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Extended Deployment Testing and Analysis of a Cable-Mounted Robot for Near Shore Monitoring

Kevin Bennett, Andrew Bennett, Diane DiMassa, Silas Hughes, Joice Himawan, Arianna Ilvonen

发表年份
2021
引用次数
4

摘要

The coasts are an essential resource. About 600 million people reside along the coasts at an elevation of fewer than 10 meters above sea level, with this number projected to double by 2060 [1]. In addition to being critical to human society, biodiverse coastal habitats such as estuaries, wetlands, coral reefs, and upwelling areas support and provide breeding grounds for organisms such as fish, marine mammals, sea turtles, and migratory birds. Given the role the coasts play in billions of lives, monitoring this highly dynamic environment is an urgent concern for both safety and conservation efforts. Due to climate change, vulnerable coastal ecosystems are experiencing strain from sea level rise, increased temperatures, changes in storm patterns, and ocean acidification [1],[2]. These changes necessitate reliable observations that will help achieve a better understanding of the coasts. However, surveying the coastal waters is not an easy task. Coasts are affected by a unique mix of environmental and human influences that vary over time. These influences range from natural erosion and accretion to substantial coastal engineering. Individual coastal sites can be challenging to reach and may have considerably different needs and vulnerabilities [3],[4],[5]. For instance, during extreme scenarios such as hurricane landfall, capturing transient event data is crucial for the proper development of local coastal models [3]. The diverse conditions along the coasts create a complicated environment for any observation system to navigate. Within this environment, there is space for new and inexpensive approaches to coastal monitoring. Researchers need an affordable and reliable method of data collection to understand this critical area further. A robotic system can contribute to widespread, economic, and consistent coastal monitoring. The robot traverses a fixed, partially underwater cable and autonomously collects data as it moves through the water. By simplifying the motion of the robotic system to a single degree of freedom, it can easily overcome the many challenges of navigating a coastal environment. Specifically, it can return to a predetermined location over time for long-term study and minimize the need for human supervision and maintenance, thus reducing costs while increasing sampling rates. The system will collect information regardless of weather and with much greater temporal resolution than manual methods. It is also highly modular; different sensor suites can be equipped depending on the application and deployment location. Following the system proposal: the design and testing of a prototype constructed during summer 2021 and culminating with two days of data collection tests off the coast of East Falmouth, Massachusetts, USA. This paper presents an improved prototype system and discusses recommended directions for future system development and research.

关键词

ShoreCoral reefCoastal erosionHabitatCoastal hazardsEnvironmental scienceStormEcosystemOceanographyCoastal management

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