Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
-
standards. About the research project The postdoctoral project will focus on precision tests of low-energy strong interactions via the ab initio modeling of open-shell, nuclear many-body systems and Bayesian
-
systematically integrated into early-stage design and decision-making. The research objective is to support the acceleration towards sustainable and value-creating lifecycle solutions by enabling more informed
-
planning tool which models how autonomous agents make decisions in an uncertain world. This project focuses on designing systems of interaction between agents in order to achieve complex, multi-objective
-
diagnostics, as well as general computer vision applications including autonomously guided vehicles (particularly self-driving cars), image-based localization, structure-from-motion, and object recognition
-
techniques to secure these systems against novel network-level attacks. Key research objectives include the development of secure communication protocols, the analysis of vulnerabilities in peer-to-peer and
-
for autonomous shipping in restricted waterways. A database of model examples has already been developed, and your work will build upon and refine these models to meet the project’s objectives. Collaboration is
-
goal is to enhance grid reliability, stability, and resilience under evolving energy system conditions. Key objectives include: Identifying and quantifying the essential grid services required
-
reimagining what excellent higher education in engineering and science can and should be. The aim and objectives of the EER division can briefly be described as: To foster an inspiring and safe academic
-
the robot to improve over time by gathering knowledge about the diverse physical and geometric properties of objects and dynamic changes in the environment. This involves leveraging rich sensory data—such as