Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- Germany
- France
- Sweden
- Netherlands
- Portugal
- United Kingdom
- Belgium
- Poland
- Norway
- Denmark
- Singapore
- China
- Morocco
- Spain
- Switzerland
- United Arab Emirates
- Austria
- Italy
- Estonia
- Japan
- Luxembourg
- Romania
- Greece
- Mexico
- Saudi Arabia
- Australia
- Brazil
- Canada
- Finland
- India
- Ireland
- 22 more »
- « less
-
Program
-
Field
- Medical Sciences
- Computer Science
- Economics
- Engineering
- Mathematics
- Science
- Materials Science
- Psychology
- Business
- Chemistry
- Biology
- Education
- Arts and Literature
- Earth Sciences
- Environment
- Electrical Engineering
- Law
- Humanities
- Linguistics
- Philosophy
- Physics
- Social Sciences
- Sports and Recreation
- 13 more »
- « less
-
understanding of the steps needed to provide the necessary optimal intervention for each procedure and assists to provide the necessary resources in a manner that minimizes and/or eliminates surgical delays. As
-
), hospital policies, and regulatory requirements. The Manager Level 1 plays a key leadership role in supporting surgical throughput, optimizing resource utilization, and developing clinical staff within a
-
requirements: • Master degree in theoretical physics, computer science or communication systems • Excellent programming skills • Experience in optimization, numerical methods or learning • Proficiency in spoken
-
Organizational unit: Institute of Process Engineering Entry date: 01/02/2026 Job Reference Number: 33700-2025-001669 Job Duties: Design, procurement, construction and optimization of a microchannel for elevated
-
effective service delivery and optimal user experience using available resources, developing and managing the performance of staff where necessary through relevant University policies. 2. Deliver specialist
-
, departments and divisions conduct research on exciting projects n and produce individual products and services for our clients from numerous industries. Overarching key topics at the Fraunhofer ITWM are machine
-
finalization of the foundations of dual-tracer imaging using a GATE-based Monte Carlo simulation Implementation of the developed algorithms within our modular, C++-based and cluster optimized PET image
-
recycled rubber, replacing track bed layers traditionally built with natural materials. The methodology employs advanced numerical analysis tools focusing on the non-linear behavior of granular materials
-
, analyses, and support that have contributed to University’s critical, upward trajectory on numerous measures, in an increasingly competitive environment of higher education. The Office of Assessment and
-
team. Learn more about the innovative work led by Dr. Don Ingber here: https://wyss.harvard.edu/technology/human-organs-on-chips/ . What you’ll do: Design, fabricate, characterize, and optimize