Moderator: Margaret Childs Panels: Sinan Aral, Frank Schweitzer, Shermin Voshmgir We’re in a continuous struggle to combat falsity. It’s a Wild, Wild West with verification a moving target. New digital media platforms based on block chain can run applications exactly as programmed without the possibility of downtime, censorship, fraud, or third-party interference. Still, we do not know enough about the phenomenon of falsity and why it spreads so readily on digital media. But, we may be closer to answers—and interventions—since we now have data at scale and are on the brink of a revolution understanding how humans behave. The panel will discuss possible interventions to mitigate and hopefully prevent the spread of falsity including how new digital media platforms will algorithmically redefine confirmation, validation, and value. How could blockchain and tokenization of social media based on examples like provide a solution to these problem? What can we learn from early blockchain use cases like Steemit, Basic Attention Token (BAT), and Token Curated Registries (TCRs).
Video can be used as the input data for the real-time monitoring of machines, products, or processes to which sensors cannot be affixed. Industrial and scientific monitoring applications, compared to other video sources, such as those from surveillance, broadcast, mobile robotics, social media, or entertainment, can often be engineered and structured. Yet, applications of video-based instrumentation in industrial, manufacturing, and scientific experimentation environments are not extensively addressed by the computer vision community.
We discuss the needs, challenges, and recent success in deploying real-time, data-science enabled techniques to efficiently reduce the complexity and dimensionality of raw video data to extract actionable information for real-time feedback and process control, defect detection, and wear and degradation related for factories and the factory subsystem.
In the next five years, autonomous vehicle technology may finally blossom and enter our lives. The first applications of intelligent self-driving vehicles may embark on highways, campuses, and warehouses. Bottlecap-size consumer drones may roam around, filming the next big hit video on social media. What are some of the technical challenges and technological enablers? How will the new technology impact new products, markets, businesses, and ultimately our lives? Professor Sertac Karaman's research is enabling new ways of designing autonomous vehicles with the help of rigorous, mathematical thinking that leads to valuable insights.
Twenty years ago the idea of speaking with a chatbot to resolve a problem was unheard of. Today we can ask Siri to make us a reservation for a nearby restaurant with the touch of a button. Artificial intelligence, wearables, virtual reality, and the Internet of Things are rapidly changing the world around us. From clothing that can track your fatigue to the changes in the process of booking a hotel room, Professor Casalegno will discuss the future of these technologies and where they will take us.