Kush Kumar Sharma
Praktikum, Master thesis, Fraunhofer-Institut für Kurzzeitdynamik, Ernst-Mach-Institut, EMI
Über mich
Highly skilled and results-oriented space technology professional with expertise in research and development, space debris mitigation, and space system engineering. Proficient in technical tools such as CATIA V5, SolidWorks, MATLAB, and AGI STK, with extensive experience in image processing, computer vision, and software development. Strong academic background with a Master of Science in Satellite technology and Space Studies, complemented by hands-on research and internship experience. Published author in reputable conferences and recognized for academic excellence and achievements. Detail-oriented, excellent communicator, and a proactive team player. Committed to advancing space technology and making valuable contributions to the field of space exploration and research.
Werdegang
Berufserfahrung von Kush Kumar Sharma
Bis heute 1 Jahr und 1 Monat, seit Juni 2023
Master thesis
Fraunhofer-Institut für Kurzzeitdynamik, Ernst-Mach-Institut, EMI1 Jahr und 3 Monate, März 2022 - Mai 2023
Studentische Hilfskraft
Fraunhofer-Institut für Kurzzeitdynamik, Ernst-Mach-Institut, EMI1.Tested image segmentation using watershed algorithm for the international nuclear fusion research and engineering megaproject ITER. 2.Studied the fundamentals of hypervelocity impact testing (HVI) experiments. 3.Carried out debugging of the existing fragment tracking code to be suitable for motion tracking of fragments from CFRP honeycomb panel. 4.Performed image processing and fragment tracking using OpenCV in MATLAB to validate numerical simulation of HVI testing experiments for space debris research.
6 Monate, Juli 2020 - Dez. 2020
Research Intern
DLR - Deutsches Zentrum für Luft- und Raumfahrt e.V. (TP)
1. Researched and summarized key findings about laser-based space debris removal. 2. Carried out experiments under supervision, developing skills and technique to operate independently. 3. Performed camera calibration for multi view triangulation. 4. Implemented motion tracking and object detection algorithm using OpenCV in Python. 5. Developed 3-Dimension motion tracker software to predict sample trajectory during laser-matter interaction experiments for feasibility of laser-based space debris removal.
2 Monate, Juli 2018 - Aug. 2018
Research Intern
SOLAR OBSERVATORY, PHYSICAL RESEARCH LABORATORY
1. Analyzed experimental data and interpreted results to write reports and summaries of findings. 2. Performed analysis of solar radio flux data obtained from Learmonth Observatory, Australia to study the periodicity in the monthly average flux at 8 distinct frequencies. 3. Studied the correlation of sunspot number and sunspot area with monthly average flux values to observe the relation between the origin of radio Üux and solar activity.
Ausbildung von Kush Kumar Sharma
Bis heute 2 Jahre und 9 Monate, seit Okt. 2021
MSc. in Satellite Technology - Advance Space Systems
Julius-Maximilians-Universität Würzburg
Relevant Coursework: Spacecraft System Analysis; Satellite Formations; Space Dynamics; Control Engineering; Robotics; Remote Sensing; Telecommunication.
1 Jahr und 4 Monate, Sep. 2019 - Dez. 2020
Master of Science in Space Studies
International Space University
Relevant Coursework: Space Policy; Economics; Law and Management; Space Sciences; Space Engineering and Space Application. Thesis at German Aerospace Center (DLR): “Development of motion tracker for space debris research” • Implemented and developed computer vision software to detect and track space debris samples in 3D space used in laser-based space debris removal experiments. • Published: https://elib.dlr.de/139504/
4 Jahre und 7 Monate, Mai 2015 - Nov. 2019
Bachelor of Technology in Aerospace Engineering
University of Petroleum and Energy Studies
Relevant Coursework: Thermodynamics; Fluid Mechanics; Flight Mechanics; Aerodynamics; Propulsion; Space Science and Space Environment Exchange Semester: COVENTRY UNIVERSITY (United Kingdom) Bachelor of Engineering in Aerospace Technology Thesis: “Development of space debris removal mechanism using eddy currents” • Conducted feasibility study of using eddy current-based mechanism as active debris removal method targeting 1 – 10 cm sized space debris.
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Englisch
Fließend
Deutsch
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