TEAMER: Electrically Engaged Undulation System for Unmanned Underwater Vehicles
This TEAMER RFTS 1 (Request for Technical Support) project supported the flume tank testing of a long range, high endurance unmanned underwater vehicle (UUV) to monitor maritime space. Today, battery-powered remotely operated vehicles (ROVs) lack the duration to make persistent, wide-area data collection possible.The proposed solution, an Electrically Engaged UnduLation (EEL) drone, can sustain missions for longer duration through hydrodynamic energy harvesting. Power is provisioned via the piezoelectric effect, a material-led phenomenon that converts applied stress into electricity. The EEL subsystems include power, propulsion, navigation, ballast, telemetry, and instrumentation. By mimicking the gait of aquatic eels, EEL can counter currents during maneuvering and level-flight. The identified opportunity is in the future capability of extreme endurance UUVs in swarms. The specific goal for the EEL development is to expand the spatio-temporal coverage of the existing ocean observation mission by overcoming significant challenges of autonomous robotics. Some of the challenges presented include novel compliant mechanism for robust actuation, bio-inspired design to emulate efficient locomotion, smart material-based energy harvesting for sustained power, and swarming architecture through enabled autonomy.
Citation Formats
Pyro-E. (2021). TEAMER: Electrically Engaged Undulation System for Unmanned Underwater Vehicles [data set]. Retrieved from https://dx.doi.org/10.15473/2001009.
Lu, Kevin, Datla, Raju. TEAMER: Electrically Engaged Undulation System for Unmanned Underwater Vehicles. United States: N.p., 01 Oct, 2021. Web. doi: 10.15473/2001009.
Lu, Kevin, Datla, Raju. TEAMER: Electrically Engaged Undulation System for Unmanned Underwater Vehicles. United States. https://dx.doi.org/10.15473/2001009
Lu, Kevin, Datla, Raju. 2021. "TEAMER: Electrically Engaged Undulation System for Unmanned Underwater Vehicles". United States. https://dx.doi.org/10.15473/2001009. https://mhkdr.openei.org/submissions/481.
@div{oedi_6087, title = {TEAMER: Electrically Engaged Undulation System for Unmanned Underwater Vehicles}, author = {Lu, Kevin, Datla, Raju.}, abstractNote = {This TEAMER RFTS 1 (Request for Technical Support) project supported the flume tank testing of a long range, high endurance unmanned underwater vehicle (UUV) to monitor maritime space. Today, battery-powered remotely operated vehicles (ROVs) lack the duration to make persistent, wide-area data collection possible.The proposed solution, an Electrically Engaged UnduLation (EEL) drone, can sustain missions for longer duration through hydrodynamic energy harvesting. Power is provisioned via the piezoelectric effect, a material-led phenomenon that converts applied stress into electricity. The EEL subsystems include power, propulsion, navigation, ballast, telemetry, and instrumentation. By mimicking the gait of aquatic eels, EEL can counter currents during maneuvering and level-flight. The identified opportunity is in the future capability of extreme endurance UUVs in swarms. The specific goal for the EEL development is to expand the spatio-temporal coverage of the existing ocean observation mission by overcoming significant challenges of autonomous robotics. Some of the challenges presented include novel compliant mechanism for robust actuation, bio-inspired design to emulate efficient locomotion, smart material-based energy harvesting for sustained power, and swarming architecture through enabled autonomy.}, doi = {10.15473/2001009}, url = {https://mhkdr.openei.org/submissions/481}, journal = {}, number = , volume = , place = {United States}, year = {2021}, month = {10}}
https://dx.doi.org/10.15473/2001009
Details
Data from Oct 1, 2021
Last updated Feb 15, 2024
Submitted Sep 20, 2023
Organization
Pyro-E
Contact
Kevin Lu
510.578.8849
Authors
Original Source
https://mhkdr.openei.org/submissions/481Research Areas
Keywords
MHK, Marine, Hydrokinetic, energy, power, TEAMER, bio-locomotion, EEL, Electrically Engaged Undulation, oceanographic instruments, performance data, steady state, instruments, technology, code, MATLAB, UUV, unmanned underwater vehicle, piezoelectric effect, autonomous robotics, RFTS 1DOE Project Details
Project Name Testing Expertise and Access for Marine Energy Research
Project Lead Carrie Noonan
Project Number EE0008895