Human-Machine Interaction

People are interacting with computers in new and exciting ways, from augmented reality to autonomous vehicles. Purdue researchers are working hard to perfect these technologies, so that people from every background can utilize the newest technology in the most productive way. Machines also impact human comfort and perception. Understanding how humans and machines interact makes for better machines and better people!

No driver required: Indy Autonomous Challenge is AI racing at its best

Soft robots take the wheel: shared control between humans and robots

AI students break the ice in virtual classrooms

NASA visits Purdue to discuss extra-terrestrial habitats

Neera Jain receives NSF CAREER grant for cognitive state modeling for human-machine interaction

Augmented reality to provide new skills for manufacturing workforce education

Human or automation: who is the expert?

Hands-on with augmented reality in remote classrooms

Your next nurse could be a robot

Faculty in Human-Machine Interaction

Andres Arrieta

Adaptive structures
Mechanical metamaterials
Robotic materials
Programmable structures
Multistable structures
Structural nonlinearity
Elastic instabilities
Structural dynamics
Nonlinear vibrations

Euiwon Bae

Light scattering
Discrete dipole approximation (DDA)
Biomedical optics
Instrument development for food safety
Optical characterization of soot

Anil Bajaj

Modeling of nonlinear systems
Structural dynamics and localization
Flow-induced vibrations
Impacting systems
Bifurcations and chaos

Ilias Bilionis

Uncertainty propagation
Inverse problems
Propagation of information across scales
Optimal learning
Materials by design

Laura Blumenschein

Growing robots
Soft robotics
Bioinspired systems
Wearable robots
Haptics
Soft matter

David Cappelleri

Multi-scale robotic manipulation and assembly
Mobile micro/nano robotics
Micro/nano aerial vehicles
Micro-Bio robotics
Mechatronics
MEMS/NEMS
Automation for the life sciences

George Chiu

Dynamic systems and control
Mechatronics
Digital and functional printing and fabrication
Motion and vibration control and perception
Embedded systems and real-time control

Alex Chortos

Bio-inspired and mechanically adaptive electronics
Multimaterial additive fabrication
Soft actuators (artificial muscles)
Wearable actuators (haptics)
Polymer design and polymer physics
Deformation sensors and transistors

Patricia Davies

Sound quality
Signal Processing
Data analysis
System modeling and identification
Condition monitoring of machinery
Perception-based engineering
Seat-occupant modeling

Xinyan Deng

Principles of aerial and aquatic locomotion in animals
Experimental fluid mechanics
Dynamics
Control
Bio-inspired robotics
Biologically inspired micro aerial vehicles and underwater robots
Bio-sensing and sensor fusion algorithms

Shirley Dyke

Structural Dynamics and Control
Cyber-physical Systems
Machine Vision
Real-time Hybrid Simulation
Damage Detection and Structural Condition Monitoring
Cyberinfrastructure Development

James Gibert

Vibrations and nonlinear dynamics
Smart material systems
Non-pneumatic tires
Optimization of mechanical systems
Additive manufacturing

Neera Jain

Physics-based and data-driven modeling of dynamical systems
Control theory, analysis, and design
Control co-design
Applications: human-machine teaming, multi-phase thermal-fluid systems, manufacturing processes, vehicle electrification