Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- United Kingdom
- Portugal
- Netherlands
- Germany
- Spain
- Sweden
- France
- Denmark
- Italy
- Norway
- Singapore
- Poland
- Belgium
- Australia
- Hong Kong
- Morocco
- Romania
- Ireland
- Finland
- Austria
- Japan
- United Arab Emirates
- Canada
- Czech
- Vietnam
- Estonia
- Saudi Arabia
- Switzerland
- Brazil
- Bulgaria
- Cyprus
- Lithuania
- Croatia
- Israel
- Luxembourg
- Mexico
- Slovakia
- Ukraine
- 29 more »
- « less
-
Program
-
Field
- Computer Science
- Engineering
- Medical Sciences
- Economics
- Biology
- Science
- Mathematics
- Chemistry
- Materials Science
- Earth Sciences
- Electrical Engineering
- Environment
- Humanities
- Business
- Education
- Linguistics
- Psychology
- Arts and Literature
- Physics
- Social Sciences
- Sports and Recreation
- Design
- Law
- Philosophy
- 14 more »
- « less
-
, the spheres were initially designed for interior construction and necessitate substantial inertia to mitigate wind-induced measurement noise. Consequently, these sensors are typically too slow compared
-
continuum robotic hardware systems Integration of miniaturized actuators and sensors into continuum robotic platforms Calibration and experimental validation of the developed robotic systems, including
-
(addressing areas such as tribology/lubrication engineering, tribology free and compliant mechanisms, mechanical components including ball bearings & gears, position sensors, electric motors, new/alternative
-
. Measurement of optical properties of key optical components by devising ad-hoc measurements in the Optical and Optoelectronics Laboratory (OOEL); Optoelectronics: laser systems and sensors, LIDAR and laser
-
. Measurement of optical properties of key optical components by devising ad-hoc measurements in the Optical and Optoelectronics Laboratory (OOEL); Optoelectronics: laser systems and sensors, LIDAR and laser
-
of a digital twin of the physical asset under construction that integrates BIM models and sensor data, dynamically updated with the actual progress of the project. - Support for the development of a
-
grid, which our faculty is helping to make completely sustainable and future-proof. At the same time, we are developing the chips and sensors of the future, whilst also setting the foundations
-
scientists from diverse disciplines and life experiences to creatively address critical questions for today’s world. Learn more at https://biology.stanford.edu/ POSITION SUMMARY: The Yan Lab at Stanford
-
property distributions from process-induced microstructure variations using the ML models created. Work with the extended team to link the simulation of sensor data with new multi-scale processes
-
platforms, processing of data from event-based sensors (Dynamic Vision Sensors – DVS). Knowledge of English at the level of at least B-2, Knowledge of the Polish language to the extent that it allows: a