Amitabh Varshney

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Amitabh Varshney
Amitabh Varshney (cropped).jpg
Amitabh Varshney in 2021
Bornc. 1967
Alma materIndian Institute of Technology, Delhi
University of North Carolina, Chapel Hill
OccupationComputer scientist, professor
Known forComputer graphics research
Dean of the College of Computer, mathematical and natural Sciences
PredecessorJayanth Banavar
Websitewww.cs.umd.edu/~varshney/

Amitabh Varshney is an Indian-born American computer scientist. He is an IEEE fellow, and serves as Dean of the University of Maryland College of Computer, Mathematical, and Natural Sciences.[1] Before being named Dean, Varshney was the director of the University of Maryland Institute for Advanced Computer Studies (UMIACS) from 2010 to 2018.[2]

Education and academic career[edit]

Amitabh Varshney attended school at St Gabriel's Academy, Roorkee in Uttarakhand, India. Varshney went on to attend Indian Institute of Technology, Delhi, graduating with a B.Tech in Computer Science & Engineering in 1989. He continued his education at the University of North Carolina, Chapel Hill, earning an M.S. in Computer Science in 1991, and a Ph.D. in Computer Science in 1994. Varshney worked as an assistant professor of Computer Science at Stony Brook University from 1994 to 2000. In 2000, Varshney began working as a professor of Computer Science at the University of Maryland, College Park, where he still works.[citation needed]

Research[edit]

Varshney's research pertains to the applications of computer graphics and visualization in engineering, science, and medicine via developments in mesh processing, shading algorithms, perceptual image synthesis, and high-performance visual computing. His findings have been used in a variety of fields including pharmacology, meteorology, plasma physics, nanomanufacturing, medical imaging, and genealogy.[3] Varshney is most renowned for his many studies on level of detail.[4]

Smooth molecular surfaces[edit]

In their 1994 report, Varshney, Fred Brooks, and William Wright detail their advances in graphically modeling molecular surfaces:

We have developed an algorithm for efficiently computing a smooth molecular surface. Our algorithm parallelizes easily and scales linearly with the number of atoms in a molecule ... Our algorithm provides an order of magnitude improvement over the previous best known algorithms for molecules with moderately large numbers of atoms-on the order of a few thousands or morein both sequential and parallel implementations.[5]

Dynamic simplification for polygonal models[edit]

In 1996, Varshney published an algorithm for real-time simplifications of polygons in a 3-dimensional model:

A continuous level-of-detail representation for an object is first constructed off-line. This representation is then used at run-time to guide the selection of appropriate triangles for display. The list of displayed triangles is updated incrementally from one frame to the next. Our approach is more effective than the current level-of-detail-based rendering approaches for most scientific visualization applications where there are a limited number of highly complex objects that stay relatively close to the viewer.[6]

Optimizing triangle strips[edit]

Also in 1996, Varshney published "Optimizing Triangle Strips for Fast Rendering". The study introduced new algorithms for rendering triangle strips in conjuncture with partially triangulated models. Describing their more efficient triangle strip algorithm, Varshney et al. write:

By using triangle strips ... , we can describe the triangulation using the strip ... and assuming the convention that the ith triangle is described by the ith, (i + 1)st, and (i + 2)nd vertices of the sequential strip. Such a sequential strip can reduce the cost to transmit n triangles from 3n to n + 2 verticies.[7]

Simplification envelopes[edit]

Varshney proposed the idea of simplification envelopes as a method of simultaneously preserving both global and local topology. A surface's envelope is a shell-like structure consisting of a pair of surfaces a distance ε on either side of the original surface.[8] Each surface has its own level of detail, often referred to as the 'hierarchy of LOD'.[9] Many consider the main drawback of simplification envelopes to be that the algorithms for their calculation are difficult to program.[10]

Level of detail for 3D graphics[edit]

In 2002, Varshney published the first edition of "Level of Detail for 3D Graphics". The book details several principles for optimizing 3D rendering including:

  • The use of multiple discrete levels of detail (LODs) in lieu of a single view-dependent LOD
  • Topology-preserving and topology-sensitive simplification algorithms to maximize fidelity
  • The use of multiple LODs in multiple instantiations in gaming consoles and other constant frame-rate systems
  • Double buffering, frame locking, and frame-latency manipulation to eliminate tearing and maximize temporal control[11]

The Augmentarium[edit]

Varshney serves as director of the Augmentarium Virtual and Augmented Reality Laboratory at the University of Maryland.[12] He oversees research projects developing applications of virtual reality for atmospheric and oceanic sciences, astronomy, stem cell research, fluid dynamics simulations, surgical training, cybersecurity, and data visualization.[13]

Awards[edit]

References[edit]

  1. "Study Finds Virtual Reality Leads to Better Recall, Memory - Electronics360". electronics360.globalspec.com.
  2. abbyr (24 January 2018). "Amitabh Varshney Named Dean of the College of Computer, Mathematical, and Natural Sciences at UMD".
  3. "Amitabh Varshney - UMIACS". www.umiacs.umd.edu.
  4. Luebke, David P. (5 August 2018). Level of Detail for 3D Graphics. Morgan Kaufmann. ISBN 9781558608382 – via Google Books.
  5. "Computing smooth molecular surfaces - IEEE Journals & Magazine". doi:10.1109/38.310720. S2CID 16938760. {{cite journal}}: Cite journal requires |journal= (help)
  6. [1][dead link]
  7. "Optimizing triangle strips for fast rendering - IEEE Conference Publication". doi:10.1109/VISUAL.1996.568125. S2CID 11305302. {{cite journal}}: Cite journal requires |journal= (help)
  8. "Envelopes" (PDF). gamma.cs.unc.edu.
  9. "Course notes" (PDF). webdocs.cs.ualberta.ca.
  10. "Simplification Algorithms". old.cescg.org.
  11. Luebke, David P. (5 August 2018). Level of Detail for 3D Graphics. Morgan Kaufmann. ISBN 9781558608382 – via Google Books.
  12. "People".
  13. "Visualizing Big Data". 9 October 2015.
  14. "Amitabh Varshney - CBCB". www.cbcb.umd.edu.
  15. "Fiver minutes with Varshney". www.bizjournals.com. 2017.
  16. "ieee meritorious award, amitabh varshney, 2012 - vgtc.org". vgtc.org.
  17. Staff, Daily Record (24 January 2018). "Amitabh Varshney - University of Md".
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