Abstract
Most distributed photovoltaic systems (DPVSs) are normally located behind the meter and are thus invisible to utilities and retailers. The accurate information of the DPVS capacity is very helpful in many aspects. Unfortunately, the capacity information obtained by the existing methods is usually inaccurate due to various reasons, e.g., the existence of unauthorized installations. A two-stage DPVS capacity estimation approach based on support vector machine with customer net load curve features is proposed in this paper. First, several features describing the discrepancy of net load curves between customers with DPVSs and those without are extracted based on the weather status driven characteristic of DPVS output power. A one-class support vector classification (SVC) based DPVS detection (DPVSD) model with the input features extracted above is then established to determine whether a customer has a DPVS or not. Second, a bootstrap-support vector regression (SVR) based DPVS capacity estimation (DPVSCE) model with the input features describing the difference of daily total PV power generation between DPVSs with different capacities is proposed to further estimate the specific capacity of the detected DPVS. A case study using a realistic dataset consisting of 183 residential customers in Austin (TX, U.S.A.) verifies the effectiveness of the proposed approach.
Highlights
A one-class support vector classification (SVC)-based DPVS detection (DPVSD) model was proposed to detect whether a customer has a distributed photovoltaic systems (DPVSs) or not
DPVSs was used to test the performance of the proposed approach
The results showed that the used to test the performance of the proposed approach
Summary
Grid-connected distributed photovoltaic system (DPVS) is playing an increasingly significant role as an electric supply resource. 40 GW by the end of 2017, which is twice as much as in 2016 [1] The growth of DPVS installations in China is predicted to be 20 GW per year from 2017 to 2020. Introducing a high penetration of DPVSs to the grid could have significant impacts on many aspects, including demand response (DR) capacity estimation [3,4,5,6], customer baseline load estimation [7,8], load forecasting [9,10] and distribution network planning [11,12]. The DPVS installations will significantly affect the load profiles and thereby affect the available DR capacity. Large errors will occur in DR capacity estimation if the latest
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