Dr. Mostafa Analoui
Head of Healthcare and Life Sciences at Livingston Securities LLC
SPIE Involvement:
Author | Instructor
Publications (17)

Proceedings Article | 12 April 2005 Paper
Zhi Yang, David Raunig, Theresa Tuthill, Martin Fox, Mostafa Analoui
Proceedings Volume 5750, (2005) https://doi.org/10.1117/12.597680
KEYWORDS: Point spread functions, Ultrasonography, Arteries, Super resolution, Reconstruction algorithms, Image resolution, Reflectivity, Resolution enhancement technologies, Diffusion, Imaging systems

Proceedings Article | 21 May 2004 Paper
Proceedings Volume 5299, (2004) https://doi.org/10.1117/12.537085
KEYWORDS: Signal to noise ratio, Wavelets, Phase modulation, Optical coherence tomography, Anisotropic diffusion, Image processing, Diffusion, Speckle, Image quality, Image enhancement

Proceedings Article | 12 May 2004 Paper
Proceedings Volume 5370, (2004) https://doi.org/10.1117/12.534617
KEYWORDS: Expectation maximization algorithms, Genetic algorithms, Algorithms, Performance modeling, Genetics, Tissues, 3D modeling, Chemical elements, Computed tomography, Error analysis

Proceedings Article | 12 May 2004 Paper
Proceedings Volume 5370, (2004) https://doi.org/10.1117/12.536107
KEYWORDS: Anisotropic diffusion, Phase modulation, Diffusion, Wavelets, Signal to noise ratio, Image enhancement, Image processing, Image quality, Interference (communication), Smoothing

SPIE Journal Paper | 1 January 2003
JEI, Vol. 12, Issue 01, (January 2003) https://doi.org/10.1117/12.10.1117/1.1525280
KEYWORDS: Image segmentation, Image resolution, Magnetic resonance imaging, Image processing algorithms and systems, Algorithms, Magnetorheological finishing, Image analysis, Stochastic processes, Computed tomography, Dentistry

Showing 5 of 17 publications
Proceedings Volume Editor (2)

SPIE Conference Volume | 17 October 2006

SPIE Conference Volume | 4 November 2005

Conference Committee Involvement (22)
Image Processing
19 February 2019 | San Diego, California, United States
Image Processing
11 February 2018 | Houston, Texas, United States
Image Processing
12 February 2017 | Orlando, Florida, United States
Image Processing Posters
12 February 2017 | Orlando, FL, United States
Image Processing
1 March 2016 | San Diego, California, United States
Showing 5 of 22 Conference Committees
Course Instructor
WS1024: Medical Imaging: From Concept to Market
This course provides attendees with key steps involved in commercializing a medical imaging innovation. It offers fundamental concepts in life cycle management of innovative ideas, translation and validation in clinical trials, financing and strategic partnership. It also covers topic related to securing and licensing of intellectual property (IP), formation of business entity, raising capital, regulatory pathways and market analysis. This course includes specific case studies highlighting key traces for success and failure. Additionally, specific tools for technology valuation for in/out licensing, merger/acquisition (M&A) and other transactions will be discussed. Specific areas of focus will be image-based algorithms/software, imaging modalities and instrumentations for diagnostics and operative applications.
SC086: Fundamentals of Medical Image Processing and Analysis
This course gives an overview of medical image formation, enhancement, analysis, visualization, and communication with many examples from medical applications. It starts with a brief introduction to medical imaging modalities and acquisition systems. Basic approaches to display one-, two-, and three-dimensional (3D) biomedical data are introduced. As a focus, image enhancement techniques, segmentation, texture analysis and their application in diagnostic imaging will be discussed. To complete this overview, storage, retrieval, and communication of medical images are also introduced. In addition to this theoretical background, a 45 min practical demonstration with ImageJ is given. ImageJ is a Java-based platform for medical image enhancement and visualization. It is developed by the National Institutes of Health, USA, open source and freely available in the public domain. For this course, ImageJ is appropriately configured with useful plug-ins (e.g. DICOM import, 3D rendering) and distributed on CD-ROM. Attendees are welcome to perform on their own laptop computers.
SC078: Texture Analysis and Its Applications in Medical Imaging
This course is an overview of texture; its appearance, modeling and applications in diagnostic imaging. It begins with general examples for defining and modeling texture. Approaches for identifying and measuring image textures are described. These approaches include statistical methods, Markov random field and morphological techniques. Applications of these techniques in two specific problems with diagnostic imaging will be discussed. A model to synthetically generate digital mammographs followed by multi-resolution analysis and segmentation of images is discussed. Then modeling and textural analysis of hard tissues (bone) as a screening tool for osteoporosis is examined. Histomorphometric approaches for both thin slice and 3-D imaging will be discussed.
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