understand the behavior of information and related packets during generation and transmission. The software and devices containing the program are protocol resolvers.

The principle of a data processor is that software definition and hardware acceleration are a combination of the working principles. High-performance communication, security, storage and virtualization are realized through hardware unloading of the network card, management and control plane operation is processed through the CPU, self-learning, reasoning and recommendation of the DPU are realized through the GPU, and the calculation performance of the DPU is enhanced.

The operation and maintenance service component comprises equipment alarm, equipment log, online debugging, firmware upgrading, remote configuration, anomaly monitoring, operation and maintenance large disk and a secure tunnel, and the data sharing component comprises a time sequence library, a basic library caching unit and a service library. The time sequence database is mainly used for processing data with time labels, the data with time labels is also called time sequence data, various types of real-time monitoring, checking and analyzing equipment collect and generate data, and the typical characteristics of the industrial data are as follows: the generation frequency is fast, the acquisition time is seriously depended, and the quantity of the multiple information of the measuring points is large.

The storage and processing of time sequence big data are often processed by adopting a relational database, but the relational database cannot be used for efficient storage and data query due to the natural disadvantages of the relational database. The time sequence big data solution is an important technology for solving the problem of mass data processing by using a special storage mode so that the time sequence big data can be efficiently stored and rapidly processed. The technology adopts a special data storage mode, greatly improves the processing capacity of time-related data, reduces the storage space by half relative to a relational database, and greatly improves the query speed. The superior query performance of the time series function far exceeds that of the relational database, and Informix TimeSeries is very suitable for the analysis application of the Internet of things.

Example 3

Referring to fig. 3, a remote control flow is proposed in this embodiment 3, and the steps are as follows:

a. the MDM platform subscribes to the device information theme at the MQTT server, and the device end subscribes to the control theme at the MQTT server;

b. the device end issues device information to an MQTT, and the MQTT pushes the information to an MDM platform;

b. the user sends a control command through the MDM platform interface;

d. the MDM platform issues a control theme to the MQTT, and the MQTT pushes the control command to the equipment end;

e. the equipment end executes command operation, thereby realizing the purpose of remote control.

The mobile equipment management, also called MDM, provides complete mobile equipment full life cycle management from each link of equipment registration, activation, use and elimination, and can realize functions of user and equipment management, configuration management, security management, asset management and the like. The mobile device management can also provide comprehensive security system protection, and meanwhile, the management and protection are carried out on the mobile device, the mobile APP and the mobile document.

MQTT is a client-to-server based message publish/subscribe transport protocol. The MQTT protocol is lightweight, simple, open and easy to implement, which makes it very versatile. In many cases, including in limited environments, such as: the machine communicates with the machine and the internet of things.

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

Claims (10)

1. A centralized control method for equipment management is characterized in that: the method comprises the following steps:

s1, establishing a connection relation, opening an APP after intelligent equipment is connected with a network, inputting an account number, and clicking for registration;

s2, checking the connection condition of equipment, opening a webpage end after the equipment is successfully registered, logging in an account number, and entering a system equipment list page;

s3, trying remote control, clicking a certain operation above the list to remotely control the equipment after the equipment is singly or multiply selected on the page, and observing the connection state between the equipment and the APP;

s4, grouping the equipment, namely grouping a plurality of accessed intelligent equipment, and simultaneously, directly downloading a unified instruction to a plurality of equipment in the group through the group;

s5, command customization is carried out, and relevant commands of the equipment are edited;

s6, command debugging, namely debugging operation commands of the equipment in a remote control mode one by one, and observing response speed and command execution conditions of the equipment.

2. The device management centralized control method according to claim 1, wherein: the APP in the S1 can be installed on intelligent terminal equipment such as a computer, a tablet, a mobile phone and the like, and can be connected by adopting a local area network and a wireless network.

3. The device management centralized control method according to claim 1, wherein: and S2, checking equipment connection conditions, wherein checking items comprise signal strength checking and equipment quantity checking.

4. The device management centralized control method according to claim 1, wherein: the grouping of the devices in S4 may be performed according to the purpose and function of the devices, or may be performed according to the usage habits of individuals or management personnel.

5. The device management centralized control method according to claim 1, wherein: the remote control command in S5 specifically includes power on/off in power management, locking and unlocking in screen locking, sending an alarm in notification, sending information, executing workflow, adjusting volume in parameter setting, adjusting backlight, switching signal sources, executing new instructions in custom commands, and executing common commands.

6. The utility model provides a centralized control system for equipment management which characterized in that: the system comprises a terminal, a device access module, a data sharing module, a device management module, a rule engine, an operation and maintenance service module, an application end and a client end.

7. The device management centralized control system of claim 1, wherein: the terminal is in signal connection with the equipment access module, and the equipment access module is in signal connection with the data sharing module and the equipment management module respectively.

8. The device management centralized control system of claim 1, wherein: the device data sharing component, the device management module, the operation and maintenance service module and the rule engine are in signal connection, and the device data sharing component, the device management module, the operation and maintenance service module and the rule engine are in signal connection with the application end.

9. The device management centralized control system of claim 1, wherein: the terminal is in signal connection with the equipment access assembly through the gateway, the sub-equipment terminal and the software platform, the equipment access module comprises a protocol analyzer and a data processor, and the hose platform is in signal connection with the data processor through the protocol analyzer.

10. The device management centralized control system of claim 1, wherein: the operation and maintenance service component comprises equipment alarm, equipment log, online debugging, firmware upgrading, remote configuration, anomaly monitoring, operation and maintenance large disk and a secure tunnel, and the data sharing component comprises a time sequence library, a basic library caching unit and a service library.

Images