Conference Details - Agenda
Minds, Machines, and Management
March 25-26, 2015
Freud 2.0: Selves-Improvement In An Era of Networked Intelligences
Ego. Id. Superego. Freud’s Vienna pioneered innovative and controversial concepts of the self. Ongoing revolution in digital media, social networks and machine learning are similarly leading to innovative and controversial transformation of ‘selbstkonzept.’ This transformation, however, will be less about therapeutic intervention than economic affect and effectiveness. Michael Schrage will describe a future of ‘multiple selves’ that will likely reshape the meaning of creativity, productivity and innovation global markets. Freud would have enjoyed it.
Artificial Intelligence: Mind - your own Business
Sigmund Freud is not the only famous psychiatrist from Austria, among others are Viktor Frankl and Alfred Adler. Though Adler coined the term "Inferiority Complex", Austrians have no reason to feel inferior.
Austrians seem to have an inclination for the "psyche" and for music. Among the research that has been undertaken at the Austrian Research Institute for Artificial Intelligence (OFAI.at) are playing classical piano music expressively through AI programs, visually representing different styles of famous pianists, investigating and modeling the coordination of musicians when playing in unison, finding the most similar sounding musical pieces to a given musical composition, even a contemporary one, and that in millions of pieces, in really big data, in milliseconds. A method, applicable to many other domains. And finding out why some pieces have an extreme high mathematical similarity to most of the others though this is obviously not the case ("hubness") and the generalization to similar problems in other areas than music.
The "psyche" or, simpler, personalities, both with their rational and emotional aspects, are another hot topic of research and application in Austria. Results were published as books already in 1997 in "Creating Personalities for Synthetic Actors" and in 2003 "Emotions in Humans and Artifacts", the latter book published by a well-known publisher in the USA, MIT Press. Is it possible to influence the mood of a visitor of a virtual bartender, i.e. an AI system? Yes, it is, and in both directions, positive or negative. A result important for affect mining and influencing. Another project, interacting with synthetic personalities in serious games for training in emergency handling.
Robots are expected to help elder persons or persons with special needs to lead a self-determined life, as companions. Psychologists are currently pondering about the personality traits needed. But don't we have a rich source of successful companionships in literature, dramas, operas, films, compiled, at least partially in thousands of years? Character Mining and Generation (CHARMinG) is a large project we will start this spring. Complex situations request ethical decision-making, both for robot companions and, not yet well-known, for self-driving cars. The book "A Construction Manual for Robots' Ethical Systems"; will contain the results of our research and those of several colleagues in other countries, to be published this spring.
Thus, our work is in the range from theoretical research to near-product development. Many enterprises are partners in our, up to now 32 EU-projects, among them Ferrari, mentioned today in another talk. Unfortunately, for many company projects, from Austria to China, NDAs had to be signed. But some of our partners do not hide our contribution, e.g. Austrian Tourist Consultants, Frequentis, derStandard, SwissPerform, MediaControl, Amsterdam's Royal Concertgebouw Orchestra or Denmark's Bang & Olufsen (B&O) which advertises our cooperation regarding their Beosound 5.
Even considering the enormous progress of AI, "mind" is still your business. But if you mind your business, consider AI.
Embedded and Proxy Selves: Who Controls My Many "Mes"?
Our lives are increasingly becoming digitally encapsulated and expressed. Our most personal acts are observed, recorded, and analyzed from outer space and inferred from sensors in our homes, workplaces, and public places. High-resolution digital facsimiles of our consumer selves have become the grand prize of every marketer and social media site; absolute identification and prediction of criminal intent is now the sacred duty of law enforcement.
Digital Familiars, born out of machine learning and big data, predicting our tastes, moves, purchases, health, and intentions are becoming proxies for our physical selves. Nothing is off the table and no one is exempt. Such digital familiars can have standing as “legal persons,” as autonomous proxies of our agency, personhood, and intentionality. Will they have inalienable rights and duties? Where do their digital identities and our “true identities” begin and end?
Living with the Drone Revolution
Unmanned aerial vehicle (UAV) technology has advanced markedly in recent years, and there is now tremendous interest around the world in civilian and commercial applications of autonomous UAVs, such as precision agriculture, infrastructure inspection and urban package delivery. There are also substantial technical challenges that need to be addressed in order to scale up the state of the art to provide real commercial services. Professor Roy will discuss the civilian and commercial opportunities, the technical challenges, and what the path forward might look like, to make UAVs part of everyday life.
Outpacing Evolution: MIT Cheetah Robot
A 70-pound “cheetah” robot designed by MIT researchers may soon outpace its animal counterparts in running efficiency: The robot can run on batteries at speeds of more than 13 mph, jump about 16 inches high, land safely and continue galloping for at least 60 minutes - all while using less power than a microwave oven. Insights gleaned from the design of the “cheetah” could have real-world applications, including designing revolutionary prosthetics, wearable technologies, all-terrain wheelchairs, vehicles that can travel efficiently in rough terrain—and ultimately in saving lives.
When Machines Stop Calculating and Start Thinking
We would like to build computing machines that can interpret and learn from their sensory experience, act effectively in real time, and — ultimately — design and program themselves. We would like to use these machines as models to help us understand our own minds and brains. We would also like to use computers to build and evaluate models of the world that can help us interpret our data and make more rational decisions. Our current computing machines, built for calculation, are not up to these tasks. Vikash Mansinghka will introduce probabilistic computing, a new approach based on probability and randomness instead of step-by-step logic and determinism. He will show how it brings us closer to a world where machines stop calculating and start thinking.
The Evolution and Trends of Human and Robotic Interaction in Production Industries
The idea of creating autonomous machines dates back to ancient times. With the growth of industrialization in the 19th century – generally referred to as the Industrial Revolution – the course for universal industrial automation was set. The development of industrial robotics as understood today began in 1954 with George Devol's patent application for Programmed Article Transfer, which introduced the concept of "Universal Automation", or "Unimation". Since then, development in the area of robotics has skyrocketed.
Unlike past systems involving isolated robotic components that had to be connected to automation systems via cumbersome interfaces with limited functionality, today’s state-of-the-art automation solutions offer robotics that are fully integrated in a machine or plant automation system. Modern safety solutions even allow humans and robots to work hand in hand without physical safety barriers.
Due to the wide range of possible applications, robots are now used in almost all industrial sectors. They are the perfect tool for fulfilling the requirements of one-off production batches – a major topic of Industry 4.0.
The industrial automation experts at Austria-based B&R are addressing all of these challenges in addition to continuously introducing innovations in industrial automation. This presentation by Dr. Gernot Bachler and Peter Gucher provides an overview of robotic technology as it is used in industrial automation.
The Future of Food? Edible-Bytes
Computational technology has disrupted nearly every aspect of human existence...and food is next. Agriculture, one of humanity's oldest and most profitable activities, with a fifteen trillion dollar global market and over 10,000 years of history, has gone through three society-altering revolutions. First, the domestication of plants—ending the hunter/gatherer era and ushering in the first human settlements (8000 BC). Second, the horse and plow—enabling the rise of technologically based societies (600 AD). Third, the vertical integration of farming brought on by mechanization, chemical fertilization, and genetics—generating rural labor surpluses that have created urbanization on an unprecedented scale and given rise to the contemporary global food system. What's next? With increasing resource scarcity, flattening yields, changing climates, and growing populations our current food system is showing signs of wearing out. How will we feed an additional two billion people with seventy-five percent living in cities in the next thirty years? There appears to be just one way: Computationally-Based Food.
Artificial-Intelligence Revives Its Old Ambitions: Unraveling the Mystery of Intelligence
In recent years, artificial-intelligence researchers have built special-purpose systems that can do things like interpret spoken language or play Jeopardy with great success. But according to Tomaso Poggio, “These recent achievements have, ironically, underscored the limitations of computer science and artificial intelligence. We do not yet understand how the brain gives rise to intelligence, nor do we know how to build machines that are as broadly intelligent as we are.”Poggio thinks that AI needs to revive its early ambitions of building genuinely intelligent machines. “It’s time to try again,” he says. “We know much more than we did before about biological brains and how they produce intelligent behavior. We’re now at the point where we can start applying that understanding from neuroscience, cognitive science, and computer science to the design of intelligent machines.”
What Do Your Customers (Dis)like?…Let Their Data Decide
We live in the era where almost everything we do is recorded somewhere. Naturally such massive amounts of social data contain a wealth of information about us. This presents us with a huge opportunity to utilize it for operating businesses efficiently, making meaningful policies, and better social living. In this talk, Professor Devavrat Shah will discuss how we can utilize social data for predicting preferences of a business's customers accurately. He will discuss such a desirable, scalable data processing system for predicting customer preferences that he has built and deployed. He will describe success stories of this technology in the retail industry.
Leading Digital: What Got You Here Won't Get You There
Fueled by mobility, analytics, social media, cloud computing, and embedded devices, companies in every industry are mapping their way through the digital realm. Yet some firms are far outpacing others in their ability to drive new value from digital technology. What is the difference? George Westerman will share answers from the new book "Leading Digital: Turning Technology Into Business Transformation." Digital masters do more than just adopt technology. They transform their businesses through smart digital and leadership capabilities. IT and business executives - and their partners - have essential skills to play in the strategic digital conversation.
From Digital to Real: Get Ready to Make Just About Anything in Your Own Home
3D printing is putting the capacity to make almost anything into the hands of ordinary people. A world is not far off where powerful 3D printers that can handle a huge range of materials are found in every supermarket and discount store—and we’ll be printing not only components but also circuitry—and functional robots. Still, while there has been tremendous progress in the development of 3D printer hardware, the software for the average person to run them needs a step change. In this talk, Wojciech Matusik will explain what it will take to make complex 3D printed objects at home and how two software systems, OpenFab and Spec2Fab being developed in his laboratory, will bring 3D printing into the lives of all of us.
1:30 - 3:00
Post Conference Workshop: Connecting with MIT for Growth through Innovation
Welcome: Michael Friedl, Heinz Kogler
Connecting with MIT for Growth through Innovation
MIT’s Office of Corporate Relations
Relationships with academic institutions should play an important role in any enterprise's innovation efforts. But, it's key to know how to make these relationships work. While there are tremendous opportunities for both corporations and institutions, successful collaborations happen for firms that truly understand how innovation takes place in a university, and the roles that university researchers and corporate executives have to play to bring about genuine breakthroughs.
Randall Wright, Senior Liaison Officer with MIT's Office of Corporate Relations, will provide insights he's gained over twenty-five years advising senior executives of leading firms how to innovate by being part of the MIT community.
He will also discuss MIT's evolving ideas on mainstreaming an increasing number of MIT innovations into the marketplace, and the significance of MIT's Office of Corporate Relations location in the heart of Cambridge's Kendall Square--one of the US’s epicenters of innovation.
Key take-aways include
• A concrete definition of innovation that allows executives to identify real innovations from hyped-up and second place ideas.
• The process of innovation that takes place at MIT, and how to capitalize on it.
• The key questions a firm should ask itself to grow through innovation.