CN109902874A - A kind of micro-capacitance sensor photovoltaic power generation short term prediction method based on deep learning - Google Patents

Abstract

The present invention relates to micro-capacitance sensor photovoltaic generating system research fields, more particularly, to a kind of micro-capacitance sensor photovoltaic power generation short term prediction method based on deep learning, it the steps include: 1, data prediction, supplement amendment is carried out to bad data, the missing data in historical data, is then normalized to form training sample data；2, processed sample data is divided into the sample set of Various Seasonal, different broad sense weather patterns, inputs LSTM prediction model as training sample；3, LSTM Short-term Forecasting Model is established according to weather pattern and complete to train；4, the season according to belonging to prediction day and weather pattern forecast information select corresponding LSTM to predict submodel, export the photovoltaic power generation short-term forecast value of future time instance.The present invention is deeply excavated the power producing characteristics of photovoltaic power generation and is established prediction model using deep learning algorithm, is not needed valuable meteorologic survey equipment and instrument, is reduced costs, and has the wider scope of application.

Description

A kind of micro-capacitance sensor photovoltaic power generation short term prediction method based on deep learning

Technical field

The present invention relates to micro-capacitance sensor photovoltaic generating system research field, specifically a kind of micro-capacitance sensor light based on deep learning Volt power generation short term prediction method.

Background technique

Solar energy is a kind of inexhaustible, zero carbon emission new energy, and photovoltaic power generation is mainly utilized as it One of mode has obtained sufficient development.With continuous soaring, the stochastic volatility of photovoltaic power generation of Photovoltaic generation installed capacity And its large-scale grid integration make dispatching of power netwoks need to match energy storage device or using other adjustable units to its into Row peak regulation is just able to achieve the control to photovoltaic power generation, otherwise can only abandon light.Therefore how to guarantee power grid security economical operation Under the conditions of dissolve photovoltaic generation power to the maximum extent and be particularly important.Accurate photovoltaic power generation power prediction technology is to improve It dissolves horizontal one of effective way.

Micro-capacitance sensor is mainly integrated by distributed generation unit, energy conversion unit, energy-storage units and subscriber unit etc., can be real The power-balance in current situation portion and optimization.The dispersion of micro-capacitance sensor photovoltaic generating system accesses power distribution network, is for dispatching of power netwoks personnel " invisible ", function is equivalent to load for power transmission network.The economic load dispatching operation of micro-capacitance sensor needs synthesis can be again Various information such as energy forecast information, load prediction information and future market are given birth to make a plan, and traditional power grid is dispatched Method only considered load prediction, to be unable to satisfy the safe and economical operation requirement of power grid.Therefore, accurate photovoltaic power generation Prediction can provide richer reliable foundation, be the key technology for improving power grid consumption distributed photovoltaic power generation.Carrying out light Before volt power generation prediction, also needs to analyse in depth the output characteristics that photovoltaic is contributed, accurately hold photovoltaic output power Uncertainty, for microgrid energy management and control technical support is provided.

Summary of the invention

The present invention proposes a kind of micro-capacitance sensor photovoltaic power generation short term prediction method based on LSTM network, establishes and is suitable for moving The prediction model of state timing.Photovoltaic is analyzed first to contribute itself periodicity and temporal characteristics；Describe energy in deep learning Handle the working principle of the LSTM network of long Dependency Specification；And the input/output variable and hidden layer of LSTM prediction model is determined Number of nodes；Training sample data are pre-processed using the repairing of transverse and longitudinal similar day and method for normalizing；Finally based on A, B, tetra- class broad sense weather pattern of C, D establishes prediction submodel, realizes to future time instance micro-capacitance sensor photovoltaic power generation short-term forecast；Emulation The result shows that LSTM prediction model precision of prediction with higher.

Above-mentioned technical problem of the invention is mainly addressed by following technical proposals:

A kind of micro-capacitance sensor photovoltaic power generation short term prediction method based on deep learning, comprising the following steps:

Step 1, data prediction carries out supplement amendment to bad data, the missing data in historical data, then carries out Normalized forms training sample data；

Step 2, processed sample data is divided into the sample set of Various Seasonal, different broad sense weather patterns, input LSTM prediction model is as training sample；

Step 3, LSTM Short-term Forecasting Model is established according to weather pattern and complete to train；

Step 4, the season according to belonging to prediction day and weather pattern forecast information select corresponding LSTM to predict submodel, defeated The photovoltaic power generation short-term forecast value of future time instance out.

Supplement amendment is carried out to bad data, the missing data in historical data in the step 1, is then normalized The process that processing forms training sample data is as follows:

Remove improper data as because interim accident or gadget maintenance caused by generated energy be zero historical data；Hair The extraordinary data of electricity；The data being lost.It is handled using across comparison method: when photovoltaic power generation data exception some day, Searching and the consistent similar day of its weather pattern, go out force data with the photovoltaic of similar day and carry out generation in a period of time near it It replaces.

It is handled using mean-standard deviation (Z-score) method for normalizing, function formula are as follows:

In formula: x is the input data value before normalizing, and μ is the mean value of all input datas, and σ is all input datas Standard deviation, x be normalization after input data.

Processed sample data is divided into the sample set of Various Seasonal, different broad sense weather patterns by the step 2, defeated Enter process of the LSTM prediction model as training sample are as follows:

Using state of weather mode identification method, by 33 kinds of weather pattern classified finishings of China Meteorological Administration's subdivision to A, B, C, D4 kind broad sense weather pattern, and prediction submodel is established respectively.

The step 3 establishes LSTM Short-term Forecasting Model according to weather pattern and to complete trained process as follows:

Step 3.1, parameter such as input layer, hidden layer, the output layer number of nodes for determining LSTM prediction model.Hidden layer node Number chooses the complexity that excessively will increase network model, and the training time is elongated, and over-fitting is caused to close some non-features System remembers and learns；Number of nodes chose the connection between few then excessively extensive input/output variable, can not find sample data Rule.Rule of thumb formula obtains hidden layer node initial setting to the present invention, selects by test of many times optimal.Commonly Empirical equation has:

M=log₂n (3)

In formula: m is the number of hidden nodes, and n is input layer number, and l is output layer number of nodes, and α is normal between 1~10 Number.Increase and decrease after acquisition node initial value and on this basis, after to taking the network of different number of nodes to be trained emulation, choosing Take network output error minimum and frequency of training it is few be used as optimum network model.

Step 3.2, random initializtion network weight and biasing determine the number of iterations N in network training process and every time The weight of iteration adjusts ratio；

Step 3.3, according to error function (model output value o_tWith real output value y_tFunction) calculate prediction error E, adopt Gradient of the accumulated error of whole network relative to weighting parameter U, V, W, root are calculated with the error backpropagation algorithm along the time It updates its weight according to gradient decline adjustment to predict that error is minimum, expression formula is as follows:

E_t(o, y)=o_t-y_t (5)

Network weight iterates until error reaches setting value ε or the number of iterations reaches maximum value.

The step 4 season according to belonging to prediction day and weather pattern forecast information select corresponding LSTM to predict submodule Type, the process for exporting future time instance photovoltaic power generation short-term forecast value are as follows:

The present invention passes through trained LSTM after obtaining training sample weather pattern classification results using direct forecast methods Prediction model directly calculates future time instance photovoltaic power generation output power.

The advantages and positive effects of the present invention are: it is pre- in short term to propose a kind of micro-capacitance sensor photovoltaic power generation based on LSTM network Survey method establishes the prediction model suitable for dynamic time sequence.Training sample is divided by 4 class broad sense days using weather typing method Gas type reduces the model training time.Since photovoltaic power generation data are typical Nonlinear Time Series, and there is dynamic The output of characteristic, that is, photovoltaic generating system subsequent time is not only with current time input value in relation to also and pervious input value has one Fixed connection, and LSTM network is added to the memory unit for storing long period information, can learn into time series long The information that distance relies on, therefore be highly suitable for predicting fluctuation biggish photovoltaic power generation power output sequence.The present invention uses Deep learning algorithm deeply excavates the power producing characteristics of photovoltaic power generation and establishes prediction model, does not need valuable meteorologic survey equipment And instrument, it reduces costs, there is the wider scope of application.

Detailed description of the invention

Attached drawing 1 is short term prediction method flow chart of the invention.

Attached drawing 2 is photovoltaic power curve figure under broad sense weather pattern.

Attached drawing 3 is A class weather pattern prediction contrast curve chart.

Attached drawing 4 is B class weather pattern prediction contrast curve chart.

Attached drawing 5 is C class weather pattern prediction contrast curve chart.

Attached drawing 6 is D class weather pattern prediction contrast curve chart.

Specific embodiment

Below by example, and in conjunction with attached drawing, the technical solutions of the present invention will be further described.

Example:

A kind of micro-capacitance sensor photovoltaic power generation short term prediction method based on deep learning, as shown in Figure 1, comprising the following steps:

Step 1: data prediction carries out supplement amendment to bad data, the missing data in historical data, then carries out Normalized forms training sample data.

Step 2: processed sample data is divided into the sample set of Various Seasonal, different broad sense weather patterns, input LSTM prediction model is as training sample.

In this example, using 2010 of Wuhan micro-capacitance sensor photovoltaic experiment porch record, 2015~2016 years light Volt power output real data is sample, and the installed capacity of the photo-voltaic power generation station is 10kWp, the historical data of photovoltaic test platform record Time interval is 5min.Since photovoltaic power generation has intermittence, photovoltaic power output is zero during night, therefore herein only to the phase in daytime Between photovoltaic power output predicted.Since photovoltaic battery panel power output is mostly zero before 6 points of Wuhan Area and after 18 points, herein Only the photovoltaic power output of 6:00~18:00 is predicted.Basic weather pattern and broad sense are obtained according to weather pattern recognition methods The corresponding relationship of weather pattern is as shown in table 1, and the photovoltaic power curve figure of each broad sense weather pattern is as shown in Figure 2:

1 weather pattern classification results of table

Step 3: establishing LSTM Short-term Forecasting Model according to weather pattern and complete to train.

(1) parameter such as input layer, hidden layer, the output layer number of nodes of LSTM prediction model are determined；

The present invention chooses the time series for being used to carry out photovoltaic power generation prediction as input variable, chooses prediction day at per moment Input variable of preceding 8 sample points as model.According to the difference of output layer number of nodes, there are mainly two types of network knots for prediction model Structure: (a) single argument exports network, and prediction only exports a variate-value every time, establishes 48 prediction models and obtains one day 48 point Output variable；(b) multivariable exports network, and the power prediction value that output layer number of nodes exports as needed determines, pre- every time Survey can export multiple predicted values.The present invention predicts that output valve be to predict the photovoltaic power generating value of one day day, 48 points, selection above-mentioned the Two kinds of multivariables export network, and output layer number of nodes is 4, and output valve is to predict the photovoltaic hair of each hour of day interval 15min Electricity trains altogether 12 different LSTM models；It is 18 by repeatedly trying to gather more last determining node in hidden layer.

(2) random initializtion network weight and biasing determine the number of iterations N in network training process and each iteration Weight adjusts ratio；

(3) according to error function (model output value o_tWith real output value y_tFunction) calculate prediction error E, using edge The error backpropagation algorithm of time calculates gradient of the accumulated error of whole network relative to weighting parameter U, V, W, according to ladder Degree decline adjustment updates its weight and to predict that error is minimum.

Step 4: select corresponding LSTM to predict submodel according to season belonging to prediction day and weather pattern forecast information, it is defeated The photovoltaic power generation short-term forecast value of future time instance out.

On the basis of step 1 and step 2, historical data is divided into A (fine day), B (cloudy), C (rainy day) and D (yin It) four major class are predicted respectively, present invention selection is spaced the intensity of illumination of prediction day 6:00 to 18:00 period The short-term forecast of 15min chooses root-mean-square error (RMSE) here and mean absolute percentage error comments prediction effect Valence:

In formula: P_measFor measured value；P_predFor predicted value；I is time series；P_capIt is total for the photovoltaic plant booting of i period Capacity；N is number of samples.

For the advantage and disadvantage for more fully analyzing LSTM deep learning network, increases BP neural network prediction model and carry out pair Compare model.Fig. 3 is that the photovoltaic power generation of on November 5th, 2016 (A class weather pattern) is practical, predicts contrast curve chart；Fig. 4 is 2016 The photovoltaic power generation on November 24, in (B class weather pattern) is practical, predicts contrast curve chart；Fig. 5 is (C class on November 16th, 2016 Weather pattern) photovoltaic power generation is practical, prediction contrast curve chart；Fig. 6 is the photovoltaic of on November 28th, 2016 (D class weather pattern) Power generation is practical, predicts contrast curve chart.Table 2 is the prediction error of prediction model.

2 LSTM of table predicts error MAPE/RMSE fiducial value

The mentioned LSTM prediction model prediction effect of the prediction result display present invention is integrally better than traditional BP nerve in this example Network Prediction Model.Under A class weather pattern the photovoltaic power generation output power predicted value and variation tendency of two kinds of prediction models with Measured value height of curve is coincide, though there is small-scale fluctuation error smaller, the average absolute percentage of two model of BP and LSTM Error substantially remains within 10%；The stochastic volatility that photovoltaic is contributed under B class weather pattern is most strong, the mistake of peak value, valley Forecast increases so that precision of prediction declines, and LSTM prediction model can be better anticipated continuous as caused by cloud cover compared with BP model Photovoltaic in time, which is contributed, to be changed, because LSTM network has complicated memory unit, can remember the data information of historical juncture, cloud The power output decaying of photovoltaic caused by layer has timing dependence and duration, therefore LSTM neural network forecast accuracy is higher；C, D class day LSTM network can preferably learn compared with BP network to the intermittent spy with minor swing of photovoltaic power output under the weather pattern under gas type Sign.

Embodiment belonging to the present invention be it is illustrative, without being restrictive, because the invention is not limited to be embodied Embodiment described in mode, all other embodiment party obtained according to the technique and scheme of the present invention by those skilled in the art Formula also belongs to the scope of protection of the invention.

Claims (5)

1. a kind of micro-capacitance sensor photovoltaic power generation short term prediction method based on deep learning, comprising the following steps:

Step 1, data prediction carries out supplement amendment to bad data, the missing data in historical data, then carries out normalizing Change processing and forms training sample data；

Step 2, processed sample data is divided into the sample set of Various Seasonal, different broad sense weather patterns, inputs LSTM Prediction model is as training sample；

Step 3, LSTM Short-term Forecasting Model is established according to weather pattern and complete to train；

Step 4, the season according to belonging to prediction day and weather pattern forecast information select corresponding LSTM to predict submodel, and output is not Carry out the photovoltaic power generation short-term forecast value at moment.

2. the micro-capacitance sensor photovoltaic power generation short term prediction method according to claim 1 based on deep learning, it is characterised in that: The step 1 carries out supplement amendment to bad data, the missing data in historical data, is then normalized to form instruction Practice sample data, method particularly includes: removal improper data as because interim accident or gadget maintenance caused by generated energy be Zero historical data；The extraordinary data of generated energy；The data being lost；It is handled using across comparison method: when photovoltaic some day is sent out When electric data exception, searching and the consistent similar day of its weather pattern in a period of time in its vicinity, with the photovoltaic of similar day Force data is replaced out；It is handled using mean-standard deviation (Z-score) method for normalizing, function formula are as follows:

In formula: x is the input data value before normalizing, and μ is the mean value of all input datas, and σ is the mark of all input datas Quasi- poor, x is the input data after normalization.

3. the micro-capacitance sensor photovoltaic power generation short term prediction method according to claim 1 based on deep learning, it is characterised in that: Processed sample data is divided into the sample set of Various Seasonal, different broad sense weather patterns by the step 2, and input LSTM is pre- Model is surveyed as training sample；

Using state of weather mode identification method, by 33 kinds of weather pattern classified finishings of China Meteorological Administration's subdivision to A, B, C, D4 Kind broad sense weather pattern, and prediction submodel is established respectively.

4. the micro-capacitance sensor photovoltaic power generation short term prediction method according to claim 1 based on deep learning, it is characterised in that: The step 3 establishes LSTM Short-term Forecasting Model according to weather pattern and completes to train, comprising the following steps:

Step 3.1, parameter such as input layer, hidden layer, the output layer number of nodes for determining LSTM prediction model；Node in hidden layer choosing The complexity that excessively will increase network model is taken, the training time is elongated, and over-fitting is caused to remember some non-characteristic relations Firmly and learn；Number of nodes chose the connection between few then excessively extensive input/output variable, can not find the rule of sample data； Rule of thumb formula obtains hidden layer node initial setting to the present invention, selects by test of many times optimal；Common experience Formula has:

M=log₂n (3)

In formula: m is the number of hidden nodes, and n is input layer number, and l is output layer number of nodes, and α is the constant between 1~10；It obtains Increase and decrease after node initial value and on this basis, after to taking the network of different number of nodes to be trained emulation, selection net Network output error minimum and frequency of training it is few be used as optimum network model；

Step 3.2, random initializtion network weight and biasing determine the number of iterations N in network training process and each iteration Weight adjust ratio；

Step 3.3, according to error function (model output value o_tWith real output value y_tFunction) calculate prediction error E, using edge The error backpropagation algorithm of time calculates gradient of the accumulated error of whole network relative to weighting parameter U, V, W, according to ladder Degree decline adjustment updates its weight and to predict that error is minimum, and expression formula is as follows:

E_t(o, y)=o_t-y_t (5)

Network weight iterates until error reaches setting value ε or the number of iterations reaches maximum value.

5. the micro-capacitance sensor photovoltaic power generation short term prediction method according to claim 1 based on deep learning, it is characterised in that: The step 4 season according to belonging to prediction day and weather pattern forecast information select corresponding LSTM to predict submodel, and output is not Carry out moment photovoltaic power generation short-term forecast value；The present invention uses direct forecast methods, after obtaining training sample weather pattern classification results, Future time instance photovoltaic power generation output power is directly calculated by trained LSTM prediction model.