Philip T. Cox

Dalhousie University

Papers

3

Total Citations

26

H-Index

2

About

Philip T. Cox is a computer scientist whose research sits at the intersection of visual programming languages and robotics, with a particular focus on making robot control more accessible and intuitive through graphical and visual programming paradigms. His most influential work, "Toward Concrete Representation in Visual Languages for Robot Control" (1998), garnered 14 citations and laid important groundwork for rethinking how programmers interact with robot control systems, advocating for more tangible, concrete visual representations that improve comprehension and usability. Building on this foundation, Cox explored programming-by-demonstration techniques in his 2000 paper on building environments for visual robot programming, accumulating 10 citations and pushing the field toward more user-friendly approaches to robot instruction. His later work on subsumption-based reactive behaviour (2008) reflects a sustained commitment to leveraging general-purpose visual programming languages to produce code that is more robust, maintainable, and transparent. Throughout his career, Cox has championed the idea that visual languages should not merely replicate textual programming in graphical form, but should fundamentally exploit visual representation to make algorithms and data more directly observable and manipulable — a philosophy that continues to resonate in human-robot interaction and end-user programming research.

Research Focus

Key Achievements

2
H-Index
3
Papers
26
Total Citations
9
Avg Citations/Paper
🏆 Most Cited Paper
Toward Concrete Representation in Visual Languages for Robot Control
14 citations · 1998
📈 Most Prolific Year: 1998 (1 Papers)
🤝 Key Collaborators: 3
🏛 Institutions: Dalhousie University

Top Papers

  1. 1
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  3. 3

Key Collaborators

Contact & Links

Available for collaboration
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