MOHAMED BETERSH
SKILLS
Hardworking, motivated and determined; mechanically inclined and capable of adapting to new situations
Excellent presentation and communication skills developed through academic projects and customer service experience
Leadership skills developed through numerous academic projects
Highly skilled with researching, analyzing and creating technical data and reports through 50+ reports
Proven ability to identify problem causes and design solutions
Microsoft Windows and Microsoft Office Suite (Word, Excel, and PowerPoint)
Proficient with technical programs such as MATLAB, CATIA V5R21 (Simulation and Finite Element Analysis), AVL BOOST (1-D engine system thermo-fluid analysis)
Able to use CATIA V5R21 to design and test 3D models under different directional stresses, and pinpoint the areas where the largest stresses occur
Trained in PLC programming and troubleshooting
Trained in programming Fanuc robots
WORK
HISTORY
PROJECT ENGINEER, PERCEPTRON, PLYMOUTH MI SEP. 2019 – FEB.2020
Dispatched to customer location to set up Perceptron laser metrology systems
Set up, aim and program laser cameras using Perceptron’s Vector program
Capture data using different programmed algorithms for various points of interest ( pins, holes, slots)
Program Robots to carry laser cameras around car frame/body to capture customer specified points of interest
Test and run Perceptron system and ensure customer satisfaction is met
COMMISSIONING CONTROLS ENGINEER, FEV NORTH AMERICA, AUBURN HILLS MI AUG. 2019 – SEP.2019
Studied the schematics (electric, pneumatic and hydraulic ) of 3, 30 megawatt engine test cells to familiarize self with test cell layout
Maintained steady operation of test cells by ensuring steady flow of cool and hot water through system, making sure exhaust fans are working properly and maintaining steady temperature in the cells and in the engines being tested
Worked with engine test operators to ensure engine was mounted properly in the cell
Collected data from the engine during and after test to ensure the test cell is operating to customer satisfaction
EDUCATION
BACHELOR OF APPLIED SCIENCE IN MECHANICAL ENGINEERING, (BASc.) SEP.2013 – AUG.2017
UNIVERSITY OF WINDSOR, WINDSOR ON
SIEMENS MECHATRONICS SYSTEMS CERTIFICATION PROGRAM MAY.2018 – JULY.2018
UNIVERSITY OF WINDSOR, WINDSOR ON
Focused on key industrial skill areas such as electrical components, sensors, motor controls, PLCs, as well as hydraulics and pneumatics
Trained in troubleshooting and system-based technical thinking via hands-on training
Trained to debug, maintain and operate mechatronics systems
Programmed various automation machines via the TIA (Totally Integrated Automation) Portal
Programmed machines using the Siemens SEMATIC 1500 and 1200 series controller
PYTHON PROGRAMMING MAY.2018 – JULY.2018
UNIVERSITY OF MICHIGAN, ANN ARBOR (COURSERA)
Gained the introductory skills to programming using Python
FANUC HANDLING TOOL OPERATIONS AND PROGRAMMING OCT.2019 – OCT.2019
FANUC, ROCHESTER HILLS
Gained the skills to program and operate Fanuc robots
LEARN TO PROGRAM: THE FUNDAMENTALS FEB.2020–JULY.2020
UNIVERSITY OF TORONTO (COURSERA)
Advanced my knowledge in Python programming
GOOGLE IT SUPPORT SEP.2020–CURRENT
COURSERA
ACADEMIC
PROJECTS
CAPSTONE DESIGN PROJECT, MEMBRANE ABSORPTION HEAT PUMP SEP. 2016 – AUG. 2017
Led a team of 5 students by arranging meetings, clarifying and providing individual and group tasks, setting timelines and facilitating the collaboration of my team with professors, colleagues, and advisors
Collaborated with a team of engineers at Sterlitech Corporation in Washington USA
Collaborated with 3 Master’s students and 2 Ph.D. students to research 3 design solutions
Developed and tested mathematical models, seeking optimum results
Used Catia V5R21 to design membrane model for illustrationpurposes
Registered with the American Society of Heating, Refrigerating and Air-conditioning Engineers (ASHRAE) to access knowledgeable members for help and advice and to seek sponsorship
Presented the project at a North America ASHRAE event
Implemented the engineering design process to formulate our final result
DIESEL ENGINE IN-CYLINDER PRESSURE ANALYSIS MAY. 2017 – AUG. 2017
Collaborated with a team of 11 students to collect and analyze data from different operation points of a single cylinder diesel engine
Used collected data to sketch and find, engine test diagram, volume, intake boost correction (in-cylinder pressure pegging), TDC correction, P-Q diagram of firing condition, P-V diagram of firing condition, IMEP, BMEP and mechanical efficiency
1D MODELING OF A 5 CYLINDER ENGINE JAN. 2017 – APRIL. 2017
Led a team of 4 students to research and design a 1D model of a 5 cylinder engine that would be used on a race track
Researched aspects of the engine such as engine speed, firing order and angle, cylinder connecting rod length and bore size, A/F ratio, to maximize torque and horsepower while maintaining efficiency
Designed final model through AVL BOOST (engine cycle and gas exchange simulation software)
REFERENCES
Jacob Schmader – Field Implementation manager Dia ElKott – Software Engineer
Perceptron Perceptron
734-***-**** adj4jn@r.postjobfree.com