Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
- Medical Sciences
- Computer Science
- Economics
- Biology
- Business
- Engineering
- Materials Science
- Science
- Mathematics
- Education
- Psychology
- Chemistry
- Arts and Literature
- Design
- Humanities
- Law
- Physics
- Linguistics
- Earth Sciences
- Sports and Recreation
- Environment
- Social Sciences
- Philosophy
- Electrical Engineering
- 14 more »
- « less
-
collaboration with Olof Lagerlöf’s group. The postdoc will image (and influence with opto-chemogenetics) the network representation of stimuli of different economic/hedonic value and its plasticity with two
-
intersection of AI, imaging technology, and oncological surgery. Ideal candidates will have: A Master's degree in artificial intelligence, bioinformatics, computer science, physics, mathematics, or a similar
-
differences in opinion; treat all faculty, staff and students as individuals, hold them to equal standards and provide equality of opportunity with regard to race, ethnicity, religion, sex, sexual orientation
-
metrology and biomedical imaging through synergistic work performed by different teams in the lab. Our research projects combine and elevate state-of-the-art technologies including but not limited to optics
-
dedicated to an ethic of civil and free inquiry, which respects the autonomy of each member, supports individual capacities for growth and tolerates differences in opinion; treat all faculty, staff and
-
of precision imaging datasets using supercomputing cluster resources. Support students and trainees involved in data processing and analysis. Present novel discoveries at international conferences. Publish
-
transcript. Please be prepared to provide a copy should you be invited for an interview. EXPERIENCE: Two years cross sectional imaging and/or computer assisted imaging preferred with one year full time
-
of Radiology and Imaging Sciences at the University of Utah invents, develops and validates exciting image guided technologies to treat a myriad of conditions with therapeutic ultrasound. Our overall goal is to
-
to process large (tens to thousands of TB) optical imaging datasets. • Develop, apply and deploy data handling pipelines designed to process multimodal imaging data with dozens of imaging channels
-
individual capacities for growth and tolerates differences in opinion; treat all faculty, staff and students as individuals, hold them to equal standards and provide equality of opportunity with regard to race