Kathryn Daltorio
Associate Professor, Mechanical and Aerospace Engineering
Co-Director, Biologically-Inspired Robotics Lab
Develops robots that can traverse and operate in new environments, inspired by biological models of smart physical systems
Education
Ph.D.,
Mechanical & Aerospace Engineering,
Case Western Reserve University,
2013
M.S.,
Mechanical & Aerospace Engineering,
Case Western Reserve University,
2007
B.S.,
Mechanical & Aerospace Engineering,
Case Western Reserve University,
2005
Awards and Recognitions
2021, Faculty Early Career Development Program (CAREER) Award, NSF
2019, Young Investigator Program (YIP) Award, ONR
Research Interests
Kathryn Daltorio’s robotics research is inspired by animal behaviors that exceed current robot capabilities. She has studied the locomotion of earthworms, decision-making in cockroaches, and climbing in geckos and insects. Her robots won autonomous lawn mowing competitions, were the first to climb vertically with gecko-inspired adhesives on simple feet, and provided platforms for testing hypotheses about animal locomotion and neurobiologically-inspired control. She and her students build a range of robotic prototypes that use fabrics, mechanical linkages, adhesives, servomotors and shape-memory alloy actuators, various sensors and cameras, soft and hard polymers, and modular 3D printed parts to explore new designs and control strategies. These provide test-beds for scalable neurobiologically-inspired control networks, abstract mathematical modeling and optimization, and other software tools. Her current goals are to (1) make robots even more capable of traversing through and working in diverse, unknown environments and (2) to better understand animals as model smart physical systems.
Teaching Interests
EMAE 181: Dynamics;
EMAE 379/479: Mechanics and Control of Compliant Robotics;
EMAE 398: Senior Project
EMAE 379/479: Mechanics and Control of Compliant Robotics;
EMAE 398: Senior Project
Professional Leadership and Service
Jan. 1, 2016 -
PRESENT, Member IEEE
Jan. 1, 2016 -
PRESENT, Member ASME