CN113704067B - Intangible asset management system monitoring method - Google Patents

Abstract

The invention relates to the technical field of server monitoring, and particularly discloses a monitoring method of an intangible asset management system, which is used for monitoring the intangible asset management system, and comprises the following steps: s1, sequentially dividing an intangible asset management system to obtain a subsystem S ₁ 、……S _n . Setting inspection scene A _n And according to inspection scenario A _n Subsystem S is obtained through calculation _i Is to process the signal N in sequence _i . Will check scenario A _n Input to the intangible asset management system, and output subsystem S _i Corresponding calculation processing signal X _i . Will calculate the processing signal X _i And corresponding sequentially processed signals N _i And judging whether the judgment is the same. Will calculate the processing signal X _i Is converted into an alarm signal and output, and the signal N is processed sequentially _i Input S _i+1 And S3 is performed. Evaluating intangible asset management system at A _n Scene conditions. The present invention increases the ability to monitor by locating the error location of the intangible asset management system.

Description

Intangible asset management system monitoring method

Technical Field

The invention relates to the technical field of server monitoring, in particular to a monitoring method of an intangible asset management system.

Background

Intangible assets refer to identifiable non-monetary assets that are owned or controlled by an enterprise without physical form. Intangible assets have broad and narrow meanings, and in accounting intangible assets are generally understood in a narrow sense, i.e., patent rights, trademark rights, etc. are referred to as intangible assets. Intangible assets play an increasing role in economic growth as important economic resources in the form of knowledge, and play a key role. With the continuous development of company business, it is important to monitor the running state of all business in the intangible asset management system and the performances of the build server and the version server in real time, ensure the safe operation of the server system, and provide a flexible notification mechanism to enable the system administrator to quickly locate and solve various problems.

However, monitoring the operation performance of the server is a complex process, and the operation efficiency of the server is affected by the number of services accessed to the intangible asset management system, the size of individual service storage, and the size of access. The performance of all running services and construction version servers in the intangible management system is monitored in real time, however, the detection capability of the system is poor, and the system is easy to miss.

Disclosure of Invention

In order to solve the technical problems, the present invention provides a monitoring method of an intangible asset management system, for monitoring an intangible asset management system, the monitoring method of the intangible asset management system includes:

s1, sequentially dividing an intangible asset management system to obtain a subsystem S ₁ 、……S _n ；

S2, setting a test scene A _n And according to inspection scenario A _n Subsystem S is obtained through calculation _i Is to process the signal N in sequence _i ；

S3, checking the scene A _n Input to the intangible asset management system, and output subsystem S _i Corresponding calculation processing signal X _i ；

S4, calculating the processing signal X _i And corresponding sequentially processed signals N _i Judging whether the judgment is the same, if so, executing S3, and if not, executing S5;

s5, calculating the processing signal X _i Converting into alarm signals and outputting the alarm signals;

s6, sequentially processing the signals N _i Input S _i+1 And executing S3;

s7, judging that the intangible asset management system is in A _n Scene conditions;

s8, setting a test scene A _n+1 And S3 is performed.

Preferably: in the S4, in the pair S _i When the error is determined, the error position is enteredAnd (5) carrying out step-type positioning judgment.

Preferably: the step-type positioning judgment step is as follows:

s41, S _i Dividing into S _i1 、S _i2 、……S _in 、S _in+1 ；

S42, through X _ii-1 Subsystem S is obtained through calculation _ii-1 Is to process the signal N in sequence _ii ；

S43, X _ii-1 Input to the intangible asset management system, and output subsystem S _ii-1 Is calculated and processed signal X _ii ；

S44, calculating the processing signal X _ii And corresponding sequentially processed signals N _ii Judging whether the judgment is the same, if so, executing S43, and if not, executing S45;

s45, calculating the processing signal X _ii And converting into an alarm signal.

Preferably: in said S5, the processing signal X is calculated _i Converts into alarm signal and X _i The method comprises the steps of encoding to obtain a signal function in an alarm signal, rotating the signal function based on a preset rotation angle to obtain an encrypted signal function, and transmitting the encrypted signal function to a control terminal; and the control terminal carries out inverse rotation on the encrypted signal function to decrypt, so as to display and position.

Preferably: in the S4, in the pair S _i When it is determined to be wrong, for N _i And X is _i And comparing to obtain a comparison value, judging whether the comparison value exceeds a preset parameter threshold, if so, judging that the comparison value is high-level abnormality, and if not, judging that the comparison value is low-level abnormality.

Preferably: the control terminal receives an abnormal grade signal; and if the abnormality level is low-level abnormality, alarming through an alarm. If the abnormality level is high-level abnormality, alarm information is sent to a system administrator in a call making mode. Therefore, the system manager is prevented from timely adjusting and timely coping with the condition that the system manager is not in the presence.

Preferably: the control terminal is provided with a storage part, and data storage is performed through the storage part.

The invention also provides a computer terminal which comprises a memory, a processor and a computer program stored on the memory and capable of running on the processor, wherein the processor realizes the steps of the intangible asset management system monitoring method when executing the program.

The present invention also provides a computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the intangible asset management system monitoring method described above.

The invention has the technical effects and advantages that: by distinguishing the alarm signals, the error position of the intangible asset management system can be positioned, so that the monitoring capability is improved, and the positioning and modification of staff are facilitated. When it is determined that errors occur in all of the subsystems in the intangible asset management system, the error location and number of errors are evaluated by the alarm signal. The monitoring method of the invention has no interruption, and even if one subsystem has a problem, the monitoring can not be interrupted, thereby realizing continuous monitoring, avoiding the monitoring loopholes caused by a plurality of subsystem errors and improving the monitoring capability.

Drawings

FIG. 1 is a flow chart of a method for monitoring an intangible asset management system in accordance with the present invention.

FIG. 2 is a block diagram of the monitoring method of the intangible asset management system.

FIG. 3 is a flow chart of a step-like positioning of error points in the monitoring method of the intangible asset management system.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description. The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Example 1

Referring to fig. 1, in this embodiment, an intangible asset management system monitoring method is provided for monitoring an intangible asset management system, where the intangible asset management system monitoring method includes:

s1, sequentially dividing an intangible asset management system to obtain a subsystem S ₁ 、……S _n 。

S2, setting a test scene A _n And according to inspection scenario A _n Subsystem S is obtained through calculation _i Is to process the signal N in sequence _i 。

S3, checking the scene A _n Input to the intangible asset management system, and output subsystem S _i Corresponding calculation processing signal X _i 。

S4, calculating the processing signal X _i And corresponding sequentially processed signals N _i Judging whether the judgment is the same, if so, executing S3, wherein S3 is X _i Carry over to S _i+1 Sequential calculations are performed. If not, S5 is performed.

S5, calculating the processing signal X _i Is converted into an alarm signal and output, and the signal N is processed sequentially _i Input S _i+1 And S3 is performed.

S6, judging that the intangible asset management system is in A _n Scene status, set inspection scene A _n+1 And S3 is performed.

Referring to FIG. 2, in an embodiment of the present invention, an intangible asset management system is first analyzed and the intangible asset management system is partitioned into S according to the steps of signal processing of the intangible asset management system ₁ 、S ₂ 、……S _n 、S _n+1 . The intangible asset management system for segmentation herein is an ideal system with no errors. For example, we input raw data S ₁ In, through S ₁ N obtained by operation ₁ And N is taken as ₁ Carry over to S ₂ And then carries out operation to obtain N ₂ By performing operations on the rows, thereby obtaining N ₁ 、N ₂ 、……N _n 、N _n+1 . Of course N _i Also through subsystem S _i And the manual calculation is performed, so that the accuracy of the calculation is ensured. N here ₁ 、N ₂ 、……N _n 、N _n+1 Are all correctly processed signals. Inputting the original data into the intangible asset management system to obtain S ₁ 、S ₂ 、……S _n 、S _n+1 Corresponding calculation processing signal X ₁ 、X ₂ 、……X _n 、X _n+1 . From N ₁ And X is ₁ Judgment starts calculation, judgment N ₁ And X is ₁ If the two are the same, if so, continuing to perform the process on N ₂ And X is ₂ And judging, and comparing the downward subsystems according to the judgment. If not, calculate the processing signal X ₁ And converting into an alarm signal and outputting the alarm signal. The output alarm signal can be transmitted to a control terminal, and the control terminal can comprise an alarm, a control center and the like. And N is taken as ₁ Carry over to S ₂ In (3) performing sequential calculation. By X ₁ 、X ₂ 、……X _n 、X _n+1 The alarm signals are converted into corresponding alarm signals, so that the alarm signals can be distinguished, and the error position of the intangible asset management system can be positioned by distinguishing the alarm signals, thereby improving the monitoring capability and facilitating the positioning and modification of staff. When all the determinations are yes, determining that all the subsystems in the intangible asset management system are correct and evaluating the intangible asset management system is error-free. When it is determined that errors occur in all of the subsystems in the intangible asset management system, the error location and number of errors are evaluated by the alarm signal. The monitoring method of the invention has no interruption, and even if one subsystem has a problem, the monitoring can not be interrupted, thereby realizing continuous monitoring, avoiding the monitoring loopholes caused by a plurality of subsystem errors and improving the monitoring capability.

Referring to FIG. 3, in an embodiment of the present invention, in the S4, in the pair S _i And when the error is judged, carrying out step-type positioning judgment on the error position.

The step-type positioning judgment step is as follows:

s41, S _i Dividing into S _i1 、S _i2 、……S _in 、S _in+1 。

S42, through X _ii-1 Subsystem S is obtained through calculation _ii-1 Is to process the signal N in sequence _ii 。

S43, X _ii-1 Input to the intangible asset management system, and output subsystem S _ii-1 Is calculated and processed signal X _ii 。

S44, calculating the processing signal X _ii And corresponding sequentially processed signals N _ii A determination is made as to whether or not the determination is the same, and if so, S43 is executed, and if not, S45 is executed.

S45, calculating the processing signal X _ii And converting into an alarm signal and outputting the alarm signal.

The subsystem is divided and monitored for errors, so that the accuracy of monitoring is improved, and the efficiency of monitoring is improved through stepwise monitoring.

In the embodiment of the present invention, in S5, the processing signal X is calculated _i Converts into alarm signal and X _i The code obtains a signal function in the alarm signal, rotates the signal function based on a preset rotation angle to obtain an encrypted signal function, and transmits the encrypted signal function to the control terminal. The control terminal carries out inverse rotation decryption on the encrypted signal function so as to display and position, thereby increasing the safety of signal transmission and avoiding the interference of other signals.

In the embodiment of the present invention, in the step S4, the step S _i When it is determined to be wrong, for N _i And X is _i And comparing to obtain a comparison value, judging whether the comparison value exceeds a preset parameter threshold, if so, judging that the comparison value is high-level abnormality, and if not, judging that the comparison value is low-level abnormality. By carrying out hierarchical alarm on the abnormality, countermeasures can be carried out in a hierarchical manner, and the processing monitoring capability is improved. For example, monitoring expiration date of intangible asset, when calculating processing signal X _i Converted into a calculation processing date, and sequentially processed signals N _i Conversion to sequential processing date, comparing the two dates to see the dateIf the preset date is exceeded, a hierarchical alarm is given. Of course, other monitoring parameters may be compared, and will not be described herein. Also, three or four abnormality levels may be set, and will not be described here.

In the embodiment of the invention, a control terminal receives an abnormal grade signal; and if the abnormality level is low-level abnormality, alarming through an alarm. If the abnormality level is high-level abnormality, alarm information is sent to a system administrator in a call making mode. Therefore, the system manager is prevented from timely adjusting and timely coping with the condition that the system manager is not in the presence.

In the embodiment of the invention, the control terminal can be further provided with a storage part, the storage part is used for storing data, historical alarm signals and error positions can be stored, the control terminal extracts data from the storage part and displays the data through a display part of the control terminal, or a detection curve can be derived, so that the alarm signals can be checked and recorded. Thereby facilitating the observation and modification of the instability of the intangible asset management system to perfect the system.

As a preferred embodiment of the present invention, a computer terminal includes a memory, a processor, and a computer program stored on the memory and executable on the processor. The processor, when executing the program, implements the steps of the real intangible asset management system monitoring method.

When the intangible asset management system monitoring method is applied, the intangible asset management system monitoring method can be applied in the form of software, such as a program designed to run independently, and is installed on a computer terminal, wherein the computer terminal can be a computer, a smart phone, a control system, other Internet of things equipment and the like. The monitoring method of the intangible asset management system can also be designed into an embedded running program which is installed on a computer terminal, such as a singlechip.

The present invention is a preferred embodiment of the present invention, a computer-readable storage medium having a computer program stored thereon. And when the program is executed by the processor, the method for monitoring the intangible asset management system is realized. When the intangible asset management system monitoring method is applied, the intangible asset management system monitoring method can be applied in the form of software, such as a program designed to be independently operated by a computer readable storage medium, wherein the computer readable storage medium can be a U disk, the U disk is designed to be a U shield, and the program of the whole method is designed to be started through external triggering by the U disk.

It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art and which are included in the embodiments of the present invention without the inventive step, are intended to be within the scope of the present invention. Structures, devices and methods of operation not specifically described and illustrated herein, unless otherwise indicated and limited, are implemented according to conventional means in the art.

Claims (7)

1. The monitoring method of the intangible asset management system is used for monitoring the intangible asset management system and is characterized by comprising the following steps of:

s1, sequentially dividing an intangible asset management system to obtain a subsystem S ₁ 、……S _n ；

S2, setting a test scene A _n And according to inspection scenario A _n Subsystem S is obtained through calculation _i Is to process the signal N in sequence _i ；

S3, checking the scene A _n Input to the intangible asset management system, and output subsystem S _i Corresponding calculation processing signal X _i ；

S4, calculating the processing signal X _i And corresponding sequentially processed signals N _i Judging whether the judgment is the same, if so, executing S3, and if not, executing S5;

s5, calculating the processing signal X _i Is converted into an alarm signal and output, and the signal N is processed sequentially _i Input S _i+1 And executing S3;

s6, evaluating the intangible asset management system in A _n Scene conditions;

in the S4, in the pair S _i When the error is determined, the error position is positioned stepwiseJudging;

the step-type positioning judgment step is as follows:

s41, S _i Dividing into S _i1 、S _i2 、……S _in 、S _in+1 ；

S42, through X _ii-1 Subsystem S is obtained through calculation _ii-1 Is to process the signal N in sequence _ii ；

S43, X _ii-1 Input to the intangible asset management system, and output subsystem S _ii-1 Is calculated and processed signal X _ii ；

S44, calculating the processing signal X _ii And corresponding sequentially processed signals N _ii Judging whether the judgment is the same, if so, executing S43, and if not, executing S45;

s45, calculating the processing signal X _ii Converts into alarm signal and outputs N _ii S43 is performed.

2. The intangible asset management system monitoring method of claim 1, wherein in S5, a calculation processing signal X is calculated _i Converts into alarm signal and X _i The method comprises the steps of encoding to obtain a signal function in an alarm signal, rotating the signal function based on a preset rotation angle to obtain an encrypted signal function, and transmitting the encrypted signal function to a control terminal; and the control terminal carries out inverse rotation on the encrypted signal function to decrypt, so as to display and position.

3. The intangible asset management system monitoring method of claim 2, wherein in S4, at pair S _i When it is determined to be wrong, for N _i And X is _i And comparing to obtain a comparison value, judging whether the comparison value exceeds a preset parameter threshold, if so, judging that the comparison value is high-level abnormality, and if not, judging that the comparison value is low-level abnormality.

4. A method of monitoring an intangible asset management system as claimed in claim 3, in which the control terminal receives an anomaly level signal: if the abnormality level is low-level abnormality, alarming through an alarm; if the abnormality level is high-level abnormality, alarm information is sent to a system administrator in a call making mode.

5. The intangible asset management system monitoring method of claim 1, wherein the control terminal is provided with a storage member through which data is stored.

6. A computer terminal comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor executing the program to perform the steps of the intangible asset management system monitoring method of any of claims 1 to 5.

7. A computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the intangible asset management system monitoring method of any of claims 1 to 5.