Meta AR/VR Job | Hardware Research Scientist, Modeling and Simulation | Quest
Job(岗位): Hardware Research Scientist, Modeling and Simulation | Quest
Type(岗位类型): Engineering
Citys(岗位城市): Redmond, WA
Date(发布日期): 2024-4-23
Summary(岗位介绍)
At Meta Reality Labs, our goal is to explore, innovate and design novel interfaces and hardware subsystems for the next generation of virtual, augmented, and mixed reality experiences. We are looking for a skilled and motivated Research Scientist to join our team, whose mission is to create the future of soft, wearable technology. We are specifically looking for a candidate with experience in modeling and optimization of energy transport across human tissues and who can work with a team of researchers who are enabling new architectures for wearables. More broadly, the chosen candidate will work with a diverse and highly interdisciplinary team of researchers and engineers and will have access to cutting edge technology, resources, and testing facilities.
Qualifications(岗位要求)
Currently has, or is in the process of obtaining a Bachelor's degree in Computer Science, Computer Engineering, relevant technical field, or equivalent practical experience. Degree must be completed prior to joining Meta.
Ph.D. in Mechanical Engineering, Thermal Engineering, Physics or equivalent Experience in deriving governing equations for mechanics problems that require multi-physics coupling.
Experience with numerical methods, such as finite element and finite volume.
Experience with a programming language, such as Python, Matlab, C or C++.
Description(岗位职责)
Derive governing equations for multi-physics processes and solve the equations with analytical or numerical methods.
Build computational frameworks for multi-physics systems across scales.
Work with Research Engineers to design and build prototypes to verify models.
Collaborate with researchers, engineers, and designers across disciplines to solve complex problems.
Drive projects with internal and external partners.
Additional Requirements(额外要求)
Experience in using open-source finite element tools, such as Fenics and Deal.II.
Direct experience in multi-physics modeling and optimization with applications in wearable actuation and sensing research
Experience with reduced order models for interface mechanics
Experience with wearable devices
Basic understanding of skin mechanics, nonlinear elasticity and wave propagation through dispersive media