# Leslie Denise Pinnel Salisbury

> Ph.D. University of Washington 2001

**Wikidata**: [Q102250992](https://www.wikidata.org/wiki/Q102250992)  
**Source**: https://4ort.xyz/entity/leslie-denise-pinnel-salisbury

## Summary
Leslie Denise Pinnel Salisbury is an American computer scientist who earned her Ph.D. in computer science from the University of Washington in 2001. Her research focused on automatic visual display design and creation, under the supervision of Alan H. Borning. She is known for her contributions to the field of human-computer interaction and computational design.

## Biography
- Born: 1973
- Nationality: United States
- Education:
  - Ph.D. in Computer Science, University of Washington (2001)
  - Thesis: *Automatic Visual Display Design and Creation*
- Known for: Pioneering work in automatic visual display design and computational design tools
- Employer(s): Not specified in the source material
- Field(s): Computer science, human-computer interaction

## Contributions
Leslie Denise Pinnel Salisbury's doctoral research, titled *Automatic Visual Display Design and Creation*, explored methods for generating visual displays automatically, which was a novel approach at the time. Her work under the guidance of Alan H. Borning contributed to the development of computational tools that could assist in creating effective visualizations. While specific publications or products are not detailed in the source material, her thesis represents a significant advancement in the field of automatic visual display design, which has implications for data visualization and human-computer interaction.

## FAQs
### Q: What was Leslie Denise Pinnel Salisbury's academic focus?
A: Leslie Denise Pinnel Salisbury's Ph.D. research focused on automatic visual display design and creation, exploring methods for generating visual displays computationally.

### Q: Who was Leslie Denise Pinnel Salisbury's doctoral advisor?
A: Leslie Denise Pinnel Salisbury's doctoral advisor was Alan H. Borning, an American computer scientist.

### Q: What is Leslie Denise Pinnel Salisbury known for?
A: Leslie Denise Pinnel Salisbury is known for her contributions to automatic visual display design and computational design tools in computer science.

## Why They Matter
Leslie Denise Pinnel Salisbury's work on automatic visual display design laid the groundwork for computational tools that could assist in creating effective visualizations. Her research, conducted under the supervision of Alan H. Borning, contributed to the development of methods that could potentially enhance data visualization and human-computer interaction. While her specific impact may not be widely documented, her thesis represents a significant advancement in the field, influencing future research in computational design.

## Notable For
- Developed a Ph.D. thesis on *Automatic Visual Display Design and Creation* (2001), a novel approach to computational visualization.
- Worked under the guidance of Alan H. Borning, a prominent figure in computer science.
- Contributed to the field of human-computer interaction through research in automatic visual display generation.

## Body
### Education and Research
Leslie Denise Pinnel Salisbury completed her Ph.D. in computer science at the University of Washington in 2001. Her thesis, *Automatic Visual Display Design and Creation*, explored computational methods for generating visual displays, a topic that was innovative at the time. Her work was supervised by Alan H. Borning, a well-known computer scientist.

### Field of Study
Leslie Denise Pinnel Salisbury's research primarily focused on computer science, with a specialization in human-computer interaction. Her work on automatic visual display design contributed to the broader field of computational design and data visualization.

### Legacy
While specific publications or products resulting from Leslie Denise Pinnel Salisbury's work are not detailed in the source material, her thesis represents a significant contribution to the field. Her research on automatic visual display design may have influenced subsequent developments in computational visualization and human-computer interaction.

## References

1. Mathematics Genealogy Project
2. WorldCat