WALT

To get Bandbeesten back on its wheels, this project seeks to create an entirly new animal that is lightweight, durable, and moves under its own power.

Team Members

 * Shawn Trimble
 * Amanda White
 * Christian
 * Maddie
 * Robyn
 * Joe Pratt

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Background
The BandBeesten project was started in 2011 by Dr. Edwin Odom, Professor of Mechanical Engineering, and Dr. Daniel Bukvich, Professor of Percussion and Music Theory. The goal of their collaboration was to create a full drum set that could easily be played and moved easily by a single person during marching band performances.

The Fall of 2011 marked the beginning research of ideas for what they called the Beest. This acedemic year was solely an experimentation year; For more in depth design details refer to the Team Drum Roll webpage.

The design team of 2012-2013 made progress with the BandBeesten's design. Dan Mathewson, a UI graduate student, designed a robotic, power driven front wheel to enable the machine received commands through the operator's body movements. This design made it onto the field and more information on this can be found in Dan Mathewson's thesis.

In 2013, the design team started designing a new BandBeesten with a sturdier frame. This design relied only on man-power and did not have any assisting motors. The design used was very strong and could hold a full set of drums with ease. more information about this design can be found at

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Design Specifications

 * Move forward backward, and do 360 degree rotations.
 * Have a forward speed of 2 mph
 * Have a reverse speed of 2/3 mph
 * Complete a 360 degree rotation in under 2 seconds
 * Lightweight/ sturdy design
 * Able to support ~150 lb
 * Be able to stay charged during long performances

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Frame
The first generation of the Bandbeesten was a great proof of concept using lightweight aluminum and incorporated few connecting beam, but the minimalistic approach did have flaws. The frame was weak and would flex whenever the user wanted to perform a maneuver.

In 2013, a solution was found by using a tetrahedron frame. This frame puts every beam within it in either tension or compression, minimizing bending and flexing. Although this frame was very strong, wood was used as a building material making it bulky.

The latest version of the Bandbeesten combines features of previous generations by using a minimalist aluminum design to minimize weight and a tetrahedron shape to maximize strength.

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