Affiliation:
1. Massachusetts Institute of Technology
Abstract
Recent years have seen mounting interest in low-power, distributed subsea internet-of-things (IoT) networks because of their potential in environmental, industrial, and defense applications [1,2]. Energy-efficient ocean IoT networks can enable long-term sensing of ocean variables (temperature, pH, pressure, salinity, etc.) to create more accurate climate and weather prediction models and monitor the impact of climate change on the ocean [3]. Similarly, low-cost and efficient ocean IoT networks can help boost the growth of the world's blue economy by enabling active monitoring of marine infrastructures ranging from oil/gas pipelines to underwater tunnels [4]. Real-time distributed underwater sensor networks can help boost aquaculture (seafood farm) production by monitoring the farm vitals (water temperature, dissolved nutrients, pH, etc.) and detecting environmental hazards (such as harmful algae blooms) early [5].
Publisher
Association for Computing Machinery (ACM)
Reference14 articles.
1. DARPA. Ocean of Things Aims to Expand Maritime Awareness across Open wSeas. https://www.darpa.mil/news-events/2017--12-06.
2. Tidal X. Protecting the ocean with technology systems while feeding humanity sustainably. https://x.company/projects/tidal/
3. Jeff Tollefson. 2018. Sensor array provides new look at global ocean current. Nature.
4. Inspection and monitoring systems subsea pipelines: A review paper
5. Aquaculture Intelligence. https://www.innovasea. com/aquaculture-intelligence/, 2020. INNOVASEA.