|Title: Senior Researcher||Posted: May 23, 2014|
|Company/Institution: Vicarious FPC Inc|
|Location: United States|
Description: We are building a computer vision system based on insights from machine learning and neuroscience. Our underlying framework is a probabilistic graphical model that is inspired by the structure of the neocortex. You will join a small, tightly knit collective of extraordinary engineer scientists. Everyone works on our full stack, from algorithms to low level optimizations to GUI code and back.
As part of our team, you will...
- put your algorithm and math skills to work in solving the hardest problems in learning and inference in hierarchical models.
- make decisions about how to translate complex ideas to working solutions while keeping a keen eye for computation/accuracy/memory tradeoffs.
design controlled experiments to show particular performance aspects of the systems and large scale experiments to show statistical robustness.
- write infrastructure software to scale our systems and data visualization routines to understand what is happening inside.
- document your inventions for patents and publications.
- keep yourself updated with advances in the field of machine learning and neuroscience.
The craftsmanship of building elegant algorithms and tight implementations are part of our company DNA. We work hard to maintain a codebase and a culture that are a joy to work in.
Desired skills and experience
Preferred PhD or Masters in CS/EE or a related discipline or Masters in CS/EE with relevant research experience. We also consider exceptional applicants with other backgrounds.
Experience building hierarchical vision systems and publishing relevant papers in CVPR/NIPS/ICML is a big plus.
Extensive programming skills, ideally in Python and C, and a track record of translating ideas into prototypes quickly.
Solid fundamentals in linear algebra, probability theory, signal processing, and optimization.
Experience developing and testing ideas in a large scale setting.
Experience with belief propagation and approximation methods.
Knowledge of biologically inspired models of vision.
Interest in neuroscience a plus.
Experience working in an interpreted environment like MATLAB or Mathematica also a plus.
Application Instructions: To learn more please visit