Journey of Water
Webslingers: A spider-man adventure
Worked with the small, but mighty, Interactive team to open the first Disney attraction to open during a global pandemic to make anyone feel like a super hero. This includes the web-slinging technology, as well as the wearable tech that Guest can purchase to acquire the powers of their favorite heroes.
This attraction was one of my personal favorites since it was a STEM driven concept integrated into the parks, worldwide to encourage the next heroes to explore the world of Science, Technology, Engineering, and Mathematics, as well as incorporating inclusion and diversity.
Research & Development | Open House
Epcot experience center
Star Wars: Galaxy’s Edge
Artemus Labs | prosthetic leg for a child in the philippines
Used the prize money earned from competing in the CSULB Pitchfest ($750) & the Galileo Innovation challenge ($150) to provide a child in need of a prosthetic in the provincial Philippines. His name is Nino and he is a Transtibial lower-limb amputee who did not have a prosthetic prior to meeting us. Most individuals with amputations have make-shift prosthetics made of trash and scrap wood.
Innovation Challenge Pitch Graphics
Aside from organizing the pitch for the Innovation Challenge, I designed the slides and pages to effectively communicate complex concepts and information to the audience using Adobe Photoshop, Adobe Illustrator, and Powerpoint. Below is a sample of some of the pages I created.
Augmented reality application for individuals with amputations
Developing an augmented reality application to assist individuals in the amputee community to preview the Artemus Labs breathable liner in AR. The user can also customize the liner both in appearance and functionality. Markers can be placed to identify sensitive areas of a residual limb. The graphics below are created using Sketch.
ARTEMUS LABS WEBSITE
Developed a working website using Bootstrap for a start-up company, Artemus Labs. I also designed the logo using Adobe Photoshop & Illustrator CC, and took the photos on the page with my Canon M3 Mirrorless Camera.
Co-author of Engineering in medicine & Biology society paper
For my research with Dr. Panadda Marayong & Dr. I-Hung Khoo, I was the co-author and presenting author for the Institute of Electrical & Electronics Engineers (IEEE), Engineering in Medicine & Biology Society (EMBS). We presented our work at EMBC 2016 at Walt Disney World Resort. My previous work within the same research lab, Performance Analysis of a Vibrotactile Device for Rehabilitation Training of Persons with Transtibial Amputation was the referenced below.
ENGINEERING IN MEDICINE & BIOLOGY CONFERENCE RESEARCH POSTER
To effectively communicate complex & high-level information at the Engineering in Medicine & Biology Conference, I've taken the photos using my Canon M3 Mirrorless camera and organized the flow of the poster for presentations. I was also the co-author of this research paper.
I've also presented in the Lightning Talk, where individuals have to present their research in 5 minutes.
COLLEGE OF NATURAL SCIENCES & MATHEMATICS SYMPOSIUM
Presented my work with my research team in a college-wide symposium. We've worked on Design Improvements of a Vibrotactile Device for Rehabilitation of Persons with Lower-Limb Amputations.
CSU PROGRAM FOR RESEARCH IN BIOTECHNOLOGY SYMPOSIUM
Presented my work, Performance Analysis for Vibrotactile Device for Prosthetic Rehabilitation to a CSU-wide event in a Lightning Talk segment & a symposium segment.
I received both awards of CSUPERB Bioengineering Symposium Research Poster Favorite & CSUPERB Bioengineering Symposium Research Lightning Talk Favorite.
vibrotactile device for individuals with transtibial amputations
Designed, machined, and built improved housings and mechanisms for a Vibrotactile Device using Solidworks and the metal machining shop at California State University, Long Beach. Below are the different prototypes of the aluminum housings for sensors and motor that provide tactile biofeedback. I've also designed and 3D-printed housings for inertial measurement units to improve the performance and accuracy of the device using Solidworks.
VICON Motion capture for the vibrotactile device
During the RISE (Research Initiative for Scientific Enhancement) undergraduate research program, I was able to validate the performance & accuracy of the Vibrotactile device I helped develop using the VICON Motion Analysis System. Below is a clip I've captured of a user with a transtibial amputation walking across four force plates while wearing the device in the motion capture area.
BIOFEEDBACK DEVICE FOR POST-STROKE PATIENTS
I've developed a rehabilitation device to correct asymmetric gait in stroke victims. I rapidly prototyped my idea and process of embedding force sensitive sensors and a flexible circuit into silicon to create a hygienic, water-resistant, insole for the rehabilitation device. The molds were created using SolidWorks and 3D-Printing.
