FalconViz is a startup originating from KAUST that specializes in scanning and documenting the world. The company aims to provide new methods for documenting environments, benefitting cities and countries. Co-founder Neil Smith highlights the company's success as a demonstration of KAUST's original vision for startups. Why it matters: FalconViz represents a successful commercial venture emerging from Saudi Arabia's KAUST, showcasing the potential for technology and innovation within the Kingdom.
FalconViz, a KAUST-based startup co-founded by alumnus Luca Passone, specializes in 3D surveying and mapping using unmanned aerial systems. Established in 2015, the company offers services such as topographical surveys, mining assessments, and flood modeling to clients in Saudi Arabia and beyond. KAUST provided FalconViz with early funding, training, and ongoing support. Why it matters: The success of FalconViz highlights KAUST's role in fostering technological innovation and entrepreneurship in Saudi Arabia, contributing to the Kingdom's growing technology sector.
KAUST's Visual Computing Center (VCC) hosted an Open House event on March 28, showcasing its interdisciplinary research in visual computing. Demonstrations included a virtual reality driving simulator by FalconViz, intended for driver education in Saudi Arabia. Researchers also presented a drone trained to autonomously navigate race courses and a neural network for autonomous driving using image-based technology without GPS. Why it matters: The VCC's work highlights KAUST's role in advancing visual computing applications relevant to Saudi Arabia, from driver training to autonomous systems.
KAUST's Peter Wonka discusses the challenges and advancements in creating data-rich, three-dimensional maps for various applications. His team is working with Boeing on 3D modeling tools for aerospace design. KAUST-funded FalconViz uses UAV drones to create 3D maps of disaster areas for first responders. Why it matters: This highlights KAUST's contribution to cutting-edge 3D modeling and its practical applications in industries like aerospace and disaster response in the region.
KAUST researchers used 3D mapping technology via remote control helicopter to survey and create detailed renderings of Jeddah's Al Balad, a UNESCO World Heritage Site. The team, from KAUST's Visual Computer Center and FalconViz, captured high-definition images from about 50 meters above street level. This enabled the creation of accurate 3D models, showing building shifts and potential problems for urban planners. Why it matters: This method provides a rapid and accurate way to document and preserve historical landmarks, especially in areas where traditional surveying is difficult or infeasible, aiding in cultural heritage preservation efforts.
KAUST Seed Fund announced the four winning teams from its 2013 Fall Round, including Falcon Viz (3D aerial scanning), Nano Assembly (quantum dot production), ROFix (desalination plant performance), and u. The Seed Fund has funded 21 projects in its first six rounds, creating three companies and 15 jobs. Barig Siraj noted KAUST's leadership in commercializing ideas in Saudi Arabia. Why it matters: The KAUST Seed Fund plays a vital role in fostering entrepreneurship and technological innovation within Saudi Arabia, addressing critical needs in areas like desalination and infrastructure.
KAUST's Visualization Core Lab (KVL) has released inshimtu, a pseudo in situ visualization system for scientists working with large datasets and supercomputer simulations. Inshimtu simplifies the implementation of in situ visualization by using existing simulation output files without requiring changes to the simulation code. It helps scientists determine if implementing a full in situ visualization into their code is worthwhile. Why it matters: This open-source tool can improve the efficiency of supercomputing research in the region by allowing researchers to assess the value of in situ visualization before fully committing to it.
KAUST's Visual Computing Center had two papers recognized at IEEE VIS 2023. One paper, from Prof. Markus Hadwiger's group, introduced a new method for detecting and visualizing vortex structures in 2D fluid flows, which was recognized as one of the best papers. The second paper, from Prof. Ivan Viola's team, presented Dr. KID, a visualization framework for physicalizing biological structures into 3D-printed models, receiving an honorable mention. Why it matters: These awards highlight KAUST's contributions to cutting-edge visualization techniques with potential applications in diverse scientific and engineering fields.