jbumstead
  • Home
  • Projects
  • Photography
  • IN THE NEWS
  • About
PROJECTS
Picture



BUCKY GLOW (2018)
The Bucky Glow is a miniature interactive LED dodecahedron inspired by the giant LED dome I made in 2016. It is a tool for getting started with computer programming and electronics using Arduino.​
Buy a Bucky Glow here!
​Source files here.

Picture


CT & 3D SCANNER  (2018)
I constructed an optical CT scanner using an Arduino Nano and Nikon dSLR that can acquire 3D scans of semi-transparent objects. The scanner also can collect images for 3D scanning small objects through photogrammetry.
​Full instructable here.
Scan archive here.

Picture




​
LED ECLIPSE (2017)
The LED eclipse is an interactive instrument with LEDs, capacitive touch sensors, and a MIDI output all controlled with an Arduino Uno. Full instructable here.

Picture

​
​
SENSORS TUTORIAL (2017)
I made tutorials on some of the most common sensors used for Arduino projects. The tutorials go over some of the pros and cons for using these sensors, and how to use lots of them for big electronics projects. Full instructable here.

Picture

 
LASER SHEET GENERATOR (2017)
Lasers can be used to create incredible visual effects. In this project, I constructed a new type of laser display that is interactive and plays music. The device rotates two lasers to form two vortex-like sheets of light. I included distance sensors in the device so that the laser sheets and music can be manipulated by moving your hand towards them.
Full instructable here.

Picture

SPACE-TIME  CAMERA (2017)
Instead of visualizing the universe as a 2D spatial projection onto a sensor or retina, you can also imagine viewing the universe along the time dimension. With this visualization of the universe, an image has a single space axis and a time axis as opposed to two spatial axes. I created a camera and code for creating space-time images that enable you to visualize multiple moments in time within a single picture.

Picture



INTERACTIVE  LED  DOME (2016)
I created an interactive dome that lights up and plays music when you touch it. Each triangle can play a different note. The dome has also been programmed to play Pong and Simon.

Picture


​
COMPUTATIONAL PHOTO
 (2016)

Projects in computational photography including: 
gradient-domain fusion, texture synthesis and transfer, and video synopsis. Completed through Washington University's CS555 with Dr. Robert Pless.

Picture


​
LASER HARP (2015 - 2016)
I constructed an electronic instrument called a laser harp. Block the laser beam, play the note. The project was funded by Spectra, a student-led optics group at Washington University in Saint Louis.

Picture
​​TOKYO  BALLOON (2013 - 2015 )
Tokyo balloon is a wooden sculpture based on a digital image I took on my trip to Tokyo a few years ago.  The sculpture consists of 4230 dowel rods all cut according to the intensity of each pixel in the image (bright parts of the image correspond to tall dowel rods and dark spots correspond to short dowels).  

This project incorporates image processing, carpentry, and computer programming..  The final dimensions are 82.5 x 123 x 60 cm, and a total length of 76847 cm (almost 1/2 mile!) in dowel rods were used.

Picture

 



MICROSCOPY (2015 - present)
I am constructing a two photon microscope in my lab, as well as some more basic microscopes at home and for science outreach events.  Here is a collection of images created by these microscopes. 

Picture

​

RIBBONS  (2012)
Ribbons is a sculpture constructed out of toothpicks and glue.



Picture


SOLAR  WATER  HEATER  (2011)
During Spring 2011, my friends Jeff and Patrick and I constructed two solar water heaters for the Mascaro Center's Energy Efficient Building Technologies Challenge.  One of them was a conventional design, and the other was constructed out of recycled plastic water bottles.

Picture

​
THEREMIN  (2010)
I constructed an electronic musical instrument known as a theremin during my undergrad at Pitt.  The pitch of the instrument is controlled without physical contact by changing the distance of your hand to the instrument's antenna.  It was constructed in the electronics lab under the supervision of Dr. Everett Ramer.
​© Jon Bumstead 2018
  • Home
  • Projects
  • Photography
  • IN THE NEWS
  • About