Events

October 22, 2018

THESIS DEFENSE - In-Home Passive Monitoring for Medical Applications

Zachary Kabelac

MIT-CSAIL

3:00P

- 4:00P

Location

32-G449 Patil-Kiva Conference Room

Add to Calendar 2018-10-22 15:00:00 2018-10-22 16:00:00 America/New_York THESIS DEFENSE - In-Home Passive Monitoring for Medical Applications Abstract: Recent years have witnessed a surge of in-home monitoring and sensing systems. They promise to change healthcare as we know it by continuously monitoring patients at home. Yet, despite all of the interest and effort that has gone into designing these systems, their capabilities are rudimentary and long term retention rates remain low. One of the main reasons for this is that they require the user to either wear or interact with the sensor in order to work effectively. This thesis designs and develops a non-contact in-home health monitoring system that addresses many of the challenges faced by systems today enabling novel applications in both in-home monitoring and healthcare. This system is enabled by innovations in hardware design, signal processing and software algorithms.Refreshments 2:45-3:00pm 32-G449 Patil-Kiva Conference Room Belfer sarah_donahue@hks.harvard.edu

October 23, 2018

Urmila Mahadev: Classical Verification of Quantam Computation

Urmila Mahadev

Part Of

Theory of Computation (TOC) 2018

4:00P

- 5:00P

Location

Patil/Kiva G449

Refreshments

12:00A

Add to Calendar 2018-10-23 16:00:00 2018-10-23 17:00:00 America/New_York Urmila Mahadev: Classical Verification of Quantam Computation Abstract: We present the first protocol allowing a classical computer to interactively verify the result of an efficient quantum computation. We achieve this by constructing a measurement protocol, which enables a classical verifier to use a quantum prover as a trusted measurement device. The protocol forces the prover to behave as follows: the prover must construct an n qubit state of his choice, measure each qubit in the Hadamard or standard basis as directed by the verifier, and report the measurement results to the verifier. The soundness of this protocol is enforced based on the assumption that the learning with errors problem is computationally intractable for efficient quantum machines. Patil/Kiva G449 Belfer sarah_donahue@hks.harvard.edu

Element AI (STL@CSAIL) Tech Talk and Research Showcase

Element AI

4:00P

- 7:00P

Location

4th Floor R&D Commons

Add to Calendar 2018-10-23 16:00:00 2018-10-23 19:00:00 America/New_York Element AI (STL@CSAIL) Tech Talk and Research Showcase SystemsThatLearn@CSAIL member Element AI will be providing technical insights into the research interests and projects being conducted across the company. The Element AI Research team will be presenting a few short technical talks followed by a poster reception highlighting their current research areas and projects. Research will be presented on topics including, explainability, learning theory, domain adaptation, adversarial learning, few shot learning and much more. This event will engage both MIT faculty and students on common research interests and collaborative opportunities.October 23rd 4-7PM: 4th floor R&D Commons, MIT CSAILTech Talk: 4-5PMPoster Session: 5-7PMFood and refreshments will be provided! :)For more information and registration please visit- https://www.eventbrite.com/e/element-ai-tech-talk-and-research-showcase-tickets-50921428363About Element AI:Element AI is an AI solutions and products provider that advances cutting-edge AI research and turns it into scalable products that make businesses safer, stronger, and more agile. Co-founded in 2016 by Jean François Gagné and leading AI researcher Yoshua Bengio in the deep learning hub of Montreal, the company is focused on pioneering an AI-First world by turning the world’s most important AI research into transformative business applications. The company has a deep commitment to advanced research, with a renowned faculty fellow network, the largest privately-owned Canadian artificial intelligence R&D lab, as well as a growing network of leading research partners.TECH TALK- 4-5PM, 4th floor R&D Commons MIT CSAILChief Science Officer and Co-Founder, Dr. Nicolas Chapados will provide an overview on the research directions being investigated within the company and how research is conducted across the fundamental, applied and product teams at Element AI. Research scientist, Karolina Dziugaite from Element AI’s fundamental lab will speak about her recent work focused on constructing generalization bounds to help understand existing learning algorithms and propose new directions. Applied research scientist, Perouz Taslakian from Element AI’s AI Core team will present work and demos on the team’s recent progress on representation learning and vision.Nicolas Chapados - Chief Science Officer and Co-Founder, Element AIKarolina Dziugaite - Research Scientist, Element AIPerouz Taslakian - Applied Research Scientist, Element AIPOSTER SESSION- 5-7PM, 4th floor R&D Commons MIT CSAILFor presenter bios and poster abstracts please visit the eventbrite page: https://www.eventbrite.com/e/element-ai-tech-talk-and-research-showcase-tickets-50921428363Poster Title: Unsupervised Domain Adaptation with Similarity LearningPedro O. Pinheiro - Research Scientist, Element AIPoster Title: Functionality-preserving Adversarial LearningOusmane Dia - Applied Research Scientist, Element AIPoster Title: Deep PriorAlexandre Lacoste - Research Scientist, Element AIPoster Title: TADAM: Task dependent adaptive metric for improved few-shot learningBoris Oreshkin - Research Scientist, Element AIPoster Title: Pix2Scene: Learning Implicit 3D Representations from ImagesDavid Vazquez - Research Scientist, Element AIPoster Title: Revisiting Generalization for Deep LearningKarolina Dziugaite - Research Scientist, Element AIPoster Title: W2GAN: Recovering an Optimal Transport Map with a GANAmjad Almahairi - Research Scientist, Element AI Belfer sarah_donahue@hks.harvard.edu

October 24, 2018

Program Analyses using Newton's Method

Thomas W. Reps

University of Wisconsin and GrammaTech, Inc.

1:00P

- 2:00P

Location

32-G449

Patil/Kiva

Add to Calendar 2018-10-24 13:00:00 2018-10-24 14:00:00 America/New_York Program Analyses using Newton's Method Abstract:Esparza et al. generalized Newton's method -- a numerical-analysisalgorithm for finding roots of real-valued functions -- to a methodfor finding fixed-points of systems of equations over semirings. Theirmethod provides a new way to solve interprocedural dataflow-analysisproblems. As in its real-valued counterpart, each iteration of theirmethod solves a simpler ``linearized'' problem.Because essentially all fast iterative numerical methods are forms ofNewton's method, this advance is exciting because it may provide thekey to creating faster program-analysis algorithms. However, there isan important difference between the dataflow-analysis andnumerical-analysis contexts: when Newton's method is used in numericalproblems, commutativity of multiplication is relied on to rearrange anexpression of the form ``a * X * b + c * X * d'' into ``(a * b + c *d) * X.'' Equations with such expressions correspond to path problemsdescribed by regular languages. In contrast, when Newton's method isused for interprocedural dataflow analysis, the ``multiplication''operation involves function composition, and hence is non-commutative:``a * X * b + c * X * d'' cannot be rearranged into ``(a * b + c * d)* X.'' Equations with the former expressions correspond to pathproblems described by linear context-free languages (LCFLs).This talk will present a surprising method for solving the LCFLsub-problems produced during successive rounds of Newton's method. Themethod applies to predicate abstraction, on which most of today'ssoftware model checkers rely, as well as to other abstract domainsused in program analysis.The talk should be accessible to undergraduates: it relies on a fewresults taught in an undergraduate automata-theory class, but allother concepts needed will be introduced in the talk.Joint work with Emma Turetsky and Prathmesh Prabhu.Bio:Thomas W. Reps is the J. Barkley Rosser Professor & Rajiv and Ritu Batra Chair in the Computer Sciences Department of the University of Wisconsin, which he joined in 1985. Reps is the author or co-author of four books and more than two hundred papers describing his research (see http://www.cs.wisc.edu/~reps/). His work has concerned a wide variety of topics, including program slicing,dataflow analysis, pointer analysis, model checking, computer security, code instrumentation, language-based program-development environments, the use of program profiling in software testing, software renovation, incremental algorithms, and attribute grammars.Refreshments: 12:45pm 32-G449 Belfer sarah_donahue@hks.harvard.edu

Solving Applied Graph Theory Problems in the JuliaGraphs ecosystem

James Fairbanks

Georgia Tech Research Institute

2:30P

- 3:30P

Location

Seminar Room G449 (Patil/Kiva)

Add to Calendar 2018-10-24 14:30:00 2018-10-24 15:30:00 America/New_York Solving Applied Graph Theory Problems in the JuliaGraphs ecosystem AbstractAnalyzing connected data sets such as social networks, electrical grids, and biological networks requires running complex algorithms on graph data structures. We will discuss graph algorithms as simple as breadth first search to advanced algorithms such as community detection, unsupervised clustering, and semisupervised learning with belief propagation. High performance implementations of these algorithms cannot be easily written in traditional high level languages, but can be written in Julia due to novel programming language properties. I’ll speak about recent research in applied graph theory and its relationship to the two language problem and discuss how the JuliaGraphs ecosystem tackles these problems. This enables further expansions of data science research in diverse applications.BioJames Fairbanks earned his PhD at Georgia Tech in 2016 and is a Research Engineer at the Georgia Tech Research Institute. He studies Data Analysis and High Performance Computing and applications in healthcare, social science, and national security. He has studies social media modeling combining numerical, statistical, and streaming algorithms for graph analysis. James has conducted research at government, academic, and national lab institutions. He is also a core maintainer of the Julia package LightGraphs which is integrated in the commercial product JuliaPro, and has been used in research projects in systems biology, mathematical optimization, and other scientific domains. Seminar Room G449 (Patil/Kiva) Belfer sarah_donahue@hks.harvard.edu

TBA

TBA

4:00P

- 5:00P

Location

Refreshments

12:00A

Add to Calendar 2018-10-24 16:00:00 2018-10-24 17:00:00 America/New_York TBA Belfer sarah_donahue@hks.harvard.edu

AI in the Life Sciences: Next Generation Analytics Platforms

Joseph Gormley

Tufts Medical Center Clinical and Translational Sciences Institute

4:00P

- 5:00P

Location

32-G882

Hewlett Room

Add to Calendar 2018-10-24 16:00:00 2018-10-24 17:00:00 America/New_York AI in the Life Sciences: Next Generation Analytics Platforms This talk will present a software engineering initiative to develop better tools for multiscale modeling of chemical, biological and clinical systems. A major objective of the initiative is to increase the use of AI and machine learning technologies to discover and characterize complex biological mechanisms driving health and illness. There will be an exploratory discussion on the use of multiscale OMIC data sets, deep learning algorithms to support chemical characterization, biomarker discovery and drug development, and an exploratory discussion on the use of graph databases for reasoning over molecular data.Students interested in the use of AI in the Life Sciences are particularly encouraged to attend as 2019 software engineering and informatics internship opportunities will be discussed.Joseph Gormley is Director of Advanced Systems Development at Tufts Medical Center (TMC) Clinical and Translational Sciences Institute (CTSI) 32-G882 Belfer sarah_donahue@hks.harvard.edu

Hot Topics in Computing - Challenges and Opportunities for Self-Driving Cars

John Leonard

MIT CSAIL

Part Of

Hot Topics in Computing

5:15P

- 6:15P

Location

32-G449/Patil Conference Room

Add to Calendar 2018-10-24 17:15:00 2018-10-24 18:15:00 America/New_York Hot Topics in Computing - Challenges and Opportunities for Self-Driving Cars We will describe some of the challenges and opportunities in autonomy research today, with a focus on trends and lessons in self-driving car research.  We will discuss some of the major challenges and research opportunities in self-driving, including building and maintaining high-resolution maps, interacting with humans both inside and outside of vehicles, dealing with adverse weather, and achieving sufficiently high detection with low probabilities of false alarms in challenging settings.  We will discuss the promise of Deep Learning and the opportunities of developing Parallel Autonomy systems, in which highly automated algorithms operates in parallel with human operators, with the aim of achieving the best of both human and autonomous control. John J. Leonard is Samuel C. Collins Professor of Mechanical and Ocean Engineering in the MIT Department of Mechanical Engineering. He is also a member of the MIT Computer Science and Artificial Intelligence Laboratory (CSAIL). His research addresses the problems of navigation and mapping for autonomous mobile robots. He holds the degrees of B.S.E.E. in Electrical Engineering and Science from the University of Pennsylvania (1987) and D.Phil. in Engineering Science from the University of Oxford (1994). He is an IEEE Fellow (2014). Professor Leonard is currently on sabbatical leave from MIT serving as Vice President for Autonomous Driving Research at Toyota Research Institute, where he is performing research to improve vehicle safety using autonomous driving technologies. 32-G449/Patil Conference Room Belfer sarah_donahue@hks.harvard.edu

October 26, 2018

Urmila Mahadev (Berkeley): Classical Homomorphic Encryption for Quantum Circuits

Urmila Mahadev

Part Of

Cryptography and Information Seminar (CIS) 2018

10:30A

- 12:00P

Location

Hewlett, G882

Refreshments

12:00A

Add to Calendar 2018-10-26 10:30:00 2018-10-26 12:00:00 America/New_York Urmila Mahadev (Berkeley): Classical Homomorphic Encryption for Quantum Circuits Abstract: We present the first leveled fully homomorphic encryption scheme for quantum circuits with classical keys. The scheme allows a classical client to blindly delegate a quantum computation to a quantum server: an honest server is able to run the computation while a malicious server is unable to learn any information about the computation. We show that it is possible to construct such a scheme directly from a quantum secure classical homomorphic encryption scheme with certain properties. Finally, we show that a classical homomorphic encryption scheme with the required properties can be constructed from the learning with errors problem. Hewlett, G882 Belfer sarah_donahue@hks.harvard.edu

Body-Brain Interface: Neuroanatomical and Functional Insights from the Primate Insular Cortex

Henry Evrard

Head of Research Group, CIN Functional and Comparative Neuroanatomy, Werner Reichardt Center for Integrative Neuroscience, Max Planck Institute for Biological Cybernetics

4:00P

- 5:00P

Location

46-3002

Singleton Auditorium, 3rd Fl., MIT Bldg. 46, 43 Vassar Street, Cambridge MA 02139

Refreshments

12:00A

Add to Calendar 2018-10-26 16:00:00 2018-10-26 17:00:00 America/New_York Body-Brain Interface: Neuroanatomical and Functional Insights from the Primate Insular Cortex Abstract: Interoception substantiate embodied feelings and shape cognitive processes including perceptual awareness. My lab combines architectonics, tract-tracing, electrophysiology, direct electrical stimulation fMRI (DES-fMRI), neural event triggered fMRI (NET-fMRI) and optogenetics in the macaque monkey in order to examine the neuroanatomical and functional organization of the insular cortex, one of the key central interface of bodily and brain states. Our anatomical examination revealed that the insular cortex is anatomically organized according to a refined and high-consistent modular Bauplan where architectonics and hodology perfectly overlap. Hodological and functional examinations suggest that the insula contains a granular-to-dysgranular-to-agranular processing flow where interoceptive afferents are progressively integrated with self-agency and socially relevant activities from other parts of the brain, until reaching an ultimate representation of instantaneous physiological states in the anterior insula. The anterior insula contains distinct areas that have each specific projections. One of these areas specifically contains the atypical spindle-shaped von Economo neuron (VEN). A relatively high proportion of VEN projects to distant preautonomic midbrain regions. Recording and stimulation in the 'VEN area' confirmed the connection with these regions and highlighted prominent functional relations to high-order cortical areas, supporting the idea that the VEN area could serve as hub for the simultaneous interoceptive shaping of polymodal perceptual experience and high-order regulation of bodily states. 46-3002 Belfer sarah_donahue@hks.harvard.edu

October 31, 2018

Securing the Enterprise, A Cybsecurity Conference

8:00A

- 6:00P

Location

Building E51, MIT's Wong Auditorium, The Tang Center, 2 Amherst Street, Cambridge, MA 02142

Refreshments

12:00A

Add to Calendar 2018-10-31 8:00:00 2018-10-31 18:00:00 America/New_York Securing the Enterprise, A Cybsecurity Conference Securing the Enterprise: What’s NextCyber-attacks are threatening organizations and governments’ critical infrastructure. As researchers and industry leaders work diligently to develop new technologies and strategies that thwart these attacks, cyber criminals are becoming increasingly more innovative. Sophisticated threats have elevated cyber security to a boardroom issue, impacting public and private organizations across all sectors. Security is no longer about just locking down networks.MIT CSAIL, with the support of BT, is bringing together global security professionals, government officials and world-renowned researchers for an important discussion on the current and future threat landscape.We’ll explore the latest cutting-edge research out of MIT coupled with insights from industry leaders and government officials who are in the field developing and implementing technologies and strategies needed to protect organizations. We will finish with an important discussion on new cyber policies coming out of Washington and look more closely at what executives need to be paying attention to domestically and internationally.For more information, please visit: securingtheenterprise.csail.mit.edu/Registration InformationAs a member of the CSAIL community, we extend a personal invitation for you to attend and receive complimentary admission to the conference. To help us with event logistics we are asking all MIT faculty, staff and students to register at https://www.regonline.com/securingtheenterprise. Use access code Enterprise2018 to access the site. Please use your MIT email address when registering. There is no cost to attend, however, your card will be charged $25 if you do not attend the event without notification. Please notify industry@csail.mit.edu or update your registration by 10/30 and you will not be charged for the cancellation. Building E51, MIT's Wong Auditorium, The Tang Center, 2 Amherst Street, Cambridge, MA 02142 Belfer sarah_donahue@hks.harvard.edu

Artificial Intelligence: Implications for Business Strategy Online Course Starts

9:00A

- 9:30A

Location

Online Course

Refreshments

12:00A

Add to Calendar 2018-10-31 9:00:00 2018-10-31 9:30:00 America/New_York Artificial Intelligence: Implications for Business Strategy Online Course Starts What is artificial intelligence (AI)? What does it mean for business? And how can your company take advantage of it? This online program, designed by the MIT Sloan School of Management and the MIT Computer Science and Artificial Intelligence Laboratory (CSAIL), will help you answer these questions.Focusing on key AI technologies, such as machine learning, natural language processing, and robotics, the course will help you understand the implications of these new technologies for business strategy, as well as the economic and societal issues they raise. MIT expert instructors examine how artificial intelligence will complement and strengthen our workforce rather than just eliminate jobs. Additionally, the program will emphasize how the collective intelligence of people and computers together can solve business problems that not long ago were considered impossible.Faculty:Daniela Rus, Faculty Co-Director and Director, MIT CSAILTom Malone, Faculty Co-Director and Professor, MIT Sloan School of ManagementRegina Barzilay, Professor, MIT CSAILPatrick Winston, Professor, MIT CSAIL Online Course Belfer sarah_donahue@hks.harvard.edu

Parallel Binary Trees Using Just Join

Yihan Sun

Carnegie Mellon University

2:00P

- 3:00P

Location

32-G882

32-G882

Refreshments

1:45P

Add to Calendar 2018-10-31 14:00:00 2018-10-31 15:00:00 America/New_York Parallel Binary Trees Using Just Join Abstract:Tree structures play an important role in almost every area in computer science. Nowadays the explosion of data puts forward a higher demand for the performance of the trees, which requires parallelism, concurrency, work-efficiency, and full-featured interface.Our work proposes a parallel tree structure, which bases a full-featured interface on a single operation Join. The join operation captures all balancing criteria, enables parallelism and work-efficiency, deals with a variety of augmentations, and implements persistence. As a result, our tree structure is highly-parallelized, safe for concurrency, theoretically work-efficient, supporting a wide range of functions and augmentations, multi-versioned and allowing efficient GC. Because of these good properties, our tree structure is applicable to many applications, such as many geometric algorithms, inverted index searching, HTAP (Hybrid Transactional and Analytical Processing) database systems with snapshot isolation, multi-version concurrency control for transactional memories, etc.We implemented the tree structure in a C++ library PAM, based on which we implemented all the mentioned applications. PAM’s interface greatly simplifies programming over direct implementations. Using PAM, each application mentioned above only needs about 100 lines of code. Besides simplicity, experiments also show that our implementations are practically efficient. Our code achieves performance that matches or exceeds existing libraries designed specially for a single application, both sequentially and in parallel. The parallel speedup ranges from 40 to 100 on 72 cores with 2-way hyperthreading.Bio:Yihan Sun is currently a Ph.D. student in Computer Science Department at Carnegie Mellon University, advised by Guy Blelloch. Prior to that, she received her Bachelor’s degree in Computer Science from Tsinghua University, working on data mining and social network analysis. Her research interests broadly lie in the theory and practice of parallel algorithms, data structures, as well as their implementations and applications. 32-G882 Belfer sarah_donahue@hks.harvard.edu

TBA

Emma Brunskill

Stanford University

4:00P

- 5:00P

Location

Refreshments

12:00A

Add to Calendar 2018-10-31 16:00:00 2018-10-31 17:00:00 America/New_York TBA Belfer sarah_donahue@hks.harvard.edu

Towards Better Reinforcement Learning for High Stakes Domains

Emma Brunskill

Stanford University

4:30P

- 5:30P

Location

34-101

Refreshments

12:00A

Add to Calendar 2018-10-31 16:30:00 2018-10-31 17:30:00 America/New_York Towards Better Reinforcement Learning for High Stakes Domains Abstract:There is increasing excitement about reinforcement learning-- a subarea of machine learning for enabling an agent to learn to make good decisions. Yet numerous questions and challenges remain for reinforcement learning to help support progress in important high stakes domains like education, consumer marketing and healthcare. One key question is how to leverage the ever expanding logs of sequences of decisions made and their outcomes to identify better decision policies, such as using electronic medical record data to inform better personalized patient treatments. I will discuss some of our work on developing better statistical estimators and optimizers for this problem, from the vantage point of a reinforcement learning researcher. A second key issue is to narrow the gap between RL theory and experiment, to create online reinforcement learning algorithms with strong guarantees on their performance. In this effort, I will briefly describe our recent work on policy certificates for RL algorithms. This work is a step towards providing the types of guarantees and transparency that will enable us to confidently deploy RL in important high stakes scenarios.Bio:Emma Brunskill is an assistant professor in the Computer Science Department at Stanford University where she leads the AI for Human Impact (@ai4hi) group. Her work focuses on reinforcement learning in high stakes scenarios-- how can an agent learn from experience to make good decisions when experience is costly or risky, such as in educational software, healthcare decision making, robotics or people-facing applications. She was previously on faculty at Carnegie Mellon University. She is the recipient of a multiple early faculty career awards (National Science Foundation, Office of Naval Research, Microsoft Research) and her group has received several best research paper nominations (CHI, EDMx2) and awards (UAI, RLDM). 34-101 Belfer sarah_donahue@hks.harvard.edu

November 02, 2018

TBA

Jorge Cardoso

King's College London

11:00A

- 12:00P

Location

32-D507

Add to Calendar 2018-11-02 11:00:00 2018-11-02 12:00:00 America/New_York TBA 32-D507 Belfer sarah_donahue@hks.harvard.edu

AIM: Amplifying Intelligence in Mobile Networks

Chunyi Peng

2:00P

- 3:00P

Location

32-D463 STAR CONFERENCE ROOM

Add to Calendar 2018-11-02 14:00:00 2018-11-02 15:00:00 America/New_York AIM: Amplifying Intelligence in Mobile Networks 4G/5G mobile network plays a vital role in offering ubiquitous Internet access for billions of global users and trillions of IoTs. In contrast to its importance, its networking research has been largely overlooked. R&D efforts mainly lie above (TCP/App optimization) or below it (advanced wireless and raw system capabilities). In this talk, I will introduce a new perspective to innovate 4G/5G network. Rather than simply growing raw capabilities, we aim to exploit such capabilities to its full potentials in a software approach. We envision that mobile network should be open and intelligent. It should be able to learn what goes on and reason why it happens at runtime, and thus make it possible to elevate all aspects of system performance, fault tolerance, and security to the next higher level. To fulfill this vision, we have to overcome three long-standing technical barriers: (1) mobile networks are largely closed. It still performs black-box operations, accessible only to operators and telecom vendors, not friendly to users and researchers. (2) Their software stack is much more complex than the Internet, which is mostly an engineering artifact from decades of efforts and lacks scientific rigor. (3) Control functions are mandated primarily from the infrastructure side and devices act as a rather passive role despite increasing power. We break up all three barriers with a new data-driven, device-centric, software-defined approach. First, we have opened up data-driven mobile network analytics by designing and developing MobileInsight, the first open-source tool to collect full-stack network data at runtime and construct protocol analytics and inference at the phone, without assistance from operators. Second, we have empowered learning and reasoning functions with network verification to assert correctness and provable properties by design. Finally, we make full use of device capabilities available but unexplored to open up ample solution space of exploring device-based, rather than infrastructure-centric, approaches to 4G/5G. I will present several interesting showcase studies to demonstrate benefits and promising potentials of such mobile network intelligence. Bio:Chunyi Peng is an Assistant Professor in the Department of Computer Science at Purdue University. Previously, she was an Assistant Professor in the Dept. of Computer Science and Engineering at the Ohio State University between 2013 and 2017 after I received my Ph.D. in Computer Science at University of California, Los Angeles in 2013. Prior to UCLA, she worked as an Associate/Assistant Research at Wireless Networking Group at Microsoft Research Asia. She is a recipient of NSF CAREER award and receives Best Community Paper award at MobiCom’17 and MobiCom’16, CNS’18 Best Paper Award and several best demo awards. Her research interests are on the broad areas of mobile networking, system and security, with a focus on 5G/4G/3G cellular networks, mobile sensing and network security. More information can be found at her homepage: https://www.cs.purdue.edu/homes/chunyi/ 32-D463 STAR CONFERENCE ROOM Belfer sarah_donahue@hks.harvard.edu

November 05, 2018

Software Exploitation: Hardware is the New Black

Cristiano Giuffrida

Vrije Universiteit, Amsterdam

3:00P

- 4:00P

Location

32-G882

Add to Calendar 2018-11-05 15:00:00 2018-11-05 16:00:00 America/New_York Software Exploitation: Hardware is the New Black What would the world be like if software had no bugs? Software systemswould be impenetrable and our data shielded from prying eyes? Notquite. In this lecture, I will present evidence that reliable attackstargeting even "perfect" software are a realistic threat. Such attacksexploit properties of modern hardware to completelysubvert a system, even in absence of software or configuration bugs.To substantiate this claim, I will illustrate practical attacks inreal-world systems settings, such as browsers, clouds, and mobile. Theimplications are worrisome. Even bug-free (say formally verified)software can be successfully targeted by a relatively low-effortattacker. Moreover, state-of-the-art security defenses, which haveproven useful to raise the bar against traditional softwareexploitation techniques, are completely ineffective against suchattacks. It is time to revisit our assumptions on realisticadversarial models and investigate defenses that consider threats inthe entire hardware/software stack. Pandora's box has been opened. Belfer sarah_donahue@hks.harvard.edu

November 07, 2018

TBA

TBA

4:00P

- 5:00P

Location

Refreshments

12:00A

Add to Calendar 2018-11-07 16:00:00 2018-11-07 17:00:00 America/New_York TBA Belfer sarah_donahue@hks.harvard.edu

November 08, 2018

AI and the Future of Work Congress

Hosted by MIT CSAIL and MIT IDE

8:00A

- 4:30P

Location

Kresge Auditorium

Refreshments

12:00A

Add to Calendar 2018-11-08 8:00:00 2018-11-08 16:30:00 America/New_York AI and the Future of Work Congress MIT’s Computer Science and Artificial Intelligence Lab (CSAIL) and The Initiative on the Digital Economy (IDE) are joining forces to host the 2nd annual AI and the Future of Work Congress.Driven by an artificial intelligence revolution and new talent models, work is rapidly changing. Daily, jobs and the skills needed to be successful in the workplace are being reinvented.With headlines like, “Will Robots and AI Take Your Job” and “Automation Is the Greatest Threat to the American Worker, Not Outsourcing”, the future of work is uncertain and daunting for many across the globe.Join academics, corporate leaders and public policy makers as we get to the the truth behind these headlines and explore the opportunities and challenges ahead for organizations.Registration InformationMIT community members receive complimentary tickets. Contact carrie1@mit.edu to receive the access code.For audiences not affiliated with MIT, please register at: http://bit.ly/MITFutureofWork2018.Use code FOW20 to receive 20% off registration.For more information, please visit: futureofwork.mit.edu Kresge Auditorium Belfer sarah_donahue@hks.harvard.edu

mjp testing

12:00P

- 1:00P

Location

Refreshments

12:00A

Add to Calendar 2018-11-08 12:00:00 2018-11-08 13:00:00 America/New_York mjp testing Belfer sarah_donahue@hks.harvard.edu

November 14, 2018

TBA

TBA

4:00P

- 5:00P

Location

Refreshments

12:00A

Add to Calendar 2018-11-14 16:00:00 2018-11-14 17:00:00 America/New_York TBA Belfer sarah_donahue@hks.harvard.edu

TBA

Sasha Rakhlin

MIT IDSS

4:30P

- 5:30P

Location

32-155

Refreshments

12:00A

Add to Calendar 2018-11-14 16:30:00 2018-11-14 17:30:00 America/New_York TBA 32-155 Belfer sarah_donahue@hks.harvard.edu

November 19, 2018

Tutorial: Constraint Processing and Probabilistic Reasoning from a Graphical Models Perspective

Rina Dechter

UC Irvine

3:00P

- 5:00P

Location

32-G882

Add to Calendar 2018-11-19 15:00:00 2018-11-19 17:00:00 America/New_York Tutorial: Constraint Processing and Probabilistic Reasoning from a Graphical Models Perspective Abstract:Constraint networks and Bayesian network can be viewed within the general framework of graphical models which includes also Markov random fields, cost networks and influence diagrams. Graphical models are knowledge representation schemes that capture independencies in the knowledge base and support efficient, graph-based algorithms for a variety of tasks, including scheduling, planning, diagnosis and situation assessment, design, andhardware and software verification. Algorithms for processing constraints and probabilistic models are of two primary types:inference-based and search-based and they support exact and approximate algorithms. Exact Inference (e.g., variable elimination, join-tree clustering) are time and space exponentially boundedby the tree-width of the problem's graph. Exact Search-based algorithms (e.g., backtracking search) can be executed in linear space and often outperform their worst-case predictions. Constraint propagation schemes that approximate inference, can be applied with a bounded time and space. Likewise stochastic scheme (e.g, local search and sampling schemes) can be interpreted as approximate full search. The thrust of advanced schemes is in finding the right balance between search and inference within a hybrid scheme.The tutorial will present the algorithmic principles behind the progress that has been made in the past decades in constraint processing and probabilistic reasoning for answering a variety of queries such as: determining consistency and finding one or all solutions, finding optimal solutions and answering likelihood and counting queries. Complexity analysis and empirical demonstration will be presented on variety of benchmarks. Example benchmarks include radio-frequency problems, linkage analysis, combinatorial auctions, and coding networks.Bio:Rina Dechter is a professor of Computer Science at the University of California, Irvine. She received her PhD in Computer Science at UCLA in 1985, an MS degree in Applied Mathematic from the Weizmann Institute and a B.S in Mathematics and Statistics from the Hebrew University, Jerusalem. Her research centers on computational aspects of automated reasoning and knowledge representation including search, constraint processing and probabilistic reasoning. Professor Dechter is an author of Constraint Processing published by Morgan Kaufmann, 2003, has authored over 150 research papers, and has served on the editorial boards of: Artificial Intelligence, the Constraint Journal, Journal of Artificial Intelligence Research and Logical Method in Computer Science (LMCS). She was awarded the Presidential Young investigator award in 1991, is a fellow of the American association of Artificial Intelligence since 1994, was a Radcliffe Fellowship 2005-2006 and received the 2007 Association of Constraint Programming (ACP) research excellence award. She has been Co-Editor-in-Chief of Artificial Intelligence, since 2011. Belfer sarah_donahue@hks.harvard.edu