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13 Results | Page 1 | Last | Next

43 mins
ILP Video

TRANSFORM: Beyond Pixels, Towards Radical Atom

Hiroshi Ishii
Jerome B. Wiesner Professor of Media Arts and Sciences
Associate Director of MIT Media Laboratory
Director of Tangible Media Group
MIT Media Lab
Whereas today's mainstream Human Computer Interaction (HCI) research addresses functional concerns – the needs of users, practical applications, and usability evaluation – Tangible Bits and Radical Atoms are driven by vision. This is because today's technologies will become obsolete in one year, and today's applications will be replaced in 10 years, but true visions – we believe – can last longer than 100 years.

Tangible Bits seeks to realize seamless interfaces between humans, digital information, and the physical environment by giving physical form to digital information, making bits directly manipulable and perceptible. Our goal is to invent new design media for artistic expression as well as for scientific analysis, taking advantage of the richness of human senses and skills – as developed through our lifetime of interaction with the physical world.

Radical Atoms takes a leap beyond Tangible Bits by assuming a hypothetical generation of materials that can change form and properties dynamically, becoming as reconfigurable as pixels on a screen. Radical Atoms is the future material that can transform its’ shape, conform to constraints, and inform the users of their affordances. Radical Atoms is a vision for the future of human-material interaction, in which all digital information has a physical manifestation so that we can interact directly with it.

I will present the trajectory of our vision-driven design research from Tangible Bits towards Radical Atoms, and a variety of interaction design projects that were presented and exhibited in Arts, Design, and Science communities.
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40 mins
ILP Video

Open Algorithms for Privacy-Preserving Data Sharing

Thomas Hardjono
Technology Officer, Internet Trust Consortium
CTO, Connection Science and Engineering
MIT Sociotechnical Systems Research Center (SSRC)
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42 mins
ILP Video

From Transaction to Conversation: How Technology is Changing Our World

Federico Casalegno
Associate Professor of the Practice
Director, MIT Mobile Experience Lab
MIT Comparative Media Studies/Writing
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.
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28 mins
ILP Video

Cognitive Capacity:You don't always see what's in front of you and what we can do about that

Earl Miller
Picower Professor of Neuroscience
Chief Scientific Officer, SplitSage
MIT Department of Brain & Cognitive Sciences
Did you know that your ability to see, pay attention, and remember is not the same everywhere in your line of sight? New ground-breaking science from the Miller Lab at MIT has shown that our brains have our own individual cognitive sweet spots and blind spots, where we have high bandwidth and low bandwidth. SplitSage's cognitive analytics profile each person's unique abilities. Heads-up displays can be individualized to maximize information and minimize distractions for each user. The location of key data can be based on an operator?s cognitive sweet spots and blind spots. Each person can build on their own strengths and address their weaknesses to improve situational awareness, performance and safety.
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41 mins
ILP Video

Millimeter Wave Networks for Virtual Reality and other High Data Rate Applications

Dina Katabi
Andrew (1956) and Erna Viterbi Professor of Computer Science and Engineering
Director, Center for Wireless Networks and Mobile Computing (Wireless@MIT)
MIT Department of Electrical Engineering and Computer Science
The ever-increasing demand for mobile and wireless data has placed a huge strain on today?s WiFi and cellular networks. Millimeter wave frequency bands address this problem by offering multi-GHz of unlicensed bandwidth ? 200 times more than the bandwidth allocated to today?s WiFi and cellular networks. In this talk, I describe the opportunities and challenges brought in by this technology, and its applications in enabling untethered virtual reality headsets and high throughput multi-media applications.
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57 mins
ILP Video

Moving from Hype to Impact with Digital Health

Ayesha Khalid
Clinical Instructor, Harvard Medical School
Co-founder, Hacking Medicine Institute
VP of Business Development, Doctella
Zen Chu
Health Tech Educator, Entrepreneur, Investor
Senior Lecturer, MIT Sloan School of Management
Digital Health mobile apps and connected medical devices are rapidly changing how patients learn, monitor, diagnose and treat disease. Even in these early days of the digital transformation of healthcare, connected medical devices and digital services are winning reimbursement as ?digiceuticals? by payors and insurers. However, the critical need going forward is how to measure, compare and prove these new tools and digital biomarkers are safe, effective and valuable at scale, not just in the USA but globally, across geographies, cultures and health systems.
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42 mins
ILP Video

Extremely cost-effective semiconductor layer-transfer process via graphene & Highly uniform advanced RRAM

Jeehwan Kim
Class of 1947 Career Development Assistant Professor of Mechanical Engineering
MIT Department of Mechanical Engineering
As a strategy to save the cost of expensive substrates in semiconductor processing, the technique called “layer-transfer” has been developed. In order to achieve real cost-reduction via the “layer-transfer”, the following needs to be insured: (1) Reusability of the expensive substrate, (2) Minimal substrate refurbishment step after the layer release, (3) Fast release rate, and (4) Precise control of a released interface. Although a number of layer transfer methods have been developed including chemical lift-off, optical lift-off, and mechanical lift-off, none of those three methods fully satisfies conditions listed above. In this talk, we will discuss our recent development in a “graphene-based layer-transfer” process that could fully satisfy the above requirements, where epitaxial graphene can serve as a universal seed layer to grow single-crystalline GaN, III-V, II-VI and IV semiconductor films and a release layer that allows precise and repeatable release at the graphene surface. We will further discuss about cost-effective, defect-free heterointergration of semiconductors using graphene-based layer transfers.

Lastly, I will introduce our new research activities in developing advanced RRAM devices. Resistive switching devices have attracted tremendous attention due to their high endurance, sub-nanosecond switching, long retention, scalability, low power consumption, and CMOS compatibility. RRAMs have also emerged as a promising candidate for non-Von Neumann computing architectures based on neuromorphic and machine learning systems to deal with “big data” problems such as pattern recognition from large amounts of data sets. However, currently reported RRAM devices have not shown uniform switching behaviors across the devices with high on-off ratio which holds up commercialization of RRAM-based data storages as well as demonstration of large-scale neuromorphic functions. Recently, we redesigned RRAM devices and this new device structure exhibits most of functions required for large-array memories and neuromorphic computing, which are (1) excellent retention with high endurance, (2) excellent device uniformity, (3) high on/off current ratio, and (4) current suppression in low voltage regime. I will discuss about the characterization results of this new RRAM device.
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39 mins
ILP Video

Some Simple Economics of the Blockchain

Christian Catalini
Fred Kayne (1960) Career Development Professor of Entrepreneurship
Assistant Professor of Technological Innovation, Entrepreneurship, and Strategic Management
MIT Sloan School of Management
Blockchain technology and cryptocurrencies are poised to influence the rate and direction of innovation. By allowing firms to perform costless verification, blockchain lowers the cost of auditing transaction information and allows new marketplaces to emerge. Adding a distributed ledger to the mix allows marketplaces to be bootstrapped without the need for traditional intermediaries. How will this technology challenge existing revenue models? What impact will it have on the regulation, auction, and provision of public goods, software, identity, and reputation systems? With research grounded in economic theory, Catalini will discuss how blockchain is poised to upset the global market.
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43 mins
ILP Video

Platform Revolution: How Networked Markets Are Transforming the Economy

Geoffrey Parker
Professor of Engineering, Dartmouth College
Visiting Scholar and Research Fellow
MIT Sloan School of Management
Platform firms are coming and will impact you in ways that you cannot control. The successful business models of the last generation are no longer sufficient and corporations must adapt to the multi-sided markets that are the hallmark of the platform business model. How quickly an industry adapts to and utilizes platforms depends on regulation, cost, and risk. Join Geoff Parker to explore why platform firms are a threat, how they will affect your business, and how you can transform your business model to compete.
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42 mins
ILP Video

Energy-Efficient Hardware for Embedded Vision and Deep Neural Networks

Vivienne Sze
Assistant Professor of Electrical Engineering and Computer Science
MIT Department of Electrical Engineering and Computer Scienc
Visual object detection and recognition are needed for a wide range of applications including robotics/drones, self-driving cars, smart Internet of Things, and portable/wearable electronics. For many of these applications, local embedded processing is preferred due to privacy or latency concerns. In this talk, we will describe how joint algorithm and hardware design can be used to reduce the energy consumption of object detection and recognition while delivering real-time and robust performance. We will discuss several energy-efficient techniques that exploit sparsity, reduce data movement and storage costs, and show how they can be applied to popular forms of object detection and recognition, including those that use deep convolutional neural nets (CNNs). We will present results from recently fabricated ASICs (including our deep CNN accelerator named ?Eyeriss? which is 10x more energy efficient than a mobile GPU) that demonstrate these techniques in real-time computer vision systems.
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31 mins
ILP Video

STEX Introduction with Lightning Talks

Trond Undheim
Lead, Startup Exchange
MIT Industrial Liaison Program
-Shashi Kant, CTO & Founder, Netra - http://www.netra.io/
-Jeff Orkin, PhD, CEO & Founder, GiantOtter - http://www.giantotter.com/
-Josh Kanner, CEO & Founder, Smartvid.io - https://www.smartvid.io/
-Catherine Havasi, CEO & Co-Founder, Luminoso - http://www.luminoso.com/
-Alan Ringvald, CEO, Relativity6 - http://www.relativity6.com/
-Trishan Panch, Chief Medical Officer & Co-Founder, Wellframe - https://www.wellframe.com/
-Abhi Yadav, CEO & Founder, DataXylo - https://dataxylo.com/team.php
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41 mins
ILP Video

Cyber Security of IoT

John Williams
Professor of Information Engineering, Civil and Environmental Engineering and Engineering Systems
Director, MIT Geospatial Data Center
MIT Department of Civil and Environmental Engineering
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