CN113325746A - Unified management control method and system for laboratory equipment - Google Patents

Abstract

The invention discloses a unified management control method and a system of laboratory equipment, wherein the method comprises the following steps: the method comprises the steps of establishing communication connection between a preset server and a control device, uniformly connecting equipment in a laboratory with the control device, receiving an equipment use request sent by a target user on a terminal app through the preset server, generating an equipment calling instruction according to the equipment use request, starting target equipment related to the equipment calling instruction by using the control device for the target user to use, closing the target equipment by using the control device after the target user finishes using, and generating an equipment use record table of the target user on the preset server to be fed back to the terminal app. The device has the advantages that the management and control of the multiple devices are achieved through one device, the management cost is saved to a great extent, meanwhile, the communication connection is achieved through the server and the control device, so that the centralized management and use of the devices in a laboratory can be achieved through terminal apps by workers, and a large amount of labor cost is saved, and the devices are specially controlled.

Description

Unified management control method and system for laboratory equipment

Technical Field

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

Background

With the development of communication network technology, the requirements of communication frontier technology research and development, tests and tests are more and more urgent, and a communication laboratory is an indispensable tool for communication frontier technology research, so that the orderly management specifications of the laboratory are basic conditions for ensuring the smooth completion of the communication frontier technology research and development, the tests and the tests. The traditional laboratory equipment management mode depends on manual work, namely, managers manually manage each laboratory equipment, the cost in the operation process of the laboratory equipment accounts for more and more of the management cost, and the defects of intelligent management and informatization progress are increasingly prominent to cause a plurality of problems: such as high energy consumption, automatic control, centralized management and the like.

Disclosure of Invention

In view of the above-mentioned problems, the present invention provides a unified management control method and system for laboratory devices, which are used to solve the problems that the traditional management method for laboratory devices in the background art depends on manual work, i.e. a manager manages each laboratory device manually, the cost of operating the laboratory devices accounts for more and more of the management cost, and the disadvantages of the intelligent and information management processes are increasingly prominent: such as high energy consumption, automatic control failure, centralized management failure, etc.

A unified management control method for laboratory equipment comprises the following steps:

establishing communication connection between a preset server and a control device, and uniformly connecting equipment in a laboratory with the control device;

receiving a device use request sent by a target user on a terminal app through the preset server, and generating a device call instruction according to the device use request;

starting a target device related to the device calling instruction by using the control device for a target user to use;

and after the target user finishes using, closing the target equipment by using the control device, and generating an equipment use record table of the target user on the preset server to feed back the equipment use record table to the terminal app.

Preferably, the establishing of the communication connection between the preset server and the control device to connect the devices in the laboratory to the control device in a unified manner includes:

acquiring public wifi in wifi which can be connected with the preset server and the control device respectively;

the communication connection between the preset server and the control device is realized by utilizing the public wifi;

acquiring configuration information and state information of each device in a laboratory, and searching a control parameter corresponding to each device according to the configuration information and the state information of each device by using the preset server;

and transmitting the control parameter corresponding to each device to the control device, connecting the control device with the circuit of each device in the laboratory, and generating a unified management instruction according to the control parameter corresponding to each device to realize the unified connection between the control device and the devices in the laboratory.

Preferably, before receiving, by the preset server, a device use request sent by a target user on a terminal app, and generating a device invocation instruction according to the device use request, the method further includes:

acquiring a server connection request sent by the terminal app;

obtaining a connection key by using a preset encryption algorithm according to the server connection request;

determining whether the connection key is a preset service server storage key or not, if so, connecting the network connection between the preset server and the terminal app, otherwise, acquiring the identity information of the target user;

and determining whether the target user has the equipment using authority according to the identity information of the target user, if so, generating a brand new connection key, connecting the connection between a preset server and the terminal app according to the brand new connection key, and sending the brand new connection key to the terminal app.

Preferably, the device call instruction includes: a first device call instruction and a second device call instruction;

the receiving, by the preset server, a device use request sent by a target user on a terminal app, and generating a device call instruction according to the device use request includes:

analyzing the device use request to obtain a first number of first target devices required to be used by a target user;

acquiring a current experimental subject of a target user, and determining a second number of second target devices related to the current experimental subject;

determining whether the number and the device name of the first target device and the second target device are the same, if so, generating a first device calling instruction according to a first target control parameter corresponding to the first number of first target devices, and otherwise, sending a request whether the second number of second target devices are the use standard or not to the terminal app;

and receiving request feedback returned by the terminal app, and generating a second device calling instruction according to second target control parameters corresponding to a second number of second target devices when the request feedback confirms that the second number of second target devices are the use standard.

Preferably, before the target device related to the device call instruction is started by the control device for the target user to use, the method further includes:

setting an independent power supply connecting switch for each device in a laboratory;

and connecting the control device with the power supply connection switch corresponding to each device to turn on or off each device.

Preferably, the starting, by the control device, a target device associated with the device call instruction for use by a target user includes:

determining a target power supply connection switch corresponding to the target equipment;

turning on the target power connection switch by using the control device to start the target equipment;

and acquiring the current working state of the target equipment in real time to determine whether a user uses the target equipment, monitoring working parameters of the target equipment if the current working state of the target equipment is determined, uploading the working parameters to a preset server in real time, and otherwise, sending a prompt that the target equipment can be used to the terminal app.

Preferably, the method further comprises:

acquiring equipment identification information and attribute acquisition items of each equipment in a laboratory;

searching an acquisition method corresponding to the attribute acquisition item of each device in a pre-constructed management library;

acquiring the attribute of each device by using an acquisition method corresponding to the attribute acquisition item of each device on the basis of the device identification information to acquire an attribute acquisition result;

and judging whether the equipment in the laboratory is abnormal or not according to the attribute acquisition result of each equipment, and feeding back the judgment result to the preset server.

Preferably, the step of judging whether the devices in the laboratory are abnormal according to the attribute collection result of each device includes:

acquiring a plurality of attribute factors in an attribute acquisition result of each device;

determining the contribution rate and the observation vector of each attribute factor in the attribute acquisition result of each device;

calculating the health degree of each device according to the contribution rate of each attribute factor in the attribute acquisition result of each device and the observation vector:

wherein S is_iExpressed as the health of the device i, iN is expressed as the number of attribute factors iN the device i, Q_jThe contribution, p, expressed as the jth attribute factor_jThe observation vector, p, expressed as the jth attribute factor_j1Expressed as the desired vector of the jth attribute factor, beta expressed as an error coefficient, M_jThe response frequency, α, expressed as the jth attribute factor_iExpressed as i operating frequencies of the device, A_iDenoted as device iBy the coefficient, B_iExpressed as the maintenance factor for the device i;

calculating the fault rate of each device according to the health degree of each device:

wherein D is_iExpressed as the failure rate of the equipment i, and e is expressed as a natural constant with a value of 2.72 mu_1iExpressed as the used life factor, μ, of the device i_2iExpressed as the coefficient of life of the device i, G_iExpressed as the defect index, T, of the device i_iDenoted as maintenance frequency of the device i;

and confirming whether the failure rate of each device is greater than or equal to a preset probability, if so, confirming that the device is abnormal, and otherwise, confirming that the device is normal.

A unified management control system for laboratory equipment, the system comprising:

the connection module is used for establishing communication connection between a preset server and the control device and uniformly connecting equipment in a laboratory with the control device;

the first generation module is used for receiving a device use request sent by a target user on the terminal app through the preset server and generating a device call instruction according to the device use request;

the starting module is used for starting the target equipment related to the equipment calling instruction by using the control device so as to be used by a target user;

and the second generation module is used for closing the target equipment by using the control device after the target user finishes using, and generating an equipment use record table of the target user on the preset server and feeding the equipment use record table back to the terminal app.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

FIG. 1 is a flowchart illustrating a unified management control method for laboratory equipment according to the present invention;

FIG. 2 is another flowchart of a unified management control method for laboratory equipment according to the present invention;

FIG. 3 is a flowchart illustrating a unified management control method for a laboratory device according to the present invention;

fig. 4 is a schematic structural diagram of a unified management control system for laboratory equipment according to the present invention.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

With the development of communication network technology, the requirements of communication frontier technology research and development, tests and tests are more and more urgent, and a communication laboratory is an indispensable tool for communication frontier technology research, so that the orderly management specifications of the laboratory are basic conditions for ensuring the smooth completion of the communication frontier technology research and development, the tests and the tests. The traditional laboratory equipment management mode depends on manual work, namely, managers manually manage each laboratory equipment, the cost in the operation process of the laboratory equipment accounts for more and more of the management cost, and the defects of intelligent management and informatization progress are increasingly prominent to cause a plurality of problems: such as the inability to implement autonomous control, the inability to centrally manage, etc. In order to solve the above problem, the present embodiment discloses a unified management control method for laboratory equipment.

A unified management control method for laboratory equipment, as shown in fig. 1, includes the following steps:

s101, establishing communication connection between a preset server and a control device, and uniformly connecting equipment in a laboratory with the control device;

step S102, receiving a device use request sent by a target user on a terminal app through the preset server, and generating a device call instruction according to the device use request;

step S103, starting target equipment related to the equipment calling instruction by using the control device for a target user to use;

and step S104, after the target user finishes using, the target device is closed by using the control device, and a device usage record table of the target user is generated on the preset server and fed back to the terminal app.

The working principle of the technical scheme is as follows: the method comprises the steps of establishing communication connection between a preset server and a control device, uniformly connecting equipment in a laboratory with the control device, receiving an equipment use request sent by a target user on a terminal app through the preset server, generating an equipment calling instruction according to the equipment use request, starting target equipment related to the equipment calling instruction by using the control device for the target user to use, closing the target equipment by using the control device after the target user finishes using, and generating an equipment use record table of the target user on the preset server to be fed back to the terminal app.

The beneficial effects of the above technical scheme are: the management and control of the plurality of equipment in the laboratory can be realized by one device through unified control of the plurality of equipment in the laboratory by the control device, the management cost is saved to a great extent, meanwhile, the centralized management and use of the equipment in the laboratory can be realized by a worker through a terminal app by realizing communication connection between the server and the control device, a great amount of manpower cost is saved, the equipment is specially controlled and controlled, furthermore, each worker in the laboratory can inquire the own historical equipment use record at any time by generating the equipment use record table of each user, a convenient channel is provided for subsequent experimental work, the working efficiency is improved, the problem that the traditional laboratory equipment management mode depends on manpower, namely, the laboratory equipment is manually managed by a manager, and the cost in the operation process of the laboratory equipment accounts for the management cost more and more is solved, the disadvantages of managing intelligent, informational processes are increasingly prominent and create a number of problems: such as the problems that automatic control cannot be realized and centralized management cannot be realized.

In one embodiment, as shown in fig. 2, the establishing a communication connection between a preset server and a control device to uniformly connect devices in a laboratory to the control device includes:

step S201, acquiring public wifi in wifi which the preset server and the control device can be connected with respectively;

step S202, realizing communication connection between a preset server and a control device by utilizing the public wifi;

step S203, acquiring configuration information and state information of each device in a laboratory, and searching a control parameter corresponding to each device according to the configuration information and the state information of each device by using the preset server;

and S204, transmitting the control parameters corresponding to each device to the control device, connecting the control device with the circuit of each device in the laboratory, and generating a unified management instruction according to the control parameters corresponding to each device to realize the unified connection between the control device and the devices in the laboratory.

The beneficial effects of the above technical scheme are: the control device and the preset server are connected through the public wifi, so that stable connection between the control device and the preset server can be guaranteed, the control device can rapidly and correspondingly preset a device adjusting instruction sent by the server, further, a unified management instruction is generated by determining control parameters of each device, so that the control device can stably control each device, and stability is guaranteed.

In one embodiment, before receiving, by the preset server, a device use request sent by a target user on a terminal app, and generating a device invocation instruction according to the device use request, the method further includes:

acquiring a server connection request sent by the terminal app;

obtaining a connection key by using a preset encryption algorithm according to the server connection request;

determining whether the connection key is a preset service server storage key or not, if so, connecting the network connection between the preset server and the terminal app, otherwise, acquiring the identity information of the target user;

and determining whether the target user has the equipment using authority according to the identity information of the target user, if so, generating a brand new connection key, connecting the connection between a preset server and the terminal app according to the brand new connection key, and sending the brand new connection key to the terminal app.

The beneficial effects of the above technical scheme are: the target user is ensured to have the condition of using the equipment in the laboratory, the property loss or more serious conditions caused by the random use of the equipment in the laboratory by outsiders are avoided, and the safety is improved.

In one embodiment, the device call instruction comprises: a first device call instruction and a second device call instruction;

the receiving, by the preset server, a device use request sent by a target user on a terminal app, and generating a device call instruction according to the device use request includes:

analyzing the device use request to obtain a first number of first target devices required to be used by a target user;

acquiring a current experimental subject of a target user, and determining a second number of second target devices related to the current experimental subject;

determining whether the number and the device name of the first target device and the second target device are the same, if so, generating a first device calling instruction according to a first target control parameter corresponding to the first number of first target devices, and otherwise, sending a request whether the second number of second target devices are the use standard or not to the terminal app;

and receiving request feedback returned by the terminal app, and generating a second device calling instruction according to second target control parameters corresponding to a second number of second target devices when the request feedback confirms that the second number of second target devices are the use standard.

The beneficial effects of the above technical scheme are: by recommending all devices related to the subject to the target user, the situations that some devices are forgotten to be added into the device use request due to negligence of the target user, the final experiment process cannot be completed and the like can be avoided, and the experience of the user is improved.

In one embodiment, before the target device associated with the device call instruction is started for use by the target user by the control apparatus, the method further comprises:

setting an independent power supply connecting switch for each device in a laboratory;

and connecting the control device with the power supply connection switch corresponding to each device to turn on or off each device.

The beneficial effects of the above technical scheme are: the independent power connection switch is arranged for each device, so that each device is not influenced by other devices in the working process, independent power supply management of each device is guaranteed, energy consumption is reduced, and cost and electric energy resources are saved to a certain extent.

In one embodiment, initiating, with the control device, a target device associated with the device invocation instruction for use by a target user includes:

determining a target power supply connection switch corresponding to the target equipment;

turning on the target power connection switch by using the control device to start the target equipment;

and acquiring the current working state of the target equipment in real time to determine whether a user uses the target equipment, monitoring working parameters of the target equipment if the current working state of the target equipment is determined, uploading the working parameters to a preset server in real time, and otherwise, sending a prompt that the target equipment can be used to the terminal app.

The beneficial effects of the above technical scheme are: the target user can use the equipment which is required to be used by the target user in the first time by reminding the target user, and the target user can send out a reminder to use when the attention of the target user is not concentrated, so that the experience of the user is further improved.

In one embodiment, as shown in fig. 3, the method further comprises:

s301, acquiring equipment identification information and attribute acquisition items of each equipment in a laboratory;

step S302, searching an acquisition method corresponding to the attribute acquisition item of each device in a pre-constructed management library;

step S303, collecting the attribute of each device by using the collecting method corresponding to the attribute collecting item of each device based on the device identification information to obtain an attribute collecting result;

and S304, judging whether the equipment in the laboratory is abnormal or not according to the attribute acquisition result of each equipment, and feeding back the judgment result to the preset server.

The beneficial effects of the above technical scheme are: whether the abnormal equipment exists or not can be judged by collecting the attribute of each equipment, whether the equipment is abnormal or not can be evaluated in the working process of the equipment, the abnormal condition of the equipment does not need to be detected when the equipment is in a non-working state, the working efficiency is further improved, and meanwhile, the judgment is carried out by utilizing the attribute, and compared with the judgment of the acquisition parameter in the prior art, the judgment accuracy is higher and the judgment is safer.

In one embodiment, the step of determining whether the devices in the laboratory are abnormal according to the attribute collection result of each device includes:

acquiring a plurality of attribute factors in an attribute acquisition result of each device;

determining the contribution rate and the observation vector of each attribute factor in the attribute acquisition result of each device;

calculating the health degree of each device according to the contribution rate of each attribute factor in the attribute acquisition result of each device and the observation vector:

wherein S is_iExpressed as the health of the device i, iN is expressed as the number of attribute factors iN the device i, Q_jThe contribution, p, expressed as the jth attribute factor_jThe observation vector, p, expressed as the jth attribute factor_j1Expressed as the desired vector for the jth attribute factor,_βexpressed as error coefficients, Mj is expressed as the response frequency of the j-th property factor, alpha_iExpressed as i operating frequencies of the device, A_iExpressed as the utilization coefficient of the device i, B_iExpressed as the maintenance factor for the device i;

calculating the fault rate of each device according to the health degree of each device:

wherein D is_iExpressed as the failure rate of the equipment i, and e is expressed as a natural constant with a value of 2.72 mu_1iExpressed as the used life factor, μ, of the device i_2iExpressed as the coefficient of life of the device i, G_iExpressed as the defect index, T, of the device i_iDenoted as maintenance frequency of the device i;

and confirming whether the failure rate of each device is greater than or equal to a preset probability, if so, confirming that the device is abnormal, and otherwise, confirming that the device is normal.

The beneficial effects of the above technical scheme are: the health degree of each device can be accurately calculated according to the potential parameters of each device by calculating the health degree of each device according to the attribute factor parameters in the attribute acquisition results of each device, and then whether the device is replaced can be evaluated by workers according to the health degree, so that the safety in a laboratory is ensured.

The embodiment also discloses a unified management control system of laboratory equipment, as shown in fig. 4, the system includes:

a connection module 401, configured to establish a communication connection between a preset server and a control device, and uniformly connect devices in a laboratory to the control device;

a first generating module 402, configured to receive, through the preset server, a device use request sent by a target user on a terminal app, and generate a device call instruction according to the device use request;

a starting module 403, configured to start, by using the control apparatus, a target device related to the device call instruction for a target user to use;

and a second generating module 404, configured to close the target device by using the control device after the target user finishes using, and generate a device usage record table of the target user on the preset server and feed the device usage record table back to the terminal app.

The working principle and the advantageous effects of the above technical solution have been explained in the method claims, and are not described herein again.

It will be understood by those skilled in the art that the first and second terms of the present invention refer to different stages of application.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (9)

1. A unified management control method for laboratory equipment is characterized by comprising the following steps:

establishing communication connection between a preset server and a control device, and uniformly connecting equipment in a laboratory with the control device;

receiving a device use request sent by a target user on a terminal app through the preset server, and generating a device call instruction according to the device use request;

starting a target device related to the device calling instruction by using the control device for a target user to use;

and after the target user finishes using, closing the target equipment by using the control device, and generating an equipment use record table of the target user on the preset server to feed back the equipment use record table to the terminal app.

2. The method for unified management and control of laboratory equipment according to claim 1, wherein said establishing a communication connection between a preset server and a control device to uniformly connect the laboratory equipment to the control device comprises:

acquiring public wifi in wifi which can be connected with the preset server and the control device respectively;

the communication connection between the preset server and the control device is realized by utilizing the public wifi;

acquiring configuration information and state information of each device in a laboratory, and searching a control parameter corresponding to each device according to the configuration information and the state information of each device by using the preset server;

and transmitting the control parameter corresponding to each device to the control device, connecting the control device with the circuit of each device in the laboratory, and generating a unified management instruction according to the control parameter corresponding to each device to realize the unified connection between the control device and the devices in the laboratory.

3. The unified management control method for laboratory devices according to claim 1, wherein before receiving, by the preset server, a device usage request issued by a target user on a terminal app, and generating a device invocation command according to the device usage request, the method further comprises:

acquiring a server connection request sent by the terminal app;

obtaining a connection key by using a preset encryption algorithm according to the server connection request;

determining whether the connection key is a preset service server storage key or not, if so, connecting the network connection between the preset server and the terminal app, otherwise, acquiring the identity information of the target user;

and determining whether the target user has the equipment using authority according to the identity information of the target user, if so, generating a brand new connection key, connecting the connection between a preset server and the terminal app according to the brand new connection key, and sending the brand new connection key to the terminal app.

4. The unified management control method for laboratory equipment according to claim 1, wherein said equipment call command comprises: a first device call instruction and a second device call instruction;

the receiving, by the preset server, a device use request sent by a target user on a terminal app, and generating a device call instruction according to the device use request includes:

analyzing the device use request to obtain a first number of first target devices required to be used by a target user;

acquiring a current experimental subject of a target user, and determining a second number of second target devices related to the current experimental subject;

determining whether the number and the device name of the first target device and the second target device are the same, if so, generating a first device calling instruction according to a first target control parameter corresponding to the first number of first target devices, and otherwise, sending a request whether the second number of second target devices are the use standard or not to the terminal app;

and receiving request feedback returned by the terminal app, and generating a second device calling instruction according to second target control parameters corresponding to a second number of second target devices when the request feedback confirms that the second number of second target devices are the use standard.

5. The unified management control method for laboratory equipment according to claim 1, wherein before starting the target equipment related to the equipment call instruction by using the control device for the target user, the method further comprises:

setting an independent power supply connecting switch for each device in a laboratory;

and connecting the control device with the power supply connection switch corresponding to each device to turn on or off each device.

6. The unified management control method for laboratory equipment according to claim 5, wherein the starting, by the control device, the target equipment related to the equipment call instruction for the target user comprises:

determining a target power supply connection switch corresponding to the target equipment;

turning on the target power connection switch by using the control device to start the target equipment;

and acquiring the current working state of the target equipment in real time to determine whether a user uses the target equipment, monitoring working parameters of the target equipment if the current working state of the target equipment is determined, uploading the working parameters to a preset server in real time, and otherwise, sending a prompt that the target equipment can be used to the terminal app.

7. The unified management control method for laboratory equipment according to claim 1, further comprising:

acquiring equipment identification information and attribute acquisition items of each equipment in a laboratory;

searching an acquisition method corresponding to the attribute acquisition item of each device in a pre-constructed management library;

acquiring the attribute of each device by using an acquisition method corresponding to the attribute acquisition item of each device on the basis of the device identification information to acquire an attribute acquisition result;

and judging whether the equipment in the laboratory is abnormal or not according to the attribute acquisition result of each equipment, and feeding back the judgment result to the preset server.

8. The unified management control method for laboratory equipment according to claim 7, wherein said step of determining whether the equipment in the laboratory is abnormal according to the attribute collection result of each equipment comprises:

acquiring a plurality of attribute factors in an attribute acquisition result of each device;

determining the contribution rate and the observation vector of each attribute factor in the attribute acquisition result of each device;

calculating the health degree of each device according to the contribution rate of each attribute factor in the attribute acquisition result of each device and the observation vector:

wherein S is_iExpressed as the health of the device i, iN is expressed as the number of attribute factors iN the device i, Q_jThe contribution, p, expressed as the jth attribute factor_jThe observation vector, p, expressed as the jth attribute factor_j1Expressed as the desired vector of the jth attribute factor, beta expressed as an error coefficient, M_jThe response frequency, α, expressed as the jth attribute factor_iExpressed as i operating frequencies of the device, A_iExpressed as the utilization coefficient of the device i, B_iMaintenance system denoted as equipment iCounting;

calculating the fault rate of each device according to the health degree of each device:

wherein D is_iExpressed as the failure rate of the equipment i, and e is expressed as a natural constant with a value of 2.72 mu_1iExpressed as the used life factor, μ, of the device i_2iExpressed as the coefficient of life of the device i, G_iExpressed as the defect index, T, of the device i_iDenoted as maintenance frequency of the device i;

and confirming whether the failure rate of each device is greater than or equal to a preset probability, if so, confirming that the device is abnormal, and otherwise, confirming that the device is normal.

9. A unified management control system for laboratory equipment, the system comprising:

the connection module is used for establishing communication connection between a preset server and the control device and uniformly connecting equipment in a laboratory with the control device;

the first generation module is used for receiving a device use request sent by a target user on the terminal app through the preset server and generating a device call instruction according to the device use request;

the starting module is used for starting the target equipment related to the equipment calling instruction by using the control device so as to be used by a target user;

and the second generation module is used for closing the target equipment by using the control device after the target user finishes using, and generating an equipment use record table of the target user on the preset server and feeding the equipment use record table back to the terminal app.

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