Building a Musical Robot: Robots and Music Education
Description
For my creative project, I built a musical robot and explored the possibilities for robots in music education. In addition, I wrote a guide to share what I learned and to provide helpful information to anyone who is planning on building their own musical robot. This is not a step-by-step set of instructions; however, it gives the reader a preview of many options they have for building a musical robot. This guide includes information about existing musical robots, outlines possible strategies for brainstorming ideas, and describes various capabilities of musical robots. While this project focused on the intersection of music and robotics, my approach also included design thinking, which helped provide a focus and shaped my creative process.
The robot building guide is targeted toward an audience with little or no knowledge of robotics. It begins by exploring existing musical robots and explaining how existing products can be used as a source for inspiration. Next, this guide outlines various methods of design thinking and encourages the reader to use design thinking throughout the brainstorming and building process. This guide also highlights options for designing 3D-printed parts, which can be added to a robot. After that, the guide explains options for robot movement, specifically chassis kit assembly and using a 1Sheeld board with Arduino. This guide also explores the possibilities for the interaction of lights and sound, including sound-reactive lights and remote-control lights. Practical information about materials and their organization is provided, as well. The guide concludes with exciting possibilities for robots in music education.
The robot building guide is targeted toward an audience with little or no knowledge of robotics. It begins by exploring existing musical robots and explaining how existing products can be used as a source for inspiration. Next, this guide outlines various methods of design thinking and encourages the reader to use design thinking throughout the brainstorming and building process. This guide also highlights options for designing 3D-printed parts, which can be added to a robot. After that, the guide explains options for robot movement, specifically chassis kit assembly and using a 1Sheeld board with Arduino. This guide also explores the possibilities for the interaction of lights and sound, including sound-reactive lights and remote-control lights. Practical information about materials and their organization is provided, as well. The guide concludes with exciting possibilities for robots in music education.
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
2020-05
Agent
- Author (aut): Demassa, Katelyn Debra
- Thesis director: Tobias, Dr. Evan
- Committee member: Bacalzo, Dean
- Contributor (ctb): School of Music
- Contributor (ctb): Barrett, The Honors College