Roche
Vice President of Software at Genia, Roche Sequencing
Roche Diagnostic Corp Apr 2012 - Jun 2015
Vice President, Imaging and Software
Ventana Medical Systems Jan 2011 - Mar 2012
Senior Director, Imaging and Software - Digital Pathology
Bioimagene Jul 2007 - Dec 2010
Chief Technology Officer
Aginova Aug 2005 - Jul 2007
Co-Founder and Chief Technology Officer
Education:
The University of Texas at Austin 1986 - 1993
Master of Science, Doctorates, Masters, Doctor of Philosophy, Computer Engineering
Indian Institute of Technology, Bombay 1982 - 1986
Bachelors, Bachelor of Technology, Electrical Engineering
Kendriya Vidyalaya
Skills:
Algorithms Image Analysis Image Processing Digital Imaging R&D Product Development Distributed Systems Management Software Development Software Design Machine Learning Start Ups Computer Vision Software Engineering System Architecture Signal Processing Pattern Recognition Enterprise Software Research C++ Product Management Data Mining Medical Devices Computer Science Biomedical Engineering Medical Imaging Research and Development
Languages:
English Hindi Oriya
Us Patents
Method For Determining Behavior Of An Information System To Control Its Ability To Deliver A User's Quality Of Service
Moises Goldszmidt - Foster City CA, US Bikash Sabata - Menlo Park CA, US Derek Palma - Union City CA, US Amitava Raha - San Jose CA, US
Assignee:
Entrust, Inc. - Addison TX
International Classification:
G06F 15/173 G06F 15/16
US Classification:
709226, 709232
Abstract:
A method of determining behavior of an information system application is provided. The information system application's behavior for user content requests and load conditions is determined as is a user's quality of service objectives. The information system application's capacity allocation is then prioritized. Changes in the information system application's behavior are detected. The behavior of the information system applications is then updated in response to detecting changes that affect the user's quality of service objectives.
Method Of Defining A Required Information System Capacity As A Function Of A User's Quality Of Service Objectives
Moises Goldszmidt - Foster City CA, US Bikash Sabata - Menlo Park CA, US Derek Palma - Union City CA, US Amitava Raha - San Jose CA, US
Assignee:
Entrust, Inc. - Ottawa, Ontario
International Classification:
G06F 15/16 G06F 15/173
US Classification:
709224, 709226
Abstract:
A method is provided for defining a required information delivery system capacity as a function of a user's service quality objectives. An information delivery system behavior is modeled to understand under what conditions the user's service quality objectives are met or not met. Conditions are captured in which the user's service quality objectives are met or not met. Statistical techniques are applied to the conditions captured. A model is induced that describes the conditions in which the user's service quality objectives are met or not met.
Method For Grouping Content Requests By Behaviors That Relate To An Information System's Ability To Deliver Specific Service Quality Objectives
Moises Goldszmidt - Foster City CA, US Bikash Sabata - Menlo Park CA, US Derek Palma - Union City CA, US Amitava Raha - San Jose CA, US
Assignee:
Entrust, Inc. - Ottawa, ON
International Classification:
G06F 15/173 G06F 15/16
US Classification:
709229, 709228, 709224
Abstract:
A method of grouping content requests by one or more behaviors is provided. Each content request is labeled. Sessions for various user and service types are defined. The sessions are then modeled to create representative sessions. Each session is then matched with one or more representative sessions.
Digital Microscope Slide Scanning System And Methods
Lokesh Tatke - Sunnyvale CA, US Suraj Somwanshi - Cupertino CA, US Bikash Sabata - Beverly Hills CA, US Ronald L. Allen - San Jose CA, US Suhas Patil - Pune, IN Sujit Chivate - Pune, IN
Assignee:
Ventana Medical Systems, Inc. - Tucson AZ
International Classification:
G06K 9/36
US Classification:
382284, 382128, 382133
Abstract:
Provided herein are systems methods including a design of a microscope slide scanner for digital pathology applications which provides high quality images and automated batch-mode operation at low cost. The instrument architecture is advantageously based on a convergence of high performance, yet low cost, computing technologies, interfaces and software standards to enable high quality digital microscopy at very low cost. Also provided is a method based in part on a stitching method that allows for dividing an image into a number of overlapping tiles and reconstituting the image with a magnification without substantial loss of accuracy. A scanner is employed in capturing snapshot images. The method allows for overlapping images captured in consecutive snapshots.
Digital Microscope Slide Scanning System And Methods
Lokesh Tatke - Sunnyvale CA, US Suraj Somwanshi - Cupertino CA, US Bikash Sabata - Beverly Hills CA, US Ronald L. Allen - San Jose CA, US Suhas Patil - Pune, IN Sujit Chivate - Pune, IN
Assignee:
Ventana Medical Systems, Inc. - Tucson AZ
International Classification:
G06K 9/36
US Classification:
382284, 382128, 382133, 422 63, 436 46
Abstract:
Provided herein are systems methods including a design of a microscope slide scanner for digital pathology applications which provides high quality images and automated batch-mode operation at low cost. The instrument architecture is advantageously based on a convergence of high performance, yet low cost, computing technologies, interfaces and software standards to enable high quality digital microscopy at very low cost. Also provided is a method based in part on a stitching method that allows for dividing an image into a number of overlapping tiles and reconstituting the image with a magnification without substantial loss of accuracy. A scanner is employed in capturing snapshot images. The method allows for overlapping images captured in consecutive snapshots.
Mapping And Detection Of Pipelines Using Low Power Wireless Sensor Network
Ashok Sabata - Freehold NJ, US Bikash Sabata - Philadelphia PA, US
International Classification:
G08B 21/00 G08B 13/14 G01V 3/08
US Classification:
340686500, 340572100, 324326000
Abstract:
A wireless sensor network will be used to detect the location of subsurface infrastructures such as a pipeline. The objective is to alert the infrastructure operator and the construction equipment operator of the threat of damage to the infrastructure. Currently the equipment operator has to depend on the color marks made by the locater sent by the One-Call center. The low cost wireless sensor network will alert the operator when the machine tool gets close to an existing utility. A combination of radio frequency signal, ultrasonic pulse, and acoustic signals is used to determine the infrastructure location. A sensor network is then used to map the infrastructure location with respect to the construction equipment operator and provide a reliable, accurate system to alert the operator of the potential danger.
Digital Microscope Slide Scanning System And Methods
Lou Dietz - Mountain View CA, US Kurt Kuhlmann - San Jose CA, US Lokesh Tatke - Sunnyvale CA, US Suraj Somwanshi - Cupertino CA, US Christopher Todd - San Jose CA, US Glenn Stark - Scotts Valley CA, US Barry Rodriguez - San Jose CA, US Gregory Loney - Los Altos CA, US Bikash Sabata - Beverly Hills CA, US Ronald L. Allen - San Jose CA, US Suhas Patil - Pune, IN Sujit Chivate - Pune, IN Prashanth Ravindran - Pune, IN Sanford Barsky - Columbus OH, US
Assignee:
BIOIMAGENE, INC. - Cupertino CA
International Classification:
G06K 9/36
US Classification:
382284
Abstract:
Provided herein are systems methods including a design of a microscope slide scanner for digital pathology applications which provides high quality images and automated batch-mode operation at low cost. The instrument architecture is advantageously based on a convergence of high performance, yet low cost, computing technologies, interfaces and software standards to enable high quality digital microscopy at very low cost. Also provided is a method based in part on a stitching method that allows for dividing an image into a number of overlapping tiles and reconstituting the image with a magnification without substantial loss of accuracy. A scanner is employed in capturing snapshot images. The method allows for overlapping images captured in consecutive snapshots.
Vehicles As Nodes Of Wireless Sensor Networks For Information Collection & Prognostication
Ashok Sabata - Freehold NJ, US Bikash Sabata - Beverly Hills CA, US Reshad Moussa - Lausanne, CH
International Classification:
H04M 1/00
US Classification:
4554566
Abstract:
A system and method are provided that use mobile sensor nodes for monitoring of mobile assets and one or more mobile sensor nodes have mobility that is unpredictable to a wireless network. The mobile sensor nodes collect data with the goal of monitoring the environment including weather and pollution, biological and chemical agents for security application and traffic application. The mobile sensors form local groups opportunistically to coordinate measurements and other actions. The collected sensor data will be stored locally with global positioning system (GPS) data and the time of data collected. The information can be transmitted to a remote computer opportunistically using a low cost method such as WiFi or the cell phone network. The information will be aggregated to provide environmental maps, traffic maps and maps to first responders in the event of biological nuclear or chemical calamity.