CN108846285B - Model machine management method and model machine management system - Google Patents

Abstract

The invention provides a model machine management method and a model machine management system, wherein the method comprises the following steps: the model machine management self-checking module detects whether the test platform has a management model and a timing model in real time; if not, the management model and the timing model preset in the test module are synchronously established in the test platform, and the counting of the associated timing model is synchronized. The model machine management method and the model machine management system detect whether the test platform has a management model and a timing model in real time through the model machine management self-checking module; if not, the management model and the timing model preset in the testing module are synchronously established in the testing platform, the counting of the timing model is synchronously associated, the management model and the timing model solidified in the testing module are synchronized in the testing platform, and the model machine management is combined in a soft mode and a hard mode, so that the model machine management system is not easy to crack.

Description

Model machine management method and model machine management system

Technical Field

The invention relates to the field of computer application, in particular to a prototype management method and a prototype management system.

Background

The current information technology is rapidly developed, and equipment and networks are rapidly advanced, so that more test instruments are needed to verify and test the transmission performance of the equipment and the networks. Because the price of the test instrument is high, most users need to try the test instrument before purchasing the test instrument to know the test performance of the instrument and whether the test instrument can meet the requirements of field test and maintenance, at this time, a company test prototype needs to be sent to the users for trial, however, after the company test prototype is sent to the users, the users are delayed to return or not return for various reasons, and the economic loss of the company is caused.

For this situation, there are two methods for conventional prototype management, one is to define prototype functions, such as half-open functions or disable some functions for the user, and the other is to define the lifetime for the user, such as 30 days for use, and the meter is automatically locked after 30 days and is not available.

The first model machine management method is basically not applicable to the model machines, because the functions of the test meters are many, but the common functions are few, and the user tries the conventional functions, and the user cannot use the conventional functions if the conventional functions are forbidden. Therefore, the second prototype management method is commonly used. The second management method is to limit the service life, which is generally controlled by software, i.e. from what time, when the computer is started, whether the current time is within the trial period is judged, and if not, the software is prohibited from being started. This approach can play a certain management role, but also has the following disadvantages:

firstly, if the limitation is simply carried out by using the time difference, a user only needs to modify the system time and change the current time into the current time within the trial period;

secondly, if the time is recorded on the flash (memory) in an accumulation mode instead of being managed in a time difference mode, a user can easily crack the system by using a flash (memory) formatting mode or a system reinstalling mode.

Therefore, a prototype management method and a prototype management system are needed.

Disclosure of Invention

The invention aims to provide a model machine management method and a model machine management system, wherein the model machine management method and the model machine management system detect whether a test platform has a management model and a timing model in real time through a model machine management self-checking module; if not, the management model and the timing model solidified in the test module are synchronized to the test platform, and the model machine management is combined in a soft mode and a hard mode, so that the model machine management system is not easy to crack.

In one aspect of the invention, a prototype management method is provided, which comprises the following steps:

the model machine management self-checking module detects whether the test platform has a management model and a timing model in real time;

if not, the management model and the timing model preset in the test module are synchronously established in the test platform, and the counting of the associated timing model is synchronized.

Further, the prototype management method further comprises the following steps:

receiving a starting signal sent by the test platform by using a management model installed in the test platform, converting the starting signal into a timing starting signal and sending the timing starting signal to a timing model installed in the test platform;

starting to accumulate time by using a timing model installed in the test platform, and brushing the accumulated time into the timing model in the test module;

when the accumulated time reaches a preset value by using a timing model installed in the test platform, forbidding the test platform and the test module;

receiving a starting signal sent by a test platform by using a management model installed in a test module, converting the starting signal into a timing starting signal and sending the timing starting signal to a timing model installed in the test module;

starting to accumulate time by using a timing model installed in the test module;

and when the accumulated time reaches a preset value by using a timing model installed in the test module, forbidding the test platform and the test module.

Further, the prototype management method further comprises the following steps:

receiving a starting signal sent by the test platform by using a permission search model installed in the test platform, searching permission data in the test platform according to the starting signal, sending the starting signal to a management model installed in the test platform when the test platform searches the permission data, and otherwise, sending the starting signal to the permission search model installed in the test module;

and searching the license data in the test module according to the starting signal by using the license searching model installed in the test module, and sending the starting signal to the management model installed in the test module when the test module searches the license data, otherwise, using the prototype as a product for normal use.

Further, the prototype management method further comprises the following steps: and the battery module is used for supplying power to the test platform so as to ensure that the test platform is not powered off.

Further, the prototype management method further comprises the following steps:

displaying the accumulated time by using a display module;

and encrypting the accumulated time by using a display encryption module.

In another aspect of the present invention, a prototype management system for implementing the above-described prototype management method is provided, including:

a management model and a timing model installed on the test platform;

solidifying the management model and the timing model in the test module;

and the model machine management self-checking module is used for detecting whether the test platform has a management model and a timing model in real time, and if not, synchronously establishing the management model and the timing model preset in the test module into the test platform and synchronously associating the counting of the timing model.

Further, the prototype management system further comprises:

the management model is arranged in the test platform and used for receiving a starting signal sent by the test platform, converting the starting signal into a timing starting signal and sending the timing starting signal to the timing model arranged in the test platform;

the timing model is arranged in the test platform and used for starting to accumulate time, brushing the accumulated time into the timing model in the test module, and forbidding the test platform and the test module when the accumulated time reaches a preset value;

the management model is arranged in the test module and used for receiving a starting signal sent by the test platform, converting the starting signal into a timing starting signal and sending the timing starting signal to the timing model arranged in the test module;

and the timing model is arranged in the test module and used for starting to accumulate time and forbidding the test platform and the test module when the accumulated time reaches a preset value.

Further, the prototype management system further comprises:

the permission searching model is installed in the test platform and used for receiving a starting signal sent by the test platform, searching permission data in the test platform according to the starting signal, sending the starting signal to the management model installed in the test platform when the test platform searches the permission data, and otherwise, sending the starting signal to the permission searching model installed in the test module;

and the permission searching model is arranged in the test module and used for searching permission data in the test module according to the starting signal, when the test module searches the permission data, the starting signal is sent to the management model arranged in the test module, otherwise, the prototype is used as a product to be normally used.

Further, the prototype management system further comprises:

and the battery module is used for supplying power to the test platform so as to ensure that the test platform is not powered off.

Further, the prototype management system further comprises:

the display module is used for displaying the accumulated time;

and the display encryption module is used for encrypting the accumulated time.

Compared with the prior art, the invention has the following advantages:

1. the model machine management method and the model machine management system detect whether the test platform has a management model and a timing model in real time through the model machine management self-checking module; if not, the management model and the timing model preset in the testing module are synchronously established in the testing platform, the counting of the timing model is synchronously associated, the management model and the timing model solidified in the testing module are synchronized in the testing platform, and the model machine management is combined in a soft mode and a hard mode, so that the model machine management system is not easy to crack.

2. According to the method and the system, the timing model and the management model are arranged in the test platform and the test module, the accumulated time is recorded on the test module, and the prototype is subjected to double control through software and hardware combination, so that the prototype management system is not easy to crack.

3. The method and the system ensure that the test platform is not powered off by supplying power to the test platform through the battery module, so that the accumulated time is uninterrupted.

The foregoing description is only an overview of the technical solutions of the present invention, and the embodiments of the present invention are described below in order to make the technical means of the present invention more clearly understood and to make the above and other objects, features, and advantages of the present invention more clearly understandable.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

FIG. 1 is a diagram of steps of a prototype management method of the present invention;

FIG. 2 is a block diagram of a prototype management system according to an embodiment of the present invention;

fig. 3 is a schematic diagram of the application of the prototype management method and the prototype management system of the invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

It will be understood by those skilled in the art that, unless otherwise defined, all 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. It will be further 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 prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

Fig. 1 is a step diagram of a prototype management method of the present invention, and as shown in fig. 1, the prototype management method provided by the present invention comprises the following steps: the model machine management self-checking module detects whether the test platform has a management model and a timing model in real time; if not, the management model and the timing model preset in the test module are synchronously established in the test platform, and the counting of the associated timing model is synchronized. The model machine management method of the invention detects whether a test platform has a management model and a timing model in real time through a model machine management self-checking module; if not, the management model and the timing model preset in the testing module are synchronously established in the testing platform, the counting of the timing model is synchronously associated, the management model and the timing model solidified in the testing module are synchronized in the testing platform, and the model machine management system is enabled not to be easily cracked due to the fact that the management model and the timing model solidified in the testing module cannot be deleted, when the management model and the timing model on the testing platform are deleted, the management model and the timing model solidified in the testing module are synchronized in the testing platform, and the model machine management system is enabled not to be easily cracked due to the fact that the management model and the timing model solidified in the testing module are combined in a soft and hard mode.

The prototype management method further comprises the following steps: receiving a starting signal sent by the test platform by using a management model installed in the test platform, converting the starting signal into a timing starting signal and sending the timing starting signal to a timing model installed in the test platform; starting to accumulate time by using a timing model installed in the test platform, and brushing the accumulated time into the timing model in the test module; when the accumulated time reaches a preset value by using a timing model installed in the test platform, forbidding the test platform and the test module; receiving a starting signal sent by a test platform by using a management model installed in a test module, converting the starting signal into a timing starting signal and sending the timing starting signal to a timing model installed in the test module; starting to accumulate time by using a timing model installed in the test module; and when the accumulated time reaches a preset value by using a timing model installed in the test module, forbidding the test platform and the test module. The method of the invention carries out double control on the prototype by setting the timing model and the management model in the test platform and the test module and recording the accumulated time on the test module, so that the prototype management system is not easy to crack.

The prototype management method further comprises the following steps: receiving a starting signal sent by the test platform by using a permission search model installed in the test platform, searching permission data in the test platform according to the starting signal, sending the starting signal to a management model installed in the test platform when the test platform searches the permission data, and otherwise, sending the starting signal to the permission search model installed in the test module; and searching the license data in the test module according to the starting signal by using the license searching model installed in the test module, and sending the starting signal to the management model installed in the test module when the test module searches the license data, otherwise, using the prototype as a product for normal use. The prototype management method of the invention judges whether the prototype is normally used as a product or not through the permission search model installed in the test platform and the permission search model in the test module.

The prototype management method further comprises the following steps: and the battery module is used for supplying power to the test platform so as to ensure that the test platform is not powered off. The method of the invention supplies power to the test platform through the battery module to ensure that the test platform is not powered off, so that the accumulated time is uninterrupted.

The prototype management method further comprises the following steps: displaying the accumulated time by using a display module; and encrypting the accumulated time by using a display encryption module.

Fig. 2 is a structural block diagram of a prototype management system according to an embodiment of the present invention, and as shown in fig. 2, the prototype management system for implementing the prototype management method according to the present invention includes: a management model and a timing model installed on the test platform; solidifying the management model and the timing model in the test module; and the model machine management self-checking module is used for detecting whether the test platform has a management model and a timing model in real time, and if not, synchronously establishing the management model and the timing model preset in the test module into the test platform and synchronously associating the counting of the timing model. The model machine management system detects whether a test platform has a management model and a timing model in real time through a model machine management self-checking module; if not, the management model and the timing model preset in the testing module are synchronously established in the testing platform, the counting of the timing model is synchronously associated, the management model and the timing model solidified in the testing module are synchronized in the testing platform, and the model machine management system is enabled not to be easily cracked due to the fact that the management model and the timing model solidified in the testing module cannot be deleted, when the management model and the timing model on the testing platform are deleted, the management model and the timing model solidified in the testing module are synchronized in the testing platform, and the model machine management system is enabled not to be easily cracked due to the fact that the management model and the timing model solidified in the testing module are combined in a soft and hard mode.

The prototype management system further comprises: the management model is arranged in the test platform and used for receiving a starting signal sent by the test platform, converting the starting signal into a timing starting signal and sending the timing starting signal to the timing model arranged in the test platform; the timing model is arranged in the test platform and used for starting to accumulate time, brushing the accumulated time into the timing model in the test module, and forbidding the test platform and the test module when the accumulated time reaches a preset value; the management model is arranged in the test module and used for receiving a starting signal sent by the test platform, converting the starting signal into a timing starting signal and sending the timing starting signal to the timing model arranged in the test module; and the timing model is arranged in the test module and used for starting to accumulate time and forbidding the test platform and the test module when the accumulated time reaches a preset value. According to the system, the timing model and the management model are arranged in the test platform and the test module, and the accumulated time is recorded on the test module, so that the prototype management system is controlled doubly, and is not easy to crack.

The prototype management system further comprises: the permission searching model is installed in the test platform and used for receiving a starting signal sent by the test platform, searching permission data in the test platform according to the starting signal, sending the starting signal to the management model installed in the test platform when the test platform searches the permission data, and otherwise, sending the starting signal to the permission searching model installed in the test module; and the permission searching model is arranged in the test module and used for searching permission data in the test module according to the starting signal, when the test module searches the permission data, the starting signal is sent to the management model arranged in the test module, otherwise, the prototype is used as a product to be normally used. The prototype management system judges whether the prototype is normally used as a product or not through the permission search model installed in the test platform and the permission search model in the test module.

The prototype management system further comprises: and the battery module is used for supplying power to the test platform so as to ensure that the test platform is not powered off. The system of the invention supplies power to the test platform through the battery module to ensure that the test platform is not powered off, so that the accumulated time is uninterrupted.

The prototype management system further comprises: the display module is used for displaying the accumulated time; and the display encryption module is used for encrypting the accumulated time.

Fig. 3 is an application schematic diagram of a prototype management method and a prototype management system of the present invention, for a prototype, the prototype management system is packaged into the prototype through a PC terminal (an interface connected to a personal computer) and is strictly controlled by a special person in a factory, the packaged prototype management system is divided into several parts, one is a PC terminal executable program for a test module, the other is a prototype executable program for a test platform, and the prototype is a WinCE system. When packing, the SN (Serial Number) of the test platform and the test module is needed to control the uniqueness of the prototype, and some control commands, such as opening the management function of the prototype, the trial time is 30 days, and the executable program of the prototype is packed in a multiple encryption mode, so that cracking is effectively prevented. The process of generating the target model machine management system at the computer end is as follows: PC end packing prototype management system; encrypting a target machine model management system; encrypting and writing the SN number (serial number) of the test platform and the SN number of the test module into a prototype management system; the trial days and the control encryption of a model machine switch are written into a model machine management system; and finishing the model machine management system of the target machine. The testing platform is provided with a permission searching model, a management model, a timing model, a battery module and a prototype management self-checking module, and the testing module is provided with the permission searching model, the management model, the timing model, a display module and a display encryption module. The license search model installed on the test platform is electrically connected with the management model installed on the test platform, the management model installed on the test platform is electrically connected with the timing model installed on the test platform, the license search model installed on the test module is electrically connected with the license search model installed on the test platform, the management model installed on the test module is electrically connected with the license search model installed on the test module, the timing model installed on the test module is electrically connected with the management model installed on the test module, the display encryption module is electrically connected with the timing model installed on the test module, and the display module is electrically connected with the display encryption module. As shown in fig. 3, firstly, a prototype is powered on, a test platform judges whether to start a prototype management system by judging whether a permission data can be found by a permission search model installed on the test platform, if the permission search model installed on the test platform finds the permission data, the prototype management system is started, the management model installed on the test platform converts the start signal into a timing start signal and sends the timing start signal to a timing model installed on the test platform, namely, the prototype management system is controlled to start, the timing model installed on the test platform starts to accumulate time and flushes the accumulated time into a test module, namely, the time counted in the test platform is written into a fixed area of the test module, and the prototype use time in the test module is refreshed every hour after the prototype management system is started, so that the use time of the prototype of the test platform is always kept consistent with the time in the test module, the display encryption module encrypts the accumulated time, the display module displays the encrypted accumulated time, and the test platform and the test module are forbidden when the accumulated time reaches a preset value.

If the permission data are not found by the permission search model installed on the test platform, whether the prototype management system is started is judged by judging whether the permission data can be found by the permission search model installed on the test module, if the permission data are found by the permission search model installed on the test module, the prototype management system of the test module is started, the management model installed on the test module converts the starting signal into a timing starting signal and sends the timing starting signal to the timing model installed on the test module, namely, the prototype management system is controlled to be started, the timing model installed on the test module starts to accumulate time and flushes the accumulated time into the test module, the display module encrypts the accumulated time by the encryption module, the display module displays the encrypted accumulated time, and when the accumulated time reaches a preset value, the test platform and the test module are forbidden. At this moment, the user is explained to format or reinstall the test platform, because the systems in the prototype are configured by the merchant, and the reinstallation system still includes the prototype management self-checking module, therefore, the prototype management self-checking module flushes the permission search model installed on the test module into the test platform as the permission search model installed on the test platform, flushes the timing model installed on the test module into the test platform as the timing model installed on the test platform, flushes the management model installed on the test module into the test platform as the management model installed on the test platform, refreshes the service time of the test platform by using the accumulated time recorded on the test module, and the test platform continues to accumulate the time and flushes into the test module. The battery module is a button battery arranged on the prototype mainboard and can continuously work for more than 10 years, so that the button battery can also supply power to the mainboard even if the test platform is powered off, and the accumulated service time on the prototype is ensured to be uninterrupted. Because the testing module does not have a battery, the testing module can not accumulate time under the condition of power failure, and the testing module needs to synchronize time once every hour after the prototype is started.

And if the license searching model installed on the test module does not search the license data, normally starting a prototype, and normally using the prototype as a product.

Because the time on the test module is recorded by hardware, the user is not easy to erase, so even if the test platform is formatted or the system is reinstalled, the prototype management data is lost, the test module can refresh the time for the test platform again, and the prototype management program is ensured not to be invalid.

Because the accumulated time is used by the prototype management system, the recording of the prototype trial time cannot be influenced even if the user changes the date on the test platform.

After the prototype is controlled to be started, the currently used trial time length and the remaining trial time can be displayed in an obvious position.

After the trial is expired, the prototype management system locks the test module and the test platform, the user is prohibited from using the prototype, and at the moment, the user needs to return the prototype or contact the company to apply for trial again, so that the aim of controlling the loss of the prototype is fulfilled.

The invention adopts a mode of combining software and hardware, can effectively control a prototype, because the operation of the hardware needs an interface, the operation can be carried out only by knowing the design principle of the hardware, and the unreliability of the software is compensated by using the principle, so as to overcome the problems that the prototype management is carried out by using the software mode in the prior art, the software is easy to erase and crack, and the prototype cannot be effectively controlled. Therefore, the aim of model machine management is achieved by combining software and hardware, and the user can be prevented from cracking easily.

The model machine management method and the model machine management system adopt a mode of combining the test platform and the test module, if the model machine management is limited on the test platform, a user can continuously use the test module by changing the test platform to the purchased test platform, so that double limitation is required, namely, the test platform and the test module are both limited to play a control purpose.

The prototype management system of the invention needs software, system and hardware to work simultaneously, and is managed cooperatively and not easy to crack.

The above-described system embodiments are merely illustrative, and the units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Through the above description of the embodiments, those skilled in the art will clearly understand that each embodiment can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware. With this understanding in mind, the above-described technical solutions may be embodied in the form of a software product, which can be stored in a computer-readable storage medium such as ROM/RAM, magnetic disk, optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the methods described in the embodiments or some parts of the embodiments.

Furthermore, those skilled in the art will appreciate that while some embodiments herein include some features included in other embodiments, rather than other features, combinations of features of different embodiments are meant to be within the scope of the invention and form different embodiments. For example, in the following claims, any of the claimed embodiments may be used in any combination.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. A prototype management method is characterized by comprising the following steps:

the model machine management self-checking module detects whether the test platform has a management model and a timing model in real time;

if not, synchronously establishing a management model and a timing model preset in the test module into the test platform, and synchronously associating the counting of the timing model, wherein the management model and the timing model are solidified in the test module, and the time of the timing model of the test platform is consistent with that of the timing model of the test module; the management model and the timing model in the test module cannot be deleted, and the accumulated time of the timing model of the test platform and the timing model of the test module is recorded on the test module; the test platform and the test module are electrically connected through the respectively installed permission search model.

2. The prototype management method according to claim 1, further comprising:

receiving a starting signal sent by the test platform by using a management model installed in the test platform, converting the starting signal into a timing starting signal and sending the timing starting signal to a timing model installed in the test platform;

starting to accumulate time by using a timing model installed in the test platform, and brushing the accumulated time into the timing model in the test module;

when the accumulated time reaches a preset value by using a timing model installed in the test platform, forbidding the test platform and the test module;

receiving a starting signal sent by a test platform by using a management model installed in a test module, converting the starting signal into a timing starting signal and sending the timing starting signal to a timing model installed in the test module;

starting to accumulate time by using a timing model installed in the test module;

and when the accumulated time reaches a preset value by using a timing model installed in the test module, forbidding the test platform and the test module.

3. The prototype management method according to claim 2, further comprising:

receiving a starting signal sent by the test platform by using a permission search model installed in the test platform, searching permission data in the test platform according to the starting signal, sending the starting signal to a management model installed in the test platform when the test platform searches the permission data, and otherwise, sending the starting signal to the permission search model installed in the test module;

and searching the license data in the test module according to the starting signal by using the license searching model installed in the test module, and sending the starting signal to the management model installed in the test module when the test module searches the license data, otherwise, using the prototype as a product for normal use.

4. The prototype management method according to claim 3, further comprising: and the battery module is used for supplying power to the test platform so as to ensure that the test platform is not powered off.

5. The prototype management method according to claim 4, further comprising:

displaying the accumulated time by using a display module;

and encrypting the accumulated time by using a display encryption module.

6. A prototype management system for implementing the prototype management method of claim 1, comprising:

a management model and a timing model installed on the test platform;

solidifying the management model and the timing model in the test module;

the model machine management self-checking module is used for detecting whether the test platform has a management model and a timing model in real time, if not, the management model and the timing model preset in the test module are synchronously established in the test platform and are synchronously associated with the counting of the timing model, the management model and the timing model are solidified in the test module, and the time of the timing model of the test platform is consistent with that of the timing model of the test module; the management model and the timing model in the test module cannot be deleted, and the accumulated time of the timing model of the test platform and the timing model of the test module is recorded on the test module; the test platform and the test module are electrically connected through the respectively installed permission search model.

7. The specimen management system according to claim 6, further comprising:

the management model is arranged in the test platform and used for receiving a starting signal sent by the test platform, converting the starting signal into a timing starting signal and sending the timing starting signal to the timing model arranged in the test platform;

the timing model is arranged in the test platform and used for starting to accumulate time, brushing the accumulated time into the timing model in the test module, and forbidding the test platform and the test module when the accumulated time reaches a preset value;

the management model is arranged in the test module and used for receiving a starting signal sent by the test platform, converting the starting signal into a timing starting signal and sending the timing starting signal to the timing model arranged in the test module;

and the timing model is arranged in the test module and used for starting to accumulate time and forbidding the test platform and the test module when the accumulated time reaches a preset value.

8. The specimen management system according to claim 7, further comprising:

the permission searching model is installed in the test platform and used for receiving a starting signal sent by the test platform, searching permission data in the test platform according to the starting signal, sending the starting signal to the management model installed in the test platform when the test platform searches the permission data, and otherwise, sending the starting signal to the permission searching model installed in the test module;

and the permission searching model is arranged in the test module and used for searching permission data in the test module according to the starting signal, when the test module searches the permission data, the starting signal is sent to the management model arranged in the test module, otherwise, the prototype is used as a product to be normally used.

9. The specimen management system according to claim 8, further comprising:

and the battery module is used for supplying power to the test platform so as to ensure that the test platform is not powered off.

10. The specimen management system according to claim 9, further comprising:

the display module is used for displaying the accumulated time;

and the display encryption module is used for encrypting the accumulated time.

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