Elliot Hawkes

University of California, Santa Barbara

H-index: 48

North America-United States

About Elliot Hawkes

Elliot Hawkes, With an exceptional h-index of 48 and a recent h-index of 41 (since 2020), a distinguished researcher at University of California, Santa Barbara, specializes in the field of Bio-inspiration, mechanical design, gecko adhesive, micro robotics, grasping.

His recent articles reflect a diverse array of research interests and contributions to the field:

Vine robot catheter device

Modeling growth and anchoring of plant root-inspired structures in dry granular media

Rubble traversal experiments of a vine robot

Material Scrunching Enables Working Channels in Miniaturized Vine-Inspired Robots

Passively adaptive radiative switch for thermoregulation in buildings

A light-and heat-seeking vine-inspired robot with material-level responsiveness

Reconfigurable, adaptable robotic structures

High-curvature, high-force, vine robot for inspection

Elliot Hawkes Information

University	University of California, Santa Barbara
Position	Assistant Professor of Mechanical Engineering
Citations(all)	6906
Citations(since 2020)	5164
Cited By	3342
hIndex(all)	48
hIndex(since 2020)	41
i10Index(all)	86
i10Index(since 2020)	81
Email	Access Email
University Profile Page	University of California, Santa Barbara
Google Scholar	View Google Scholar Profile

Elliot Hawkes Skills & Research Interests

Bio-inspiration

mechanical design

gecko adhesive

micro robotics

grasping

Elliot Hawkes

University of California, Santa Barbara

About Elliot Hawkes

Elliot Hawkes Information

Elliot Hawkes Skills & Research Interests

Top articles of Elliot Hawkes

Vine robot catheter device

Modeling growth and anchoring of plant root-inspired structures in dry granular media

Elliot Hawkes

Rubble traversal experiments of a vine robot

Zheyu Zhou

Yaqing Wang

Elliot Hawkes

Chen Li

Material Scrunching Enables Working Channels in Miniaturized Vine-Inspired Robots

Cédric Girerd

Passively adaptive radiative switch for thermoregulation in buildings

Bolin Liao

A light-and heat-seeking vine-inspired robot with material-level responsiveness

Reconfigurable, adaptable robotic structures

High-curvature, high-force, vine robot for inspection

Shared-control teleoperation paradigms on a soft-growing robot manipulator

Fabio Stroppa

Mario Selvaggio

Ming Luo

Laura H Blumenschein

Control of soft robots with inertial dynamics

David A Haggerty

Ervin Kamenar

A peristaltic soft, wearable robot for compression therapy and massage

Mengjia Zhu

Stejara Dinulescu

Nikolas Kastor

Yon Visell

Soft robotic device with fluid emission for burrowing and cleaning

Constant force impact protection device

Preliminary Development of a High and Long Jumping Lunar Robot

Plant root inspired protrusions enhance intruder anchoring force in dry granular media

Elliot Hawkes

Principles in plant roots enable robotic self-anchoring

Elliot Hawkes

Jumping on Air: Design and Modeling of Latch-mediated, Spring-actuated Air-jumpers

Vine robot tracheal intubation device

Bio-inspired geotechnical engineering: principles, current work, opportunities and challenges

Alejandro Martinez

Jason Dejong

Paola Bandini

Tugce Baser

Rodrigo Borela

Sheng Dai

Theodore Dejong

Kelly Dorgan

Majid Ghayoomi

James Hambleton

Elliot Hawkes

David Hu

Lin Huang

Sichuan Huang

Christopher Hunt

Duncan Irschick

Benjamin Mcinroe

Marianne Porter

Salah Sadek

Marcelo Sanchez

Hannah Stuart

Leon Van Paassen

Daniel Wilson

Wei Wu

Junxing Zheng

Miniature, lightweight, high-force, capstan winch for Mobile robots