CN106651200A - Electrical load management method and system for industrial enterprise aggregate user - Google Patents

Electrical load management method and system for industrial enterprise aggregate user Download PDF

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CN106651200A
CN106651200A CN201611248264.4A CN201611248264A CN106651200A CN 106651200 A CN106651200 A CN 106651200A CN 201611248264 A CN201611248264 A CN 201611248264A CN 106651200 A CN106651200 A CN 106651200A
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张杭
刘云
刘吕娜
李璞玉
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China XD Electric Co Ltd
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Abstract

The invention discloses an electrical load management method and an electrical load management system for an industrial enterprise aggregate user. The method comprises the steps of: step 1, acquiring real-time load data of the industrial enterprise aggregate user needed for load management from a data collection system, and carrying out load analysis and load data segmentation; step 2, carrying out pooled analysis on historical data of time sequences of each aggregate object according to segmentation results, constructing different predictive models, and predicting future electrical load data based on historical electrical data and real-time electrical load data of the user and influence factors; and step 3, after a load prediction result is obtained, comparing the load data of a load management control scheme with the real-time data in combination with an industrial enterprise production plan and an electrical load usage situation to complete feedback correction. The load management method comprises two parts of load prediction and load control, accomplishes a distributed load management method for an industrial enterprise and solves the problem of load management at the demand side of the industrial enterprise aggregate user.

Description

A kind of industrial enterprise's syndication users management of power load method and system
【Technical field】
The invention belongs to electric load energy conservation technology, more particularly to a kind of industrial enterprise's syndication users electric load pipe Reason method and system.
【Background technology】
Develop rapidly with economy, the continuous protrusion of the continuous improvement of the level of IT application and global resources problem, rationally open Send out and utilize the energy, sane development is coordinated in power industry, set up strong intelligent grid and all build and be faced with new challenges.By communication now Technology and digital Control Technology, improve electrical network intelligent level, and the theory for adapting to Sustainable Development in Future is required, is current electricity Power industrial development and progressive the only way which must be passed.
The load management of Industry enterprise customer electric power, referring to improves electricity consumption behavior and the use of user by load adjustment technology Electrically, so as to reduce load peak, obtain and save electric energy, reduce customer charge.Accurate load prediction results can Sensed in advance load variations trend, is processed by corresponding calculating and provides matched load management control strategy, effectively Ground load peak load shifting, meets the requirement of dsm.
Dsm be not only specification is carried out to user power utilization behavior, can with according to grid operating conditions to itself Generated output be adjusted correspondingly, will user side distributed power generation resource unification include dsm category.Load General differentiated control, is broadly divided into critical load and controllable burden.Critical load is the load for needing to lay special stress on protecting supply of electric power; And controllable burden in case of emergency can suitably cut off, under normal circumstances can also be by dsm or Demand-side Response reaches optimization load use, the purpose of energy saving.
Current demand side management technology, especially refine to the DSM based on industrial enterprise in popularization rank Section, is based primarily upon the regulation and control analogy of legacy system stage load and launches, and Counter-techniques are less.With the electric load of legacy system magnitude Difference, used as Demand-side, the distribution scope of its distribution system is little, and load radix is less, and number of users is few, and electricity consumption for industrial enterprise It is relatively simple for structure;Its load value easily produces mutation, and stability is poor, and data can usually be lacked or have that error is very big to be lacked The bad data of mistake value.And in the load control stage, simple direct load control has blindness and error, need using thin Change the distributed load management of classification.
【The content of the invention】
It is an object of the invention to overcome above-mentioned deficiency, there is provided a kind of industrial enterprise's syndication users management of power load method And system, the load management method constitutes with load prediction and spatial load forecasting two large divisions, completes the distribution for industrial enterprise Formula load management method, solves the problems, such as the Demand-side load management of industrial enterprise's syndication users.
To reach above-mentioned purpose, technical scheme below is present invention employs:
A kind of industrial enterprise's syndication users management of power load method, comprises the following steps:
Step 1, the Real-time Load number of industrial enterprise's syndication users of required load management is obtained from data collecting system According to, carry out load Analysis and load data subdivision, with Demand Side Response mechanism as goal orientation, to load data carry out classification with Feature extraction, load data is subdivided into:Basic guarantee load, production schedule load, weather sensitive load, controllable lighting load With the type load of random load five;
Step 2, carries out Macro or mass analysis, with god according to subdivision result by the time series historical data of each aggregate objects Jing networks and the data digging method of the machine learning different forecast models of structure, based on user's history electricity consumption data, real-time electricity consumption Load data and influence factor are predicting following power load data;
Step 3, after obtaining load prediction results, with reference to industrial enterprise's production schedule and power load service condition, uses Demand Side Response mechanism carrys out administrative loads;The load data of load management regulation and control scheme and real time data are compared, feedback is completed Amendment.
The foundation of described forecast model is, based on user power utilization historical data, to analyze user from electricity consumption historical data and use Electricity custom, the influence factor of equipment running status and electricity consumption trend and environment, power load and time relationship, set up electricity consumption and bear Lotus forecast model.
Described Demand Side Response mechanism includes direct load control, interruptible load and tou power price.
Industry enterprise customer side power load prediction history data source is in SCADA electric power monitoring systems, the data of collection First pre-processed, preprocess method includes data cleansing, dimensionality reduction and data normalization.
At control point of the administrative loads before predicted load reaches maximum demand, by the interior requirement curve model for setting Criterion carries out demand control work, that is, compare requirement value and predicted load judges to adjust load, selects current most suitable Energy-saving scheme, controls in advance maximum demand.
A kind of industrial enterprise's syndication users power load management system, including load data acquisition module, meteorological data obtain Delivery block, database, neural network prediction module, error calculation correcting module and data display unit;
Wherein, described load data acquisition module, is connected with SCADA electric power monitoring systems, for obtaining load management Required historical load data and real-time load data;
Described meteorological data acquisition module, is connected with weather site interface, meteorological number needed for for obtaining load management According to;
Described database, connection historical load data acquisition module and meteorological data acquisition module, for storing history Load data, real-time load data and meteorological data;
Described neural network prediction module, is connected with database, for based on user's history electricity consumption data, real-time electricity consumption Load data and influence factor are predicting following power load data;
Described error calculation correcting module, is connected with neural network prediction module and load data acquisition module, is used for The load data of load management regulation and control scheme and real time data are compared, feedback modifiers are completed, real-time modified load data are simultaneously excellent Change the database of training neural network prediction module;
Described data display unit, is connected with database, neural network prediction module and error calculation correcting module, uses In man-machine interaction, including the classification of data query, Drawing of Curve, system loading shows and load control scheme is pushed.
Also include date discrimination module, date discrimination module be connected with database, for by obtain predict date day and Built-in calendar is compared, and the load data in database is arranged as into time series according to time sampling interval, and subdivision classifies as phase Like day data set.
Described data display unit includes data inquiry module, Drawing of Curve module, system loading sort module and bears Lotus regulates and controls module;
Described data inquiry module, realizes that user specifies day or set period inquiry for data query;
Described Drawing of Curve module, for draw specified day history load curve, all kinds of load curves, real-time curve, Prediction curve, Real-time Error comparison chart and longer period historical load trend, and show load value;
Described system loading sort module, for showing all kinds of load classification methods, and shows corresponding load curve;
Described load control module, bear before and after estimated regulation and control for pushing load management regulation and control scheme, and intuitively showing Lotus curvilinear motion situation.
Also include intelligent control module, intelligent control module connects with neural network prediction module and error calculation correcting module Connect, for completing to automatically adjust according to load management and optimization control scheme and real-time system structure, scheme is pushed and excess load Report to the police, carry out direct load control or notify client as needed and be controlled load by operating a switch according to actual conditions.
Compared with prior art, the present invention at least has following technique effect:
Industrial enterprise's syndication users management of power load method of the present invention completes load management for industrial enterprise, negative Lotus is predicted, it then follows the principle of " first segment and predict again ", i.e., for each user in Industry enterprise customer polymerization carries out characteristic Analysis, different qualities classification is subdivided into using clustering algorithm by user load, then using different prediction algorithms carries out load respectively Load prediction results under various prediction algorithms are finally weighted summation by prediction, are finally predicted the outcome;Spatial load forecasting In the stage, predicting the outcome as Primary Reference foundation for short-term prediction and ultra-short term is mutually tied with load importance and part throttle characteristics Close, complete load control scheme;Than the prediction of conventional system stage load, load refinement is more effectively completed, more meet Demand-side load Characteristic, more effectively completes power load excacation.
The management system of the present invention is pre- by load data acquisition module, meteorological data acquisition module, database, neutral net Survey module, error calculation correcting module and data display unit composition, the management of power load of whole Industry enterprise customer polymerization System is effectively managed to realize target with load, in combination with SCADA electric power monitoring systems, completes bi-directional data with database mutual Connection, and realize operable friendly man-machine interface.And by described neural network prediction module to the history electricity consumption based on user Data, real-time power load data and influence factor are predicting following power load data;Error calculation correcting module is by load The load data of management regulation scheme is compared with real time data, completes feedback modifiers, and real-time modified load data simultaneously optimize training The relevant parameter of neural network prediction module;Final data display unit is used for man-machine interaction, carries out data query, curve and paints System, system loading classification show and load control scheme is pushed.Whole load management system is simple and reliable, can efficiently accomplish negative Lotus refines, and more meets Demand-side part throttle characteristics, carries out the distributed load management of classification.
【Description of the drawings】
Fig. 1 is industrial enterprise's syndication users Power system load data classification;
Fig. 2 is industrial enterprise's syndication users management of power load control technology module diagram;
Fig. 3 is industrial enterprise's syndication users load forecast flow chart;
Fig. 4 is industrial enterprise's syndication users power load management system schematic diagram.
【Specific embodiment】
With reference to the accompanying drawings and detailed description the present invention is described in detail.
The short-term load forecasting and load management of Industry enterprise customer side power load under intelligent grid, it is desirable in intelligent electricity Under the dsm of net is required, with reference to Industry enterprise customer side power load own characteristic, usage history load and other ginsengs On the basis of examining data, the load of following short-term or even ultra-short term is accurately predicted, and realizes Payload control and management, To reach the purpose of accurate prediction Effective Regulation energy science management.
A kind of industrial enterprise's syndication users management of power load method basic step of the present invention is:Load data is segmented, born The realization of lotus prediction, spatial load forecasting and load management system.Specifically include following steps:
First, the industrial enterprise's aggregate objects for required load management carry out load Analysis and load data subdivision. Load data acquisition is carried out to the required research object for carrying out load management, the i.e. data collecting system of industrial enterprise, it is perfect Data prepare and data prediction work;Load data is segmented according to the method and load self-characteristic of data clusters.
The load data subdivision is referred to and for load to complete feature extraction and effectively classification according to certain standard.Due to Widely using for SCADA electric power monitoring systems, can easily obtain real time mass customer charge data, with reference to above-mentioned physics point Class and algorithm are clustered, and with dsm as goal orientation, load can more effectively be classified and feature extraction.
The temperature adjustment loads such as the different load different characteristics covered of industrial enterprise Demand-side user, such as air-conditioning are subject to temperature The loads such as the inside even from weather such as rainfall, illumination are affected by fine day or wet weather etc., and industrial production electricity consumption and the production schedule It is related.It is high low as constraints with complicated classification degree with prediction accuracy according to all kinds of part throttle characteristics, consider direct load The Demand Side Response mechanism such as control, interruptible load, tou power price, using clustering algorithm, with reference to load self-characteristic, such as Fig. 1 It is shown, it is divided into basic guarantee load, production schedule load, weather sensitive load, the class of controllable lighting load and random load etc. five Load.
Secondly, the time series historical data of each groups of users is carried out into Macro or mass analysis according to subdivision result, with god The data digging method different forecast models of structure such as Jing networks and machine learning, with reference to Correlative Influence Factors, complete each type load Data prediction works.
The load prediction refer to based on the other influences such as user's history electricity consumption data, real-time power load data and meteorology because Usually predict power load.The foundation of model be based on a large amount of electricity consumption historical datas, from these data analyze user power utilization custom, Equipment running status and electricity consumption trend and environmental impact factor, power load and time relationship etc., set up electro-load forecast mould Type, using intelligent algorithms such as data minings, the data such as following power load of prediction.
Industry enterprise customer side power load prediction history data are mainly derived from SCADA electric power monitoring systems, due to life The reason such as the plan of producing, load transfer, system be unstable, having bad data needs to carry out data prediction.Because load data exists In collection and transmission exist disappearance and mistake, data should be pre-processed first, predominantly data cleansing, dimensionality reduction and Data normalization.
Then, according to load forecast result and directly control, the dsm means such as control can be interrupted complete to bear Lotus management regulation scheme, scheme regulation and control afterload data are compared with real time data, complete feedback modifiers.
The spatial load forecasting is referred to after acquisition load prediction results, used with reference to industrial enterprise's production schedule and power load The means such as situation, direct load control, load scheduling transfer, the flexible load control of the response of use demand side carry out administrative loads. At control point before predicted load reaches maximum demand, system carries out needing by the interior requirement curve model criterion for setting Amount control work.Based on the demand control technology of load prediction, current most suitable energy-saving scheme is may be selected, controlled in advance maximum Requirement, is prevented effectively from overload operation or even generation of tripping, it is ensured that energy-saving safe is produced.
Finally, the realization of the management of power load method of Industry enterprise customer polymerization, load management method is according to load pipe Reason system is launched, and system realizes that data are automatically imported derivation, data processing, load prediction, spatial load forecasting, curve and the work(such as show Energy.
The realization of described management system, the structure specific works of integral load management are divided into load forecasting method and directly Application load predicts the outcome carries out two parts of demand control.As shown in Fig. 2 wherein predicted portions are obtained including historical load data Delivery block, meteorological data acquisition module, date discrimination module, neural network prediction module, error calculation correcting module, load are bent Line drafting module and prediction data export module;And control section mainly includes Real time data acquisition, load data and number in real time According to modules such as comparison, control strategy enforcements.
Wherein, historical load data acquisition module and meteorological data acquisition module are obtained needed for load management from data-interface Load data and meteorological data;Date discrimination module is compared by obtaining prediction date day with built-in calendar, and prediction day is divided To working day, weekend or festivals or holidays etc., constitute suitable similar day data set;Neural network prediction module is similar by input Day data set, is predicted the outcome using neural network prediction;Error calculation correcting module is by comparing with load prediction knot Fruit and real-time load data, real-time modified load data simultaneously optimize training neutral net, lift later stage precision of prediction;Load curve Drafting module and prediction data export module belong to man-machine interaction part, and backstage is predicted the outcome by derived from curve and data Mode shows user, wherein load curve drafting module to show prediction curve and real-time curve in same reference axis, real When refresh curve, and prediction data can in real time export as EXCEL file.
The concrete device of load management is as shown in figure 4, by data interface unit, database, application layer, key-course, presentation layer Deng composition.
Data interface unit:It is responsible for providing the interface of historical load data and meteorological data to whole load management system, Corresponding load data acquisition module, by electric power data acquisition and supervisor control (SCADA) from each gateway device ammeter Place obtains load data, samples according to time interval and use time series arrangement;Obtained by the weather site interface of meteorological observatory Take meteorological data.
Database:Including real-time data base and historical data base, real-time data base has prediction same day real-time load data group Into historical data base is made up of history daily load data and correspondence meteorological data, and historical data is through data cleansing.
Application layer:The basic function of load prediction and control whole flow process is completed, data are imported to be responsible for being led from data-interface Enter data and export to database and presentation layer, load data pretreatment obtains using by data cleansing and data normalization Come the data set predicted, load prediction module completes prediction work, and prediction data is exported to database and presentation layer, and load Management completes load demand control with optimal control, and according to load prediction results and built-in demand control data spatial load forecasting is completed Scheme is exported to presentation layer and key-course.
Key-course:Complete to automatically adjust according to load management and optimization control scheme and real-time system structure, scheme is pushed With excess load report to the police etc. function, according to actual conditions carry out direct load control or notify as needed client and by operate a switch into Row control load.
Presentation layer:As man-machine interactive platform, with data query, Drawing of Curve, display systems load classification and load The functions such as regulation and control scheme.Data query realizes that user specifies day or set period inquiry;Curve can draw specified day historical load Curve, all kinds of load curves, real-time curve, prediction curve, Real-time Error comparison chart and longer period historical load trend Etc., can mouse take and to show a load value;System loading classification feature can intuitively show each type load point using circuit system figure Class method, and show corresponding load curve;Load control scheme is intuitively shown pre- using the method real time propelling movement scheme for pushing Load curve situation of change before and after meter regulation and control.
Embodiment 1:
By taking certain industry park energy conservation as an example, various user types such as factory, R&D institution, hotel are covered in industry park.It is first The load data subdivision based on clustering algorithm and five river physical characteristics is first carried out, load prediction work is segmented based on load data Launch, pre- flow gauge is as shown in Figure 3.Load data when daily 24, a point was taken per 15 minutes, and whole day is born for 96 points totally as history Lotus input quantity.A certain day data include historical load data, meteorological data and same day meteorologic factor, use time sequence, nerve The methods such as network, machine learning are predicted, and improve algorithm contrast precision, and introduce weather conditions and production schedule factor etc. and repair Just predict the outcome.Prediction uses " similar day " rule, i.e., have the date of same type with the prediction day, and in the same period It is interior, the load variations rule of conversion similar to prediction day presentation.The same period of nearest several same type days range prediction day Interior, the load of similar day can be that close Changing Pattern is presented.Similar day is selected according to property periodic, and according to different load Influence factor will set up different load model, it will improve prediction accuracy.
The Visualization Platform structure of management of power load method is constituted as shown in figure 4, conjunctive use SCADA electric power onlines Monitoring system, SQL server databases and MTALAB softwares.System is broadly divided into data-interface part, database, application layer, Presentation layer and key-course.Data-interface mainly has SCADA load datas interface and weather forecast interface, derives according to data command Interface, is connected using odbc data source mode with database.
In data interface tier, data are obtained using each gateway device ammeter in SCADA electric power online monitoring systems, and tied Close meteorological observatory's data-interface to import historical load data and meteorological data, meteorological data covers day most high and low temperature, and day is relative Humidity, day maximum wind velocity etc..Data are directed into platform using Ethernet, and are stored in real-time data base.In application layer, load is completed The work such as data prediction, load prediction and load management optimal control, prediction data is deposited to database in real time, and with it is real-time Contrast round-off error.Application layer is connected by odbc data source mode with database, is showed predicting the outcome by presentation layer User, realizes the data query and curve intuitively function such as displaying, and realizes man-machine interaction.Simultaneously load optimal control result will be led Enter intelligent control module, be supplied directly to user's control scheme or complete to automatically control under certain authority.

Claims (9)

1. a kind of industrial enterprise's syndication users management of power load method, it is characterised in that comprise the following steps:
Step 1, the real-time load data of industrial enterprise's syndication users of required load management is obtained from data collecting system, is entered Row load Analysis and load data are segmented, and with Demand Side Response mechanism as goal orientation, load data are classified and characteristic Extract, load data is subdivided into:Basic guarantee load, production schedule load, weather sensitive load, controllable lighting load and with The type load of machine load five;
Step 2, carries out Macro or mass analysis, with nerve net according to subdivision result by the time series historical data of each aggregate objects Network and the data digging method of the machine learning different forecast models of structure, based on user's history electricity consumption data, real-time power load Data and influence factor are predicting following power load data;
Step 3, after obtaining load prediction results, with reference to industrial enterprise's production schedule and power load service condition, use demand Side response mechanism carrys out administrative loads;The load data of load management regulation and control scheme and real time data are compared, feedback modifiers are completed.
2. industrial enterprise's syndication users management of power load method according to claim 1, it is characterised in that described is pre- The foundation for surveying model is, based on user power utilization historical data, user power utilization custom, equipment operation to be analyzed from electricity consumption historical data The influence factor of state and electricity consumption trend and environment, power load and time relationship, set up electro-load forecast model.
3. industrial enterprise's syndication users management of power load method according to claim 1, it is characterised in that described need Side response mechanism is asked to include direct load control, interruptible load and tou power price.
4. industrial enterprise's syndication users management of power load method according to claim 1, it is characterised in that industrial enterprise User side load forecast historical data derives from SCADA electric power monitoring systems, and the data of collection are first pre-processed, pre- place Reason method includes data cleansing, dimensionality reduction and data normalization.
5. industrial enterprise's syndication users management of power load method according to claim 1, it is characterised in that administrative loads At control point before predicted load reaches maximum demand, requirement control is carried out by the interior requirement curve model criterion for setting Work processed, that is, compare requirement value and predicted load judges to adjust load, selects current most suitable energy-saving scheme, controls in advance Maximum demand.
6. a kind of industrial enterprise's syndication users power load management system, it is characterised in that including load data acquisition module, gas Image data acquisition module, database, neural network prediction module, error calculation correcting module and data display unit;
Wherein, described load data acquisition module, is connected with SCADA electric power monitoring systems, needed for for obtaining load management Historical load data and real-time load data;
Described meteorological data acquisition module, is connected with weather site interface, meteorological data needed for for obtaining load management;
Described database, connection historical load data acquisition module and meteorological data acquisition module, for storing historical load Data, real-time load data and meteorological data;
Described neural network prediction module, is connected with database, for based on user's history electricity consumption data, real-time power load Data and influence factor are predicting following power load data;
Described error calculation correcting module, is connected with neural network prediction module and load data acquisition module, for bearing The load data of lotus management regulation scheme is compared with real time data, completes feedback modifiers, and real-time modified load data simultaneously optimize instruction Practice the database of neural network prediction module;
Described data display unit, is connected, for people with database, neural network prediction module and error calculation correcting module Machine is interacted, including the classification of data query, Drawing of Curve, system loading shows and load control scheme is pushed.
7. a kind of industrial enterprise's syndication users power load management system according to claim 6, it is characterised in that also wrap Date discrimination module is included, date discrimination module is connected with database, for being compared with built-in calendar by obtaining prediction date day, Load data in database is arranged as into time series according to time sampling interval, subdivision classifies as similar day data set.
8. a kind of industrial enterprise's syndication users power load management system according to claim 6, it is characterised in that described Data display unit include data inquiry module, Drawing of Curve module, system loading sort module and load control module;
Described data inquiry module, realizes that user specifies day or set period inquiry for data query;
Described Drawing of Curve module, for drawing specified day history load curve, all kinds of load curves, real-time curve, prediction Curve, Real-time Error comparison chart and longer period historical load trend, and show load value;
Described system loading sort module, for showing all kinds of load classification methods, and shows corresponding load curve;
Described load control module, for pushing load management regulation and control scheme, and intuitively shows that load is bent before and after estimated regulation and control Line situation of change.
9. a kind of industrial enterprise's syndication users power load management system according to claim 6, it is characterised in that also wrap Intelligent control module is included, intelligent control module is connected with neural network prediction module and error calculation correcting module, for foundation Load management and optimization control scheme and real-time system structure complete to automatically adjust, scheme is pushed and excess load is reported to the police, according to real Border situation carries out direct load control or notifies client as needed and be controlled load by operating a switch.
CN201611248264.4A 2016-12-29 2016-12-29 Electrical load management method and system for industrial enterprise aggregate user Pending CN106651200A (en)

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CN107748940A (en) * 2017-11-16 2018-03-02 国网上海市电力公司 A kind of energy conservation potential Quantitative prediction methods
CN107784455A (en) * 2017-11-16 2018-03-09 鼎信信息科技有限责任公司 A kind of power network peak load shifting method based on trade power consumption database and distribution transforming weight overload prediction
CN108053056A (en) * 2017-11-25 2018-05-18 国网辽宁省电力有限公司经济技术研究院 A kind of power industry load forecasting method that can improve precision of prediction
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US11455323B2 (en) 2018-07-19 2022-09-27 Huawei Cloud Computing Technologies Co., Ltd. Data processing method and system
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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102722145A (en) * 2012-05-17 2012-10-10 深圳市科陆电子科技股份有限公司 Intelligent household appliance control system
CN102999791A (en) * 2012-11-23 2013-03-27 广东电网公司电力科学研究院 Power load forecasting method based on customer segmentation in power industry
CN103972896A (en) * 2014-05-13 2014-08-06 国家电网公司 Load modeling and optimal control method based on demand response
US20140336934A1 (en) * 2013-05-07 2014-11-13 Atomic Energy Council - Institute Of Nuclear Energy Research Ensemble wind power forecasting platform system and operational method thereof
CN105590174A (en) * 2015-12-29 2016-05-18 南京因泰莱电器股份有限公司 Enterprise power consumption load prediction method based on K-means clustering RBF neural network

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102722145A (en) * 2012-05-17 2012-10-10 深圳市科陆电子科技股份有限公司 Intelligent household appliance control system
CN102999791A (en) * 2012-11-23 2013-03-27 广东电网公司电力科学研究院 Power load forecasting method based on customer segmentation in power industry
US20140336934A1 (en) * 2013-05-07 2014-11-13 Atomic Energy Council - Institute Of Nuclear Energy Research Ensemble wind power forecasting platform system and operational method thereof
CN103972896A (en) * 2014-05-13 2014-08-06 国家电网公司 Load modeling and optimal control method based on demand response
CN105590174A (en) * 2015-12-29 2016-05-18 南京因泰莱电器股份有限公司 Enterprise power consumption load prediction method based on K-means clustering RBF neural network

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
张明光: "《电力系统远动及调度自动化》", 30 April 2010 *

Cited By (52)

* Cited by examiner, † Cited by third party
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Application publication date: 20170510