Global offshore wind turbine detection: a combined application of deep learning and Google earth engine

Global offshore wind turbine detection: a combined application of deep learning and Google earth engine

As a renewable energy source, ocean wind energy plays an important role in addressing challenges such as global energy shortages and climate warming. In the past decade, the offshore wind power industry has developed rapidly. However, its development has also inevitably affected local social, econom...

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Bibliographic Details
Published in:International journal of remote sensing Vol. 45; no. 18; pp. 6601 - 6623
Main Authors: Zhang, Shuai, Wang, Fangxiong, Hou, Yingzi, Wang, Junfu, Guo, Jianke
Format: Journal Article
Language:English
Published: London Taylor & Francis 16-09-2024
Taylor & Francis Ltd
Subjects:
Alternative energy sources
Climate change
Cloud computing
Deep learning
Energy shortages
Engines
Environmental aspects
Environmental planning
Environmental protection
Global warming
Google Earth Engine (GEE)
Industrial development
Marine protected areas
Marine resources
Offshore
Offshore energy sources
Offshore wind turbine (OWT)
Real time
remote sensing
Renewable energy
Renewable energy sources
Semantic segmentation
Spatial planning
Sustainable development
Turbines
Water purification
wind energy
Wind power
Wind turbines
China
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Summary:As a renewable energy source, ocean wind energy plays an important role in addressing challenges such as global energy shortages and climate warming. In the past decade, the offshore wind power industry has developed rapidly. However, its development has also inevitably affected local social, economic and environmental aspects. Therefore, a timely understanding of offshore wind power dynamics development is crucial for its healthy and sustainable development. Based on this, this study designs and develops a more economical, reliable and real-time offshore wind turbine (OWT) extraction method by combining deep learning and the Google Earth Engine (GEE) cloud computing platform. The method consists of two main steps. The first part utilizes multiple semantic segmentation models to construct a multi-model detection method to initially detect OWTs. The second part utilizes the GEE cloud computing platform for installation time detection and secondary purification processing of the preliminary results. The results show that the number of global OWTs reached 13,609 by 2023, and the accuracy of the detection results reached 99.93%. China has been the fastest-growing country in offshore wind power in the last decade, from installing only 4 units in 2015 to installing 6,775 units in 2023 and surpassing the UK in 2020 and becoming the country building the most OWTs worldwide. Currently, 85% of the world's OWTs are located in China and European North Sea waters. Additionally, other regions have great potential for offshore wind development. Finally, this study provides the world's most up-to-date and complete OWT dataset, which can provide data support for research on marine ecological and environmental protection, marine spatial planning, and socioeconomic benefits.
ISSN:0143-1161
1366-5901
DOI:10.1080/01431161.2024.2391587