Seminars
November 2, 2015
ERNESTO ELIAS VIDAL ROSAS 'Research in DOT for Biomedicine at the University of Sheffield'
ERNESTO ELIAS VIDAL ROSAS 'Research in DOT for Biomedicine at the University of Sheffield'
ERNESTO ELIAS VIDAL ROSAS
Department of Automatic Control and S
Seminar, November 2, 2015, 11:00. Blue Lecture Room
ERNESTO ELIAS VIDAL ROSAS
Department of Automatic Control and Systems Engineering
University of Sheffield
ERNESTO ELIAS VIDAL ROSAS
Department of Automatic Control and Systems Engineering
University of Sheffield
Diffuse Optical Tomography (DOT) can potentially become a routine imaging modality in the clinical environment. In this talk, I will outline my experience and major contribution of my research in the application of DOT in: small animal studies, human brain haemodynamics and microcirculation assessment for detection of cardiovascular diseases.
One significant contribution was the development of reduced–order models of light propagation in tissue, which allowed 3D reconstructions in real–time. These models are compact and can be easily stored in handheld devices. Nonlinear system identification tools and NARMAX methods made possible this development from Finite Element modelling. Similarly, I developed nonlinear de–blurring techniques to improve image quality. My current work is on the development of a portable tomographic device for the assessment of microvascular function, which will incorporate several of my contributions.
Seminar, November 2, 2015, 11:00. Blue Lecture Room
Hosted by Prof. Turgut Durduran
One significant contribution was the development of reduced–order models of light propagation in tissue, which allowed 3D reconstructions in real–time. These models are compact and can be easily stored in handheld devices. Nonlinear system identification tools and NARMAX methods made possible this development from Finite Element modelling. Similarly, I developed nonlinear de–blurring techniques to improve image quality. My current work is on the development of a portable tomographic device for the assessment of microvascular function, which will incorporate several of my contributions.
Seminar, November 2, 2015, 11:00. Blue Lecture Room
Hosted by Prof. Turgut Durduran
Seminars
November 2, 2015
ERNESTO ELIAS VIDAL ROSAS 'Research in DOT for Biomedicine at the University of Sheffield'
ERNESTO ELIAS VIDAL ROSAS 'Research in DOT for Biomedicine at the University of Sheffield'
ERNESTO ELIAS VIDAL ROSAS
Department of Automatic Control and S
Seminar, November 2, 2015, 11:00. Blue Lecture Room
ERNESTO ELIAS VIDAL ROSAS
Department of Automatic Control and Systems Engineering
University of Sheffield
ERNESTO ELIAS VIDAL ROSAS
Department of Automatic Control and Systems Engineering
University of Sheffield
Diffuse Optical Tomography (DOT) can potentially become a routine imaging modality in the clinical environment. In this talk, I will outline my experience and major contribution of my research in the application of DOT in: small animal studies, human brain haemodynamics and microcirculation assessment for detection of cardiovascular diseases.
One significant contribution was the development of reduced–order models of light propagation in tissue, which allowed 3D reconstructions in real–time. These models are compact and can be easily stored in handheld devices. Nonlinear system identification tools and NARMAX methods made possible this development from Finite Element modelling. Similarly, I developed nonlinear de–blurring techniques to improve image quality. My current work is on the development of a portable tomographic device for the assessment of microvascular function, which will incorporate several of my contributions.
Seminar, November 2, 2015, 11:00. Blue Lecture Room
Hosted by Prof. Turgut Durduran
One significant contribution was the development of reduced–order models of light propagation in tissue, which allowed 3D reconstructions in real–time. These models are compact and can be easily stored in handheld devices. Nonlinear system identification tools and NARMAX methods made possible this development from Finite Element modelling. Similarly, I developed nonlinear de–blurring techniques to improve image quality. My current work is on the development of a portable tomographic device for the assessment of microvascular function, which will incorporate several of my contributions.
Seminar, November 2, 2015, 11:00. Blue Lecture Room
Hosted by Prof. Turgut Durduran