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Interests & Keywords: 3D Imaging | Arduino | Visual Art

Quick Fruit Ninja with Medically Scanned Fruits

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March 2020 | @UCSB

The idea of making fruit ninja with medically scanned fruits and the scans were given by Dr. Bruce Daniel. Here's a quick fruit ninja I made with the scans. There definitely could be some improvements.

3D Image Reconstruction with Neural Networks and Continuity Correction

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Apr 2019-Jun 2019 | CS 291A: Computer Imaging @UCSB

"3D Image Reconstruction with Neural Networks and Continuity Correction" was implemented based on Michael Melesse's thesis, "3D Reconstruction with Neural Networks", which is a Tensorflow reimplementation of Chris Choy's 3D-R2N2. This project was done in a group of three as a final project in CS 291A: Computer Imaging. I added the continuity correction, which updates voxels' probabilities corresponding to surrounding voxels' probabilities, to the network, and it sped up the process and increased accuracy for most models.

Dimensions

Apr 2018-Jun 2018 | CMPTGCS 130H: Video Game Design & Implementation @UCSB

Five levels of "Dimensions", a platform, puzzle game, were made as a final group project in Computer Science 130H: Video Game Design and Implementation where the player can continue to the next level only when the platforms are stepped on in the right order, in a group of three. I worked on the art files but this is under the 'Coding' tab for now as it was done in a CS class. Project was done in Unity and was showcased at Digital Art and Humanities Commons. 

Tower Demo

TowerDemo

Apr 2018-Jun 2018 | CMPTGCS 130H: Video Game Design & Implementation @UCSB

“Tower Demo”, where the player has to find the height of the tallest tower in a town by using trigonometry, was made for educational purposes and inspired by The Legend of Zelda, and Math In Seoul.  In order to find the height of the tower, the player has to measure upward angles (by aligning one's sight, and the tip of the tower with the bottom line of the protractor, and reading the angle the pendulum of the protractor reads) and the distance from the tower twice (see Math In Seoul for more). I didn't really get far with this project but I have an idea of what I would like it to be and I  would love to work on it more.

Fixed

Apr 2018-Jun 2018 | ART 185GL: Optical Computational Culture - Intelligent Machine Vision @UCSB

Project "Fixed" was designed to develop a character and perspective out of a machine by making it dance and film a first person perspective music video, done in a group of two. This project was showcased at 2018 Media Arts and Technology End-of-Year Show.

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