Software Engineer Medical

SAMIT DILIPKUMAR DESAI

**** **** *** ****, ******* MD -21076 517-***-****

adcocn@r.postjobfree.com adcocn@r.postjobfree.com LinkedIn EDUCATION:

The George Washington University, Washington, DC MS in Biomedical Engineering May 2014 Courses: Computer Vision and Machine Learning, biomedical signal analysis, digital image processing, medical imaging modalities, anatomy and physiology, imaging optics, rehabilitation engineering, computer fundamentals, computer networks. Visvesvaraya Technological University, Bangalore, India MS in VLSI Design & Embedded Systems Aug 2011 Courses: ASIC, Low-power VLSI, Linear Algebra, CMOS, VLSI architecture. TECHNICAL SKILLS:

Languages & Framework : C#, WPF, XMAL, Expression Blend, Matlab, C, C++, XML, ASP.NET, Entity Framework 6 & Core, MVVM, WIN Forms, PRISM - 6.3, Multithreading, TPL, WCF, Unity IOC. Databases : Microsoft SQL Server

Operating Systems : Windows

IDEs : Visual Studio, Matlab

Library used : DevExpress, Telerik, Leadtools, DCMTK, Dicom Sharp; knowledge of OpenCV and Aforge.NET Software skills : Software design life cycle process. Methodologies : Object oriented design, SOLID principal, Jira, Agile development methodology. Image processing skills : Automatic contrast enhancement, white balance, mosaicking, image segmentation, texture analysis, Classification, feature extraction, background of CT/MRI. WORK EXPERIENCE:

BTE Technology, Hanover, MD Software Team Lead May 2017 – Present

• Manage projects with focus on achieving project goals – cost, deadlines, and functionality, utilize and delegate duties to assigned project resources, lead and train other software engineers, develop applications for medical devices designed for rehabilitation therapy for patients. Duties include code implementation, documenting designs, participating in design reviews, and working with the test team. Supporting, maintaining and documenting software functionality. BTE Technology, Hanover, MD Software Engineer (Senior) Jan 2015 – Apr 2017

• Develop applications for medical devices designed for rehabilitation therapy of patients. Duties include code implementation, documenting designs, participating in design reviews, and working with the test team. Supporting, maintaining and documenting software functionality.

BTE Technology, Hanover, MD (Contractor at Aerotek) Software Engineer Jun 2014 – Dec 2014

• Developing applications for medical devices designed for rehabilitation therapy of patients. Duties include code implementation, documenting designs, participating in design reviews, and working with the test team. Supporting, maintaining and documenting software functionality.

The George Washington University, Washington, DC Research Intern May 2013 – May 2014

• Researching and developing image processing algorithms for medical images to enhance automated and non-invasive diagnostic and prognostic techniques.

i2iTelesolutions, Bangalore, India Software Engineer Aug 2010 - Aug 2012

• Medical data and image processing, telemedicine, standardized image exchange and storage, advanced software and product Development, advanced visualization.

TECHNICAL PROJECTS:

Project15 – EvalTech Jan 2015 – Present

• The EvalTech provides: objective evidence of human physical capabilities, objective information for determining the readiness of an employee to return to work, a quantifiable tracking system for patient progress, objective evidence to employers to identify possible workers compensation abuse based on physical assessment.

• Technologies used WPF, MVVM, C#, Entity Framework Core 2.1(started with 6.1), N-tier architecture, Visual studio 2017. DevExpress Wpf Controls, And DevExpress Reports.

Hardware Communication Library March 2016 –Present

• The Hardware Communication Library is the collection of generic interfaces of various types such as force sensors, heart rate monitor(s), or other measurement sensors. Hardware Communication Library encapsulates implementation of various sensors’ data collection methods and provides a user-friendly interface to the developers for further software development and research at BTE.

• Technologies used C#, Class library, Multi-threading,Visual studio 2017. Project18 – Simulator II Jan 2016 – April 2016

• The Simulator II (SIM II) improves the therapy experience for the patient as well as the therapist. By evaluating and strengthening the muscle capacity for patients in the most reliable way possible. SIM II provides precise data to help therapists make better decisions, provide superior treatment, improve outcomes, and expand services.

• Technologies used WPF, MVVM, C#, Entity Framework 6.3, Composite application architecture, PRISM -6.3, Unity (IOC), Visual studio 2015.

Clinician Tracking Tool Jun 2014 – Dec 2014

• The Clinician Training Tracker (CTT) is a self-contained software application that allows tracking of clinicians, demographic data and training information. The program will create reports of clinicians, training history and suggest training courses that have not been offered yet.

• Technologies used - WPF, C#, WCF, Call-back Services, MVVM Visual studio 2010 Projects at GWU (Machine Learning and Computer Vision based projects) May 2012 – Jun 2014

• Automated Detection of Optic Disk, fovea, And Zone Identification from low contrast retinal Fundus Images.

• Detection and removal of cracks in digitized paintings and registration and classification of paintings in IR, X-ray and visible spectrum.

• Improving visibility and correcting the color shift caused by haze (haze, fog and smoke) in aerial images using dark channel prior and estimation of attenuation.

• Determining and classifying breast tumor by thermography imaging (infrared imaging)

• Technologies used- Mat lab

CLEAR-VIEW, i2iTelesolutions Aug 2010 - Dec 2010

• Developed image processing tools for decision support which contains most basic image processing algorithms and some more sophisticated ones specifically designed for ophthalmology.

• Technologies used - Windows Forms, C#, C++, Visual studio 2010, Image-processing Connect, i2iTelesolutions Jan 2011 – May 2011

• Developed an algorithm for uploading image from a client machine and to store it on PACS server

• Technologies used - Windows Forms, C#, .NET, DICOM, MySQL, custom controls, multi-threading, XML, Visual studio 2010, Designed application architecture

Non-Dicom, i2iTelesolutions Jun 2011 – Dec 2011

• Creating data sets for secondary captured image and generating Dicom file from xml (data set) and bmp image, for ophthalmology

• Technologies used - Dynamic-link library (DLL) C#, Visual studio 2010, DICOM eTraq, Opto circuits and i2iTelesolutions Jan 2012 – Aug 2012

• Application will allow medical practitioners to use a BlackBerry Playbook to remotely access multiple patients’ physiological parameters collected through eTraq Transport Monitors.

• Technologies used - Windows Forms, Web-Services C#, .NET, DICOM, multi-threading and parallel programming, Visual studio 2010, Designed application architecture

PUBLICATIONS:

• Usha, B.S., Desai, S., & Sandhya, S. (2011, December). Performance Analysis of Compression Standards for Telemedicine Applications. Paper presented at the International Conference on Data Engineering and Communication Systems 2011 (ICDECS-2011), Bangalore, India.

• Vinekar, A., Avadhani, K., Mohanachandran, P., Desai, S., Sivakumar, M., Braganza, S., & Shetty, B. (2011). Imaging the image - Analysing retinal images of ROP Using an indigenous patent pending software. Paper presented at the Karnataka State Ophthalmic Society Congress – 2011. (Dr. Ratnakar Mullen Paten Award)

• Desai, S. & Usha,B.S. (2011). Medical image transcoder for telemedicine based on wireless communication devices. 3rd International Conference on Electronics Computer Technology - ICECT 2011, 1, 389-393. (Link to abstract)

• Vinekar, A., Avadhani, K., Mohanachandran, P., Desai, S., Sivakumar, M., Braganza, S., & Shetty, B. (2011). Imaging the image - Analysing retinal images of ROP using an indigenous patent pending software. Paper presented at the VI Asia Pacific Vitreoretina Society Congress in conjunction with the XX Annual Conference of the Vitreoretina Society 2011. (APVRS-VRSI 2011). (Link to abstract)

• Desai, S., Mohanachandran, P., Singh, P. K., Devakumar, L., Kannan, S, & Suveer,A. (2012). Advanced TeleOphthalmology for Blindness Prevention. Second International Conference on Advances in Information Technology and Mobile Communication-AIM2012, 296, 385-389. (Link to abstract)

• Solanki, P., Vinekar, A., Avadhani, K., Mohanachandran, P., Desai, S., Suveer, A., Sivakumar, M., Shetty, R., & Shetty, B. (2012, May). Imaging the image - Enhancing image characteristicso of retinal images of retinopathy of prematurity using an indigenous patent pending software ("RetiView"). Poster presented at the ARVO - Association for Research in Vision and Ophthalmology, Fort Lauderdale, FL. (Link to abstract)

• Kotrick, N. V., & Desai, S. (2010, October). Functional safety management aspects in testing of electronic braking system. Paper presented at the National conference on advances in electrical sciences, NCAES-10, Bangalore, India.

PATENTS:

• “CLEAR VIEW" - Analysing Retinal Images of ROP Using an Indigenous Software. Patent awaited. INDIA – 3258/CHE/2011 and INTERNATIONAL-PCT/IB2012/050647

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