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Solve for X: Mary Lou Jepsen on imaging the mind's eye

Solve for X is a forum to encourage and amplify technology-based moonshot thinking and teamwork. www.wesolveforx.com http What if it were possible to literally take pictures of the mind's eye? There is no doubt that if such an ability existed it would completely transform everything from how we communicate across language barriers, save our memories, replay our dreams, how we communicate with ourselves (psychology), how we communicate with computers (HCI), and on and on the list goes. The evidence is now on the horizon that taking these pictures is in fact possible and could be made within the decade. Mary Lou Jepsen is an imaging and display expert. She is CEO and Founder of Pixel Qi Corporation and co-founder of One Laptop per Child. Mary Lou is also a high tech artist and co-created the first computed holographic video system in the world at the MIT Media Lab.
Категория: Science & Technology
Время: 00:08:42.750
Теги: Mary Lou Jepsen Solve for X #solveforx mind's eye neuroscience psychology HCI human computer interaction
 

10. Imaging the Cardiovascular System | Mini Med School

(December 6, 2011) Professor of Cardiovascular Medicine Michael McConnell discusses his work in preventative cardiology, advancements in technology used for cardiovascular imaging, and their relevance surrounding cardiovascular disease. This course is a single-quarter, focused follow-up to the the yearlong Mini Med School that occurred in 2009-10. The course focuses on diseases of the heart and cardiovascular system. The course is sponsored by Stanford Continuing Studies and the Stanford Medical School. Stanford University www.stanford.edu Stanford Continuing Studies http:///continuingstudies.stanford.edu/ Stanford University School of Medicine med.stanford.edu Stanford University Channel on YouTube: www.youtube.com
Категория: Education
Время: 00:52:56.250
Теги: Technology Medicine Surgery Measurement Anatomy Preventative Cardiology Blood flow Coronary Disease Echocardogram Angiography Multi-Dimensional CV High Resolution Ultrasound CT Scan MRI Nuclear Artery Vessel Tissue 3D Simulation Press
 

Cross sectional and imaging anatomy of the abdomen

Objectives: This video deals with the anatomy of abdominal viscera and walls as they appear in transverse anatomical sections and axial CT sections. The video begins with a transverse anatomical section at the level of T8 vertebra and continues down to the level of L5 vertebra. There is a special emphasis on sections at the level of T10, T12, L1, L3, & L4. The anatomical sections are arranged to match CT & MRI sections to provide better understanding of the imaging anatomy of the abdomen. The arrangement of abdominal structures is followed in (22) serial transverse sections of the abdomen and compared to 5 representative axial CT sections at different levels. The anatomical sections are selected from the Visible Human Project. For more information about this project refer to: www.nlm.nih.gov Five short video clips are inserted where necessary to explain 3-D relations necessary to understand the 2-D sections. Presented and edited by Dr. Akram Jaffar (PhD). Plastic model clips filmed by Parwiz Akbari (medical student). Filmed at College of Medicine/ University of Sharjah, UAE. 2012. This video and its channel are supported by "Human Anatomy Education" page on Facebook www.facebook.com After completion of this video session it is expected that you will be able to identify the approximate vertebral levels of transverse sections from T8-L5 vertebrae. The following structures are identified in transverse anatomical sections or CT axial sections: Vessels: Inferior vena cava (IVC ...
Категория: Education
Время: 00:37:18.750
Теги: Anatomy transverse section axial section abdomen imaging CT
 

Breakthroughs in Imaging Neurovascular Diseases

Google Tech Talk September 16, 2010 Breakthroughs in Imaging Neurovascular Diseases such as Multiple Sclerosis: Technical Aspects, Clinical Ramifications, and Understanding the Etiology of the Disease. Presented by Dr. E. Mark Haacke. ABSTRACT Magnetic Resonance Imaging has long been an important diagnostic tool for Multiple Sclerosis. Recent developments linking MS to venous malformations have highlighted the use of advanced techniques for imaging iron deposits and blood flow. We introduce here a number of new technical image acquisition and image processing concepts whose application may well extend into other diseases such as Parkinson's, Alzheimer's, stroke and traumatic brain injury. Finally, the development and data mining of worldwide data in specific diseases will also be discussed. ABOUT THE AUTHOR E. Mark Haacke is a world renown MRI researcher at Wayne State University. He won the Gold Medal in Kyoto in 2004 for his work on Susceptibility Weighted Imaging and Education. He is the past president of two MRI societies and has just formed "The International Society for Neurovascular Disease". For the last 30 years, Dr. Haacke has focused on the physics and mathematics associated with the technical development of new imaging methods and their clinical applications.
Категория: Science & Technology
Время: 00:48:15
Теги: google tech talk mri ms multiple sclerosis alzheimer's parkinson's neurovascular
 

Imaging Resource: Sony NEX-C3 Focus Peaking demo

One of the more valuable features for the enthusiasts likely to be attracted to the Sony NEX-C3 is the Peaking function, where the sharpest, high-contrast areas of the frame appear colorized, indicating the band or area of sharpest focus. You can choose among red, yellow, and white colors, and the range of focused areas that it affects. Read our Sony NEX-C3 review for more details: www.imaging-resource.com
Категория: Science & Technology
Время: 00:00:07.500
Теги: Sony NEX-C3 Autofocus Peaking
 

Zebra Imaging 3D Prints

Категория: Science & Technology
Время: 00:01:06
Теги: Zebra Imaging 3D Prints
 

MAGNETIC RESONANCE IMAGING

-Magnetic resonance imaging (MRI), or Nuclear magnetic resonance imaging (NMRI), is primarily a medical imaging technique most commonly used in radiology to visualize the structure and function of the body. It provides detailed images of the body in any plane. MRI provides much greater contrast between the different soft tissues of the body than computed tomography (CT) does, making it especially useful in neurological (brain), musculoskeletal, cardiovascular, and oncological (cancer) imaging. Unlike CT, it uses no ionizing radiation, but uses a powerful magnetic field to align the nuclear magnetization of (usually) hydrogen atoms in water in the body. Radiofrequency fields are used to systematically alter the alignment of this magnetization, causing the hydrogen nuclei to produce a rotating magnetic field detectable by the scanner. This signal can be manipulated by additional magnetic fields to build up enough information to construct an image of the body. MRI is a relatively new technology, which has been in use for little more than 30 years (compared with over 110 years for X-ray radiography). The first MR Image was published in 1973 and the first study performed on a human took place on July 3, 1977. Magnetic resonance imaging was developed from knowledge gained in the study of nuclear magnetic resonance. In its early years the technique was referred to as nuclear magnetic resonance imaging (NMRI). However, as the word nuclear was associated in the public mind with ...
Категория: Science & Technology
Время: 00:05:00.750
Теги: zerati votuporanga brazil magnetic resonanse imaging mri neurocirurgia neurosurgery disease medicina medicine brain ressonância magnética neurology neuroradiology radiology
 

Imaging the Antikythera Mechanism

Google Tech Talk March 5, 2010 ABSTRACT Presented by Tom Malzbender. The Antikythera Mechanism is an astronomical mechanical computer built by the ancient Greeks in 200 BCE and resides in the National Archeological Museum in Athens. In 2005, Dan Gelb and I travelled to Athens to apply our Reflectance Transformation methods to the device in the hopes of uncovering faint writing on its surface. The trip - part of an international collaboration described in the Dec. 2009 issue of Scientific American - was a success and subsequent epigraphers have been able to decipher enough new writing to allow researchers to understand what the device was and how it operated. I will give an overview of both our imaging method and the Antikythera Mechanism itself. Tom Malzbender is a senior research scientist at Hewlett-Packard Laboratories. Tom works at the intersection of computer graphics, computer vision and signal processing and has developed the techniques of Reflectance Transformation, Polynomial Texture Mapping (PTM) and Fourier Volume Rendering. He also developed the capacitive sensing technology that allowed HP to penetrate the consumer graphics tablet market. His PTM methods are used by the National Gallery in London, the Tate Gallery and in the fields of criminal forensics, paleontology and archeology. Tom is on the program committees for several 3D graphics and vision conferences. More information can be found at www.hpl.hp.com .
Категория: Science & Technology
Время: 00:45:01.500
Теги: google tech talk ancient greece
 

NHK 33 Megapixel 120fps Ultra High Definition imaging system #DigInfo

NHK 33 Megapixel 120fps Ultra High Definition imaging system www.diginfo.tv DigInfo TV - diginfo.tv 22 NHK OPEN HOUSE 2012 NHK Science & Technology Research Laboratories, NHK 120-Hz Super Hi-Vision Image Sensor
Категория: Science & Technology
Время: 00:00:58.500
Теги: 12 0091 d en
 

Downtown Seattle Zebra Imaging ZScape 3D Holographic Print

www.zebraimaging.com 512.600.6523 This is a color hologram we created with data from Google Sketchup. The model is of downtown Seattle. The building heights in this hologram get up to about 10 inches.
Категория: Science & Technology
Время: 00:00:50.250
Теги: Hologram Color Hologram Google Sketchup City Planning Site Planning 3D color 3d
 
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