News Release

LAUREL RIEK
Associate Professor
Ph.D. Univeristy of Cambridge, England
Riek’s research enables robots to solve problems in real-world, safety-critical human environments such as hospitals, homes and factories. Her research tackles fundamental and applied problems that make complex, real-world perception and interaction in these spaces difficult for machines and has applications in manufacturing, neuro-rehabilitation and emergency medicine.

Previously: Luce Assistant Professor, University of Notre Dame

AARON SCHULMAN
Assistant Professor
Ph.D. University of Maryland
Schulman studies how novel hardware can help software developers build efficient, secure, and reliable energy systems. He investigates how power measurement devices can help software developers find battery-draining bugs, and how radio broadcast receivers can improve web security. His research spans computer systems, networking, security, and embedded systems.

Previously: Postdoctoral Fellow, Stanford Univeristy

NIKOLAY ATANASOV
Assistant Professor
Ph.D. University of Pennsylvania
Atanasov aims to design estimation and control techniques that increase the autonomy and reliability of robotic sensing systems. He focuses on controlling teams of aerial and ground robots to collect metric, semantic and topological information in applications such as environmental monitoring, security and surveillance, localization and mapping, and search and rescue.

Previously: Postdoctoral Researcher, Univeristy of Pennsylvania

TODD HYLTON
Professor of Practice
Ph.D. Stanford University
Hylton has a track record of creating successful programs and products both in government and industry, including a multi-million dollar DARPA effort to create a neuromorphic chip. He has been awarded 19 patents. His research interests include machine learning algorithms and natural intelligence.

Previously: Executive VP, Brain Corporation

PIYA PAL
Assistant Professor
Ph.D. California Institute of Technology
Pal designs sensing and sampling techniques to improve the efficiency of big data collection and processing. She develops new algorithms that ensure the acquisition of the most useful, relevant data in order to reduce the energy costs associated with tasks such as radar tracking, surveillance, biomedical imaging and machine learning.

Previously: Assistant Professor, University of Maryland

MECHANICAL AND AEROSPACE ENGINEERING

NICK GRAVISH
Assistant Professor
Ph.D. Georgia Institute of Technology
Gravish combines robotics, biology and physics to discover how organisms and robots move and interact. He focuses on organizing principles for collective behavior in biology and robotics and the dynamics of rapid, stable locomotion of individuals in complex environments. He studies motions of flying and running organisms and constructs microrobots to understand microscale locomotion and manipulation.

Previously: Postdoctoral Fellow, Harvard University

NANOENGINEERING

ZHENG CHEN
Assistant Professor
Ph.D. University of California Los Angeles
Chen develops novel nanostructured and polymeric materials for batteries, supercapacitors and fuel cells; flexible and printed devices; and sustainable water resources. His research also focuses on understanding the fundamental properties of these new materials in device operation.

Previously: Postdoctoral Associate, Stanford University

STRUCTURAL ENGINEERING

VERONICA ELIASSON
Associate Professor
Ph.D. KTH Royal Institute of Technology
Eliasson’s work combines fluid mechanics and gas dynamics theory with solid mechanics and fracture dynamics. She aims to better understand failure modes of solids during highly dynamic, short duration tests to assess the response of structures. Applications include minimizing or avoiding earthquake impact on dams, underwater explosions on naval structures, and non-invasive kidney stone treatment.

Previously: Associate Professor, University of Southern California