Berkeley Marine Robotics Receives Innovation Corps Grant from the National Science Foundation


Reading time ( words)

Berkeley Marine Robotics has received an Innovation Corps (I-Corps™) grant from the National Science Foundation (NSF) for customer discovery of its work on developing autonomous underwater robotic systems for ocean exploration and marine conservation. This grant was awarded based on the progress and strength of their technology development and project team. Berkeley Marine Robotics aims to utilize this grant to conduct further market study and approach potential partners among subsea research and maritime service industries.

Oceans have long remained the final frontier of exploration despite covering 70% of our planet. More than 80% of that seafloor still remains unmapped and unexplored. One of the most significant technical challenges to exploration has been the limited underwater effectiveness of radio signals and other traditional communication methods. Existing equipment of manned-submersibles and tethered remote-operated vehicles is limited in scope and scale – and involves significant cost and risk factors.

Berkeley Marine Robotics is working to solve these hurdles through patent-pending technologies in underwater wireless communication and autonomous swarm maneuverability. Their team has developed an ultra-low-cost model of robotic devices that can work in tandem and generate large-scale marine data with machine learning for research and industry. They have tested prototypes in university labs and aim to put them to initial use-cases in underwater survey and inspection service applications.

I-Corps™ project team will be represented by Alexandre Immas, a PhD candidate at UC Berkeley focused on marine robotics with prior work experience in offshore and deep-sea wind turbines, and Jonathan Daves, a Stanford MBA with operational experience at several successful startups and currently an instructor at the corporate innovation program at Stanford University. Berkeley Marine Robotics is led by Sushil Tyagi, a graduate of I.I.T. Delhi and a Wharton MBA in finance. Tyagi was previously a marine engineer at Exponent Failure Analysis and had published research on wave-induced motion simulation of modular floating structures during his graduate studies in Naval Architecture and Offshore Engineering at UC Berkeley.

Share

Print


Suggested Items

Brittle Pals Bond for Flexible Electronics

05/13/2019 | Rice University
Mixing two brittle materials to make something flexible defies common sense, but Rice University scientists have done just that to make a novel dielectric. Dielectrics are the polarized insulators in batteries and other devices that separate positive and negative electrodes. Without them, there are no electronic devices.

Army Researchers Explore Benefits of Immersive Technology for Soldiers

01/18/2019 | ARL
The emergence of next generation virtual and augmented reality devices like the Oculus Rift and Microsoft HoloLens has increased interest in using mixed reality to simulate training, enhance command and control, and improve the effectiveness of warfighters on the battlefield.

Flights Show Promising Technologies from Industry and Academic Partnerships

02/06/2018 | NASA
The technologies ranged from proposed new space suits to cryogenic propellant research, with implications for future NASA space missions as well as other research efforts.



Copyright © 2020 I-Connect007. All rights reserved.