BGF

Dmitri Alperovitch is the Co-Founder and CTO of CrowdStrike Inc., leading its Intelligence, Technology and CrowdStrike Labs teams. A renowned computer security researcher, he is a thought-leader on cybersecurity policies and state tradecraft.

Prior to founding CrowdStrike, Dmitri was a Vice President of Threat Research at McAfee, where he led company’s global Internet threat intelligence analysis and investigations. In 2010 and 2011, Alperovitch led the global team that investigated and brought to light Operation Aurora, Night Dragon and Shady RAT groundbreaking cyberespionage intrusions, and gave those incidents their names.

In 2013, Alperovitch received the prestigious recognition of being selected as MIT Technology Review’s “Young Innovators under 35” (TR35), an award previously won by such technology luminaries as Larry Page and Sergey Brin, Mark Zuckerberg and Jonathan Ive. Alperovitch was named Foreign Policy Magazine’s Leading Global Thinker for 2013, an award shared with Secretary of State John Kerry, Elon Musk and Jeff Bezos. He was the recipient of the prestigious Federal 100 Award for his contributions to the federal information security in 2011 and recognized in 2013 as one Washingtonian’s Tech Titans for his accomplishments in the field of cybersecurity.

With more than a decade of experience in the field of information security, Alperovitch is an inventor of eighteen patented technologies and has conducted extensive research on reputation systems, spam detection, web security, public-key and identity-based cryptography, malware and intrusion detection and prevention. Alperovitch holds a master’s degree in Information Security and a bachelor’s degree in Computer Science, both from Georgia Institute of Technology.

Seny Kamara is an Associate Professor of Computer Science at Brown University. From 2008 to 2016, he was a researcher at Microsoft Research (Redmond Lab). He studied computer science at Purdue and then John Hopkins University, earning first a Bachelor of Science, then a Master of Science in Engineering, and then a Doctorate of Philosophy.

His work focuses on designing and analyzing cryptographic algorithms, protocols and systems; often motivated by privacy issues in cloud computing, surveillance and databases. He maintains interests in various aspects of theory and systems, including applied and theoretical cryptography, data structures and algorithms, cloud computing, databases, economics, technology policy and networking. He served as Program (co-)Chair for ACM Cloud Computing Security Workshop (CCSW ’12) and Workshop on Surveillance and Technology (SAT ’15). He has been recognized as a future world leader in encrypted search.

Dinesh Bharadia is a researcher at CSAIL, MIT. He studies networks and wireless communication. After obtaining his bachelor degree in Electrical Engineering from Indian Institute of Technology (IIT) at Kanpur in Uttar Pradesh, he came to Stanford to pursue his MS and PhD. As a PhD at Stanford he commercialized his research at Kumu Networks, which allows radios to simultaneously transmit and receive signals at the same frequency channel. This problem had stumped scientists for almost 150 years. An analogy to this would be, allowing humans to shout at the top of their lungs while simultaneously listening to weak whispers. This technology makes it possible to double the efficiency of the current spectrum.

He has just been honoured with the 2016 Marconi Society Paul Baran Young Scholar Award, for his outstanding contributions in radios network. Before that, he was named as one of 35 Innovators under 35 by MIT Technology Review, joining the likes of Google founders Larry Page and Sergey Brin, Facebook founder Mark Zuckerberg, and major leaders from Apple, PayPal and other tech companies.

Patrick H. Winston is Ford Professor of Artificial Intelligence and Computer Science at the Massachusetts Institute of Technology. He has been with CSAIL and before that the MIT Artificial Intelligence Laboratory since 1967. He joined the faculty in 1970, and he was the Director of the Artificial Intelligence Laboratory from 1972 to 1997.

Professor Winston is particularly involved in the study of how vision, language, and motor faculties account for intelligence. He also works on applications of Artificial Intelligence that are enabled by learning, precedent-based reasoning, and common-sense problem solving.

Professor Winston is chairman and cofounder of Ascent Technology, Inc., a company that produces sophisticated scheduling, resource allocation, and schedule recovery applications, enabled by AI technology, and in use throughout the world in major airports and the Department of Defense.

Professor Winston was a member of the Naval Research Advisory Committee (NRAC) (1985-1990, 1994-2000) for which he served as Chair from 1997 to 2000. During his service on NRAC, he chaired several studies, including a study of how the Navy can best exploit the next generation of computer resources and a study of technology for reduced manning. Professor Winston is also a past president of the American Association for Artificial Intelligence.

Professor Winston is working on a major new research and educational effort, the Human Intelligence Enterprise, which will bring together and focus research from several fields, including Computer Science, Systems Neuroscience, Cognitive Science, and Linguistics.

“Professor Patrick Winston passed away on July 19, 2019.”

By Philip Hamilton

(BGF) – The latest installment of the BGF Leader Series featured Robert Desimone, the Director of the McGovern Institute and Don Berkey Professor in the Department of Brain and Cognitive Sciences at MIT, and a member of the BGF Board of Thinkers. As a result of Professor Desimone’s work and the McGovern Institute’s accomplishments, the Boston Global Forum is going to recognize and honor the McGovern Institute’s research achievements and Edward M. Scolnick Prize in Neuroscience in the Boston Global Archive, and at a later stage the BGF will add it to the Boston Global Museum. Throughout his talk, which focused on the topic “unlocking the human brain”, Professor Desimone noted the important technological advances that are currently being made which are allowing for new breakthroughs in the field of neuroscience.

In many respects, the McGovern Institute for Brain Research at MIT is at the forefront of these advances and breakthroughs in both technology and neuroscience. Currently, the McGovern Institute has a team of 19 faculty researchers of whom several are members of the National Academy of Science and one, Robert Horvitz, is a Nobel Laureate. Additionally, the faculty at the McGovern Institute features three members who are leading the way in optogenetics – the insertion of genetic material into neurons to make them sensitive to light thus giving researchers control over the neural circuits.

Given its extremely talented faculty, the McGovern Institute is well-placed to both drive advances the field of neuroscience, as well as ultimately translate those advances into beneficial treatments and therapies for patients suffering from brain disorders.

Looking back to his time at the National Institute for Mental Health (NIMH), Professor Desimone recalled having a realization that, despite the intelligence, dedication, and commitment of the clinicians and psychiatrists on staff, it was difficult for them to make any progress in developing new treatments for their patient population: “the sad fact was that the pipeline of new ideas – new drugs and so on – was really pretty dry”. It was at this point in his career that Professor Desimone became aware that it was essential to deepen our understanding of the fundamentals of how brains work if there was to be any progress in the development of new treatments.

It was also at this point that Professor Desimone happened to accept the offer to become the Director the McGovern Institute, an institute focused on understanding how the human brain functions and translating that knowledge into beneficial therapies and treatments for patients suffering with brain disorders. Additionally, in recent years, an array of new technological advances have driven the field of neuroscience forward. In particular, Professor Desimone mentioned three technological advances that have had particularly significant impacts on neuroscience research: the sequencing of the genetic code; advancements in brain imaging; and recent efforts at Stanford University to make the brains of animals transparent.

The effort to sequence the human genome was initially an extraordinarily large and expensive feat. However, in the years since the human genome was first successfully sequenced, the price of sequencing the genome has dropped so low that it is feasible to sequence an individual’s genome in order to identify genetic mutations. While direct links between genetic mutations and psychiatric disorders only exist in rare cases, being able to identify genetic mutations can play a crucial role in better understanding and recognizing genetic vulnerabilities that can lead to brain disorders. Moreover, a more in-depth knowledge of genetic vulnerabilities can help further deepen the understanding of how a genetic mutation can result in an abnormally functioning brain circuit that ultimately results in a brain disorder.

As for advances in brain imaging, the use of MRIs and the further developments in MRI technologies have greatly contributed to neuroscience research. MRI technology now allows researchers to image functional changes so that they can “track the activity patterns in the brain – at least on a coarse temporal time-scale – and you can actually see the brain at work as people solve problems, have emotions, understand situations, and so on, and its been applied now to many different patient groups to try and track down sources of abnormal neural circuits.”

Professor Desimone hopes that this technological advance will be merged with the advances in genome sequencing. He holds out hope that, if the advances in brain imaging and genome sequencing are combined, “We might be able to say that the vulnerability involves abnormal activity in certain particular brain circuits that we’ve identified in MRIs by imaging people that we’ve done this genotyping on. Once we’ve narrowed that down between the gene alteration and the abnormal activity in circuits, that is going to put us on the right path to new discoveries.”

Thirdly, researchers at Stanford University’s Karl Deisseroth Lab found a way to render the brains of animals transparent. This advance could make it easier for researchers to more accurately label and track the connections of neural circuits. As Professor Desimone noted: “People are just now gearing up to apply this new technology and human brain material from people who have died but have lived lives where they’ve suffered from schizophrenia, Alzheimer’s Disease, and so on and we will be able, with unprecedented ability, to track the abnormalities in this brain tissue from people who have died with disease.”

Professor Desimone also discussed the potential that neuroscience research could help us better understand cultural differences. As he noted, neuroscience research currently involves scientists working across the globe. Given the global scope of the research, it is possible that we may develop a deeper understanding of how the human brain functions in different cultures. This information could play a crucial role in helping to decipher cultural differences, minimize cultural misunderstandings, and facilitate greater cross-cultural understanding and collaboration.

The discoveries and advances Professor Desimone discussed during his BGF Leader Series lecture have all occurred recently, with some even occurring within the past year. Given the rapid pace of development in neuroscience it is likely that there will continue to be new and exciting discoveries about the fundamentals of the human brain for years to come, with exciting global implications. Although much uncertainty remains regarding the fundamentals of how the human brain functions, it is clear that the McGovern Institute will continue to lead the neuroscience research that will unlock the secrets of the human brain.

Ryan C. Maness is a Visiting Fellow of security and resilience studies in the Department of Political Science at Northeastern University. Before that, he was Visiting Professor of International Relations in the Department of Political Science at SUNY at Buffalo State College (2014-2015), Adjunct Professor of International Relations in the Department of Political Science at University of Illinois at Chicago (2014), and Graduate Lecturer in International Relations in the Department of Political Science at University of Illinois at Chicago (2012-2013).

Obtaining his PhD degree in Political Science from University of Illinois at Chicago, Dr. Maness has published peer-reviewed articles in Journal of Peace Research, Armed Forces and Society, and Journal of Slavic Military Studies, as well as in Foreign Affairs. He has recently completed two books, Cyber War versus Cyber Realities: Cyber Conflict in the International System (Oxford University Press, 2015) and Russia’s Coercive Diplomacy: Cyber, Energy and Maritime Power (Palgrave Macmillan, 2015). His main focus is the continuation of an empirical cyber incident and dispute dataset and Russian energy policies in post-Soviet space. His new book project uses content analysis to study the concept of state coercion in cyberspace.

Bill is the Founder and CEO of Minds.com, a free, open-source and encrypted social networking platform and mobile app. He administrates social media pages with millions of followers in the alternative news industry and is active in viral media research. He also is advisor of Code to Inspire, a nonprofit organization focusing on education of Afghan female students for better life, and has served as advisor in developing the open source network Word of Word Capital, a global macro investment company based in New York.

Prior to that, he was Marketing Director at Gathering of the Vibes, an annual music and arts festival. He graduated from University of Vermont.