Difference between revisions of "Openings"
(Link.) |
|||
Line 2: | Line 2: | ||
<br> | <br> | ||
− | [New posting as of 11 October 2022] A postdoctoral position is available at the Image Analysis and Communications Laboratory, Johns Hopkins University, https://iacl.jhu.edu. The position involves image processing and analysis of multiparametric magnetic resonance brain images. Experience with one or more of the following is required: medical image analysis, magnetic resonance (MR) imaging, deep neural networks. Candidates with doctoral degrees in electrical engineering, computer science, or biomedical engineering or closely related fields are sought. Interested applicants should send their CV in PDF format and the names of three professional references to Jerry L. Prince at prince@jhu.edu. | + | [New posting as of 11 October 2022] A postdoctoral position is available at the Image Analysis and Communications Laboratory, Johns Hopkins University, https://iacl.ece.jhu.edu. The position involves image processing and analysis of multiparametric magnetic resonance brain images. Experience with one or more of the following is required: medical image analysis, magnetic resonance (MR) imaging, deep neural networks. Candidates with doctoral degrees in electrical engineering, computer science, or biomedical engineering or closely related fields are sought. Interested applicants should send their CV in PDF format and the names of three professional references to Jerry L. Prince at prince@jhu.edu. |
[Reposted on 11 October 2022] '''Postdoctoral Fellow, Johns Hopkins University, Biomechanics of Traumatic Brain Injury''' | [Reposted on 11 October 2022] '''Postdoctoral Fellow, Johns Hopkins University, Biomechanics of Traumatic Brain Injury''' | ||
− | A new postdoctoral fellow position is available within the Hopkins Extreme Materials Institute (hemi.jhu.edu) and the Image Analysis and Communications Laboratory (iacl.jhu.edu) at Johns Hopkins University. The position is in the area of the computational biomechanics of traumatic brain injury. The associated projects, currently funded by NIH and potentially also by DoD, are focused on the development, verification, calibration, validation, and application of computational models for the human head and brain. The work is part of a highly collaborative effort through a team that includes investigators at Washington University in St. Louis, the Henry Jackson Foundation, University of Delaware and potentially others. | + | A new postdoctoral fellow position is available within the Hopkins Extreme Materials Institute (hemi.jhu.edu) and the Image Analysis and Communications Laboratory (iacl.ece.jhu.edu) at Johns Hopkins University. The position is in the area of the computational biomechanics of traumatic brain injury. The associated projects, currently funded by NIH and potentially also by DoD, are focused on the development, verification, calibration, validation, and application of computational models for the human head and brain. The work is part of a highly collaborative effort through a team that includes investigators at Washington University in St. Louis, the Henry Jackson Foundation, University of Delaware and potentially others. |
Chronic effects of repeated head impacts, including memory impairment, emotional disorders, and cognitive deficits, are associated with mechanical deformation of the brain during skull acceleration, but the mechanisms of injury remain poorly understood. Computer simulations of the response of the brain to skull motion must be tested using experimental measurements of actual brain deformation acquired using magnetic resonance imaging; this is particularly important as brain mechanics differ between individuals and between groups of different sex and age. The objective of the effort is to develop such validated computational models for investigations of traumatic brain injury (TBI) and chronic traumatic encephalopathy (CTE). The approach is expected to include the use of data-driven methods to guide and evaluate such models, and the development of lower-fidelity but fast models that can guide more intensive simulations as well as more targeted experiments. | Chronic effects of repeated head impacts, including memory impairment, emotional disorders, and cognitive deficits, are associated with mechanical deformation of the brain during skull acceleration, but the mechanisms of injury remain poorly understood. Computer simulations of the response of the brain to skull motion must be tested using experimental measurements of actual brain deformation acquired using magnetic resonance imaging; this is particularly important as brain mechanics differ between individuals and between groups of different sex and age. The objective of the effort is to develop such validated computational models for investigations of traumatic brain injury (TBI) and chronic traumatic encephalopathy (CTE). The approach is expected to include the use of data-driven methods to guide and evaluate such models, and the development of lower-fidelity but fast models that can guide more intensive simulations as well as more targeted experiments. |
Revision as of 05:39, 17 February 2024
Job Openings
[New posting as of 11 October 2022] A postdoctoral position is available at the Image Analysis and Communications Laboratory, Johns Hopkins University, https://iacl.ece.jhu.edu. The position involves image processing and analysis of multiparametric magnetic resonance brain images. Experience with one or more of the following is required: medical image analysis, magnetic resonance (MR) imaging, deep neural networks. Candidates with doctoral degrees in electrical engineering, computer science, or biomedical engineering or closely related fields are sought. Interested applicants should send their CV in PDF format and the names of three professional references to Jerry L. Prince at prince@jhu.edu.
[Reposted on 11 October 2022] Postdoctoral Fellow, Johns Hopkins University, Biomechanics of Traumatic Brain Injury
A new postdoctoral fellow position is available within the Hopkins Extreme Materials Institute (hemi.jhu.edu) and the Image Analysis and Communications Laboratory (iacl.ece.jhu.edu) at Johns Hopkins University. The position is in the area of the computational biomechanics of traumatic brain injury. The associated projects, currently funded by NIH and potentially also by DoD, are focused on the development, verification, calibration, validation, and application of computational models for the human head and brain. The work is part of a highly collaborative effort through a team that includes investigators at Washington University in St. Louis, the Henry Jackson Foundation, University of Delaware and potentially others.
Chronic effects of repeated head impacts, including memory impairment, emotional disorders, and cognitive deficits, are associated with mechanical deformation of the brain during skull acceleration, but the mechanisms of injury remain poorly understood. Computer simulations of the response of the brain to skull motion must be tested using experimental measurements of actual brain deformation acquired using magnetic resonance imaging; this is particularly important as brain mechanics differ between individuals and between groups of different sex and age. The objective of the effort is to develop such validated computational models for investigations of traumatic brain injury (TBI) and chronic traumatic encephalopathy (CTE). The approach is expected to include the use of data-driven methods to guide and evaluate such models, and the development of lower-fidelity but fast models that can guide more intensive simulations as well as more targeted experiments.
The potential candidate should have a Ph.D. in mechanics, biomedical engineering, or physics, with an interest in pushing the frontiers of biomechanics, and with a strong background in computational methods (the finite element method and the material point method are of particular interest). A willingness to work with experimentalists, biomedical imaging experts, and clinicians is expected. An interest in data science and machine learning is a plus.
If you are interested, please send an email to ramesh@jhu.edu and prince@jhu.edu with a single PDF file containing your curriculum vitae, the names of at least three references, and a brief (less than 1 page) research statement. Please use the subject line “HEMI/IACL Postdoctoral Fellow in Brain Biomechanics.” Review of applications will begin July 11, 2022 but we will continue to accept applications until the position is filled.
The Johns Hopkins University is an Equal Employment Opportunity and Affirmative Action employer, and is committed to building a diverse environment; women and minorities are strongly encouraged to apply.