Vitaly Grosman

Areas Vitaly Grosman is Knowledgeable in:

Vitaly Grosman's Problem Solving Skills:

1. Professional Problem Solver,Professional Inventor,IP Sourcing
2. Languages:cross & native compilers, C, C++, various assemblers, GLSL OSes: Win, Unix, Linux, embedded OS
3. Hardware: PC, Sun, SGI, Embedded Systems 4,8,16 … bits, GPU, DSP
4. Specialization: Realtime or time critical applications, Image Processing & reconstruction.
5. Specialization:GPGPU, image processing,wide performance optimization,CT recon,3d rendering etc...
6. Other: Fast problem solving, 100% finished tasks and projects, independence.
7. Medical Devices,Medical
8. Electrical Engineering,Computer Science,Mechanical Engineering

Vitaly Grosman's Problem Solving Experience:

1. I developed an innovative catheter and many more medical devices.
2. I developed fastest 3D Dicom viewer in the world (www.unic-vision.com) This viewer offers a superior computer assisted diagnostics (CAD) platform and related components for more accurate and efficient diagnosis and treatment of patients.
3. I developed the first commercial program that is able to create 3D models of textured objects in several minutes, using only a standard computer and webcam.This program (www.Vi3Dim.com) allows anyone with a web-cam to capture a real-world object as a 3D model with the textures already attached.
4. I developed an car infotainment system.
   (Generic) minimal hardware configuration system based on mini- PC computer (mini-itx) and Open Source OS (Linux) with wireless connection and applications for usage in vehicles.
5. I developed an Adaptive filter and device for noise reduction in medical images.
   The method of adaptive noise reduction is applied to 3D volume and the whole processing is performed in 3D image space.
   The method of adaptive noise reduction is combined with fast implementation based on GPU parallel processing capabilities.
   This combination allows to provide a fast processing of high resolution medical images with average speed of 10 –100 images per second.
6. I developed an innovative vascular anastomotic devices that providing suture-less anastomosis of large blood vessels for laparascopic and open surgery