# Kevin Wampler

> PhD, University of Washington, Computer Science & Engineering, 2012

**Wikidata**: [Q113667706](https://www.wikidata.org/wiki/Q113667706)  
**Source**: https://4ort.xyz/entity/kevin-wampler

## Summary
Kevin Wampler is an American computer scientist who earned his PhD from the University of Washington in 2012. His research focused on computational generation of terrestrial animal locomotion under the supervision of Zoran Popovic.

## Biography
- Education: PhD, University of Washington, Computer Science & Engineering, 2012
- Known for: Research in computational generation of terrestrial animal locomotion
- Field(s): Computer Science & Engineering

## Contributions
Kevin Wampler's most significant contribution is his doctoral thesis "Computational Generation of Terrestrial Animal Locomotion" completed in 2012. This work explores methods for computationally generating realistic animal movement on land, which has applications in computer animation, robotics, and biomechanical research. The thesis likely advanced the field by providing new algorithms or techniques for simulating natural locomotion, potentially enabling more realistic animations or better understanding of biomechanical principles.

## FAQs
### Q: Where did Kevin Wampler earn his PhD?
A: Kevin Wampler earned his PhD from the University of Washington in Computer Science & Engineering in 2012.

### Q: Who was Kevin Wampler's doctoral advisor?
A: Kevin Wampler's doctoral advisor was Zoran Popovic, a computer scientist and professor at the University of Washington.

### Q: What was the focus of Kevin Wampler's doctoral research?
A: Kevin Wampler's doctoral research focused on the computational generation of terrestrial animal locomotion, exploring methods for simulating realistic animal movement through computational means.

### Q: What is Kevin Wampler's profession?
A: Kevin Wampler is a computer scientist.

### Q: How does Kevin Wampler's research contribute to the field?
A: His research in computational generation of animal locomotion contributes to fields like computer animation, robotics, and biomechanics by providing methods for simulating natural movement more accurately.

## Why They Matter
Kevin Wampler's work on computational generation of terrestrial animal locomotion has potential significance in advancing our understanding and simulation of natural movement. His research likely contributes to the development of more realistic animations in films and games, as well as improvements in robotics and biomechanical modeling. By developing computational methods for generating natural movement, his work may help bridge the gap between biological systems and artificial intelligence, potentially influencing how we design autonomous systems or understand animal locomotion.

## Notable For
- PhD from University of Washington in Computer Science & Engineering (2012)
- Thesis on computational generation of terrestrial animal locomotion
- Student of Zoran Popovic, a prominent computer scientist and professor
- Contribution to the field of computer science through specialized research in computational modeling of biological movement
- Listed on WikiProject PCC Wikidata Pilot/University of Washington

## Body
### Education
Kevin Wampler earned a PhD from the University of Washington in Computer Science & Engineering in 2012. His doctoral research focused on computational generation of terrestrial animal locomotion, exploring methods for simulating realistic animal movement through computational means.

### Academic Lineage
Wampler's doctoral advisor was Zoran Popovic, a computer scientist and professor at the University of Washington. Popovic received his PhD from Carnegie Mellon University in 1999 and has made significant contributions to the field of computer science.

### Research Focus
Wampler's research centers on computational generation of terrestrial animal locomotion. His thesis likely explores the intersection of computer science, biology, and engineering, aiming to develop algorithms that can accurately simulate how animals move across land. This area of research has applications in computer graphics, animation, robotics, and biomechanical modeling.

### Academic Recognition
Wampler's work appears to be part of a larger effort at the University of Washington to advance computational research, as he is listed on the WikiProject PCC Wikidata Pilot/University of Washington, indicating his contribution to the academic community.

## References

1. WorldCat