Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by Crossref.
Listak, M.
Martin, G.
Pugal, D.
Aabloo, A.
and
Kruusmaa, M.
2005.
Design of a Semiautonomous Biomimetic Underwater Vehicle for Environmental Monitoring..
p.
9.
Ali, Kashif
and
Hassanein, Hossam
2008.
Underwater Wireless Hybrid Sensor Networks.
p.
1166.
Detweiler, Carrick
Sosnowski, Stefan
Vasilescu, Iuliu
and
Rus, Daniela
2009.
Experimental Robotics.
Vol. 54,
Issue. ,
p.
429.
Vasilescu, Iuliu
Detweiler, Carrick
Doniec, Marek
Gurdan, Daniel
Sosnowski, Stefan
Stumpf, Jan
and
Rus, Daniela
2010.
AMOUR V: A Hovering Energy Efficient Underwater Robot Capable of Dynamic Payloads.
The International Journal of Robotics Research,
Vol. 29,
Issue. 5,
p.
547.
Carlson, Andrew
and
Papanikolopoulos, Nikos
2011.
Aquapod: Prototype design of an amphibious tumbling robot.
p.
4589.
Um, Tae I.
Zheng Chen
and
Bart-Smith, Hilary
2011.
A novel electroactive polymer buoyancy control device for bio-inspired underwater vehicles.
p.
172.
Zheng Chen
Um, T. I.
and
Bart-Smith, H.
2012.
Modeling and control of artificial bladder enabled by Ionic Polymer-Metal Composite.
p.
1925.
Vo, Tuong Quan
Kim, Hyoung Seok
and
Lee, Byung Ryong
2012.
Smooth gait optimization of a fish robot using the genetic-hill climbing algorithm.
Robotica,
Vol. 30,
Issue. 2,
p.
257.
Chen, Zheng
Bart-Smith, Hilary
and
Tan, Xiaobo
2015.
Robot Fish.
p.
219.
Jin, Sangrok
Kim, Jihoon
Bae, Jangho
Seo, TaeWon
and
Kim, Jongwon
2016.
Design, modeling and optimization of an underwater manipulator with four-bar mechanism and compliant linkage.
Journal of Mechanical Science and Technology,
Vol. 30,
Issue. 9,
p.
4337.
Miller, Timothy F.
2018.
A bio-inspired climb and glide energy utilization strategy for undersea vehicle transit.
Ocean Engineering,
Vol. 149,
Issue. ,
p.
78.
Katzschmann, Robert K.
DelPreto, Joseph
MacCurdy, Robert
and
Rus, Daniela
2018.
Exploration of underwater life with an acoustically controlled soft robotic fish.
Science Robotics,
Vol. 3,
Issue. 16,
Carneiro, Joao Falcao
Bravo Pinto, Joao
de Almeida, Fernando Gomes
and
Cruz, Nuno
2019.
Using a variable buoyancy system for energy savings in an AUV.
p.
305.
Shaw, Himansu
and
Thakur, Atul
2019.
Shape Memory Alloy Based Caudal Fin for a Robotic Fish.
p.
1.
Li, Yonglong
Zhang, Hua
Wang, Haoran
Li, Jialong
Zhai, Xuqiang
and
Xu, Jing
2019.
Design of a Variable Buoyancy System for the Hybrid Crawler-Flyer Underwater Vehicle.
p.
5335.
Bi, Anyuan
Zhao, Fengye
Zhang, Xiantao
and
Ge, Tong
2020.
Combined Depth Control Strategy for Low-Speed and Long-Range Autonomous Underwater Vehicles.
Journal of Marine Science and Engineering,
Vol. 8,
Issue. 3,
p.
181.
Wang, Yingxi
Loh, Leon Yeong Wei
Gupta, Ujjaval
Foo, Choon Chiang
and
Zhu, Jian
2020.
Bio-Inspired Soft Swim Bladders of Large Volume Change Using Dual Dielectric Elastomer Membranes.
Journal of Applied Mechanics,
Vol. 87,
Issue. 4,
Keow, Alicia
Chen, Zheng
and
Bart-Smith, Hilary
2020.
PIDA Control of Buoyancy Device Enabled by Water Electrolysis.
IEEE/ASME Transactions on Mechatronics,
Vol. 25,
Issue. 3,
p.
1202.
Bi, Anyuan
Feng, Zhengping
and
He, Chenlu
2021.
Robust Hierarchical Hovering Control of Autonomous Underwater Vehicles via Variable Ballast System.
Journal of Offshore Mechanics and Arctic Engineering,
Vol. 143,
Issue. 3,
Carneiro, Joao Falcao
Pinto, Joao Bravo
Gomes de Almeida, Fernando
and
Cruz, Nuno A.
2021.
Variable Buoyancy or Propeller-Based Systems for Hovering Capable Vehicles: An Energetic Comparison.
IEEE Journal of Oceanic Engineering,
Vol. 46,
Issue. 2,
p.
414.