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Striker Air Hockey
As creative director and principal artist, I worked on this custom hardware project that was featured in the 2018 ALT.CTRL.GDC exhibit. This video features a quick peek into the project and exhibition.
Puck Designs
A number of pucks were created to add variety to game play. Each puck has a attribute such as a self-destucting countdown, weighted ball and chain, or internal counterweights creating unpredictable movement.
Hand Sliders
Players physically touch the game surface. These indicators encourage this interaction and direct the player which direction to slide their hands.
Various Assets
The air hockey paddles, or strikers, for each player are shown here in pink and teal respectively. The grey objects are barriers and saw blades for additional gameplay variety. The bracket shapes are the walls of the game play area.
Rule Cards
Rule cards are displayed on the table before each round. These cards offer a brief description of the gameplay mode and are dismissed when the player places a hand on the indicated location.
Exhibit Stills
Stills from exhibiting at alt.ctrl.GDC 2018 at the Moscone Center in San Francisco, CA.
Exhibit Stills
Stills from exhibiting at alt.ctrl.GDC 2018 at the Moscone Center in San Francisco, CA.
Exhibit Stills
Stills from exhibiting at alt.ctrl.GDC 2018 at the Moscone Center in San Francisco, CA.
Exhibit Stills
Stills from exhibiting at alt.ctrl.GDC 2018 at the Moscone Center in San Francisco, CA.
Exhibit Stills
Stills from exhibiting at alt.ctrl.GDC 2018 at the Moscone Center in San Francisco, CA.
R & D
Research and development stills of our custom capacitive touch grid sensors. Using Arduino and a grid of copper tape, we developed a low fidelity touchscreen surface capable of detecting both discreet touches and swiping motions.
R & D
Research and development stills of our custom capacitive touch grid sensors. Using Arduino and a grid of copper tape, we developed a low fidelity touchscreen surface capable of detecting both discreet touches and swiping motions.
R & D
Research and development stills of our custom capacitive touch grid sensors. Using Arduino and a grid of copper tape, we developed a low fidelity touchscreen surface capable of detecting both discreet touches and swiping motions.
R & D
Research and development stills of our custom capacitive touch grid sensors. Using Arduino and a grid of copper tape, we developed a low fidelity touchscreen surface capable of detecting both discreet touches and swiping motions.
R & D
Research and development stills of our custom capacitive touch grid sensors. Using Arduino and a grid of copper tape, we developed a low fidelity touchscreen surface capable of detecting both discreet touches and swiping motions.
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