98 machine-learning-"https:" "https:" "https:" "https:" "U.S" Postdoctoral positions in Ireland
Sort by
Refine Your Search
-
Listed
-
Employer
-
Field
-
-fidelity finite element models to investigate surface wave propagation in soft biological tissues, forming the foundation for subsequent statistical and machine learning frameworks that integrate
-
instead. Prior to application, further information (including application procedure) should be obtained from the Work at UCD website: https://www.ucd.ie/workatucd/jobs/ Where to apply Website https
-
activities. Fixed Salary: €54,307 Per Annum Contract Duration: 12 months with potential to extend subject to funding Where to apply Website https://www.ucd.ie/workatucd/jobs/ Requirements Research
-
: 019318 Prior to application, further information (including application procedure) should be obtained from the Work at UCD website: https://www.ucd.ie/workatucd/jobs/ Applications are invited from suitably
-
website: https://www.ucd.ie/workatucd/jobs/ Where to apply Website https://www.aplitrak.com/?adid=ai5icmVlbi40MjExMi45OTA4QHVuaWNkdWJsaW4uYXBsaXRy… Requirements Skills/Qualifications research, science
-
. Candidates are expected to have experience in one or more of the following areas, such as: wireless networks/communications, machine learning/vision, intelligent transportation systems, intelligent sensing
-
see https://ore.ucc.ie/ Informal enquiries can be made in confidence to Prof Siobhain O’Mahony, Anatomy and Neuroscience, Tel: + 353 (0) 21 4904579; Email: somahony@ucc.ie Applications must be submitted
-
the development of high-fidelity finite element models to investigate surface wave propagation in soft biological tissues, forming the foundation for subsequent statistical and machine learning
-
including further details of the post see https://ore.ucc.ie/ Informal enquiries can be made in confidence to Dr Annalisa Setti, School of Applied Psychology; Email: a.setti@ucc.ie Applications must be
-
of high-fidelity finite element models to investigate surface wave propagation in soft biological tissues, forming the foundation for subsequent statistical and machine learning frameworks that integrate