The ASME Student Mechanism and Robot Design Competition is an excellent opportunity for both undergraduate and graduate students to showcase their talents and abilities in front of respected world-renowned experts in mechanism design from academia and industry. Submissions are judged on the basis of creativity, practicality, integrity of analysis and design methodology, and quality of a fabricated prototype and a final report.
The scopes of the “mechanism” and “robot” for the purposes of this contest are rather broad.
For this competition, a “mechanism” is defined as:
"Any device that transmits a force or a motion to perform a mechanical task. It may consist of rigid or deformable bodies connected with kinematic or flexural joints. It may be constructed of any type of materials, including smart and other active materials. It may be actuated by means of any transduction principle and employ any form of energy input. The size of the device can range from the nano-scale to macro-scale."
For this competition, a “robot” is defined as:
"An electro-mechanical system which, by its appearance or movements, conveys a sense that it has intent or agency of its own. A robot should be able to do some or all of the following: move around, operate a mechanical linkage, sense and manipulate their environment, and exhibit intelligent behavior, such as behavior that mimics humans or other animals. The size of a robot can range from the nano-scale to macro-scale."
Baja RC Car Designed for the 2011 ASME Student Design Conference
The Washington State Department of Labor and Industries recently awarded a $113,000 Safety and HealDean's Scholars
Joshua Yoder of Ellensburg, a Mechanical Engineering Technology grad and Andrew Coward, an ElectroniSOURCE 2014 AWARDS
CONSTRUCTED OBJECTS BEST PRESENTATION AWARDS SolarDraft Solar Air HeaterDickson, Jeremy; Budnick, Sa