CN115102889B - Client side energy measurement data exchange protocol remote test method and system - Google Patents

Abstract

The invention discloses a client side energy measurement data exchange protocol remote test method and a system. The method comprises the following steps: after receiving a test execution request sent by a test monitoring device, a test server generates a unique Token code corresponding to the test, sends the Token code to the tested object through the test monitoring device, synchronizes a test scheme and a test case to the test monitoring device by the Token code, and starts and executes the client side energy measurement data exchange protocol remote test; the method comprises the steps of providing simulation data and external excitation for a tested object through the test monitoring equipment, updating a test case in real time according to test steps and test feedback of the current tested object, synchronizing the test case to the test monitoring equipment, and realizing protocol consistency test and protocol interoperability test of the tested object.

Description

Client side energy measurement data exchange protocol remote test method and system

Technical Field

The present invention relates to the field of energy measurement technologies, and in particular, to a method and a system for remotely testing a client-side energy measurement data exchange protocol.

Background

Along with the construction of novel power system and energy internet advances fast, equipment type and quantity in the monitoring system are surveyed to customer side energy are explosive growth, except intelligent electric energy meter and acquisition terminal equipment, various customer side energy measuring equipment such as intelligence thing allies oneself with tool to lock, intelligence measurement switch, domestic appliance along with the ware measurement, fill electric pile, photovoltaic inverter all need to insert extensively, current power consumption information data exchange agreement is difficult to satisfy the business development, for this reason, customer side energy measures data exchange agreement and takes place at the same time, this agreement has more extensive communication medium adaptability, it is more friendly to light-weight low-power consumption equipment, the compatibility is better, can the interaction of many main website, support many business application, thing allies oneself with advantages and characteristics such as management is more convenient.

The existing power utilization information data exchange protocol test is carried out in a sample sending mode, namely, an equipment manufacturer firstly appoints to send a test to a detection mechanism for test, then sends a sample to the detection mechanism for test on an appointed date, and after the test is finished, the detection mechanism informs the manufacturer to receive a test report. For the client side energy measurement data exchange protocol, the types of the devices needing to be checked are greatly increased, more fields are needed for storing samples by a detection mechanism, more personnel, devices and other resources are needed, the difficulty of sample sending and report receiving is greatly increased during epidemic situations, and the cost of the method is greatly increased.

Disclosure of Invention

According to the invention, the method and the system for remotely testing the energy measurement data exchange protocol at the client side are provided, so as to solve the technical problems that the existing power utilization information data exchange protocol test is carried out in a sample sending mode, more personnel, equipment and other resources are needed, the difficulty of sending samples and receiving reports is greatly increased during an epidemic situation, and the cost of the mode is greatly increased.

According to a first aspect of the present invention, there is provided a client-side energy measurement data exchange protocol remote testing method, including:

after receiving a test execution request sent by a test monitoring device, a test server generates a unique Token code corresponding to the test, sends the Token code to the test monitoring device, synchronizes a corresponding test scheme and a test case to the test monitoring device according to the Token code, and starts and executes a client-side energy measurement data exchange protocol remote test;

the method comprises the steps of providing simulation data and external excitation for a tested object through a test monitoring device, updating a test case in real time according to test steps and current test condition feedback of the tested object, synchronizing the test case to the test monitoring device, and realizing protocol consistency test and protocol interoperability test of the tested object.

Optionally, before the test server receives and sends the test execution request sent by the detection monitoring device, the method further includes:

configuring remote communication parameters of test monitoring equipment, connecting the test monitoring equipment to a test server, performing identity authentication, and establishing trusted connection after the authentication is passed;

and carrying out communication connection and power connection on the tested object and the test monitoring equipment, configuring relevant parameters of the tested object after the tested object is started and works normally, and waiting for the tested object to be accessed into a test server.

Optionally, configuring relevant parameters of the object to be tested, and after waiting for the object to be tested to access the test server, further comprising:

carrying out image recognition on the device type of the tested object according to the test monitoring device, and reading the device information and the unique code of the tested object;

and sending the device type and the unique code of the tested object to a test server for verification, wherein the verification is finished when the verification fails, and the verification is continued when the verification passes.

Optionally, the method further comprises:

after the verification is passed, determining a test scheme through the selection of a user on a display interface of the test monitoring equipment;

and detecting whether the test monitoring equipment meets the test conditions, refusing to execute the test and prompting a user if the test monitoring equipment does not meet the test conditions, and initiating a test execution request to a test server if the test monitoring equipment meets the test conditions.

Optionally, after the client-side energy measurement data exchange protocol remote test is started and executed, the method includes:

the state of the tested object is continuously monitored through the test monitoring equipment, the tested object is ensured not to be interfered by the outside and is always in a normal test state, and otherwise, the test process is terminated.

Optionally, the method further comprises:

after the test is finished, prompting a user of finishing the test through a display interface of the test monitoring equipment, generating a test report by the test server, and generating a test certification certificate for qualified test by the test server; or

And the user applies for a test report and a test certification certificate to the detection mechanism according to the Token code corresponding to the test, the detection mechanism verifies the generated test report and test certification certificate, and the user downloads the test report and the test certification certificate of the electronic version through the test monitoring equipment after the verification is passed.

According to another aspect of the present invention, there is also provided a client-side energy measurement data exchange protocol remote testing system, including:

the system comprises a Token code generation module, a test monitoring device and a client side energy measurement data exchange protocol remote test execution module, wherein the Token code generation module is used for generating a unique Token code corresponding to the test after a test server receives a test execution request sent by the test monitoring device, sending the Token code to the test monitoring device, synchronizing a corresponding test scheme and a test case to the test monitoring device according to the Token code, and starting and executing the client side energy measurement data exchange protocol remote test;

and the synchronous test case module is used for providing simulation data and external excitation for the tested object through the test monitoring equipment, updating the test case in real time according to the test steps and the test condition feedback of the current tested object, synchronizing the test case to the test monitoring equipment and realizing the protocol consistency test and the protocol interoperability test of the tested object.

Optionally, before the Token code generation module receives and detects a test execution request sent by the monitoring device, the system further includes:

establishing a trusted connection module for configuring remote communication parameters of test monitoring equipment, connecting the test monitoring equipment to a test server, performing identity authentication, and establishing trusted connection after the authentication is passed;

and the configuration object parameter module is used for carrying out communication connection and power connection on the tested object and the test monitoring equipment, configuring relevant parameters of the tested object after the tested object is started and works normally, and waiting for the tested object to be accessed into the test server.

Optionally, the system further comprises:

the reading equipment information module is used for carrying out image recognition on the equipment type of the tested object according to the test monitoring equipment and reading the equipment information and the unique code of the tested object;

and the tested object verification module is used for sending the device type and the unique code of the tested object to the test server for verification, and the verification is ended if the verification fails, and is continued if the verification passes.

Optionally, the system further comprises:

the test scheme determining module is used for determining a test scheme through selection of a user on a display interface of the test monitoring equipment after the verification is passed;

and the detection monitoring equipment module is used for detecting whether the test monitoring equipment meets the test conditions, refusing to execute the test and prompting a user if the test monitoring equipment does not meet the test conditions, and initiating a test execution request to the test server if the test monitoring equipment meets the test conditions.

Optionally, the system further comprises:

and the continuous monitoring module is used for continuously monitoring the state of the tested object through the test monitoring equipment, ensuring that the tested object is not interfered by the outside and is always in a normal test state, and otherwise, terminating the test flow.

Optionally, the method further comprises:

the test report and certification certificate generating module is used for prompting a user that the test is finished through a display interface of the test monitoring equipment after the test is finished, the test server generates a test report, and the test server generates a test certification certificate for qualified test; or alternatively

And the test report and certification module is used for applying a test report and a test certification to a detection mechanism by a user according to the Token code corresponding to the test, verifying the generated test report and test certification by the detection mechanism, and downloading the test report and the test certification of the electronic version by the user through the test monitoring equipment after the verification is passed. According to another aspect of the present invention, there is also provided a client-side energy measurement data exchange protocol remote test system, which includes a test server, a test monitoring device and a device under test;

the test server is used for generating a unique Token code corresponding to the test after receiving a test execution request sent by the test monitoring equipment, sending the Token code to the tested object through the test monitoring equipment, synchronizing a corresponding test scheme and a test case to the test monitoring equipment according to the Token code, and starting and executing the client side energy measurement data exchange protocol remote test;

the method comprises the steps of realizing identity authentication and establishing credible connection with test monitoring equipment, executing protocol remote test, analyzing and judging communication messages, managing test result information and generating a test report;

the test monitoring equipment is used for providing simulation data and external excitation for the tested object, updating a test case in real time according to the test step and the test condition feedback of the current tested object, synchronizing the test case to the test monitoring equipment and realizing protocol consistency test and protocol interoperability test on the tested object;

the measured object is a client side energy measuring device.

Optionally, the object under test comprises at least one or more of:

the intelligent internet of things lockset, the intelligent measuring switch, the household appliance following device metering, the charging pile and the photovoltaic inverter.

Therefore, by the test monitoring equipment, the interoperability external stimulus is provided for the tested object according to the test flow requirement of the test case issued by the test server, and the protocol interoperability test is realized. And carrying out remote protocol conformance test and protocol interoperability test on the tested object through the test monitoring equipment. The protocol test can be carried out on the client side energy measurement equipment, and the protocol test can also be carried out on the client side energy measurement system master station. The protocol test can be carried out on the client side energy measurement equipment, and the protocol test can also be carried out on the client side energy measurement system master station. The client side energy measurement data exchange protocol remote test is realized, the convenience and the efficiency are higher, and the cost of manufacturers and detection mechanisms is greatly saved.

Drawings

Exemplary embodiments of the invention may be more completely understood in consideration of the following drawings:

fig. 1 is a schematic flowchart illustrating a method for remotely testing a client-side energy measurement data exchange protocol according to this embodiment;

fig. 2 is a schematic view of a scenario of a remote testing method for a client-side energy measurement data exchange protocol according to this embodiment;

fig. 3 is a schematic diagram of a client-side energy measurement data exchange protocol remote testing system according to this embodiment.

Detailed Description

The exemplary embodiments of the present invention will now be described with reference to the accompanying drawings, however, the present invention may be embodied in many different forms and is not limited to the embodiments described herein, which are provided for complete and complete disclosure of the present invention and to fully convey the scope of the present invention to those skilled in the art. The terminology used in the exemplary embodiments illustrated in the accompanying drawings is not intended to be limiting of the invention. In the drawings, the same units/elements are denoted by the same reference numerals.

Unless otherwise defined, terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Further, it will be understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and will not be interpreted in an idealized or overly formal sense.

According to a first aspect of the present invention, there is provided a method 100 for remote testing a customer-side energy measurement data exchange protocol, referring to fig. 1, where the method 100 includes:

s101, after receiving a test execution request sent by a test monitoring device, a test server generates a unique Token code corresponding to the test, sends the Token code to the tested object through the test monitoring device, synchronizes a corresponding test scheme and a test case to the test monitoring device according to the Token code, and starts and executes a client side energy measurement data exchange protocol remote test;

s102, continuously monitoring the state of the tested object through the test monitoring equipment to ensure that the tested object is not interfered by the outside and is always in a normal test state, and otherwise, terminating the test process;

s103, providing simulation data and external excitation for the tested object through the test monitoring equipment, updating the test case in real time according to the test step and the test condition feedback of the current tested object, synchronizing the test case to the test monitoring equipment, and realizing the protocol consistency test and the protocol interoperability test of the tested object.

Specifically, referring to fig. 2, the method of this embodiment is implemented by a test server, a remote network, a test monitoring device, and a device under test.

The testing server is deployed in the detection mechanism and at least comprises functions of managing a testing case and a testing scheme of a client-side energy measurement data exchange protocol, managing information of a remote inspection manufacturer, information of a tested device sample, a testing plan and the like, realizing identity authentication and establishing credible connection with the testing monitoring device, executing protocol remote testing, analyzing and judging a communication message, managing testing result information, generating a testing report and the like.

The remote network is used for realizing remote communication between the test server and the test monitoring equipment, and can be an Ethernet network, an optical fiber network, a 4G network, a 5G network and the like.

The test monitoring equipment is provided with a plurality of communication interfaces (including RS-485, UART, CAN, M-Bus, USB, ethernet, bluetooth, infrared, HPLC, RF and the like), and is accessed to a test server through a remote network after the communication mode of a tested object is converted. The module can read the unique code of the tested object and identify the device type of the tested object, and the tested object is monitored in the test process, so that cheating is prevented. The module provides a client user display and input interface through which the user initiates protocol testing and downloads test reports.

The tested object serves as an object of a tested role in a client-side energy measurement data exchange protocol remote test system, and can be client-side energy measurement equipment (such as an intelligent internet of things lock, an intelligent measurement switch, household appliance random measurement, a charging pile, a photovoltaic inverter and the like) or a client-side energy measurement system master station (such as an electricity utilization information acquisition master station and the like).

The test flow is as follows:

(1) And configuring remote communication parameters of the test monitoring equipment, connecting the remote communication parameters to the test server, performing identity authentication, and establishing a trusted connection after the authentication is passed.

(2) Connecting the tested object to a test monitoring device (comprising communication connection and power connection), electrifying the tested object, configuring relevant parameters of the tested object after the tested object is started and works normally, and waiting for the tested object to be accessed to a test server.

(3) The testing monitoring equipment carries out image recognition on the equipment category of the tested object according to the type specification of the client side energy measuring equipment, reads the equipment information (such as a unique code) of the tested object, then sends the equipment category and the unique code of the tested object to the testing server for verification, if the verification fails, the verification is finished, and if the verification passes, the verification continues.

(4) The user selects a test scheme (including test items, test parameters and the like) through a display interface of the test monitoring equipment, and clicks a 'start test' button.

(5) The test monitoring equipment automatically detects whether the test condition is met, refuses to execute the test and prompts a user if the test condition is not met, and initiates a test execution request to the test server if the test condition is met.

(6) And the test server synchronizes the test cases corresponding to the test scheme to the test monitoring equipment, and starts and executes the client-side energy measurement data exchange protocol remote test. Meanwhile, the test server generates a unique Token code corresponding to the test, and sends the unique Token code to the user through the test monitoring equipment.

(7) In the testing process, the testing monitoring equipment continuously monitors the state of the tested object, ensures that the tested object is not interfered by the outside and is always in a normal testing state, and otherwise, terminates the testing process.

(8) In the test process, the test monitoring equipment is matched with the test server to provide simulation data and external excitation for the tested object, the test server updates the test cases in real time according to the test steps and the test condition feedback of the current tested object, and synchronizes to the test monitoring equipment, so that the protocol consistency test and the protocol interoperability test of the tested object are realized.

(9) And after the test is finished, the test monitoring equipment displays an interface to prompt the user that the test is finished. The test server automatically generates a test report, and for qualified tests, the test server also automatically generates a test certification.

(10) And the user applies a test report and a test certification certificate to the detection mechanism by the Token code corresponding to the test, the detection mechanism verifies the generated test report and test certification certificate, and after the verification is passed, the user downloads the test report and the test certification certificate of the electronic version through the test monitoring equipment.

Therefore, the client side energy measurement data exchange protocol remote test is realized, the convenience and the efficiency are improved, the cost of manufacturers and detection mechanisms is greatly saved, the trip can be reduced, and the epidemic situation prevention and control are facilitated.

The remote protocol consistency test and the protocol interoperability test of the tested objects with different communication modes are realized by testing the communication conversion function of the monitoring equipment and the functions of external excitation, analog data input and the like. The protocol test can be carried out on the client side energy measurement equipment, and the protocol test can also be carried out on the client side energy measurement system main station. By testing the anti-cheating functions of the monitoring equipment such as identity authentication, image recognition, process monitoring and the like, the fairness and the justice of the client side energy measurement data exchange protocol remote test can be ensured.

Optionally, before the test server receives and sends the test execution request sent by the detection monitoring device, the method further includes:

configuring remote communication parameters of test monitoring equipment, connecting the test monitoring equipment to a test server, performing identity authentication, and establishing trusted connection after the authentication is passed;

and carrying out communication connection and power connection on the tested object and the test monitoring equipment, configuring relevant parameters of the tested object after the tested object is started and works normally, and waiting for the tested object to be accessed into a test server.

Optionally, configuring relevant parameters of the object to be tested, and after waiting for the object to be tested to access the test server, further comprising:

carrying out image recognition on the device type of the tested object according to the test monitoring device, and reading the device information and the unique code of the tested object;

and sending the device type and the unique code of the tested object to a test server for verification, wherein the verification is finished when the verification fails, and the verification is continued when the verification passes.

Optionally, the method further comprises:

after the verification is passed, determining a test scheme through the selection of a user on a display interface of the test monitoring equipment;

and detecting whether the test monitoring equipment meets the test conditions, if not, refusing to execute the test and prompting a user, and if so, initiating a test execution request to a test server.

Optionally, the method further comprises:

after the test is finished, prompting a user of finishing the test through a display interface of the test monitoring equipment, generating a test report by the test server, and generating a test certification certificate for qualified test by the test server; or

And the user applies a test report and a test certification certificate to the detection mechanism according to the Token code corresponding to the test, the detection mechanism verifies the generated test report and test certification certificate, and after the verification is passed, the user downloads the test report and the test certification certificate of the electronic version through the test monitoring equipment.

Therefore, the client side energy measurement data exchange protocol remote test is realized, the convenience and the efficiency are improved, the cost of manufacturers and detection mechanisms is greatly saved, the trip can be reduced, and the epidemic situation prevention and control are facilitated.

The remote protocol consistency test and the protocol interoperability test of the tested objects in different communication modes are realized by testing the communication conversion function of the monitoring equipment and the functions of external excitation, analog data input and the like. The protocol test can be carried out on the client side energy measurement equipment, and the protocol test can also be carried out on the client side energy measurement system master station. By testing the anti-cheating functions of the monitoring equipment such as identity authentication, image recognition, process monitoring and the like, the fairness and the justice of the client side energy measurement data exchange protocol remote test can be ensured.

According to another aspect of the present invention, there is also provided a client-side energy measurement data exchange protocol remote testing system 300, referring to fig. 3, the system 300 comprising:

a Token code generation module 310, configured to generate a unique Token code corresponding to the current test after the test server receives a test execution request sent by the test monitoring device, send the Token code to the test monitoring device, synchronize the corresponding test scheme and test case to the test monitoring device according to the Token code, and start and execute a client-side energy measurement data exchange protocol remote test;

the continuous monitoring module 320 is used for continuously monitoring the state of the tested object through the test monitoring equipment, ensuring that the tested object is not interfered by the outside and is always in a normal test state, and otherwise, terminating the test process;

the synchronous test case module 330 is used for providing simulation data and external stimulus for the tested object through the test monitoring equipment, updating the test case in real time according to the test steps and the test condition feedback of the current tested object, synchronizing to the test monitoring equipment, and realizing protocol consistency test and protocol interoperability test on the tested object.

Optionally, before the Token code generation module receives the test execution request sent by the detection monitoring device, the system further includes:

establishing a trusted connection module for configuring remote communication parameters of test monitoring equipment, connecting the test monitoring equipment to a test server, performing identity authentication, and establishing trusted connection after the authentication is passed;

and the parameter configuration module is used for carrying out communication connection and power supply connection on the tested object and the test monitoring equipment, configuring relevant parameters of the tested object after the tested object is started and works normally, and waiting for the tested object to be accessed into the test server.

Optionally, the system further comprises:

the reading equipment information module is used for carrying out image recognition on the equipment type of the tested object according to the test monitoring equipment and reading the equipment information and the unique code of the tested object;

and the tested object verification module is used for sending the device type and the unique code of the tested object to the test server for verification, and the verification is finished when the verification fails and is continued when the verification passes.

Optionally, the system further comprises:

the test scheme determining module is used for determining a test scheme through selection of a user on a display interface of the test monitoring equipment after the verification is passed;

and the detection monitoring equipment module is used for detecting whether the test monitoring equipment meets the test conditions, refusing to execute the test and prompting a user if the test monitoring equipment does not meet the test conditions, and initiating a test execution request to the test server if the test monitoring equipment meets the test conditions.

Optionally, the method further comprises:

the test report and certification generation module is used for prompting a user that the test is finished through a display interface of the test monitoring equipment after the test is finished, generating a test report by the test server, and generating a test certification for qualified test by the test server; or

And the test report and certification module is used for applying a test report and a test certification to a detection mechanism by a user according to the Token code corresponding to the test, verifying the generated test report and test certification by the detection mechanism, and downloading the test report and the test certification of the electronic version by the user through the test monitoring equipment after the verification is passed.

According to another aspect of the present invention, there is also provided a client-side energy measurement data exchange protocol remote test system, which includes a test server, a test monitoring device and a device under test;

the testing server is used for generating a unique Token code corresponding to the current test after receiving a test execution request sent by the testing monitoring equipment, sending the Token code to the tested object through the testing monitoring equipment, synchronizing a corresponding testing scheme and a testing case to the testing monitoring equipment according to the Token code, and starting and executing the remote testing of the energy measurement data exchange protocol at the client side;

the method comprises the steps of realizing identity authentication and establishing credible connection with test monitoring equipment, executing protocol remote test, analyzing and judging communication messages, managing test result information and generating a test report;

the test monitoring equipment is used for providing simulation data and external excitation for the tested object, updating a test case in real time according to the test step and the test condition feedback of the current tested object, synchronizing the test case to the test monitoring equipment and realizing protocol consistency test and protocol interoperability test on the tested object;

the measured object is a client side energy measuring device.

Optionally, the object under test comprises at least one or more of:

the intelligent internet of things lockset, the intelligent measuring switch, the household appliance following device metering, the charging pile and the photovoltaic inverter. The system 300 for remote testing of the customer-side edp according to the embodiment of the present invention corresponds to the method 100 for remote testing of the customer-side edp according to another embodiment of the present invention, and is not described herein again.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein. The solution in the embodiment of the present application may be implemented by using various computer languages, for example, object-oriented programming language Java and transliteration scripting language JavaScript, etc.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

While the preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all alterations and modifications as fall within the scope of the application.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (13)

1. A client-side energy measurement data exchange protocol remote testing method is characterized by comprising the following steps:

after receiving a test execution request sent by a test monitoring device, a test server generates a unique Token code corresponding to the test, sends the Token code to a tested object through the test monitoring device, synchronizes a corresponding test scheme and a test case to the test monitoring device according to the Token code, and starts and executes a client side energy measurement data exchange protocol remote test;

providing simulation data and external excitation for the tested object through the test monitoring equipment, updating a test case in real time according to the test steps and the test condition feedback of the current tested object, synchronizing the test case to the test monitoring equipment, and realizing protocol consistency test and protocol interoperability test on the tested object;

after the client-side energy measurement data exchange protocol remote test is started and executed, the method comprises the following steps:

the state of the tested object is continuously monitored through the test monitoring equipment, the tested object is ensured not to be interfered by the outside and is always in a normal test state, and otherwise, the test flow is terminated.

2. The method of claim 1, wherein before the test server receives the test execution request sent by the monitoring device, the method further comprises:

configuring remote communication parameters of test monitoring equipment, connecting the test monitoring equipment to a test server, performing identity authentication, and establishing trusted connection after the authentication is passed;

and carrying out communication connection and power connection on the tested object and the test monitoring equipment, configuring relevant parameters of the tested object after the tested object is started and works normally, and waiting for the tested object to be accessed into a test server.

3. The method of claim 2, wherein configuring the parameters related to the object to be tested, and after waiting for the object to be tested to access the test server, further comprises:

carrying out image recognition on the device type of the tested object according to the test monitoring device, and reading the device information and the unique code of the tested object;

and sending the device type and the unique code of the tested object to a test server for verification, wherein the verification is finished when the verification fails, and the verification is continued when the verification passes.

4. The method of claim 3, further comprising:

after the verification is passed, determining a test scheme through the selection of a user on a display interface of the test monitoring equipment;

and detecting whether the test monitoring equipment meets the test conditions, refusing to execute the test and prompting a user if the test monitoring equipment does not meet the test conditions, and initiating a test execution request to a test server if the test monitoring equipment meets the test conditions.

5. The method of claim 1, further comprising:

after the test is finished, prompting a user of finishing the test through a display interface of the test monitoring equipment, generating a test report by the test server, and generating a test certification certificate for qualified test by the test server; or alternatively

And the user applies for a test report and a test certification certificate to the detection mechanism according to the Token code corresponding to the test, the detection mechanism verifies the generated test report and test certification certificate, and the user downloads the test report and the test certification certificate of the electronic version through the test monitoring equipment after the verification is passed.

6. A client-side energy measurement data exchange protocol remote test system, comprising:

the system comprises a Token code generating module, a testing monitoring device and a remote testing and executing module, wherein the Token code generating module is used for generating a unique Token code corresponding to the test after a testing server receives a test executing request sent by the testing monitoring device, sending the Token code to the testing monitoring device, synchronizing a corresponding testing scheme and a testing case to the testing monitoring device according to the Token code, and starting and executing the remote testing of the energy measuring data exchange protocol at the client side;

the synchronous test case module is used for providing simulation data and external excitation for the tested object through the test monitoring equipment, updating a test case in real time according to the test steps and the test condition feedback of the current tested object, synchronizing the test case to the test monitoring equipment and realizing protocol consistency test and protocol interoperability test on the tested object;

wherein the system further comprises:

and the continuous monitoring module is used for continuously monitoring the state of the object to be tested through the test monitoring equipment, ensuring that the object to be tested is not interfered by the outside and is always in a normal test state, and otherwise, terminating the test process.

7. The system of claim 6, wherein before the Token code generation module receives the test execution request sent by the monitoring and detection device, the system further comprises:

establishing a trusted connection module for configuring remote communication parameters of test monitoring equipment, connecting the test monitoring equipment to a test server, performing identity authentication, and establishing trusted connection after the authentication is passed;

and the parameter configuration module is used for carrying out communication connection and power supply connection on the tested object and the test monitoring equipment, configuring relevant parameters of the tested object after the tested object is started and works normally, and waiting for the tested object to be accessed into the test server.

8. The system of claim 7, further comprising:

the reading equipment information module is used for carrying out image recognition on the equipment type of the tested object according to the test monitoring equipment and reading the equipment information and the unique code of the tested object;

and the tested object verification module is used for sending the device type and the unique code of the tested object to the test server for verification, and the verification is finished when the verification fails and is continued when the verification passes.

9. The system of claim 8, further comprising:

the test scheme determining module is used for determining a test scheme through the selection of a user on a display interface of the test monitoring equipment after the verification is passed;

and the detection monitoring equipment module is used for detecting whether the test monitoring equipment meets the test conditions, refusing to execute the test and prompting the user if the test monitoring equipment does not meet the test conditions, and initiating a test execution request to the test server if the test monitoring equipment meets the test conditions.

10. The system of claim 6, further comprising:

the test report and certification generation module is used for prompting a user that the test is finished through a display interface of the test monitoring equipment after the test is finished, generating a test report by the test server, and generating a test certification for qualified test by the test server; or alternatively

And the test report and certification module is used for applying a test report and a test certification to a detection mechanism by a user according to the Token code corresponding to the test, verifying the generated test report and test certification by the detection mechanism, and downloading the test report and the test certification of the electronic version by the user through the test monitoring equipment after the verification is passed.

11. A client-side energy measurement data exchange protocol remote test system is characterized by comprising a test server, test monitoring equipment and tested equipment;

the test server is used for generating a unique Token code corresponding to the test after receiving a test execution request sent by the test monitoring equipment, sending the Token code to a tested object through the test monitoring equipment, synchronizing a corresponding test scheme and a test case to the test monitoring equipment according to the Token code, and starting and executing the client side energy measurement data exchange protocol remote test;

the test monitoring equipment is used for providing simulation data and external excitation for the tested object, updating a test case in real time according to the test step and the test condition feedback of the current tested object, synchronizing the test case to the test monitoring equipment and realizing protocol consistency test and protocol interoperability test on the tested object;

the measured object is a client side energy measuring device;

after the client-side energy measurement data exchange protocol remote test is started and executed, the method comprises the following steps:

the state of the tested object is continuously monitored through the test monitoring equipment, the tested object is ensured not to be interfered by the outside and is always in a normal test state, and otherwise, the test flow is terminated.

12. The system of claim 11, wherein the object under test comprises at least one or more of:

the intelligent internet of things lockset, the intelligent measuring switch, the household appliance following device metering, the charging pile and the photovoltaic inverter.

13. A computer-readable storage medium, characterized in that the storage medium stores a computer program for performing the method of any of the preceding claims 1-5.

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