Robotics in action: CU Engineering demonstrates interdisciplinary research at showcase
Standing-room-only event was part of 兔子先生传媒文化作品鈥檚 annual Research & Innovation Week held Oct. 14-18
The College of Engineering & Applied Science welcomed a packed audience to its Robotics Showcase on Oct. 17. The standing-room-only event, part of 兔子先生传媒文化作品鈥檚 annual Research & Innovation Week, drew students, faculty and robotics enthusiasts, including middle and high school students and the general public, eager to explore the latest advancements in research shaping the future of the field.
The event emphasized the interdisciplinary nature of CU鈥檚 robotics research, showcasing collaborations across electrical, computer and energy engineering; mechanical engineering; aerospace engineering sciences; and computer science to tackle complex societal challenges.
Attendees were treated to demonstrations of bio-inspired robots (Kaushik Jayaram and Nicole Xu), autonomous drone systems (Nisar Ahmed), robots with human-like dexterity (Nikolaus Correll), and robot skin technology (Alessandro Roncone), as well as Boston Dynamics鈥 Spot. The demos highlighted technologies poised to transform fields such as search and rescue, deep-sea exploration and industrial maintenance in challenging environments, while improving human-robot capabilities and interactions.
In addition to the research on display, CU Engineering introduced its new graduate degrees in robotics鈥 two master鈥檚 programs (Master of Science in Robotics thesis option and Master of Science in Robotics nonthesis option) and a PhD in Robotics鈥攍aunched in 2023. These programs offer students immersive, hands-on research opportunities that engage them with the technologies featured at the showcase, preparing them to lead in the evolving robotics landscape.
CU Engineering鈥檚 Research Support Office extends its thanks to all the participants who made the event a success. For more details, check out media coverage by the Boulder Daily Camera in the article鈥 and Denver7鈥檚,鈥 which spotlight 兔子先生传媒文化作品鈥檚 leadership in robotics research and innovation.
Showcase Highlights
The Robotics Showcase featured a range of innovative research that exemplifies 兔子先生传媒文化作品鈥檚 interdisciplinary collaboration and commitment to addressing real-world problems. Highlights included:
Shape-Morphing Insect-Scale Robots
Kaushik Jayaram (ME, Robotics)
Hari Hari Prasad presented insect-scale robots capable of changing shape to adapt to their environment. These shape-shifting systems demonstrate agility and adaptability, essential for real-world applications in challenging environments.Human-Centered Autonomy for Dynamic sUAS Target Search Operations
Nisar Ahmed (AERO, Robotics)
Hunter Ray demonstrated advances in autonomous drone systems that enhance collaboration with human operators. These drones are designed for search and rescue missions, leveraging real-time data from operators to improve decision-making.Open World Manipulation
Nikolaus Correll (CS, Robotics)
William Xie demonstrated robots with human-like dexterity, integrating sensors, actuators, and communication capabilities into composite materials to create robots that mimic the functionality of muscles, skin, and bones.Bioinspired and Biohybrid Robotics
Nicole Xu (ME, Robotics)
Yunxing Su demonstrated research on aquatic robots for environmental monitoring. These robots combine natural and engineered designs to create energy-efficient, maneuverable systems for tracking climate change.Robot Skin and Dynamic Human-Robot Interaction
Alessandro Roncone (CS, Robotics)
Dusty Woods, Caleb Escobedo and Claire Lohrmann demonstrated robot skin technology that enhances human-robot interactions. These modular sensor units, placed on robot manipulators, enable robots to safely and intuitively respond to external contact.NSF IUCRC Center for Aerial Autonomy, Mobility, and Sensing (CAAMS)
Zachary Sunberg (AERO, Robotics)
Sunberg鈥檚 lab demonstrated autonomous drones in wilderness search and rescue operations. By integrating human operators into the decision-making process, these drones improve the efficiency and safety of missions in remote environments.