CN110445257A - A kind of intelligent substation auxiliary system comprehensive monitoring platform based on Internet of Things framework - Google Patents

Abstract

A kind of intelligent substation auxiliary system comprehensive monitoring platform based on Internet of Things framework characterized by comprising Internet of Things module；Communication module；Control module；Subsystems comprising: environmental monitoring subsystem；Intelligent image monitoring and video intercom subsystem；Access control subsystem；Air conditioner energy saving and equipment control subsystem；SF₆Monitoring, alarming subsystem；Cable temperature monitoring alert sub-system；Control module includes: specification configuration module, for controlling the work of subsystems and module；Link configuration module, for carrying out combined operation between subsystems；Memory module, the data uploaded for compressing storage subsystems comprising: blocking unit is used for deblocking；Duplicate removal unit, for deleting duplicate data block.

Description

A kind of intelligent substation auxiliary system comprehensive monitoring platform based on Internet of Things framework

Technical field

This application involves next-generation information network industrial technology field more particularly to a kind of intelligence based on Internet of Things framework Transformer substation auxiliary system comprehensive monitoring platform.

Background technique

Auxiliary system is the important support system of substation, carries and escorts shield for substation's routine safety, reliable O&M The important task of boat.Auxiliary system mainly includes video monitoring, security guard, fire protection warning, environmental monitoring, SF₆Gas leakage monitoring, The correlation assistant subsystem such as gate inhibition, light, air-conditioning, blower, water pump.

Compared with conventional substation, intelligent substation has higher requirement to auxiliary system.It is auxiliary to build intelligent substation The comprehensive monitoring platform of auxiliary system may be implemented the comprehensively monitoring that auxiliary system respectively disperses subsystem, realize the integration of subsystem And linkage, it realizes the teletransmission to monitoring center (main website), to optimize the whole management of auxiliary system, preferably plays auxiliary system The effect of system.

Since auxiliary system quantity is more, the data volume for monitoring upload is very huge, current intelligent substation auxiliary system Comprehensive monitoring platform the problem of facing memory space wretched insufficiency.

Summary of the invention

To overcome the problems in correlation technique, it is auxiliary to provide a kind of intelligent substation based on Internet of Things framework by the application Auxiliary system comprehensive monitoring platform.

According to the embodiment of the present application, it is flat to provide a kind of intelligent substation auxiliary system comprehensively monitoring based on Internet of Things framework Platform characterized by comprising

Internet of Things module, for providing Internet of Things connection；

Communication module, for providing communication network connection；

Control module for uploading data to main station system by communication module, and connects each height by Internet of Things module System；

Subsystems comprising:

Environmental monitoring subsystem, for monitoring the working environment of substation field；

Intelligent image monitoring and video intercom subsystem, mention for acquiring the image of substation field in real time, and to user For intercommunication function；

Access control subsystem, for monitoring the entrance of substation field；

Air conditioner energy saving and equipment control subsystem, for monitoring the air-conditioning of substation field and ventilation light and being set with water It is standby；

SF₆Monitoring, alarming subsystem, for monitoring the SF of substation field₆Gas；

Cable temperature monitoring alert sub-system, for monitoring the cable temperature of substation field；

Control module includes:

Specification configuration module, for controlling the work of subsystems and module；

Link configuration module, for carrying out combined operation between subsystems；

Memory module, the data uploaded for compressing storage subsystems comprising: blocking unit is used for data Piecemeal；Duplicate removal unit, for deleting duplicate data block.

Preferably, deblocking is included: by the blocking unit

With bit manipulation creation mode fingerprint；

Mode fingerprint is matched with data；

Piecemeal is carried out with the position being matched to.

Preferably, include: with bit manipulation creation mode fingerprint

Forming types character string P=[b₁,b₂,b₃,…b_m], wherein b_i(i is from 1 to m) is each character in model string Binary string, binary digit be t；

Data fingerprint f (S is set_i) it is by b₁,b₂,b₃,…b_mI-th bit combine to obtain, wherein i takes the t- of binary string 1.

Preferably, mode fingerprint match with data include:

Into j-th of data block M of data_jDivision；

Step 1: from M_j-1Terminate label and jumps 2L × (k+1) a character to the right；

Step 2: by present bit and P Right Aligns；

Step 3: the last bit after being aligned in data with P takes m character to the left；

Step 4: taking i-th bit to form X from m character of acquirement_t, by X_tWith f (S_i) compare one by one, wherein i is from 1 to t.

Preferably, mode fingerprint is matched with data further include:

Step 6: if i is all satisfied X from 1 to t_t=f (S_i), then the last bit being currently aligned with P in data is labeled as M_j Stop bits.

Preferably, mode fingerprint is matched with data further include:

Step 7: it is if it happens not identical, then continue to jump k character to the left, and return to step 2；

Step 8: returning to step 2 and reach L times, then the last bit being currently aligned with P in data is labeled as M_jStop bits.

Preferably, mode fingerprint match with data include:

Into j-th of data block M of data_jDivision；

Step 1: from M_j-1Terminate label and jumps 2L × (k+1) a character to the right；

Step 2: by present bit and P Right Aligns；

Step 3: the last bit after being aligned in data with P takes r character to the left, and wherein r is much smaller than m；

Step 4: taking i-th bit to form X from r character of acquirement_ir, then

Step 4.1: by f (S_ir) last bit pipette r to the left and obtain f (S_ir), by X_irWith f (S_ir) compare one by one, wherein i From 1 to t；

Step 4.2: it is if it happens not identical, then execute SHL f (S_ir), 1, it is then return to step 4.1；

Step 4.3: reaching m-r times if returning to step 4.1, return to step 2；

Step 4.3: if i is all satisfied X from 1 to t_tr=f (S_ir), then enter step 5.

Preferably, mode fingerprint is matched with data further include:

Step 5: the last bit after being aligned in data with P takes m character to the left；

Step 6: taking i-th bit to form X from m character of acquirement_t, by X_tWith f (S_i) compare one by one, wherein i is from 1 to t.

Preferably, mode fingerprint is matched with data further include:

Step 7: if i is all satisfied X from 1 to t_t=f (S_i), then the last bit being currently aligned with P in data is labeled as M_j Stop bits.

Preferably, mode fingerprint is matched with data further include:

Step 8: it is if it happens not identical, then continue to jump k character to the left, and return to step 2；

Step 9: returning to step 2 and reach L times, then the last bit being currently aligned with P in data is labeled as M_jStop bits.

The technical solution that embodiments herein provides can include the following benefits: the present invention provides a kind of efficient Big data storage scheme, it is flat to solve the intelligent substation auxiliary system comprehensively monitoring based on Internet of Things framework in the prior art In platform the problem of memory space inadequate.

The additional aspect of the application and advantage will be set forth in part in the description, and will partially become from the following description It obtains obviously, or recognized by the practice of the application.It should be understood that above general description and following detailed description are only Be it is exemplary and explanatory, the application can not be limited.

Detailed description of the invention

The drawings herein are incorporated into the specification and forms part of this specification, and shows and meets implementation of the invention Example, and be used to explain the principle of the present invention together with specification.

Fig. 1 is that a kind of intelligent substation auxiliary system based on Internet of Things framework shown according to an exemplary embodiment is comprehensive Close the block diagram of monitor supervision platform.

Specific embodiment

Example embodiments are described in detail here, and the example is illustrated in the accompanying drawings.Following description is related to When attached drawing, unless otherwise indicated, the same numbers in different drawings indicate the same or similar elements.Following exemplary embodiment Described in embodiment do not represent all embodiments consistented with the present invention.On the contrary, they be only with it is such as appended The example of device and method being described in detail in claims, some aspects of the invention are consistent.

Following disclosure provides many different embodiments or example is used to realize the different structure of the application.For letter Change disclosure herein, hereinafter the component of specific examples and setting are described.Certainly, they are merely examples, and Purpose does not lie in limitation the application.In addition, the application can in different examples repeat reference numerals and/or letter.It is this heavy It is that for purposes of simplicity and clarity, itself is more than the relationship discussed between various embodiments and/or setting again.This Outside, this application provides various specific techniques and material example, but those of ordinary skill in the art may be aware that The use of the applicability and/or other materials of other techniques.In addition, fisrt feature described below is in Second Eigenvalue "upper" Structure may include embodiment that the first and second features are formed as directly contacting, also may include that other feature is formed in Embodiment between first and second features, such first and second feature may not be direct contact.

In the description of the present application, it should be noted that unless otherwise specified and limited, term " installation ", " connected ", " connection " shall be understood in a broad sense, for example, it may be mechanical connection or electrical connection, the connection being also possible to inside two elements can , can also indirectly connected through an intermediary, for the ordinary skill in the art to be to be connected directly, it can basis Concrete condition understands the concrete meaning of above-mentioned term.

Fig. 1 is that a kind of intelligent substation auxiliary system based on Internet of Things framework shown according to an exemplary embodiment is comprehensive Close the block diagram of monitor supervision platform.Referring to Fig.1, intelligent substation auxiliary system comprehensive monitoring platform 100 includes:

Internet of Things module 110, for providing Internet of Things connection, to meet intelligent substation subsystem communication hardware interface need It wants, has acquisition to different sub-systems, control command concurrent function；

Communication module 120, for providing communication network connection；

Control module 130 for uploading data to main station system 300 by communication module 120, and passes through Internet of Things module 110 connection subsystems；

Subsystems comprising:

Environmental monitoring subsystem, for monitoring the working environment of substation field 200；The installation of environmental monitoring subsystem host In monitoring room, by acquiring the application with transmission technology, using my company's auxiliary control host, can be monitored in real time certain important The working environment of place and equipment is (such as: voltage, electric current, temperature, humidity, leak, water level, pernicious gas, oxygen content, wind speed and wind To, smog, open fire etc.)；When working environment occurs abnormal, it can show, alarm in time, and can will be counted by communication IP network network According to being uploaded to city-level and provincial dispatching center.This subsystem is made of device end and system platform two large divisions, device end It is main to include auxiliary control host and various sensors.System platform mainly can intuitively show monitored on computers The size or state of amount, and monitored amount real value or various failures there is a situation where.

Intelligent image monitoring and video intercom subsystem, for acquiring the image of substation field 200 in real time, and to user Intercommunication function is provided；Intelligent substation picture control and visual-speaking system are based on digital hard disc video recorder hardware device, and with Network video centralized monitoring system management software is core, executes powerful system function.Current support Haikang is complete with big China Series digit monitoring and web cam device.

Access control subsystem, for monitoring the entrance of substation field 200；Access control system refers to based on hyundai electronics With information technology, automatic recognition system is installed in the entrance of substation, implements to let pass by the disengaging to people's (or object), refuse Absolutely, the intellectualized management system of the operations such as record.It is to replace traditional artificial examination using contact type intelligent card or fingerprint Certificate lets pass, the behindhand type that turns the key in the lock, and identity information and access permission information on system automatic identification smart card are held Blocking people only in the defined time and after the access point having permission is swiped the card, access point ability automatic door opening clearance allows to enter and leave, Otherwise illegal invasion is refused to open the door and exports alarm signal.Since access permission can be changed at any time, no matter personnel why Sample variation and flowing, can all timely update access permission, and there is no usurp risk when key door-opening mode.Meanwhile gate inhibition goes out Enter record to be saved in time, direct basis can be provided for investigation security incident.

Air conditioner energy saving and equipment control subsystem light and use water for monitoring the air-conditioning of substation field 200 and divulging information Equipment；System provides the control function of the equipment such as air-conditioning, blower, light and water pump.The automatic linkage function of system all exists It is realized on auxiliary control host, does not influence alarm, the connection of system when network outage, server failure, software are closed The functions such as dynamic and record.

SF₆Monitoring, alarming subsystem, for monitoring the SF of substation field 200₆Gas；Sulfur hexafluoride monitoring alarm subsystem System is the situation that safety in production is emphasized according to electric system, is mentioned for the staff in the electrical room for being equipped with SF6 equipment The intelligent on-line monitoring early warning system for designing, developing for health of human body safeguard protection.System predominantly detects in surrounding air SF6 gas content and oxygen content, when SF6 gas content is exceeded in environment or anoxic, can real-time perfoming alarm, while opening automatically Unblank blower is aerated, and link sound-light alarm, and no admittance for prompt person, and there is Temperature and Humidity, working condition to prompt, Many abundant functions such as teletransmission alarm, the inquiry of history alert data.The exclusive micro SF6 gas detection technology of system, can detect To the SF6 gas of 1000ppm concentration, the purpose to guarantee personal safety not only can achieve, but also also ensure that equipment is normally transported Row；The lambda sensor of import high stable can provide more one layer of reliably protecting for field personnel.This subsystem is mainly answered The switch gear room 35KVSF6 and the room 500KV, 220KV, 110KVGIS in substation.

Cable temperature monitoring alert sub-system, for monitoring the cable temperature of substation field 200；Substation cable temperature Monitoring and warning system takes contact type measurement principle, the running temperature of real-time monitoring cable.This system in main website by numerical value, The measured value and variation tendency of the forms displays temperature such as curve, rod figure, simulation drawing provide foundation for the judgement of failure.

Control module 130 includes:

Specification configuration module 134, for controlling the work of subsystems and module；

Link configuration module 132, for carrying out combined operation between subsystems；

Memory module 136, the data uploaded for compressing storage subsystems comprising: blocking unit, for that will count According to piecemeal；Duplicate removal unit, for deleting duplicate data block.

In the intelligent substation auxiliary system comprehensive monitoring platform based on Internet of Things framework, subsystems are in each time The data of Duan Shangchuan have been respectively formed a file, and on the whole from file, each file is slightly different.But invention human hair It is existing, if each file is appropriately divided into multiple data blocks, in addition to not identical, the most data block of pole individual data block It is identical.

Such as the video monitoring file of each period, the general data block not phase in addition to the file header part of record time Together, and individually the data block that personnel's active period has been recorded is not identical, and the data block of other parts is all identical.

The present embodiment stores the data of subsystems upload by way of piecemeal duplicate removal, thus when receiving new file When, new file is divided into multiple data blocks first, these data blocks are subjected to duplicate checking with each data block in system and are compared, such as Fruit release data block is identical, then the identical data block of new file is not repeated to save, and only retains a pointer and refer to To the duplicate data block.This efficient storage mode solves intelligent substation in the prior art based on Internet of Things framework In auxiliary system comprehensive monitoring platform the problem of memory space inadequate.

Preferably, deblocking is included: by the blocking unit

With bit manipulation creation mode fingerprint；

Mode fingerprint is matched with data；

Piecemeal is carried out with the position being matched to.

The characteristics of computer CPU is that execution position operating efficiency is especially high, overhead very little.This preferred embodiment uses position Operation carrys out creation mode fingerprint, to improve comparison efficiency, is conducive to handle the extremely huge auxiliary system, substation of data volume System monitoring data.

Preferably, include: with bit manipulation creation mode fingerprint

Forming types character string P=[b₁,b₂,b₃,…b_m], wherein b_i(i is from 1 to m) is each character in model string Binary string, binary digit be t；

Data fingerprint f (S is set_i) it is by b₁,b₂,b₃,…b_mI-th bit combine to obtain, wherein i takes the 1- of binary string T.

Preferably, mode fingerprint match with data include:

Into j-th of data block M of data_jDivision；

Step 1: from M_j-1Terminate label and jumps k character to the right；

Step 2: by present bit and P left-justify；

Step 3: the last bit after being aligned in data with P takes m character to the left；

Step 4: taking i-th bit to form X from m character of acquirement_t, by X_tWith f (S_i) compare one by one, wherein i is from 1 to t.

Step 6: if i is all satisfied X from 1 to t_t=f (S_i), then the last bit being currently aligned with P in data is labeled as M_j Stop bits.

Step 7: it is if it happens not identical, then continue to jump k character to the right, and return to step 2；

Step 8: returning to step 2 and reach L times, then the last bit being currently aligned with P in data is labeled as M_jStop bits.

In above-mentioned comparison method, the comparison based on model string P is realized, can expeditiously complete very much file Deblocking, be particularly suitable for executing this preferred embodiment using CPU.

Preferably, mode fingerprint match with data include:

Into j-th of data block M of data_jDivision；

Step 1: from M_j-1Terminate label and jumps k character to the right；

Step 2: by present bit and P left-justify；

Step 3: the first place after being aligned in data with P takes to the right r character, and wherein r is much smaller than m；

Step 4: taking i-th bit to form X from r character of acquirement_ir, then

Step 4.1: by f (S_ir) first place pipette r to the right and obtain f (S_ir), by X_irWith f (S_ir) compare one by one, wherein i From 1 to t；

Step 4.2: it is if it happens not identical, then execute SHL f (S_ir), 1, it is then return to step 4.1；

Step 4.3: reaching m-r times if returning to step 4.1, return to step 2；

Step 4.3: if i is all satisfied X from 1 to t_tr=f (S_ir), then enter step 5.

Step 5: the last bit after being aligned in data with P takes m character to the left；

Step 6: taking i-th bit to form X from m character of acquirement_t, by X_tWith f (S_i) compare one by one, wherein i is from 1 to t.

Step 7: if i is all satisfied X from 1 to t_t=f (S_i), then the last bit being currently aligned with P in data is labeled as M_j Stop bits.

Step 8: it is if it happens not identical, then continue to jump k character to the right, and return to step 2；

Step 9: returning to step 2 and reach L times, then the last bit being currently aligned with P in data is labeled as M_jStop bits.

In above-mentioned comparison method, data volume of the r much smaller than m is first only taken to carry out fingerprint comparison, so that comparison is measured into one Step significantly reduces, and can expeditiously complete very much the deblocking of file, be particularly suitable for intelligent substation auxiliary system pole Its huge data volume.

Above preferred embodiment is all to be compared from left to right, guarantees that the size of data block is not less than k character, no Greater than L × k character.The size division of data block has certain flexibility, mainly upper control limit, and data block division is less than normal, It is suitable for that data volume is extremely huge, memory space scene less than normal.

It is comparison of turning left from the right side that multiple preferred embodiments, which have also been devised, in applicant, guarantees the size of data block not less than L × k A character is not more than 2L × (k+1) a character.The size division of data block has certain flexibility, mainly lower control limit, number Divided according to block bigger than normal, it is smaller to be suitable for data volume, the biggish scene of memory space.It is detailed below from right the excellent of comparison of turning left Select embodiment

Preferably, include: with bit manipulation creation mode fingerprint

Forming types character string P=[b₁,b₂,b₃,…b_m], wherein b_i(i is from 1 to m) is each character in model string Binary string, binary digit be t；

Data fingerprint f (S is set_i) it is by b₁,b₂,b₃,…b_mI-th bit combine to obtain, wherein i takes the t- of binary string 1.

Preferably, mode fingerprint match with data include:

Into j-th of data block M of data_jDivision；

Step 1: from M_j-1Terminate label and jumps 2L × (k+1) a character to the right；

Step 2: by present bit and P Right Aligns；

Step 3: the last bit after being aligned in data with P takes m character to the left；

Step 4: taking i-th bit to form X from m character of acquirement_t, by X_tWith f (S_i) compare one by one, wherein i is from 1 to t.

Preferably, mode fingerprint is matched with data further include:

Step 6: if i is all satisfied X from 1 to t_t=f (S_i), then the last bit being currently aligned with P in data is labeled as M_j Stop bits.

Preferably, mode fingerprint is matched with data further include:

Step 7: it is if it happens not identical, then continue to jump k character to the left, and return to step 2；

Step 8: returning to step 2 and reach L times, then the last bit being currently aligned with P in data is labeled as M_jStop bits.

Preferably, mode fingerprint match with data include:

Into j-th of data block M of data_jDivision；

Step 1: from M_j-1Terminate label and jumps 2L × (k+1) a character to the right；

Step 2: by present bit and P Right Aligns；

Step 3: the last bit after being aligned in data with P takes r character to the left, and wherein r is much smaller than m；

Step 4: taking i-th bit to form X from r character of acquirement_ir, then

Step 4.1: by f (S_ir) last bit pipette r to the left and obtain f (S_ir), by X_irWith f (S_ir) compare one by one, wherein i From 1 to t；

Step 4.2: it is if it happens not identical, then execute SHR f (S_ir), 1, it is then return to step 4.1；

Step 4.3: reaching m-r times if returning to step 4.1, return to step 2；

Step 4.3: if i is all satisfied X from 1 to t_tr=f (S_ir), then enter step 5.

Preferably, mode fingerprint is matched with data further include:

Step 5: the last bit after being aligned in data with P takes m character to the left；

Step 6: taking i-th bit to form X from m character of acquirement_t, by X_tWith f (S_i) compare one by one, wherein i is from 1 to t.

Preferably, mode fingerprint is matched with data further include:

Step 7: if i is all satisfied X from 1 to t_t=f (S_i), then the last bit being currently aligned with P in data is labeled as M_j Stop bits.

Preferably, mode fingerprint is matched with data further include:

Step 8: it is if it happens not identical, then continue to jump k character to the left, and return to step 2；

Step 9: returning to step 2 and reach L times, then the last bit being currently aligned with P in data is labeled as M_jStop bits.

Above-mentioned preferred embodiment realizes comparison from right to left.

Preferred L=k=2048, the size of the data volume are that applicant is rule of thumb arranged, and space and efficiency can take It obtains and preferably balances.

Preferably, the Internet of Things uses PLC (PowerLineCarrier, power line carrier communication), FSK (micropower Wireless communication), RS485, M-BUS (Meter-Bus), zigbee (purple honeybee), at least one of LoRa and NB-IoT.

This preferred embodiment supports the Internet of Things of mainstream currently on the market, so that the technical program obtains as far as possible It promotes and applies.

Those skilled in the art after considering the specification and implementing the invention disclosed here, will readily occur to of the invention its Its embodiment.This application is intended to cover any variations, uses, or adaptations of the invention, these modifications, purposes or Person's adaptive change follows general principle of the invention and including the undocumented common knowledge in the art of the application Or conventional techniques.The description and examples are only to be considered as illustrative, and true scope and spirit of the invention are by following Claim is pointed out.

It should be understood that the present invention is not limited to the precise structure already described above and shown in the accompanying drawings, and And various modifications and changes may be made without departing from the scope thereof.The scope of the present invention is limited only by the attached claims.

Claims (10)

1. a kind of intelligent substation auxiliary system comprehensive monitoring platform based on Internet of Things framework characterized by comprising

Internet of Things module, for providing Internet of Things connection；

Communication module, for providing communication network connection；

Control module for uploading data to main station system by communication module, and connects subsystems by Internet of Things module；

Subsystems comprising:

Environmental monitoring subsystem, for monitoring the working environment of substation field；

Intelligent image monitoring and video intercom subsystem, for acquiring the image of substation field in real time, and provide a user pair Say function；

Access control subsystem, for monitoring the entrance of substation field；

Air conditioner energy saving and equipment control subsystem, for monitoring the air-conditioning of substation field and divulge information light and watering equipment；

SF₆Monitoring, alarming subsystem, for monitoring the SF of substation field₆Gas；

Cable temperature monitoring alert sub-system, for monitoring the cable temperature of substation field；

Control module includes:

Specification configuration module, for controlling the work of subsystems and module；

Link configuration module, for carrying out combined operation between subsystems；

Memory module, the data uploaded for compressing storage subsystems comprising: blocking unit is used for deblocking； Duplicate removal unit, for deleting duplicate data block.

2. intelligent substation auxiliary system comprehensive monitoring platform according to claim 1, which is characterized in that the piecemeal list Deblocking includes: by member

With bit manipulation creation mode fingerprint；

Mode fingerprint is matched with data；

Piecemeal is carried out with the position being matched to.

3. intelligent substation auxiliary system comprehensive monitoring platform according to claim 2, which is characterized in that created with bit manipulation Modeling formula fingerprint includes:

Forming types character string P=[b₁,b₂,b₃,…b_m], wherein b_i(i is from 1 to m) is two of each character in model string System string, binary digit are t；

Data fingerprint f (S is set_i) it is by b₁,b₂,b₃,…b_mI-th bit combine to obtain, wherein i takes t-1 of binary string.

4. intelligent substation auxiliary system comprehensive monitoring platform according to claim 3, which is characterized in that by mode fingerprint Match with data include:

Into j-th of data block M of data_jDivision；

Step 1: from M_j-1Terminate label and jumps 2L × (k+1) a character to the right；

Step 2: by present bit and P Right Aligns；

Step 3: the last bit after being aligned in data with P takes m character to the left；

Step 4: taking i-th bit to form X from m character of acquirement_t, by X_tWith f (S_i) compare one by one, wherein i is from 1 to t.

5. intelligent substation auxiliary system comprehensive monitoring platform according to claim 4, which is characterized in that by mode fingerprint It is matched with data further include:

Step 6: if i is all satisfied X from 1 to t_t=f (S_i), then the last bit being currently aligned with P in data is labeled as M_jKnot Shu Wei.

6. intelligent substation auxiliary system comprehensive monitoring platform according to claim 5, which is characterized in that by mode fingerprint It is matched with data further include:

Step 7: it is if it happens not identical, then continue to jump k character to the left, and return to step 2；

Step 8: returning to step 2 and reach L times, then the last bit being currently aligned with P in data is labeled as M_jStop bits.

7. intelligent substation auxiliary system comprehensive monitoring platform according to claim 3, which is characterized in that by mode fingerprint Match with data include:

Into j-th of data block M of data_jDivision；

Step 1: from M_j-1Terminate label and jumps 2L × (k+1) a character to the right；

Step 2: by present bit and P Right Aligns；

Step 3: the last bit after being aligned in data with P takes r character to the left, and wherein r is much smaller than m；

Step 4: taking i-th bit to form X from r character of acquirement_ir, then

Step 4.1: by f (S_ir) last bit pipette r to the left and obtain f (S_ir), by X_irWith f (S_ir) compare one by one, wherein i from 1 to t；

Step 4.2: it is if it happens not identical, then execute SHRf (S_ir), 1, it is then return to step 4.1；

Step 4.3: reaching m-r times if returning to step 4.1, return to step 2；

Step 4.3: if i is all satisfied X from 1 to t_tr=f (S_ir), then enter step 5.

8. intelligent substation auxiliary system comprehensive monitoring platform according to claim 7, which is characterized in that by mode fingerprint It is matched with data further include:

Step 5: the last bit after being aligned in data with P takes m character to the left；

Step 6: taking i-th bit to form X from m character of acquirement_t, by X_tWith f (S_i) compare one by one, wherein i is from 1 to t.

9. intelligent substation auxiliary system comprehensive monitoring platform according to claim 8, which is characterized in that by mode fingerprint It is matched with data further include:

Step 7: if i is all satisfied X from 1 to t_t=f (S_i), then the last bit being currently aligned with P in data is labeled as M_jKnot Shu Wei.

10. intelligent substation auxiliary system comprehensive monitoring platform according to claim 9, which is characterized in that refer to mode Line is matched with data further include:

Step 8: it is if it happens not identical, then continue to jump k character to the left, and return to step 2；

Step 9: returning to step 2 and reach L times, then the last bit being currently aligned with P in data is labeled as M_jStop bits.