PhD Student
GRAIL research group
Paul G. Allen School of Computer Science & Engineering
benjones
Research
I am a PhD student at the Paul G. Allen School of Computer Science & Engineering at the University of Washington, advised by Adriana Schulz. I study computational fabrication and human-ai interaction. My research interests include inverse problem and tools for creative problem solving.
Prior to joining the University of Washington I earned bachelors degrees in physics and joint mathematics and computer science from Harvey Mudd College. In my capstone project I helped develop a wireless power transmission array for space-based solar power. I then prototyped distributed systems for web analytics at Quantcast, and later worked on computational imaging in the Biophotonics Laboratory at Caltech.
Publications
- B. Jones, Y. Mei, T. Gotfrid, H. Zhao, J. Mankoff, A. Schulz, "Computational Design of Knit Templates," Provisionally Accepted to ACM Transactions on Graphics (TOG), 2020.
- B. T. Jones, "Human-AI Interaction in Symbolic Problem Solving," 2018 IEEE Symposium on Visual Languages and Human-Centric Computing (VL/HCC), Lisbon, 2018, pp. 265-266. (IEEE)
- B. T. Jones and S. L. Tanimoto, "Searching Over Search Trees for Human-AI Collaboration in Exploratory Problem Solving: A Case Study in Algebra," 2018 IEEE Symposium on Visual Languages and Human-Centric Computing (VL/HCC), Lisbon, 2018, pp. 33-37. (IEEE)
Technical Reports
- A Hall, B Jones, E Ritz, O Gooen, G Menghini, J Anderson, L Temin, Q Yang, "Microwave Power Transmitter-Reciever for Application to Space Solar Power," Technical report, HMC Engineering Physics Clinic, September 2011-May 2012.
- B. Jones, A. Adams, A. Nguyen, J.-M. Chang, L. Vese, "Placenta imaging classification: at risk detector (PICARD)," Technical report, UCLA Applied Mathematics Summer REU, June 16-August 6, 2010. (PDF)
Conference Demos
- B. Jones, G Fong. Flip Mouse, UIST 2011 Student Innovation Contest, October 2011. 2nd Place - Most Creative (Web, Video)
- B Jones, O Gooen, D Lubarov, G Fong. Heelblazers: A method for accessible typing with imprecise input, UIST 2009 Student Innovation Contest, October 2009. 1st Place - Most Useful (Web)
Teaching
As Instructor
- 18su - (UW CSE 373) Data Structures and Algorithms
As TA
- 18au - (UW CSE 556) Computational Fabrication
- 18sp - (UW CSE 421) Introduction to Algorithms
- 18wi - (UW CSE 421) Introduction to Algorithms
- 17au - (UW CSE 457) Computer Graphics
- 17su - (UW CSE 373) Data Structures and Algorithms
- 17sp - (UW CSE 457) Computer Graphics
- 17wi - (UW CSE 421) Introduction to Algorithms
- 16au - (UW CSE 421) Introduction to Algorithms
- 16sp - (UW CSE 373) Data Structures and Algorithms
- 11au - (HMC Math 132) Mathematical Analysis II
- 11sp - (CGU Math 138 / CMC Math 138) Graduate Analysis II - Functional Analysis
- 10au - (HMC Math 132) Mathematical Analysis II
- 10au - (HMC CS 5) Introduction to Computer Science
- 10sp - (HMC Math 131) Mathematical Analysis I
- 09au - (HMC CS 70) C++ and Data Structures
HMC = Harvey Mudd College
CGU = Claremont Graduate University
CMC = Claremont McKenna College