81. Wiley::Imaging Science by P. H. Carter (Editor), A. M. Paterson (Editor), M. L. Thornton (Editor), A. P. Hyatt (Editor), A. Milne (Editor), J. R. Pirrie (Editor) http://www.wiley.com/WileyCDA/WileyTitle/productCd-0632056568.html

82. Dimension Technologies Inc. - Home Specializes in autostereoscopic 3D display technology and products. http://www.dti3d.com/

preloadimages("http://www.dti3d.com/templates/dti/images/arrow-on.gif","http://www.dti3d.com/templates/dti/images/arrow-off.gif","http://www.dti3d.com/templates/dti/images/topnav-bg-2.gif","http://www.dti3d.com/templates/dti/images/readon.gif","http://www.dti3d.com/templates/dti/images/read_over.gif"); Home About Us Press Releases Knowledge Base ... TriDef® Software (3) DTI Completes Department of Energy Contract for High Definition Autostereoscopic 3D Displays DTI has completed a contract from Department of Energy that proved the feasibility of its new autostereoscopic that is switchable between perfect 2D and autostereoscopic audience view 3D. The no-glasses images possess two to three times the resolution that is available on existing autostereoscopic multiview displays. Today's autostereoscopic displays are "Wow, look it's 3D" devices that are used mainly for advertising and digital signage. These DTI enhancements to flat panel displays will go beyond the "wow factor" to become practical devices that will be immediately useful to vertical markets like non regulated medical. DTI's patented technology can be scaled to apply from cell phones and hand held devices to large flat panel displays. The Company intends to license this attractive superior 2D/3D technology. Read more...

83. Imaging Science Today | Share, Learn, Improve Imaging Science Today promotes ultrasound and radiology education across the globe. http://dograrad.com/

84. Biomagnetics Summary of computer modeling research on the electrical and magnetic activity of human heart and brain for 3D visualization and MRI error checking, at the Department of Electrical Engineering, University of Washington, Seattle, WA. http://www.ee.washington.edu/research/compbe/

Computational Biomagnetics Our group at the University of Washington is involved in computer modeling of the electrical activity of the human heart and brain under normal and diseased conditions and developing their noninvasive medical diagnostic applications. We are also developing biomedical applications of the electromagnetic fields. Currently we are working on the following projects: Finite element models of human Head and Torso From the magnetic resonance imaging data anatomically accurate 3-D computer models of the human head and torso are built for computer modeling of the electrical activity of the human heart and brain. Studies are being conducted on developing efficient adaptive finite element models to quickly solve the voltage and current distribution in the whole and torso on desk-top workstations. This requires developing efficient and automatic image segmentation techniques, finite element modeling techniques and techniques for solving large matrices. Computer Models of the Electrical Activity of Human Heart and Brain Inverse Solution Techniques to reconstruct current distribution in human heart and brain From the measured electric or magnetic field data one needs to reconstruct the current distribution in the heart wall or localize the sites of the electrical activity in the brain. This requires solving the under-determined inverse problem by use of numerical optimization techniques, artificial neural networks and a combination of signal and image processing techniques. Currently we are developing techniques to solve the bioelectric and biomagnetic inverse problem in an integrated fashion to better localize the sites of the electrical activity in the brain with a mm size resolution.

85. Discrete Tomography Theory behind combinatorial reconstruction of matrices from horizontal and vertical projections for interpretion of X-ray crystallography coordinates, from Laboratoire de Recherche en Informatique, Paris University, France. http://www.lix.polytechnique.fr/~durr/Xray/

Discrete Tomography This page addresses the problem of reconstructing polyatomic or monoatomic structures from discrete X-Rays. Tomography is the area of reconstructing objects from projections. In discrete tomography , an object T we wish to reconstruct is a set of cells of a multidimensional grid. We perform measurements of T , each one involving a projection that determines the number of cells in T on all lines parallel to the projection's direction. Given a finite number of such measurements, we wish to reconstruct T or, if unique reconstruction is not possible, to compute any object consistent with these projections. Problems Programs Reconstruct hv-convex polyominoes Reconstruct vertical domino tilings

86. Elastic Inversion Of Acoustic Data New approach to processing traditional marine seismic data allows for converting into the triplet of depth elasic sections. From the Department of Physics, University of Bergen, Norway. http://web.ift.uib.no/~antonych/PSI.html

AAPG Regional International Conference P4 - Seismic Processing in Complex Areas Supported by the Society of Exploration Geophysicists (SEG) Can we hear seabed lithology from a shipboard ? Gennady A. Ryzhikov, Marina S. Biryulina, University of Bergen, Norway References Ryzhikov, Gennady and Biryulina, Marina, 1999, Removal of intrabed multiples via Source-Signature Invariant Inversion 69th Ann. Internat. Mtg. Soc. Expl. Geophys., Expanded Abstracts, SPRO 1 PDF: 575 Kb) ( ps.gz : 430 Kb) Ryzhikov, G.A. and Troyan, V.N., 1993, On regularization methods in 3-D ray tomography in Geophysical Data Interpretation by Inverse Modelling. Proc. of the 9-th International Seminar on Model Optimization in Exploration Geophysics. Berlin 1991. Edited by A.Vogel, Vieweg. Wiesbaden, 37-46. Example: PSI-criterion in action (synthetic data) Slightly modified but clear PostScript or PDF can be downloaded Extra figures are here and A few comments on the approach can be found here and

87. Volume Rendering In Java - Render Volume rendering software package written entirely in Java. Sources downloadable. Interfaced to the popular ImageJ image processing package. http://bij.isi.uu.nl/vr.htm

VolumeJ - Volume Rendering in Java VolumeJ is in BIJ, the Bio-medical Imaging in Java site. Version 1.7a. Downloading For downloads, go to the main BIJ page. Manuals, FAQ's, running as applet Frequently asked questions Confocal microscopy users, please see the FAQ Example renderings The manual The indexing and multimodality manual (created by Tony Collins). The Javadoc API for BIJ. Run VolumeJ as an applet. Example rendering of mri-stack.tif VolumeJ is functioning properly. The parameters are: Rotate , 0; Scale 1.0; Aspect 1, 1, ; Classifier Gradient no index; Interpolation trilinear; central value 128.0; deviation 2.0; Light 1,1, . All parameters are default except the ones in bold. Description VolumeJ is a freeware volume renderer. It has been interfaced to ImageJ , the Java image processing program developed by Wayne Rasband at the National Institutes of Health. After downloading, VolumeJ appears as an extra command in ImageJ in the plugins menu. It will render any open stack. The image above shows a depth-coded cine rendering of the sample Bat-Cochlea-Volume. Features ImageJ based: a volume is a stack.

88. Stereoscopic Vision System Tracks Objects In Real Time :: Nasa Tech Briefs Abstract of an article on a machine vision system capable of tracking objects in 3 dimensions. http://www.techbriefs.com/content/view/993/34/

Home Tech Briefs Green Design Briefs Physical Sciences ... Tech Briefs >> Stereoscopic Vision System Tracks Objects in Real Time Stereoscopic Vision System Tracks Objects in Real Time Lyndon B. Johnson Space Center, Houston, Texas Sunday, December 01 2002 advertisement: This work was done by Eric Huber and Bryn Wolfe of Metrica, Inc., and Jeff Kerr of JRKerr for Johnson Space Center. For further information, access the Technical Support Package (TSP) free on-line at www.nasatech.com/tsp under the Electronic Components and Systems category. MSC-23113 >> Most Popular Recent Impact of ultralow phase noise oscillators on system performance Improving Aspheric Lenses with Transmitted Wavefront Error Correction Self-Assembling PV Technology Avoids Any Loss in Performance All Time Electrodialysis To Remove Ammonium Ions From Wastewater Fiber-Optic Gratings for Lidar Measurements of Water Vapor Variable-Specific-Impulse Magnetoplasma Rocket >> Related Items 2D/3D Visual Tracker for Rover Mast Sensors for Using Times of Flight To Measure Flow Velocities Ice-Borehole Probe Medium-Frequency Pseudonoise Georadar ... Format for Interchange and Display of 3D Terrain Data >> Newsletter Subscribe today to receive the INSIDER, a FREE e-mail newsletter from

89. Responsive Environments | MIT Media Lab Research group exploring how sensor networks augment and mediate human experience, interaction and perception, while developing new sensing modalities and enabling technologies. http://www.media.mit.edu/research/groups/responsive-environments

Skip to Navigation login MIT Media Lab Responsive Environments Home How sensor networks augment and mediate human experience, interaction, and perception. The Responsive Environments group explores how sensor networks augment and mediate human experience, interaction and perception, while developing new sensing modalities and enabling technologies that create new forms of interactive experience and expression. Our current research encompasses the development and application of various types of sensor networks, energy harvesting and power management, and the technical foundation of ubiquitous computing. Our work is highlighted in diverse application areas, which have included automotive systems, smart highways, medical instrumentation, RFID, wearable computing, and interactive media. Research Projects Boxie the Robot: Interactive Physical Agents for Story Gathering Joe Paradiso and Alexander Reben How do we leverage people to make systems more intelligent, efficient, and successful? Is it worthwhile to involve people heavily in the goals of a system? How does a system most effectively coax stories out of people? To investigate these questions, a robot was built that facilitated interaction and documentary gathering within an ubiquitous media framework. We then let the robot roam freely, with the goal of capturing stories about its environment. This was done by leveraging human mobility and intelligence, as the robot relied upon people to move long distances and achieve its goals. The end products were a study of how people related to a robot asking for assistance and interaction in various ways, and a set of movies showing the robot navigating the resulting "thread" of a narrative.

90. Holomonitor™: Monitoring Progress Toward Holographic Technology Special report on how Drs. Garner, Munjuluri and Huebschman at UTSMC have pioneered holographic animation using digital micromirror devices. http://www.holomonitor.com

Holomonitor Special Report: Progress Toward 3D Holographic Animation This issue of Holomonitor™ is a special report on progress toward holographic animation. A hologram is an image that is created by two or more overlapping beams of coherent light. In coherent light, the peaks and valleys of the light waves are aligned. This differs from conventional light in which the peaks and valleys of the light waves are random relative to each other. Lasers are a common form of coherent light. In a hologram, the combination of wave peaks and valleys from the two or more intersecting beams of light cause an interference pattern that creates an image. Holographic animation may be defined as a moving three-dimensional image that meets the following three criteria: (1) holographic technology the image is an interference pattern from two or more beams of light; (2) three-dimensional perspective the three-dimensional perspective of the image changes in a relatively-continuous manner as a viewer moves and the angle from which they view the hologram changes; (3) independently moving content - - the content of the image changes, over a relatively-significant duration of time, independently of changes in viewer location. Holographic animation differs from conventional holograms. Conventional holograms can provide a limited number of different images that change with changes in viewer position, but conventional holograms do not provide a sufficient number of images to create a changing image over a significant duration of time and the content of the images does not change without changes in viewer position.

91. Stereoscopic Machine-Vision System Using Projected Circles :: Nasa Tech Briefs Abstract of an article on the development of a machine-vision system capable of detecting obstacles large enough to damage or trap a robotic vehicle. http://www.techbriefs.com/component/content/article/7661

Home Tech Briefs Green Design Briefs Physical Sciences ... Videos Physical Sciences Subscribe to NASA Tech Briefs Home Tech Briefs Physical Sciences >> Stereoscopic Machine-Vision System Using Projected Circles Stereoscopic Machine-Vision System Using Projected Circles John H. Glenn Research Center, Cleveland, Ohio Monday, March 01 2010 This system identifies obstacles in relatively short processing times. advertisement: A machine-vision system capable of detecting obstacles large enough to damage or trap a robotic vehicle is undergoing development. The system includes (1) a pattern generator that projects concentric circles of laser light forward onto the terrain, (2) a stereoscopic pair of cameras that are aimed forward to acquire images of the circles, (3) a frame grabber and digitizer for acquiring image data from the cameras, and (4) a single-board computer that processes the data. The system is being developed as a prototype of machine-vision systems to enable robotic vehicles (“rovers”) on remote planets to avoid craters, large rocks, and other terrain features that could capture or damage the vehicles. Potential terrestrial applications of systems like this one could include terrain mapping, collision avoidance, navigation of robotic vehicles, mining, and robotic rescue. Concentric Circles of Light are projected forward and observed by a stereoscopic pair of cameras. Distortions of the circle images in the cameras are used to identify and locate objects large enough to constitute obstacles.

92. USC-SIPI Research includes fundamental work on the development of signal processing theory based on higher-order statistics, fuzzy logic and artificial neural networks. http://sipi.usc.edu/

Welcome to the Signal and Image Processing Institute of the University of Southern California. SIPI is an organized research unit within the Viterbi School of Engineering founded in 1971 that serves as a focus for broad fundamental research in signal and image processing techniques at USC. The Institute was formed as a specialized group to coordinate advanced research in all aspects of signal and image processing and to facilitate collaboration and interaction with industrial sponsors and federal government research agencies. This web site gives a brief introduction to the research currently underway in SIPI, and introduces SIPI faculty, students, staff and alumni. You can also find information on our academic programs and on research and teaching assistantships for graduate students. Services available through this site include access to our SIPI Image Database and SIPI technical reports. What is SIPI? Course and Degree Information Faculty, Visitors and Staff Students ... Department of Electrical Engineering

93. About Us - College Of Imaging Administrators Association to support managers, directors and professionals in radiology and diagnostic imaging management, with technical information, business and marketing skills. Includes contacts and meetings in the USA. http://www.collegeofimagingadministrators.com/

About Us CIA Board News Contact ... Blog Network Support Educate Formed in the spring of 1998, the college of Imaging Administrators (CIA) is a new professional organization designed to provide practical administrative, business, marketing and technical information and support to managers, directors administrators and other individuals engaged in the practice of radiology and diagnostic imaging management. The CIA derives its strength from the willingness of its members to network and share real-world practical experience and advice in solving the many challenges of managing today's academic medical centers, hospital, private radiology practice, free standing centers, specialty clinic and outpatient center. The CIA conducts bi-monthly luncheon meetings, featuring speakers within or related to the industry who discuss topics related to the imaging business, leadership and technology. Each education program and gathering is designed to be financially indepedent and self-supporting. The CIA recognizes the generous support of many individuals, manufacturers, suppliers and business partners for making these educational offerings possible and affordable. C - I - A

94. Welcome! — MIC Provides new technologies for teaching and research involving microscopy and imaging, training and support services for microscopy, sample preparation, in situ elemental/molecular analyses and digital image analysis and processing. http://microscopy.tamu.edu/

@import url(http://microscopy.tamu.edu/portal_css/RGS%20genericskin3%20Skin/base-cachekey4307.css); Site Map Accessibility What's New Instruments ... Skip to navigation Info Welcome! Click the image below to learn more Microscopy Clinic Wednesday 10-27-2010 at 2PM, ILSB room 1143 learn more Welcome to the Microscopy and Imaging Center (MIC). We are promoting cutting edge research in basic and applied sciences through research and development activities, as well as quality training and education through individual training, short courses and formal courses that can be taken for credit. In order to learn how to go about getting preregistered for our courses, please see Formal Courses For complementary expertise and instrumentation, please visit the Materials Characterization Facility The Microscopy and Imaging Center Biological Sciences Building West (BSBW) College Station, Texas 77843-2257 Mail Stop #2257 Phone: 979-845-1129 Fax: 979-847-8933 More Contact Information Directions to MIC The instrument-generated scale bars are adequate for many uses. However, they may not be sufficiently accurate for specific applications. It is the responsibility of the individual user to calibrate magnifications ( see also FAQ ) where and when required. If in doubt, consult with an MIC staff member.

95. Thermal Vision Infrared Thermography World wide firm providing thermal imaging services, based in Ireland. Excellent examples of imaging. http://www.thermalvision.ie

Contact Us Email Content on this page requires a newer version of Adobe Flash Player. Content on this page requires a newer version of Adobe Flash Player. Home Thermography Training Login Why Use Thermal Vision? As Irelands only Thermography service certified independently to Level 3 in civil and electrical applications, we are in a position to provide you with the highest Level of service possible in Industry today. We save our customers millions of Euro, and help eliminate thousands of hours of downtime, EVERY YEAR. Our work is widely accepted by insurers; in fact we work closely with the insurance industry. We are so confident that our reports will be accepted by insurers that we guarantee it, or we will refund your money. We have lead the way in the thermographic Industry in Ireland for more than ten years, working closely with insurance companies and industry representative bodies. Our goal is to help you to visualise and understand your thermal problems. We do not carry out repairs on any problems found, this way we have nothing to gain from the repairs, and have no reason to misreport faults. Conference papers presented by Thermal Vision Flir Users Group conference Paper on Fault classification and cost analysis.

96. ICPE SA - Laboratory 57 Industrial tomography 2D and 3D tomograms. http://www.icpe.ro/lab/comp-ndt/

Welcome to the Laboratory 57 Homepage ! Who We Are ? What We Do ? We are a small independent group in ICPE S.A. (Research and Development Institute for Electrical Engineering) named Computerized Control and Non-Destructive Testing Laboratory - shortly Lab 57. Our group is formed, on average, by twenty young researchers and engineers specialized in different fields and we are usually doing basic and applied research and working small series equipment in the fields of: Computerized Control and Monitoring, Non-Destructive Testing, Fully Computerized Test and any customer related application on demand. Ongoing activities and contracts : Basic and Applied Research under the Research Programmes of the Romanian Ministry of Research and Technology Basic and Applied Research under the European Community Joint Research Programmes; Basic and Applied Research under Bilateral Research Programmes jointly agreed by Romania and various countries; Applied Research, design and manufacture of customer design equipment; Design and manufacture of small series of customer tailored products on demand;

97. Synarc -- Home Radiologists and scientists use medical imaging techniques and molecular markers in drug development and clinical trials. Includes list of services and staff. http://www.synarc.com

i=12197 Home Contact Us Careers Site Index ... CCBR-SYNARC Experts AC_FL_RunContent( 'codebase','http://fpdownload.macromedia.com/pub/shockwave/cabs/flash/swflash.cab#version=8,0,0,0','width','960','height','264','id','home-09','align','middle','src','images/home-09','quality','high','bgcolor','#1a3955','name','home-09','allowscriptaccess','sameDomain','pluginspage','http://www.macromedia.com/go/getflashplayer','movie','images/home-09' ); //end AC code Therapeutic Expertise Cardiology/ Metabolic Neurovascular Neurology Oncology Orthopedics ... Rheumatoid Arthritis CCBR-SYNARC is the world's leading pharmaceutical service organization dedicated exclusively to global clinical trials. CCBR-SYNARC medical image-analysis, subject-recruitment, and biochemical-marker services enable life-science industry clients to execute clinical trials accurately while decreasing the time, uncertainty, and cost of product development. CCBR-SYNARC has contributed to the approval of more leading compounds, across a broad spectrum of therapeutic areas, than any other central imaging provider. Announcements More than One Million Images Uploaded through SynarcConnect October 10, 2010

98. Machine Vision Components UK & Solutions - Firstsight Vision Ltd Used for industrial machine vision applications, such as area and linescan cameras, lenses and framegrabbers. Contacts in Surrey, UK. http://www.visionelements.co.uk/

99. Redlake - High Speed Video Cameras, High Speed Motion Cameras, Industrial Inspec Manufacturer specializing in high speed motion cameras, industrial digital cameras, and 3CCD color cameras. Includes company background and product details. Located in San Diego, California. http://www.redlake.com/

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100. Cognitech Specializes in forensic and medical video image processing, supplies hardware, software and services from Pasadena, California. http://www.cognitech.com

AC_FL_RunContent( 'codebase', 'http://download.macromedia.com/pub/shockwave/cabs/flash/swflash.cab#version=9,0,0,0', 'width', '418', 'height', '176', 'src', 'main', 'quality', 'high', 'pluginspage', 'http://www.adobe.com/go/getflashplayer', 'align', 'middle', 'play', 'true', 'loop', 'true', 'scale', 'showall', 'wmode', 'transparent', 'devicefont', 'false', 'id', 'Slide', 'bgcolor', '#000000', 'name', 'main', 'menu', 'true', 'allowFullScreen', 'true', 'allowScriptAccess','sameDomain', 'movie', 'Slide', 'salign', '' ); //end AC code Home Products Tri-Suite 10 Video Investigator™ ... Help Request Cognitech® Video Investigator™: Learn More Cognitech® VideoActive™: Learn More Cognitech® AutoMeasure™: Learn More A unique capability for Geo-Spatial processing of the airborne (e.g. UAV) video sensors to produce fully GPS-referenced: Each-Pixel-GPS video, GeoTiff mosaic from video, 3-D Digital Elevation Maps from video, GPS analysis of video content, e.g. GPS tracking from video. Learn More Latest News More: News Read More Cognitech is the 2010 Winner of the American Technology Award Read More ... Read More AC_FL_RunContent( 'codebase', 'http://download.macromedia.com/pub/shockwave/cabs/flash/swflash.cab#version=9,0,0,0', 'width', '360', 'height', '270', 'src', 'main', 'quality', 'high', 'pluginspage', 'http://www.adobe.com/go/getflashplayer', 'align', 'middle', 'play', 'true', 'loop', 'true', 'scale', 'showall', 'wmode', 'transparent', 'devicefont', 'false', 'id', 'main', 'bgcolor', '#000000', 'name', 'main', 'menu', 'true', 'allowFullScreen', 'true', 'allowScriptAccess','sameDomain', 'movie', 'flvPlayer', 'salign', '' ); //end AC code

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