This paper is motivated by a simple question: Can we design and build battery-free devices capable of machine learning and inference in underwater environments? An affirmative answer to this question would have significant implications for a new generation of underwater sensing and monitoring applications for environmental monitoring, scientific exploration, and climate/weather prediction. To answer this question, we explore the feasibility of bridging advances from the past decade in two fields: battery-free networking and low-power machine learning. Our exploration demonstrates that it is indeed possible to enable battery-free inference in underwater environments. We designed a device that can harvest energy from underwater sound, power u...
none3siMinimizing the power consumption of always-on sensors is crucial for extending the lifetime o...
Small, dense, wireless sensor networks are beginning to revolutionize our understanding of the physi...
Presented on March 6, 2019 at 12:15 p.m. in the Marcus Nanotechnology Building, Room 1116.Fumin Zhan...
This paper is motivated by a simple question: Can we design and build battery-free devices capable o...
AbstractImaging underwater environments is of great importance to marine sciences, sustainability, c...
Can we build a battery-free underwater GPS? While underwater localization is a long-studied problem,...
As the Internet of Things (IoT) continues to find new applications, there is academic and industrial...
Achieving zero-power always-on sensing is an attractive challenge for academic and industrial resear...
Machine and deep learning (DL) offer significant opportunities for exploring and monitoring oceans a...
Small, dense underwater sensor networks have the potential to greatly improve undersea environmental...
Using big marine data to train deep learning models is not efficient, or sometimes even possible, on...
© 2017 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Passive acoustics, or the recording of pressure signals from uncontrolled sound sources, is a powerf...
This thesis explores the possibility of a self sustained and service free Underwater Acoustic Sensor...
© 2019 Association for Computing Machinery. We present Piezo-Acoustic Backscatter (PAB), the first t...
none3siMinimizing the power consumption of always-on sensors is crucial for extending the lifetime o...
Small, dense, wireless sensor networks are beginning to revolutionize our understanding of the physi...
Presented on March 6, 2019 at 12:15 p.m. in the Marcus Nanotechnology Building, Room 1116.Fumin Zhan...
This paper is motivated by a simple question: Can we design and build battery-free devices capable o...
AbstractImaging underwater environments is of great importance to marine sciences, sustainability, c...
Can we build a battery-free underwater GPS? While underwater localization is a long-studied problem,...
As the Internet of Things (IoT) continues to find new applications, there is academic and industrial...
Achieving zero-power always-on sensing is an attractive challenge for academic and industrial resear...
Machine and deep learning (DL) offer significant opportunities for exploring and monitoring oceans a...
Small, dense underwater sensor networks have the potential to greatly improve undersea environmental...
Using big marine data to train deep learning models is not efficient, or sometimes even possible, on...
© 2017 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Passive acoustics, or the recording of pressure signals from uncontrolled sound sources, is a powerf...
This thesis explores the possibility of a self sustained and service free Underwater Acoustic Sensor...
© 2019 Association for Computing Machinery. We present Piezo-Acoustic Backscatter (PAB), the first t...
none3siMinimizing the power consumption of always-on sensors is crucial for extending the lifetime o...
Small, dense, wireless sensor networks are beginning to revolutionize our understanding of the physi...
Presented on March 6, 2019 at 12:15 p.m. in the Marcus Nanotechnology Building, Room 1116.Fumin Zhan...