Jessica Hodgins Allen Newell University Professor of Computer Science And Robotics Website ORCiD Office 4207 Newell-Simon Hall Email jkh@cmu.edu Department Robotics Institute Computer Science Department Research Interests Computational Neuroscience Graphics Robotics Dr. Hodgins's research focuses on the coordination and control of dynamic physical systems, both natural and human-made and explores techniques that may someday allow robots and animated creatures to plan and control their actions in complex and unpredictable environments. Her current research focuses on generating motion for computer animation by using motion capture data in combination with physically realistic simulation. Hodgins and her students have used dynamic simulation to animate human behaviors such as running, bicycling, diving, and vaulting. She and her colleagues have also used human motion data to bias planning algorithms towards more natural postures, to construct interfaces for avatars, and to capture the motion of muscles and skin. Hodgins is now refining some of these techniques for the control of a humanoid robot. Hodgins and her students have also explored passive simulations for animating phenomena such as clothing, water, breaking objects, and explosions. Publications Journal Article Diffuse-CLoC: Guided Diffusion for Physics-based Character Look-ahead Control 2025 • ACM Transactions on Graphics • 44(4):1-12 Huang X, Truong T, Zhang Y, Yu F, Sleiman JP, Hodgins J, Sreenath K, Farshidian F Preprint Diffuse-CLoC: Guided Diffusion for Physics-based Character Look-ahead Control 2025 Huang X, Truong T, Zhang Y, Yu F, Sleiman JP, Hodgins J, Sreenath K, Farshidian F Journal Article Kinematic Motion Retargeting for Contact-Rich Anthropomorphic Manipulations 2025 • ACM Transactions on Graphics • 44(2): Lakshmipathy AS, Hodgins JK, Pollard NS Preprint Texture- and Shape-based Adversarial Attacks for Overhead Image Vehicle Detection 2025 Yeghiazaryan M, Namburu SAS, Kim E, Panev S, de Melo C, De la Torre F, Hodgins JK Conference Texture- and Shape-Based Adversarial Attacks for Overhead Image Vehicle Detection 2025 2133-2138 Yeghiazaryan M, Namburu SAS, Kim E, Panev S, De Melo C, De La Torre F, Hodgins JK
Journal Article Diffuse-CLoC: Guided Diffusion for Physics-based Character Look-ahead Control 2025 • ACM Transactions on Graphics • 44(4):1-12 Huang X, Truong T, Zhang Y, Yu F, Sleiman JP, Hodgins J, Sreenath K, Farshidian F
Preprint Diffuse-CLoC: Guided Diffusion for Physics-based Character Look-ahead Control 2025 Huang X, Truong T, Zhang Y, Yu F, Sleiman JP, Hodgins J, Sreenath K, Farshidian F
Journal Article Kinematic Motion Retargeting for Contact-Rich Anthropomorphic Manipulations 2025 • ACM Transactions on Graphics • 44(2): Lakshmipathy AS, Hodgins JK, Pollard NS
Preprint Texture- and Shape-based Adversarial Attacks for Overhead Image Vehicle Detection 2025 Yeghiazaryan M, Namburu SAS, Kim E, Panev S, de Melo C, De la Torre F, Hodgins JK
Conference Texture- and Shape-Based Adversarial Attacks for Overhead Image Vehicle Detection 2025 2133-2138 Yeghiazaryan M, Namburu SAS, Kim E, Panev S, De Melo C, De La Torre F, Hodgins JK
