PDF Archive search engine
Last database update: 28 July at 22:00 - Around 76000 files indexed.
California High-Speed Rail and Hyperloop XXXXXXX XXXXXXXX XXXXXXXXXXXXXXXXXXXXXXX 18 December 2015 XXXXX 2 Cover images credits:
Connor Catterall, Ben Cooper, Nicole Garcia, George Kemp, Chandler Lacy, John Spinelli, Mark Urban, and Susan Waruinge 12/3/2015 ABSTRACT In the summer of 2015, Team HyperLynx was one of over three hundred collegiate teams to initially enter the SpaceX Hyperloop pod competition.
TEAM HYPERLYNX Connor Catterall, Ben Cooper, Nicole Garcia, George Kemp, Chandler Lacy, John Spinelli, Mark Urban, and Susan Waruinge October 9th 2015 Pod Components Mass Flow Compressor Controls Air Bearings Linear Induction Motor Brakes Frame Discussion Summary/Conclusions Recommendations What is a Hyperloop?
OVERVIEW Team Hyperlynx will design, fabricate, and assemble a pod to win the wheeled vehicle category of the SpaceX Hyperloop Competition.
Mechanical Engineering 5/16 school • Competing in the SpaceX Hyperloop Pod Competition (senior design project) o Currently prototyping a pod for Elon Musk's Hyperloop concept in which pressurized pods will travel through reduced-pressure tubes at high speeds o Member of one of 22 student teams to advance to the final stage of the competition (115 teams total) o Designed and manufactured a lateral stability system for the rail-guided pod o Created a fiberglass layup of an aerodynamic body shape o Collaborated with industry professionals including SpaceX advisors to make and improve design decisions • Practiced problem-solving skills:
Hyperloop XXXXXXX| XXXXXXXX December 1, 2015 AGENDA Briefing of Alternatives Alternatives Comparison Recommendations (Image:
Mechanical Engineering 5/16 University of • Competing in the SpaceX Hyperloop Pod Competition in which pods will travel through reduced-pressure tubes at high speeds (senior design project) o Member of one of 22 student teams to advance to the final stage of the competition (115 teams total) o Utilized thermodynamic principles combined with analytical and numerical methods to determine the speed at which choked flow of air will occur in the tube o Designed and manufactured a lateral stability system for the rail-guided pod o Created a fiberglass layup of an aerodynamic body shape o Modeled the heat generation of disc brake rotors by using transient analysis techniques • Practiced problem-solving skills:
ABILITIES Expert in automation, as demonstrated through work and academic history Proven full stack developer with experience across full development cycles Experienced embedded system developer for control systems and robotics Team lead for mechatronic projects with outstanding results Capable in financial modeling and actively enhancing these skills PROFESSIONAL FOUNDER, CODE OF LAW EXPERIENCE Code of Law is a digital service that helps law firms improve onboarding times May 2015-August 2015, September 2016 - Current Developing a machine learning algorithm that allows inexperienced lawyers to produce the same quality of work as their senior coworkers Architecting a full stack system to generate contracts for law firms Performing financial modeling to establish viability and pricing SOFTWARE DEVELOPER, CELLBIE Cellbie is a platform that supports buying, selling, and servicing of used smartphones June 2016 – September 2016 Built a data analytics engine to amalgamate user data and track growth Worked unsupervised to design a system that could be used both internally and externally to evaluate sales and produce time series data Automated monthly reporting process SOFTWARE DEVELOPER, CHRISTIE DIGITAL SYSTEMS INC Christie Digital is the market leader for digital projection systems September 2014 – April 2015 Worked with a team to produce Twist, a product which automatically adjusts image projection based on the contours of the projection surface Developed computer vision algorithm to improve system accuracy by 20 times Mentored students to help onboard them and improve the quality of their work EDUCATION UNIVERSITY OF WATERLOO Bachelor of Applied Science in Mechatronics Engineering RELEVANT COURSES AND PROJECTS Control systems lead for the Waterloo Hyperloop team, Waterloop Studied autonomous mobile robotics, gaining hands on experience with SLAM, EKF’s, particle filters, and pathfinding algorithms Embedded and electrical system lead for autonomous robotics obstacle challenge Team lead for design project, producing a precise 6 axis control system
Team Éirloop Report HYPERLOOP POD COMPETITION Power Systems Overview Revised by Karl Ussher 25.05.2018 Contents OVERVIEW OF BRIEF 3 SCHEMATIC DIAGRAMS 4 BRAKING SCHEMATIC COMPONENTS 5 6 OEM SPECIFICATIONS AND RATING Power Supply: