CN115328620A

CN115328620A - Method and system for dynamically starting TPS based on virtual technology

Info

Publication number: CN115328620A
Application number: CN202211263171.4A
Authority: CN
Inventors: 许振伟; 郭超; 赵超凡
Original assignee: Digital Health China Technologies Co Ltd
Current assignee: Digital Health China Technologies Co Ltd
Priority date: 2022-10-15
Filing date: 2022-10-15
Publication date: 2022-11-11
Anticipated expiration: 2042-10-15
Also published as: CN115328620B

Abstract

The invention relates to the technical field of network communication, and discloses a method and a system for dynamically starting TPS based on a virtual technology, wherein a user logs in a cloud platform to obtain a user operation active value, and the cloud platform loads an active value calculation rule and an active value evaluation rule; the cloud platform records and calculates an active value, calls a TPS through a VM virtual interface, and starts or closes or maintains a state of the Pinnacle system according to the active value; judging whether the single operation active value of the user is larger than or equal to the single operation active value, if so, starting the Pinnacle system; and judging that the sum of the user activity degrees is matched with the activity degree evaluation rule table within the preset time, acquiring the starting-up keeping time of the Pinnacle system, flexibly calling the TPS mainly through a VM virtual interface, deploying more TPS applications, saving the operation cost of enterprises, and facilitating the user to carry out operations such as target region sketching and making plan and the like on the patient.

Description

Method and system for dynamically starting TPS based on virtual technology

Technical Field

The invention relates to the technical field of network communication, in particular to a method and a system for dynamically starting TPS based on a virtual technology.

Background

A radiation Therapy Planning System (TPS), a medical device, simulates radiation therapy Planning by modeling a radiation source and a patient, and uses one or more algorithms to calculate the distribution of absorbed dose in the patient, and the calculation results are used by the radiation therapy Planning planner, typically products such as Pinnacle3, eclipse, monaco, etc.

In the field of tumor radiotherapy, when the TPS planning system is used through cloud access, a plurality of users can be supported to access and use on line, and the users only need to log in an account number allocated by the system and can use the cloud TPS planning system without knowing the configuration information of the cloud TPS.

However, the existing method only realizes a scene of dynamic startup and shutdown of the cloud server, does not finish automatic startup of the application along with the startup of the cloud server, and supports seamless opening of corresponding patients through the Web application. The previous scheme can not bring convenient and fast experience to users, and especially, the requirements of the existing scene can not be met by aiming at the situation that senior citizens can study and use complicated application software in a flawless way while facing overload workload.

In addition, in the prior art, data required by a corresponding boot program needs to be stored in a storage machine in advance in a cloud server; the boot server needs to execute boot deployment actions by respectively adopting a shared or exclusive mirror image file and a root directory file system according to the requirements of each application; sending a component calling request to each cloud according to the service request, receiving the request by the cloud, and searching a target component in the cloud locally.

In addition, in recent two years, as cloud computing is developed in the depth direction, the software and the hardware are integrated and cloud is originally the mainstream of a cloud computing technology architecture, in 7, 7 and 15 days of 2020, a third generation of Shenlongyun server is announced by Aliyun, compared with the previous generation, the comprehensive performance of the third generation of Shenlongyun server is improved by 160%, the speed is higher by more than 30% than that of the current global top-level cloud server, the overall computing power is strongest globally, but the hardware cost for carrying cloud application by adopting the Shenlongyun server is higher and higher.

Disclosure of Invention

The invention mainly provides a method and a system for dynamically starting TPS based on virtual technology, which mainly solve the problem that the TPS system can not be opened flexibly in the prior art,

in order to solve the technical problems, the invention adopts the following technical scheme: a method for dynamically invoking TPS based on virtual technology comprises the following steps:

a method for dynamically invoking TPS based on virtual technology comprises the following steps:

s1, a user logs in a cloud platform to obtain a user operation active value, and the cloud platform loads an active value calculation rule and an active value evaluation rule;

s2, the cloud platform records and calculates an active value, a TPS is called through a VM virtual interface, and a Pinnacle system is started or closed or kept in a state according to the active value;

s3, judging whether the single operation active value of the user is larger than or equal to the single operation active value, if so, starting the Pinnacle system; and judging that the sum of the user activity values is matched with the activity value evaluation rule table within a preset time, and acquiring the startup keeping time of the Pinnacle system.

Further, the cloud platform loads an active value calculation rule and an active value evaluation rule, and further includes:

s11: and creating a user activity value table, an operation button table and a system operation log table in the database, and recording basic data specified by the rule.

Further, in the above-mentioned case,

and S21, developing a VM service, wherein the VM service encapsulates a basic interface, and the basic interface comprises the steps of creating an instance, inquiring a management end, starting a virtual machine and/or closing the virtual machine.

Further S3, judging whether the single-time operation activity value of the user is larger than or equal to the single-time activity value, and if the single-time operation activity value is larger than or equal to the single-time activity value, starting the Pinnacle system; judging that the sum of the user activity values is matched with an activity value evaluation rule table within a preset time, and acquiring the startup keeping time of the Pinnacle system, wherein the method further comprises the following steps:

and S31, entering the Pinnacle system, carrying out target region delineation or radiotherapy planning on the Pinnacle system by a user, creating a service and two scripts in the Pinnacle system, and matching the data transmitted by the cloud platform with the corresponding patient.

Further, in the above-mentioned case,

dynamically starting the Pinnacle after the cloud platform user operates, and triggering an active value calculation rule when the active value of a single operation reaches a first threshold value;

and creating access frequency limit of a cloud platform interface, wherein the same Pinnacle system in a preset value is only allowed to be accessed once.

Further, a nailing message notification interface is developed, and when the virtual machine is failed to be started and closed, error information is sent to the nailing of the implementation, operation and maintenance colleagues.

A system for dynamically invoking TPS based on virtual technology, comprising:

a user login module: the cloud platform is used for logging in a cloud platform by a user to obtain an active value of user operation, and loading an active value calculation rule and an active value evaluation rule;

VM virtual interface module: the method is used for recording and calculating an active value by a cloud platform, calling up TPS through a VM virtual interface, and starting or closing or keeping the state of a Pinnacle system according to the active value;

the Pinnacle system startup and shutdown module: the method is used for judging whether the single operation activity value of a user is larger than or equal to the single operation activity value, and if so, starting the Pinnacle system; and judging that the sum of the user activity values is matched with the activity value evaluation rule table within a preset time, and acquiring the startup keeping time of the Pinnacle system.

Further, the basic data module is used for creating a user active value table, an operation button table and/or a system operation log table in the database and inputting basic data specified by rules;

further, the VM service module: the method is used for developing VM services and encapsulates a basic interface, wherein the basic interface comprises the steps of creating an instance, inquiring a management terminal, starting a virtual machine and closing the virtual machine.

Further, the startup and shutdown module of the Pinnacle system further comprises:

one service and two script modules: the system is used for entering the Pinnacle system, a user carries out target area delineation or radiotherapy plan on the Pinnacle system, a service unit and two script units are added in the Pinnacle system, and the cloud platform is transmitted to the data matching corresponding patient.

Further, the active value calculation rule module is used for dynamically starting Pinnacle after a cloud platform user operates, and triggering an active value calculation rule when the active value reaches a first threshold value in a single operation;

a frequency limiting module: the method is used for creating access frequency limit of the cloud platform interface, and the same Pinnacle system in a preset value is allowed to be accessed only once.

Further, the staple notification module: the system is used for developing a nailing message notification interface, and sending error information to nailing of implementation and operation and maintenance colleagues when the virtual machine is failed to be started or closed.

A computer device, comprising: a memory, a processor, and executable instructions stored in the memory and executable in the processor, the processor implementing the method of any one of claims 1-6 when executing the executable instructions.

A computer-readable storage medium having stored thereon computer-executable instructions that, when executed by a processor, implement the method of any one of claims 1-6.

Has the advantages that:

1. the aim of flexibly managing the starting and the closing of the TPS system is fulfilled;

2. more TPS applications can be deployed aiming at the cloud server resources with the same configuration;

3. the TPS application is seamlessly accessed through the cloud radiotherapy page, so that the user is well supported to perform operations such as target area sketching and planning on the patient, and the operation user has no perception;

4. the hardware cost of the cloud server is saved, and the enterprise operation cost is reduced.

Drawings

FIG. 1 is a schematic flow chart of a method for dynamically tuning TPS based on a virtual technology;

FIG. 2 is a schematic diagram of a system for dynamically invoking TPS based on virtualization technology;

FIG. 3 is a diagram of VM virtual interface relationships;

FIG. 4 is a table of user operations versus activity values;

FIG. 5 is a diagram of activity value assessment rules;

FIG. 6 is a flow diagram of a server and two script calls.

Detailed Description

The following describes in detail a method and a system for dynamically invoking TPS based on a virtual technology according to an embodiment of the present invention.

As shown in fig. 1, a method for dynamically invoking TPS based on virtual technology,

acquiring a user operation active value according to a user login cloud platform, wherein the cloud platform loads an active value calculation rule and an active value evaluation rule; the cloud platform loads an active value calculation rule and an active value evaluation rule, and further comprises:

creating a user activity value table, an operation button table and/or a system operation log table in a database and inputting basic data specified by rules, so that the data can be conveniently processed in the cloud platform;

and generating a corresponding relation according to the user active value table, the operation button table and/or the system operation log table, starting the system to read data from the data table through Dynamic items, dynamically generating an operation button active value enumeration class, and initializing the data, wherein the operation button active value enumeration class comprises the corresponding relation of the operation button and the active value and is used for judging an active value calculation rule and an active value evaluation rule.

as shown in fig. 3: developing a VM Service, which encapsulates a base interface of a VMware soft development kit, such as: creating an example, inquiring a management end, turning on a power supply, turning off a virtual machine and the like; basic methods for operating virtual machines are developed to meet the requirements of services, such as: the method comprises the steps of connecting services, obtaining virtual machine information (including the power state of a virtual machine, the CPU, the memory, the total stored capacity, the used amount and the residual amount), starting the virtual machine, closing the virtual machine and the like, and aiming at the cloud server resources with the same configuration, more TPS applications can be deployed, so that the hardware cost of the cloud server is saved, and the enterprise operation cost is reduced.

S3, judging whether the single-operation active value of the user is larger than or equal to a single-preset active value or not, and if the single-operation active value is larger than or equal to the single-preset active value, starting the Pinnacle system; and judging that the sum of the user activity values is matched with the activity value evaluation rule table within a preset time, and acquiring the startup keeping time of the Pinnacle system.

Specifically, as shown in fig. 4: the user operation and active value corresponding table comprises operation details and active values, the user operation and active value corresponding table comprises user login information and user operation information, the user login comprises login success instructions, login failure instructions and logout instructions, and the active value distribution setting respectively corresponds to the three values of the user login and is 3, 0 and-1; the user operation further comprises target area sketching radiotherapy plan viewing, patient registration, video conference, image uploading, remote radiotherapy application, radiotherapy result sending, submission, cancellation, recall, audit, confirmation, deletion, emptying and completion, the nine instructions respectively correspond to activity values of 9, 8, 7, 6, 5, 4, 2 and 1, when the cloud platform is dynamically started after the user operation, the single preset activity value is set to 7, and when the single operation activity value reaches 7, an activity value calculation rule is triggered to keep starting; when a doctor or related technical personnel need to select a patient, parameters transmitted by the cloud platform are matched with the corresponding patient, the user does not need to manually log in Pinnacle, manually screen the patient and seamlessly access the TPS application through a cloud radiotherapy page, the user is well supported to carry out operations such as target area drawing and planning on the patient, and the operation user does not feel.

In another embodiment, the access frequency limit of the cloud platform interface is created, and the same Pinnacle system in a preset value is allowed to be accessed only once.

As shown in fig. 5, the active value evaluation rule is that the sum of the active values of the user is judged to be matched with the active value evaluation rule table within a preset time, and the startup keeping time corresponding to the Pinnacle system is obtained; specifically, the active value evaluation rule table comprises an active value grade, an active value and a startup keeping time, wherein the active value grade is divided into five grades, and the five grades respectively correspond to active values of 0-99, 100-199, 200-299, 300-399 and 400-499; the startup keeping time (hours) corresponding to the five levels is 24, 48, 72, 96 and 0 respectively; the cloud platform can also calculate the active value (timing threshold value calculation method) of each user within 72 hours in the morning, and meanwhile, the active value and the startup-keeping time are matched according to the active value evaluation rule within 72 hours to obtain the startup-keeping time, so that Pinnacle outside the rule can be dynamically closed, and the purpose of flexibly managing the TPS system is achieved.

Specifically, at 1 point in the morning, the cloud platform can automatically trigger a timing task, the timing task can obtain an active value evaluation rule table interface through an active value evaluation rule service system, retrieve operation records of all users within 72 hours, count the active value of each user, and call a Pinnacle closing interface of Pinnacle system service to close a Pinnacle off-rule according to a timing threshold calculation rule, so that hardware cost of a cloud server is saved through the calling of a VM virtual interface, and the operation cost of an enterprise is reduced.

In another embodiment, a nailing message notification interface is developed, and when the virtual machine is failed to start and close, error information is sent to nailing of implementation, operation and maintenance colleagues, so that the problem is conveniently and quickly positioned and timely processed.

In another embodiment, when a user performs a system operation (e.g., patient registration), the common log interface is triggered to save the operation log to the database.

And recording a log and simultaneously triggering a single arrival value calculation rule, acquiring PINNACE information through an acquiring system information interface of the PINNACE system service, judging the power state of the PINNACE of the user, and calling a starting interface of the PINNACE system service to start if the state of the PINNACE displays shutdown.

In another embodiment, according to S3, judging whether the single-time operation active value of the user is greater than or equal to a single-time preset active value, and if the single-time operation active value is greater than or equal to the single-time preset active value, starting the Pinnacle system; and judging that the sum of the user activity values is matched with an activity value evaluation rule table within a preset time, and acquiring the starting-up keeping time of the Pinnacle system, wherein S31, when the user enters the Pinnacle system, the user carries out target region delineation or radiotherapy planning on the Pinnacle system, one service and two scripts are added into the Pinnacle system, and the data transmitted by the cloud platform is matched with the corresponding patient.

Specifically, as shown in fig. 6, one service refers to a service system, two scripts refer to a temporary file script and a self-starting script, the self-starting script is a script for the service system to start up along with the machine, the temporary file script is used for reading the temporary file, each Pinnacle user needs to be deployed independently, one service and two scripts are added in the Pinnacle system to achieve the purpose that the Pinnacle system script starts up along with the machine, parameters transmitted through a cloud platform are matched with a corresponding patient, and the user does not need to log in Pinnacle manually and screen the patient manually;

and clicking an operation button, finding a corresponding Pinnacle system by the cloud platform according to the configuration information of the user, and simultaneously occupying a springboard machine and automatically allocating an account number of the Pinnacle system. Acquiring an active value corresponding to the current patient according to button operation, and calling a service system;

the service system generates a character string according to the parameters transmitted by the cloud platform and rules, and writes the character string into a temporary file under a root directory of a corresponding pinnalle system account;

the Pinnacle in the trigger automatically logs in a Pinnacle system by using the allocated account, automatically loads a script for searching the patient under the root directory of the account, reads data in the temporary file, and searches data information of the current patient in a Pinnacle database according to the content of the file.

Selecting the patient script automatically locates the patient in the Pinnacle system according to the found data information, and returns an error message if the patient script is not found.

A system for dynamically invoking TPS based on virtual technology.

As shown in fig. 2, the user login module 001: the cloud platform is used for logging in a cloud platform by a user to obtain an active value of user operation, and the cloud platform loads an active value calculation rule and an active value evaluation rule;

VM virtual interface module 002: the cloud platform records and calculates an active value, calls TPS through a VM virtual interface, starts or closes or maintains the state of a Pinnacle system according to the active value, and can deploy more TPS applications aiming at cloud server resources with the same configuration;

the Pinnacle system startup and shutdown module 003: judging whether the single-time operation active value of the user is larger than or equal to the single-time active value, and if the single-time operation active value is larger than or equal to the single-time active value, starting the Pinnacle system; and judging that the sum of the user activity values is matched with the activity value evaluation rule table within a preset time, and acquiring the startup keeping time of the Pinnacle system.

A basic data module 005, configured to create a user activity value table, an operation button table, and a system operation log table in a database, and enter basic data specified by a rule, generate a corresponding relationship according to the user activity value table, the operation button table, and the system operation log table, start the system, read data from the data table by dynamically generating an enumeration tool, dynamically generate an operation button activity value enumeration class, and perform data initialization, where the system includes a corresponding relationship between an operation button and an activity value, and is used to determine an activity value calculation rule and an activity value evaluation rule.

The correspondence relationship generation module 006: and generating a corresponding relation according to the user activity value table, the operation button table and the system operation log table.

In another embodiment, the VM service module 007: the method is used for developing VM services and encapsulates a basic interface, wherein the basic interface comprises the steps of creating an instance, inquiring a management terminal, starting a virtual machine and closing the virtual machine.

In another embodiment, the active value calculation rule module 008 is configured to dynamically start Pinnacle after the cloud platform user operates, and trigger an active value calculation rule when an active value reaches a first threshold value in a single operation;

as shown in fig. 4: the user operation and active value corresponding table comprises operation details and active values, the user operation and active value corresponding table comprises user login information and user operation information, the user login comprises login success, login failure and an exit instruction, and the distribution of the active values is set to be 3, 0 and-1; the user operation comprises target area sketching radiotherapy plan viewing, patient registration, video conference, image uploading, remote radiotherapy application, radiotherapy result sending, submission, cancellation, recall, audit, confirmation, deletion, emptying and 9 instructions, the corresponding active values are 9, 8, 7, 6, 5, 4, 2 and 1 respectively, pinnacle is started dynamically after the cloud platform is operated by the user, the active value calculation rule can be triggered when the active value is up to 7 in single operation, TPS application is seamlessly accessed through a cloud radiotherapy Web page, the user is well supported to carry out target area sketching, plan making and other operations on the patient, and the operation user has no perception.

The frequency limit module 009: the method is used for creating the access frequency limit of the cloud platform interface, and the same Pinnacle system in a preset value is allowed to be accessed only once.

As shown in fig. 5, the active value evaluation rule table includes an active value level, an active value and a keep-on time, the active value level is divided into five levels, and the five levels respectively correspond to active values of 0-99, 100-199, 200-299, 300-399 and 400-499; the startup keeping time (hours) corresponding to the five levels is 24, 48, 72, 96 and 0 respectively; the cloud platform also calculates the activity values for each user within 72 hours in the morning (timing threshold calculation method). And meanwhile, matching the active value and keeping the starting time according to the active value evaluation rule. And dynamically closing the Pinnacle out of the rule by obtaining the startup keeping time.

In another embodiment, the staple notification module 004: the method is used for developing a nailing message notification interface, and when the virtual machine is failed to start and close, error information is sent to nailing of implementation, operation and maintenance colleagues, so that the problems are conveniently and quickly positioned and timely processed.

In another embodiment, the tool set-up and shut-down module 003 of the Pinnacle system further includes a service and two script modules 010, which are used for entering the Pinnacle system, allowing a user to perform target delineation or radiotherapy planning on the Pinnacle system, adding one service and two scripts to the Pinnacle system, and matching data transmitted through the cloud platform with a corresponding patient.

Specifically, as shown in fig. 6, one service refers to a service system, two scripts refer to a temporary file script and a self-starting script, the self-starting script is a script for the service system to start up and self-start up along with the start-up, the temporary file script is used for reading a temporary file, each Pinnacle user needs to be deployed independently, one service and two scripts are added to the Pinnacle system, the Pinnacle system script is started up along with the start-up, parameters transmitted through a cloud platform are matched with corresponding patients, and the users do not need to log in Pinnacle manually and screen the patients manually;

and clicking an operation button, finding a corresponding Pinnac system by the cloud platform according to the configuration information of the user, and simultaneously occupying a springboard machine and automatically allocating an account of the Pinnac system. Acquiring an active value corresponding to the current patient according to the button operation, and calling a service system;

the service system generates a character string according to the parameters transmitted by the cloud platform and rules, and writes the character string into a temporary file under a root directory of the corresponding pinacle system account;

Selecting the patient script automatically locates the patient in the Pinnacle system based on the data information found and returns an error message if not found.

A computer device, comprising: the system comprises a memory, a processor and executable instructions stored in the memory and executable in the processor, wherein the processor executes the executable instructions to realize a method for dynamically starting TPS based on virtual technology.

A computer-readable storage medium having stored thereon computer-executable instructions that, when executed by a processor, implement a method of dynamically tuning up TPS based on virtual technology.

The method comprises the steps of establishing a set of standard, rigorous and detailed user activity value rule, evaluating the user activity according to the activity value corresponding to the user operation, and starting and shutting down according to the startup keeping time corresponding to the activity, so that the function of dynamically starting and shutting down the Pinnacle service of the cloud platform is realized. Moreover, the user activity rule can be adjusted manually according to the running condition of the cloud platform, so that the purpose that the user operation is not perceived can be achieved, and the user experience is improved.

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

Claims

1. A method for dynamically invoking a TPS based on a virtual technology is characterized by comprising the following steps:

s2, the cloud platform records and calculates an active value, a TPS is called up through a VM virtual interface, and the starting or closing or keeping state of the Pinnacle system is judged according to the active value;

s3, judging whether the single operation active value of the user is larger than or equal to a single preset active value or not, and if so, starting the Pinnacle system; and judging that the sum of the user activity values is matched with an activity value evaluation rule table within a preset time, and acquiring the startup keeping time corresponding to the Pinnacle system.

2. The method for dynamically invoking TPS based on virtual technology according to claim 1, wherein loading an active value calculation rule and an active value evaluation rule by the cloud platform in S1 comprises:

s11: creating a user activity value table, an operation button table and/or a system operation log table in a database and recording basic data specified by a rule.

3. The method for dynamically invoking TPS based on virtualization technology as claimed in claim 1 wherein VM virtual interface in S2 comprises:

and S21, developing a VM service, encapsulating a basic interface, and creating an instance, inquiring a management end, starting a virtual machine and/or closing the virtual machine on the basic interface.

4. The method for dynamically invoking the TPS based on the virtual technology as claimed in claim 1, wherein S3, judging whether the single operation active value of the user is larger than or equal to a single preset active value, if yes, starting the Pinnacle system; judging that the sum of the user activity values is matched with an activity value evaluation rule table within a preset time, and acquiring the startup keeping time corresponding to the Pinnacle system, wherein the startup keeping time further comprises the following steps:

and S31, entering the Pinnacle system, performing target area delineation or radiotherapy planning on the Pinnacle system by a user, creating a service unit and two script units in the Pinnacle system, and matching the corresponding patients through data transmitted by the cloud platform.

5. The method for dynamically invoking TPS based on virtual technology as claimed in claim 1, comprising:

if the single operation active value reaches a single preset active value, a cloud platform user triggers an active value calculation rule;

and creating a cloud platform interface access frequency limit, wherein the same Pinnacle system is allowed to be accessed only once within the frequency limit.

6. The method for dynamically invoking TPS based on virtual technology as claimed in claim 5, comprising: and developing a nailing message notification interface, and sending error information to nailing of the implementation and operation and maintenance co-workers when the virtual machine is failed to be started and closed.

7. A system for dynamically invoking TPS based on virtual technology, comprising:

VM virtual interface module: the cloud platform records and calculates an active value, calls the TPS through a VM virtual interface, and judges the starting or closing or holding state of the Pinnacle system according to the active value;

the Pinnacle system startup and shutdown module: the method is used for judging whether the single operation active value of a user is larger than or equal to a single preset active value or not, and if so, starting the Pinnacle system; and judging that the sum of the user activity values is matched with the activity value evaluation rule table within a preset time, and acquiring the startup keeping time corresponding to the Pinnacle system.

8. The system for dynamically invoking TPS based on virtual technology as claimed in claim 7 wherein the user login module comprises:

a basic data module: the method is used for creating a user activity value table, an operation button table and/or a system operation log table in a database and entering basic data specified by rules.

9. The system for dynamically invoking TPS according to claim 7, wherein the VM virtual interface module comprises:

a VM service module: for developing VM services, it encapsulates the underlying interface where instances are created, the management side is queried, virtual machines are turned on, and/or virtual machines are turned off.

10. The system for dynamically invoking TPS based on virtual technology according to claim 7 is characterized in that the Pinnacle system startup and shutdown module comprises:

one service and two script modules: the method is used for entering the Pinnacle system, a user carries out target area delineation or radiotherapy plan on the Pinnacle system, one service unit and two script units are added into the Pinnacle system, and the corresponding patient is matched through the data transmitted by the cloud platform.

11. The system for dynamically invoking TPS based on virtualization technology according to claim 7 wherein VM virtual interface module comprises:

the active value calculation rule module is used for dynamically starting Pinnacle after a cloud platform user operates, and triggering an active value calculation rule when the active value of a single operation reaches a single preset active value;

a frequency limiting module: the method is used for creating cloud platform interface access frequency limitation, and the same Pinnacle system is allowed to be accessed only once within the frequency limitation.

12. A system for dynamically invoking TPS based on virtualization technology according to claim 11 comprising:

a staple notification module: the nailing message notification interface is used for developing nailing messages and sending error information to nailing of implementation, operation and maintenance colleagues when the virtual machine fails to be started and closed.

13. A computer device, comprising: memory, processor and executable instructions stored in the memory and executable in the processor, characterized in that the processor implements the method according to any of claims 1-6 when executing the executable instructions.

14. A computer-readable storage medium having computer-executable instructions stored thereon, wherein the executable instructions, when executed by a processor, implement the method of any of claims 1-6.