Tag Archives: Michael Meador

Underwriting nanotechnology: a webinar for the insurance industry

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The US National Nanotechnology Coordination Office (NNCO) is hosting a free webinar “Nanotechnology and the insurance industry” according to a Sept. 9, 2016 NNCO news release,

The National Nanotechnology Coordination Office (NNCO) will hold the next in its series of free webinars addressing challenges in commercializing nanotechnology on Thursday, September 22, 2016, from 1 to 2 PM EDT. This webinar will focus on the insurance industry and the challenges of underwriting nanotechnology and other emerging technologies. NNCO Director Dr. Michael Meador will moderate the webinar discussion.

Speakers:

  • Allen Gelwick, Executive Vice President of the Lockton Companies. Mr. Gelwick is a leading insurance expert and has been active in the nanotechnology community for over ten years.
  • Christie Sayes, Associate Professor of Environmental Science and Toxicology at Baylor University. Dr. Sayes is a subject matter expert in nanomaterial-related toxicology and exposure.
  • David Swatzell, Managing Partner at Knowtional, a management consulting firm. Mr. Swatzell is a business strategy expert in IT and other high-tech industries. Prior to joining Knowtional, he held various senior positions at Hewlett-Packard and other technology firms.
  • Madhu Nutakki, Digital Chief Technology Officer, Innovation & Mobile Delivery, at AIG. Mr. Nutakki develops digital strategies from concept to implementation at AIG, one of the world’s largest insurance companies.

Audience:  Representatives of the insurance industry, the nanotechnology business community, and interested members of the general public, media, academia, industry, NGOs, and Federal, State, and local governments are encouraged to participate.

Why: To engage in a dialogue about insurance and risk issues of interest to the nanotechnology and insurance communities through a free, online format.

How: Invited speakers will begin the event by providing an overview of their experiences, successes, and challenges in insuring and underwriting products based on nanotechnology and other emerging technologies. Questions for the panel can be submitted to webinar@nnco.nano.gov from now through the end of the webinar at 2 PM on September 22, 2016.

Registration:  This webinar is free and open to the public with registration on a first-come, first-served basis. Registration is now open and will be capped at 500. To register, visit https://nnco.adobeconnect.com/e2lmvye37yw/event/registration.html

h/t for webinar information to Nanowerk Sept. 9, 2016 news item.

US white paper on neuromorphic computing (or the nanotechnology-inspired Grand Challenge for future computing)

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The US has embarked on a number of what is called “Grand Challenges.” I first came across the concept when reading about the Bill and Melinda Gates (of Microsoft fame) Foundation. I gather these challenges are intended to provide funding for research that advances bold visions.

There is the US National Strategic Computing Initiative established on July 29, 2015 and its first anniversary results were announced one year to the day later. Within that initiative a nanotechnology-inspired Grand Challenge for Future Computing was issued and, according to a July 29, 2016 news item on Nanowerk, a white paper on the topic has been issued (Note: A link has been removed),

Today [July 29, 2016), Federal agencies participating in the National Nanotechnology Initiative (NNI) released a white paper (pdf) describing the collective Federal vision for the emerging and innovative solutions needed to realize the Nanotechnology-Inspired Grand Challenge for Future Computing.

The grand challenge, announced on October 20, 2015, is to “create a new type of computer that can proactively interpret and learn from data, solve unfamiliar problems using what it has learned, and operate with the energy efficiency of the human brain.” The white paper describes the technical priorities shared by the agencies, highlights the challenges and opportunities associated with these priorities, and presents a guiding vision for the research and development (R&D) needed to achieve key technical goals. By coordinating and collaborating across multiple levels of government, industry, academia, and nonprofit organizations, the nanotechnology and computer science communities can look beyond the decades-old approach to computing based on the von Neumann architecture and chart a new path that will continue the rapid pace of innovation beyond the next decade.

A July 29, 2016 US National Nanotechnology Coordination Office news release, which originated the news item, further and succinctly describes the contents of the paper,

“Materials and devices for computing have been and will continue to be a key application domain in the field of nanotechnology. As evident by the R&D topics highlighted in the white paper, this challenge will require the convergence of nanotechnology, neuroscience, and computer science to create a whole new paradigm for low-power computing with revolutionary, brain-like capabilities,” said Dr. Michael Meador, Director of the National Nanotechnology Coordination Office. …

The white paper was produced as a collaboration by technical staff at the Department of Energy, the National Science Foundation, the Department of Defense, the National Institute of Standards and Technology, and the Intelligence Community. …

The white paper titled “A Federal Vision for Future Computing: A Nanotechnology-Inspired Grand Challenge” is 15 pp. and it offers tidbits such as this (Note: Footnotes not included),

A new materials base may be needed for future electronic hardware. While most of today’s electronics use silicon, this approach is unsustainable if billions of disposable and short-lived sensor nodes are needed for the coming Internet-of-Things (IoT). To what extent can the materials base for the implementation of future information technology (IT) components and systems support sustainability through recycling and bio-degradability? More sustainable materials, such as compostable or biodegradable systems (polymers, paper, etc.) that can be recycled or reused,  may play an important role. The potential role for such alternative materials in the fabrication of integrated systems needs to be explored as well. [p. 5]

The basic architecture of computers today is essentially the same as those built in the 1940s—the von Neumann architecture—with separate compute, high-speed memory, and high-density storage components that are electronically interconnected. However, it is well known that continued performance increases using this architecture are not feasible in the long term, with power density constraints being one of the fundamental roadblocks.7 Further advances in the current approach using multiple cores, chip multiprocessors, and associated architectures are plagued by challenges in software and programming models. Thus,  research and development is required in radically new and different computing architectures involving processors, memory, input-output devices, and how they behave and are interconnected. [p. 7]

Neuroscience research suggests that the brain is a complex, high-performance computing system with low energy consumption and incredible parallelism. A highly plastic and flexible organ, the human brain is able to grow new neurons, synapses, and connections to cope with an ever-changing environment. Energy efficiency, growth, and flexibility occur at all scales, from molecular to cellular, and allow the brain, from early to late stage, to never stop learning and to act with proactive intelligence in both familiar and novel situations. Understanding how these mechanisms work and cooperate within and across scales has the potential to offer tremendous technical insights and novel engineering frameworks for materials, devices, and systems seeking to perform efficient and autonomous computing. This research focus area is the most synergistic with the national BRAIN Initiative. However, unlike the BRAIN Initiative, where the goal is to map the network connectivity of the brain, the objective here is to understand the nature, methods, and mechanisms for computation,  and how the brain performs some of its tasks. Even within this broad paradigm,  one can loosely distinguish between neuromorphic computing and artificial neural network (ANN) approaches. The goal of neuromorphic computing is oriented towards a hardware approach to reverse engineering the computational architecture of the brain. On the other hand, ANNs include algorithmic approaches arising from machinelearning,  which in turn could leverage advancements and understanding in neuroscience as well as novel cognitive, mathematical, and statistical techniques. Indeed, the ultimate intelligent systems may as well be the result of merging existing ANN (e.g., deep learning) and bio-inspired techniques. [p. 8]

As government documents go, this is quite readable.

For anyone interested in learning more about the future federal plans for computing in the US, there is a July 29, 2016 posting on the White House blog celebrating the first year of the US National Strategic Computing Initiative Strategic Plan (29 pp. PDF; awkward but that is the title).

Royal Institution, science, and nanotechnology 101 and #RE_IMAGINE at the London College of Fashion

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I’m featuring two upcoming events in London (UK).

Nanotechnology 101: The biggest thing you’ve never seen

Gold Nanowire Array Credit: lacomj via Flickr: www.flickr.com/photos/40137058@N07/3790862760

Gold Nanowire Array
Credit: lacomj via Flickr: www.flickr.com/photos/40137058@N07/3790862760 [downloaded from http://www.rigb.org/whats-on/events-2015/october/public-nanotechnology-101-the-biggest-thing-you]

Already sold out, this event is scheduled for Oct. 20, 2015. Here’s why you might want to put yourself on a waiting list, from the Royal Institution’s Nanotechnology 101 event page,

How could nanotechnology be used to create smart and extremely resilient materials? Or to boil water three times faster? Join former NASA Nanotechnology Project Manager Michael Meador to learn about the fundamentals of nanotechnology—what it is and why it’s unique—and how this emerging, disruptive technology will change the world. From invisibility cloaks to lightweight fuel-efficient vehicles and a cure for cancer, nanotechnology might just be the biggest thing you can’t see.

About the speaker

Michael Meador is currently Director of the U.S. National Nanotechnology Coordination Office, on secondment from NASA where he had been managing the Nanotechnology Project in the Game Changing Technology Program, working to mature nanotechnologies with high potential for impact on NASA missions. One part of his current job is to communicate nanotechnology research to policy-makers and the public.

Here’s some logistical information from the event page,

7.00pm to 8.30pm, Tuesday 20 October
The Theatre

Standard £12
Concession £8
Associate £6
Free to Members, Faraday Members and Fellows

For anyone who may not know offhand where the Royal Institution and its theatre is located,

The Royal Institution of Great Britain
21 Albemarle Street
London
W1S 4BS

+44 (0) 20 7409 2992
(9.00am – 6.00pm Mon – Fri)

Here’s a description of the Royal Institution from its Wikipedia entry (Note: Links have been removed),

The Royal Institution of Great Britain (often abbreviated as the Royal Institution or RI) is an organisation devoted to scientific education and research, based in London.

The Royal Institution was founded in 1799 by the leading British scientists of the age, including Henry Cavendish and its first president, George Finch, the 9th Earl of Winchilsea,[1] for

diffusing the knowledge, and facilitating the general introduction, of useful mechanical inventions and improvements; and for teaching, by courses of philosophical lectures and experiments, the application of science to the common purposes of life.
— [2]

Much of its initial funding and the initial proposal for its founding were given by the Society for Bettering the Conditions and Improving the Comforts of the Poor, under the guidance of philanthropist Sir Thomas Bernard and American-born British scientist Sir Benjamin Thompson, Count Rumford. Since its founding it has been based at 21 Albemarle Street in Mayfair. Its Royal Charter was granted in 1800. The Institution announced in January 2013 that it was considering sale of its Mayfair headquarters to meet its mounting debts.[3]

#RE_IMAGINE

While this isn’t a nanotechnology event, it does touch on topics discussed here many times: wearable technology, futuristic fashion, and the integration of technology into the body. The Digital Anthropology Lab (of the  London College of Fashion, which is part of the University of the Arts London) is being officially launched with a special event on Oct. 16, 2015. Before describing the event, here’s more about the Digital Anthropology Lab from its homepage,

Crafting fashion experience digitally

The Digital Anthropology Lab, launching in Autumn 2015, London College of Fashion, University of the Arts London is a research studio bringing industry and academia together to develop a new way of making smarter with technology.

The Digital Anthropology Lab, London College of Fashion, experiments with artefacts, communities, consumption and making in the digital space, using 3D printing, body scanning, code and electronics. We focus on an experimental approach to digital anthropology, allowing us to practically examine future ways in which digital collides with the human experience. We connect commercial partners to leading research academics and graduate students, exploring seed ideas for fashion tech.

Now

WEARABLES
We radically re-imagine this emerging fashion- tech space, exploring both the beautification of technology for wearables and critically explore the ‘why.’

Near

IoT BIG DATA
Join us to experiment with, ‘The Internet of Fashion Things.’ Where the Internet of Things, invisible big data technologies, virtual fit and meta-data collide.

Future

DESIGN FICTIONS
With the luxury of the imagination, we aim to re- wire our digital ambitions and think again about designing future digital fashion experiences for generation 2050.

Here’s information I received from the Sept. 30, 2015 announcement I received via email,

The Digital Anthropology Lab at London College of Fashion, UAL invites you to #RE_IMAGINE: A forum exploring the now, near and future of fashion technology.

#RE_IMAGINE, the Digital Anthropology Lab’s launch event, will present a fantastically diverse range of digital speakers and ask them to respond to the question – ‘Where are our digital selves heading?’

Join us to hear from pioneers, risk takers, entrepreneurs, designers and inventors including Ian Livingston CBE, Luke Robert Mason from New Bionics, Katie Baron from Stylus, J. Meejin Yoon from MIT among others. Also come to see what happened when we made fashion collide with the Internet of Things, they are wearable but not as you know it…

#RE_IMAGINE aims to be an informative, networked and enlightening brainstorm of a day. To book your place please follow this link.

To coincide with the exhibition Digital Disturbances, Fashion Space Gallery presents a late night opening event. Alongside a curator tour will be a series of interactive demonstrations and displays which bring together practitioners working across design, science and technology to investigate possible human and material futures. We’d encourage you to stay and enjoy this networking opportunity.

Friday 16th October 2015

9.30am – 5pm – Forum event 

5pm – 8.30pm – Digital Disturbances networking event

London College of Fashion

20 John Princes Street
London
W1G 0BJ 

Ticket prices are £75.00 for a standard ticket and £35.00 for concession tickets (more details here).

For more #RE_IMAGINE specifics, there’s the event’s Agenda page. As for Digital Disturbances, here’s more from the Fashion Space Gallery’s Exhibition homepage,

Digital Disturbances

11th September – 12th December 2015

Digital Disturbances examines the influence of digital concepts and tools on fashion. It provides a lens onto the often strange effects that emerge from interactions across material and virtual platforms – information both lost and gained in the process of translation. It presents the work of seven designers and creative teams whose work documents these interactions and effects, both in the design and representation of fashion. They can be traced across the surfaces of garments, through the realisation of new silhouettes, in the remixing of images and bodies in photography and film, and into the nuances of identity projected into social and commercial spaces.

Designers include: ANREALAGE, Bart Hess, POSTmatter, Simone C. Niquille and Alexander Porter, Flora Miranda, Texturall and Tigran Avetisyan.

Digital Disturbances is curated by Leanne Wierzba.

Two events—two peeks into the future.