Circuit Shorts

Wearables
We will be demonstrating art and design made from electronics and sensors. The projects are designed to be worn such as apparel, accessories, or gear.

Schedule

Sat 16 Sat 16 November 2019
Voices
10:00 am
Full Schedule
Circuit Shorts project image
Amy Alderman Maker Picture

Amy Alderman

I am a student at UWF studying Digital Art. My favorite color is #3336FF.

Sean Bush Maker Picture

Sean Bush

I am working towards a Studio Art degree at UWF and I am completely new to working with circuitry. However, I have multiple skills that I enjoy working in including illustration, video editing, and graphic design. I am a huge nerd who loves video games, dancing, and art!

Anastasia Leech Maker Picture

Anastasia Leech

I work with installation, video, and digital multimedia. The effervescence of popular culture and the evolution of adolescence and its accompanying fantasies are associations that revolve around my work.

Alexander Vives Maker Picture

Alexander Vives

Digital Art student at UWF, aspiring animator, and admirer of outdated technologies. My favorite color is Lime Green. My favorite cartoon is Wander Over Yonder. And My favorite outdated electronic is the VHS rewinder.

Rachel Hiers Maker Picture

Rachel Hiers

Rachel Hiers is an artist who creates photographs, time-based media, electronics, projections, and installations. Ultimately, she wants to create alternate views of our world and shift perceptions of reality.

Kevin O

Kevin O'Leary

Kevin O'Leary is an interdisciplinary artist with interests in systems and device design.

Kennedy Reed Maker Picture

Kennedy Reed

I see Art as a tool that bridges verbal gaps in communication and contributes to our global conversations about the human condition. I create artwork by mixing various mediums and disciplines to form cohesive works that will prompt discussions from various perspectives.

Categories: Wearables

More Event Info

See All Wearables Event Schedule See All Makers

More Project Info

https://photos.app.goo.gl/xfbR7UMSEy7sdECS7