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This is a practical guide to tomographic image reconstruction with
projection data, with strong focus on Computed Tomography (CT) and
Positron Emission Tomography (PET). Classic methods such as FBP,
ART, SIRT, MLEM and OSEM are presented with modern and compact
notation, with the main goal of guiding the reader from the
comprehension of the mathematical background through a fast-route
to real practice and computer implementation of the algorithms.
Accompanied by example data sets, real ready-to-run Python toolsets
and scripts and an overview the latest research in the field, this
guide will be invaluable for graduate students and early-career
researchers and scientists in medical physics and biomedical
engineering who are beginners in the field of image reconstruction.
A top-down guide from theory to practical implementation of PET and
CT reconstruction methods, without sacrificing the rigor of
mathematical background Accompanied by Python source code snippets,
suggested exercises, and supplementary ready-to-run examples for
readers to download from the CRC Press website Ideal for those
willing to move their first steps on the real practice of image
reconstruction, with modern scientific programming language and
toolsets Daniele Panetta is a researcher at the Institute of
Clinical Physiology of the Italian National Research Council
(CNR-IFC) in Pisa. He earned his MSc degree in Physics in 2004 and
specialisation diploma in Health Physics in 2008, both at the
University of Pisa. From 2005 to 2007, he worked at the Department
of Physics "E. Fermi" of the University of Pisa in the field of
tomographic image reconstruction for small animal imaging micro-CT
instrumentation. His current research at CNR-IFC has as its goal
the identification of novel PET/CT imaging biomarkers for
cardiovascular and metabolic diseases. In the field micro-CT
imaging, his interests cover applications of three-dimensional
morphometry of biosamples and scaffolds for regenerative medicine.
He acts as reviewer for scientific journals in the field of Medical
Imaging: Physics in Medicine and Biology, Medical Physics, Physica
Medica, and others. Since 2012, he is adjunct professor in Medical
Physics at the University of Pisa. Niccolò Camarlinghi is a
researcher at the University of Pisa. He obtained his MSc in
Physics in 2007 and his PhD in Applied Physics in 2012. He has been
working in the field of Medical Physics since 2008 and his main
research fields are medical image analysis and image
reconstruction. He is involved in the development of clinical,
pre-clinical PET and hadron therapy monitoring scanners. At the
time of writing this book he was a lecturer at University of Pisa,
teaching courses of life-sciences and medical physics laboratory.
He regularly acts as a referee for the following journals: Medical
Physics, Physics in Medicine and Biology, Transactions on Medical
Imaging, Computers in Biology and Medicine, Physica Medica, EURASIP
Journal on Image and Video Processing, Journal of Biomedical and
Health Informatics.
This is a practical guide to tomographic image reconstruction with
projection data, with strong focus on Computed Tomography (CT) and
Positron Emission Tomography (PET). Classic methods such as FBP,
ART, SIRT, MLEM and OSEM are presented with modern and compact
notation, with the main goal of guiding the reader from the
comprehension of the mathematical background through a fast-route
to real practice and computer implementation of the algorithms.
Accompanied by example data sets, real ready-to-run Python toolsets
and scripts and an overview the latest research in the field, this
guide will be invaluable for graduate students and early-career
researchers and scientists in medical physics and biomedical
engineering who are beginners in the field of image reconstruction.
A top-down guide from theory to practical implementation of PET and
CT reconstruction methods, without sacrificing the rigor of
mathematical background Accompanied by Python source code snippets,
suggested exercises, and supplementary ready-to-run examples for
readers to download from the CRC Press website Ideal for those
willing to move their first steps on the real practice of image
reconstruction, with modern scientific programming language and
toolsets Daniele Panetta is a researcher at the Institute of
Clinical Physiology of the Italian National Research Council
(CNR-IFC) in Pisa. He earned his MSc degree in Physics in 2004 and
specialisation diploma in Health Physics in 2008, both at the
University of Pisa. From 2005 to 2007, he worked at the Department
of Physics "E. Fermi" of the University of Pisa in the field of
tomographic image reconstruction for small animal imaging micro-CT
instrumentation. His current research at CNR-IFC has as its goal
the identification of novel PET/CT imaging biomarkers for
cardiovascular and metabolic diseases. In the field micro-CT
imaging, his interests cover applications of three-dimensional
morphometry of biosamples and scaffolds for regenerative medicine.
He acts as reviewer for scientific journals in the field of Medical
Imaging: Physics in Medicine and Biology, Medical Physics, Physica
Medica, and others. Since 2012, he is adjunct professor in Medical
Physics at the University of Pisa. Niccolo Camarlinghi is a
researcher at the University of Pisa. He obtained his MSc in
Physics in 2007 and his PhD in Applied Physics in 2012. He has been
working in the field of Medical Physics since 2008 and his main
research fields are medical image analysis and image
reconstruction. He is involved in the development of clinical,
pre-clinical PET and hadron therapy monitoring scanners. At the
time of writing this book he was a lecturer at University of Pisa,
teaching courses of life-sciences and medical physics laboratory.
He regularly acts as a referee for the following journals: Medical
Physics, Physics in Medicine and Biology, Transactions on Medical
Imaging, Computers in Biology and Medicine, Physica Medica, EURASIP
Journal on Image and Video Processing, Journal of Biomedical and
Health Informatics.
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Modern Applications (Paperback)
Frank Roesch; Contributions by Daniele Panetta, Michael Steppert, Tobias L. Ross, Soenke Szidat, …
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Nuclear chemistry represents a vital field of basic and applied
research. Modern applications cover, for example, fundamental
aspects of energetics and high-sensitive, high-selective and
non-destructive analytical technologies. Nuclear chemistry and
radiopharmaceutical chemistry are increasingly used to bridge
pharmaceutical and medical research with state-of-the-art
non-invasive molecular diagnosis as well as with patient-individual
treatment. While volume I on Introduction to Nuclear Chemistry
describes the origin of unstable atoms and their pathways to
stabilize, this volume II illustrates the spectrum of modern
applications of nuclear and radiochemistry. In various chapters,
leading scientists address - the measurement of radiation, - the
dosimetric action of radioactive radiation and radiation safety -
nuclear dating - elemental analysis by neutron activation, -
radiation mass spectroscopy and chemicals speciation, -
radiochemical separations, - applications of radiochemistry to life
sciences, - the chemistry of radioelements: Tc and At, actinides
and the transactinides - fundamentals of modern nuclear energy.
In diesem Buch wird erstmals ein bisher noch unbekanntes Phanomen
betrachtet: hochsensible Fuhrungskrafte. Der Begriff hochsensibel
ist nicht unbelastet und wird daher auch unter Einbezug des
Geschlechts aus fuhrungswissenschaftlicher Perspektive diskutiert.
Die inhaltliche Herleitung des Themas bietet neueste Erkenntnisse,
aus welchen praktische Relevanzen abgeleitet werden.
Hochsensibilitat wird zukunftig ihren/seinen festen Platz in der
Psychologie finden. Die Untersuchung zeigt, dass hochsensible
Fuhrungskrafte besondere empathische Fahigkeiten und einen
speziellen Fuhrungsstil besitzen, den sie vornehmlich von der
Stimmung einer Situation abhangig machen. Sie nehmen Stimmungen
koerperlich bewusst wahr und handeln dementsprechend.
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