Abstract
Brazil is a tropical country with continental dimensions and abundant solar resources that are still underutilized. However, solar energy is one of the most promising renewable sources in the country. The proper inspection of Photovoltaic (PV) solar plants is an issue of great interest for the Brazilian territory’s energy management agency, and advances in computer vision and deep learning allow automatic, periodic, and low-cost monitoring. The present research aims to identify PV solar plants in Brazil using semantic segmentation and a mosaicking approach for large image classification. We compared four architectures (U-net, DeepLabv3+, Pyramid Scene Parsing Network, and Feature Pyramid Network) with four backbones (Efficient-net-b0, Efficient-net-b7, ResNet-50, and ResNet-101). For mosaicking, we evaluated a sliding window with overlapping pixels using different stride values (8, 16, 32, 64, 128, and 256). We found that: (1) the models presented similar results, showing that the most relevant approach is to acquire high-quality labels rather than models in many scenarios; (2) U-net presented slightly better metrics, and the best configuration was U-net with the Efficient-net-b7 encoder (98% overall accuracy, 91% IoU, and 95% F-score); (3) mosaicking progressively increases results (precision-recall and receiver operating characteristic area under the curve) when decreasing the stride value, at the cost of a higher computational cost. The high trends of solar energy growth in Brazil require rapid mapping, and the proposed study provides a promising approach.
Highlights
Solar energy is one of the most promising renewable energy sources, being crucial for sustainable development in places with intense sunlight
This study evaluated four commonly used architectures (U-net, DeepLabv3+, FPN, and Pyramid Scene Parsing Network (PSPNet)) and four backbones (ResNet-50 (R-50), ResNet-101 (R-101), Efficient-net-b0 (Eff-b0), and Efficientnet-b7 (Eff-b7))
The authors showed that the edge detection increased performance on two city panel datasets by nearly 2% IoU. This effect may be even less prominent in large solar plants since it is easier to detect borders, as shown in our study. Even though these studies trained with smaller PV solar panels, the results show an excellent ability to segment panels even with simpler models
Summary
Solar energy is one of the most promising renewable energy sources, being crucial for sustainable development in places with intense sunlight. According to Sampaio and Gonçalez [3], the main advantages of solar energy systems are reliability, low costs of operation and servicing, low maintenance, a free energy source, clean energy, high availability, generation closer to the consumer, a low environmental impact, potential to mitigate greenhouse gas emissions, and noiselessness. The main disadvantages are a high initial cost, large installation area, high dependence on technology development, and climatic conditions (solar irradiation). 1992 and 2020 [4,5] This detected growth of solar energy was not foreseen in previous scenarios of the Intergovernmental Panel on Climate Change’s fifth assessment report [6]
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