A Biomimetic Tympanic Cavity PVDF Hydrophone for Low-Frequency Bioacoustic Monitoring in Marine Aquaculture. [PDF]
Hou T, Piao Z, Wang Y, Xin Y.
europepmc +1 more source
Underwater Wireless Optical Communication Alignment for Autonomous Underwater Vehicles
openaire +1 more source
Dense extreme inception network-based edge detection with deep reinforcement learning for object localization in an underwater environment. [PDF]
Praveena S +6 more
europepmc +1 more source
Robust bionic distributed multimodal flexible sensor for extreme-condition sensing and intelligent operation. [PDF]
Mao B +6 more
europepmc +1 more source
Marine reef soundscape monitoring with fiber-optic distributed acoustic sensing. [PDF]
Ariff T +8 more
europepmc +1 more source
A methodological framework for validating a multi-domain physiological sensor for divers using a scalable data fusion platform. [PDF]
Beatty P +12 more
europepmc +1 more source
Related searches:
Underwater Communication and Optical Camouflage Ionogels
Advanced Materials, 2021AbstractMarine animals, such as leptocephalus and jellyfish, can sense external stimuli and achieve optical camouflage in the aquatic environment. Fabricating an intelligent soft sensor that can mimic the capabilities of transparent marine animals and function underwater can enable transformative applications in various novel fields.
Peiyi Wu
exaly +3 more sources
A Survey of Underwater Optical Wireless Communications
IEEE Communications Surveys and Tutorials, 2017Underwater wireless communications refer to data transmission in unguided water environment through wireless carriers, i.e., radio-frequency (RF) wave, acoustic wave, and optical wave. In comparison to RF and acoustic counterparts, underwater optical wireless communication (UOWC) can provide a much higher transmission bandwidth and much higher data ...
Shu Fu, Yuhan Dong, Julian Cheng
exaly +2 more sources

