Eric   Martinez

Lecturer 1  

Eric Martinez

  • Areas of Expertise

    • Algorithmic Self-Assembly
    • Machine Learning
    • Natural Language Processing
  • Education

    • MS, Computer Science, University of Texas Rio Grande Valley, 2016




Selected Publications


  • Cameron Chalk, Bin Fu, Eric Martinez, Robert Schweller, and Tim Wylie. "Concentration independent random number generation in tile self-assembly," Theoretical Computer Science 667, (2017): 1–15.

  • Cameron Chalk, Erik Demaine, Martin Demaine, Eric Martinez, Robert Schweller, Luis Vega, and Tim Wylie. "Universal Shape Replicators via Self-Assembly with Attractive and Repulsive Forces*, &," Proceedings of the Twenty-Eighth Annual ACM-SIAM Symposium on Discrete Algorithms. 2017: 225–238.

  • Cameron Chalk, Eric Martinez, Robert Schweller, Luis Vega, Andrew Winslow, and Timothy Wylie. "Optimal Staged Self-Assembly of General Shapes," Algorithmica (May 2017).

  • Cameron Chalk, Erik Demaine, Martin Demaine, Eric Martinez, Robert Schweller, Luis Vega, and Timothy Wylie. "Universal Shape Replicators via Self-assembly with Attractive and Repulsive Forces," Proceedings of the Twenty-Eighth Annual ACM-SIAM Symposium on Discrete Algorithms. Philadelphia, PA, USA: Society for Industrial and Applied Mathematics, January (1st Quarter/Winter) 2017: 225–238.

  • Cameron Chalk, Bin Fu, Eric Martinez, Robert Schweller, and Timothy Wylie. "Concentration independent random number generation in tile self-assembly," Theoretical Computer Science 667, (December 2016): 1 - 15.

  • Cameron Chalk, Eric Martinez, Robert Schweller, Luis Vega, Andrew Winslow, and Tim Wylie. "Optimal staged self-assembly of general shapes," Algorithmica (2016): 1–27.

  • C. Chalk, Eric Martinez, Robert Schweller, L. Vega, Andrew Winslow, and Timothy Wylie. "Optimal staged self-assembly of general shapes," Proceedings of the 24th European Symposium of Algorithms (ESA). Schloss Dagstuhl, 57, 2016.

  • Cameron Chalk, Bin Fu, Alejandro Huerta, Mario Maldonado, Eric Martinez, Robert Schweller, and Timothy Wylie. "Flipping Tiles: Concentration Independent Coin Flips in Tile Self-Assembly," DNA Computing and Molecular Programming: 21st International Conference, DNA 21, Boston and Cambridge, MA, USA, August 17-21, 2015. Proceedings. Cham: Springer International Publishing, 2015: 87–103.

  • Cameron Chalk, Bin Fu, Alejandro Huerta, Mario Maldonado, Eric Martinez, Robert Schweller, and Tim Wylie. "Flipping tiles: concentration independent coin flips in tile self-assembly," International Workshop on DNA-Based Computers. 2015: 87–103.

  • Cameron Chalk, Eric Martinez, Robert Schweller, Luis Vega, Andrew Winslow, and Timothy Wylie. Optimal staged self-assembly of general shapes. arXiv preprint arXiv:1510.03919, 2015.

Previous Courses