MIT community members elected to the National Academy of Engineering for 2024

MIT community members elected to the National Academy of Engineering for 2024

Two MIT faculty, a principal staff member of MIT Lincoln Laboratory, and 13 additional alumni are among the 114 new members and 21 international members elected to the National Academy of Engineering (NAE) on Feb. 6.

One of the highest professional distinctions for engineers, membership to the NAE is given to individuals who have made outstanding contributions to “engineering research, practice, or education, including, where appropriate, significant contributions to the engineering literature” and to “the pioneering of new and developing fields of technology, making major advancements in traditional fields of engineering, or developing/implementing innovative approaches to engineering education.”

The three MIT electees this year include:

Marc Baldo, the Dugald C. Jackson Professor in Electrical Engineering in the Department of Electrical Engineering and Computer Science and director of the Research Laboratory of Electronics, was honored for efficient light-emitting diodes for the modern display industry. Baldo conducts research in the areas of light-emitting devices and solar cells, electrical and exciton transport in organic materials, exciton fission and fusion, chemical sensors, and spintronics.

Jacopo Buongiorno, the Tokyo Electric Power Company Professor in Nuclear Engineering in the Department of Nuclear Science and Engineering, director of the Center for Advanced Nuclear Energy Systems (CANES), and director of science and technology of the MIT Nuclear Reactor Laboratory, was honored for his work on nuclear reactor safety, advanced nuclear power development, and community outreach. He has published over 100 journal articles on reactor safety and design, two-phase flow and heat transfer, and nanofluid technology.

Hsiao-hua K. Burke, a principal staff member in the Air, Missile, and Maritime Defense Technology Division at MIT Lincoln Laboratory, was honored for technology and leadership in remote sensing techniques and systems for ballistic missile defense and space systems. Burke has held several leadership positions since joining the lab in 1981 and helped to support the development of integrated ballistic missile defense systems for the Missile Defense Agency, air defense systems for the Navy, and prototype sensor development and data exploitation for intelligence programs. For her involvement with the Lincoln Laboratory Technical Women’s Network, Burke received a 2010 MIT Excellence Award for Fostering Diversity and Inclusion.

Thirteen additional alumni were elected to the National Academy of Engineering this year. They are: Nancy Lynn Allbritton PhD ’87; Antonio Conejo MS ’87; Shanhui Fan PhD ’97; Dario Gil SM ’00, PhD ’03; Gargi Maheshwari PhD ’99; Daniel A. Nolasco SM ’01; Constantinos Pantelides SM ’83; Maureen Fahey Reitman ’90, SCD ’93; Admiral John Michael Richardson EE ’89, Eng ’89, SM ’89; Raj N. Singh ScD ’73; Sven Treitel ’53, SM ’55, PhD ’58; Steven D. Weiner SM ’00; and Jeannette M. Wing ’78, SM ’79, PhD ’83.

“I offer heartfelt congratulations to Marc, Jacopo, Hsiao-hua, and the 13 MIT alumni elected to the National Academy of Engineering this year. This well-deserved recognition is a testament to the substantial impact of their contributions across fields,” says Anantha Chandrakasan, the dean of the MIT School of Engineering and the Vannevar Bush Professor of Electrical Engineering and Computer Science.

Including this year’s inductees, 172 members of the National Academy of Engineering are current or retired members of the MIT faculty and staff, or members of the MIT Corporation.

Atomos Releases AtomOS11 and Feature Packs for the Ninja V / V+ – Videoguys

Atomos Releases AtomOS11 and Feature Packs for the Ninja V / V+ – Videoguys

Atomos Ninja V and Ninja V+ users now have access to the latest AtomOS 11 update, bringing a refreshed user interface to their monitor-recorders. Unlocking new features requires purchasing a separate Feature Pack. These Feature Packs are available at a limited-time offer of $79 USD for Ninja V and $129 USD for Ninja V+. With this update, Atomos is signaling a shift away from supporting AtomOS 10, possibly necessitating users to transition to AtomOS 11 for future firmware updates.

Ninja V Feature Pack includes:

  • EL ZONE
  • ARRI False Color
  • SegmentPro
  • PlaybackAssist
  • RecordAssist
  • Wi-Fi 6

Ninja V+ Feature Pack includes:

  • EL ZONE
  • ARRI False Color
  • SegmentPro
  • PlaybackAssist
  • RecordAssist
  • Wi-Fi 6E
  • ProRes RAW Dual Record
  • SDI Cine

The Feature Packs not only unlock new functionalities but also include valuable additions such as H.265 and ProRes RAW Codecs, which individually would typically cost users $198 USD. This ensures that users get comprehensive enhancements to their Ninja devices, enhancing their workflow and capabilities. Furthermore, until the end of March 2024, existing Ninja monitor-recorder owners can take advantage of a special offer to purchase Atomos Connect for $99 USD, excluding local sales taxes, providing additional connectivity options for their setups.

For those investing in Atomos connected monitor-recorders like the Zato Connect, Shogun, or Shogun Ultra, registering the device brings additional benefits. Upon registration, purchasers can access a complimentary 6-month Camera to Cloud plan on Atomos Cloud Studio, a service valued at $15 USD per month. This offer underscores Atomos’s commitment to providing value-added services and ensuring users maximize the potential of their equipment. Stay informed and make the most of these offerings to elevate your Atomos experience and stay ahead in your creative endeavors.

Read the full article by Matthew Allard for NewsShooter HERE


PTZOptics PTZ Cameras Transform Worship Streaming Experience – Videoguys

PTZOptics PTZ Cameras Transform Worship Streaming Experience – Videoguys

In the bustling world of church production, finding reliable, versatile equipment is paramount. Bethany Place Baptist Church in Chesterfield, Virginia, discovered the transformative power of PTZOptics cameras early on. With a commitment to quality and budget-conscious decisions, the church opted for PTZOptics cameras over manned alternatives, relying on these robust units for all their streaming needs.

Andrew Ryan, a dedicated volunteer on the production team at Bethany Place Baptist Church, attests to the unwavering performance of PTZOptics cameras. “We have never had an issue with them,” Ryan emphasizes. “They’re rock solid. They connect easily. Everything is controlled over IP.” The seamless integration with multiple streaming software and the user-friendly PTZ function via the web interface make these cameras a standout choice for churches relying on volunteer staff.

As part of Church Production’s Road Test User Experience, Bethany Place had the opportunity to test the new Move 4K cameras and SuperJoy Controller from PTZOptics. Ryan praises the solidity of these units, noting their resilience to vibrations, a crucial aspect in a dynamic church environment. The strategic placement of the cameras allowed for seamless transitions between different shots, enhancing the visual narrative of the services.

The plug-and-play nature of the cameras, coupled with features like NDI compatibility and 30X zoom capability, impressed Ryan and his team. “The 30X zoom is wonderful,” Ryan enthuses, highlighting its utility across various room sizes. Moreover, the potential for 4K recording and streaming opens doors for future expansion and growth, aligning perfectly with Bethany Place’s vision.

Ryan also shares insights into the SuperJoy Controller, commending its intuitive design and user-friendly features. The oversized focus and exposure knobs, along with precise PTZ control, streamline the production process, empowering volunteers to deliver professional-quality content effortlessly. Features like focus lock and exposure controls further enhance flexibility and adaptability, ensuring optimal performance in diverse lighting conditions.

From worship services to choir concerts, PTZOptics cameras have proven their versatility in countless applications at Bethany Place Baptist Church. “At this point, they work basically in any application, in any lighting,” Ryan confirms, underscoring the reliability and adaptability of these cameras.

In conclusion, Bethany Place Baptist Church’s journey with PTZOptics cameras exemplifies the transformative impact of innovative technology in the realm of church production. With steadfast performance, intuitive controls, and unparalleled versatility, PTZOptics cameras continue to elevate the worship experience, one frame at a time.

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Read the full blog post by Deidra Blackmore for ChurchProduction HERE


NETGEAR Partners with Panasonic for KAIROS SMPTE ST2110 Compatibility – Videoguys

NETGEAR Partners with Panasonic for KAIROS SMPTE ST2110 Compatibility – Videoguys

NETGEAR® Inc. has revealed a groundbreaking interoperability collaboration with Panasonic Connect for the KAIROS IT/IP Platform, designed for live production. This partnership aims to provide advanced AV-over-IP solutions tailored to the broadcast and Pro AV industries, with a focus on flexibility, simplicity, and performance.

The KAIROS IT/IP Platform offers professionals unprecedented control over content delivery for various applications such as broadcast, large screen displays, and live streams. With the addition of ST 2110 to its existing baseband and streaming connectivity, KAIROS offers unmatched input/output flexibility, complemented by GPU/CPU processing capabilities. Its intuitive layer-based interface and robust content creation tools promise a seamless user experience, ensuring quick adaptation and efficient production workflows.

NETGEAR’s M4250, M4300, M4350, and M4500 series managed switches stand out in the industry with their AV-centric interface. The innovative NETGEAR AV OS™ simplifies switch configurations by eliminating complex IT network jargon, offering a template-based approach instead. This streamlined workflow empowers integrators and installers to embark on projects confidently, knowing that network settings align perfectly with their desired workflows, thereby reducing setup time and enhancing overall efficiency.

The M4350 series exemplifies this simplicity by integrating enterprise-class hardware features such as redundant power supplies, Power over Ethernet (PoE) with up to 90W per port, ultra-quiet fans, and easy setup managed through the NETGEAR Engage™ Controller. Moreover, the revolutionary NETGEAR AV OS™ comes pre-configured with profiles for major audio, video, and lighting protocols, including AVB, Dante, AES67, NDI4/NDI5, NVX, and many more. Notably, SMPTE ST 2110 support is available on select models with 10G to 100G ports and PTP synchronization, further enhancing interoperability and performance.

Tod Musgrave, senior broadcast BDM at NETGEAR, emphasized the significance of this partnership in simplifying the transition from legacy to IP workflows for Broadcast Pro AV engineers, citing the Panasonic KAIROS system as an ideal platform to demonstrate their interoperability capabilities. Likewise, Kageyuki (Kenny) Fujimoto, lead manager of KAIROS Alliance Partners, expressed excitement about welcoming NETGEAR as a KAIROS alliance partner, highlighting the user-friendly design and template-based configurations of the M4350 series as potential catalysts for expanding SMPTE ST 2110 adoption in the video production market.

Read the full Press Release HERE


A new way to let AI chatbots converse all day without crashing

A new way to let AI chatbots converse all day without crashing

When a human-AI conversation involves many rounds of continuous dialogue, the powerful large language machine-learning models that drive chatbots like ChatGPT sometimes start to collapse, causing the bots’ performance to rapidly deteriorate.

A team of researchers from MIT and elsewhere has pinpointed a surprising cause of this problem and developed a simple solution that enables a chatbot to maintain a nonstop conversation without crashing or slowing down.

Their method involves a tweak to the key-value cache (which is like a conversation memory) at the core of many large language models. In some methods, when this cache needs to hold more information than it has capacity for, the first pieces of data are bumped out. This can cause the model to fail.

By ensuring that these first few data points remain in memory, the researchers’ method allows a chatbot to keep chatting no matter how long the conversation goes.

The method, called StreamingLLM, enables a model to remain efficient even when a conversation stretches on for more than 4 million words. When compared to another method that avoids crashing by constantly recomputing part of the past conversations, StreamingLLM performed more than 22 times faster.

This could allow a chatbot to conduct long conversations throughout the workday without needing to be continually rebooted, enabling efficient AI assistants for tasks like copywriting, editing, or generating code.

“Now, with this method, we can persistently deploy these large language models. By making a chatbot that we can always chat with, and that can always respond to us based on our recent conversations, we could use these chatbots in some new applications,” says Guangxuan Xiao, an electrical engineering and computer science (EECS) graduate student and lead author of a paper on StreamingLLM.

Xiao’s co-authors include his advisor, Song Han, an associate professor in EECS, a member of the MIT-IBM Watson AI Lab, and a distinguished scientist of NVIDIA; as well as Yuandong Tian, a research scientist at Meta AI; Beidi Chen, an assistant professor at Carnegie Mellon University; and senior author Mike Lewis, a research scientist at Meta AI. The work will be presented at the International Conference on Learning Representations.

A puzzling phenomenon

Large language models encode data, like words in a user query, into representations called tokens. Many models employ what is known as an attention mechanism that uses these tokens to generate new text.

Typically, an AI chatbot writes new text based on text it has just seen, so it stores recent tokens in memory, called a KV Cache, to use later. The attention mechanism builds a grid that includes all tokens in the cache, an “attention map” that maps out how strongly each token, or word, relates to each other token.

Understanding these relationships is one feature that enables large language models to generate human-like text.

But when the cache gets very large, the attention map can become even more massive, which slows down computation.

Also, if encoding content requires more tokens than the cache can hold, the model’s performance drops. For instance, one popular model can store 4,096 tokens, yet there are about 10,000 tokens in an academic paper.

To get around these problems, researchers employ a “sliding cache” that bumps out the oldest tokens to add new tokens. However, the model’s performance often plummets as soon as that first token is evicted, rapidly reducing the quality of newly generated words.

In this new paper, researchers realized that if they keep the first token in the sliding cache, the model will maintain its performance even when the cache size is exceeded.

But this didn’t make any sense. The first word in a novel likely has nothing to do with the last word, so why would the first word be so important for the model to generate the newest word?

In their new paper, the researchers also uncovered the cause of this phenomenon.

Attention sinks

Some models use a Softmax operation in their attention mechanism, which assigns a score to each token that represents how much it relates to each other token. The Softmax operation requires all attention scores to sum up to 1. Since most tokens aren’t strongly related, their attention scores are very low. The model dumps any remaining attention score in the first token.

The researchers call this first token an “attention sink.”

“We need an attention sink, and the model decides to use the first token as the attention sink because it is globally visible — every other token can see it. We found that we must always keep the attention sink in the cache to maintain the model dynamics,” Han says. 

In building StreamingLLM, the researchers discovered that having four attention sink tokens at the beginning of the sliding cache leads to optimal performance.

They also found that the positional encoding of each token must stay the same, even as new tokens are added and others are bumped out. If token 5 is bumped out, token 6 must stay encoded as 6, even though it is now the fifth token in the cache.

By combining these two ideas, they enabled StreamingLLM to maintain a continuous conversation while outperforming a popular method that uses recomputation.

For instance, when the cache has 256 tokens, the recomputation method takes 63 milliseconds to decode a new token, while StreamingLLM takes 31 milliseconds. However, if the cache size grows to 4,096 tokens, recomputation requires 1,411 milliseconds for a new token, while StreamingLLM needs just 65 milliseconds.

“The innovative approach of StreamingLLM, centered around the attention sink mechanism, ensures stable memory usage and performance, even when processing texts up to 4 million tokens in length,” says Yang You, a presidential young professor of computer science at the National University of Singapore, who was not involved with this work. “This capability is not just impressive; it’s transformative, enabling StreamingLLM to be applied across a wide array of AI applications. The performance and versatility of StreamingLLM mark it as a highly promising technology, poised to revolutionize how we approach AI-driven generation applications.”

Tianqi Chen, an assistant professor in the machine learning and computer science departments at Carnegie Mellon University who also was not involved with this research, agreed, saying “Streaming LLM enables the smooth extension of the conversation length of large language models. We have been using it to enable the deployment of Mistral models on iPhones with great success.”

The researchers also explored the use of attention sinks during model training by prepending several placeholder tokens in all training samples.

They found that training with attention sinks allowed a model to maintain performance with only one attention sink in its cache, rather than the four that are usually required to stabilize a pretrained model’s performance. 

But while StreamingLLM enables a model to conduct a continuous conversation, the model cannot remember words that aren’t stored in the cache. In the future, the researchers plan to target this limitation by investigating methods to retrieve tokens that have been evicted or enable the model to memorize previous conversations.

StreamingLLM has been incorporated into NVIDIA’s large language model optimization library, TensorRT-LLM.

This work is funded, in part, by the MIT-IBM Watson AI Lab, the MIT Science Hub, and the U.S. National Science Foundation.

Study measures the psychological toll of wildfires

Study measures the psychological toll of wildfires

Wildfires in Southeast Asia significantly affect peoples’ moods, especially if the fires originate outside a person’s own country, according to a new study.

The study, which measures sentiment by analyzing large amounts of social media data, helps show the psychological toll of wildfires that result in substantial air pollution, at a time when such fires are becoming a high-profile marker of climate change.  

“It has a substantial negative impact on people’s subjective well-being,” says Siqi Zheng, an MIT professor and co-author of a new paper detailing the results. “This is a big effect.”

The magnitude of the effect is about the same as another shift uncovered through large-scale studies of sentiment expressed online: When the weekend ends and the work week starts, people’s online postings reflect a sharp drop in mood. The new study finds that daily exposure to typical wildfire smoke levels in the region produces an equivalently large change in sentiment.

“People feel anxious or sad when they have to go to work on Monday, and what we find with the fires is that this is, in fact, comparable to a Sunday-to-Monday sentiment drop,” says co-author Rui Du, a former MIT postdoct who is now an economist at Oklahoma State University.

The paper, “Transboundary Vegetation Fire Smoke and Expressed Sentiment: Evidence from Twitter,” has been published online in the Journal of Environmental Economics and Management.

The authors are Zheng, who is the STL Champion Professor of Urban and Real Estate Sustainability in the Center for Real Estate and the Department of Urban Studies and Planning at MIT; Du, an assistant professor of economics at Oklahoma State University’s Spears School of Business; Ajkel Mino, of the Department of Data Science and Knowledge Engineering at Maastricht University; and Jianghao Wang, of the Institute of Geographic Sciences and Natural Resources Research at the Chinese Academy of Sciences.

The research is based on an examination of the events of 2019 in Southeast Asia, in which a huge series of Indonesian wildfires, seemingly related to climate change and deforestation for the palm oil industry, produced a massive amount of haze in the region. The air-quality problems affected seven countries: Brunei, Indonesia, Malaysia, Philippines, Singapore, Thailand, and Vietnam.

To conduct the study, the scholars produced a large-scale analysis of postings from 2019 on X (formerly known as Twitter) to sample public sentiment. The study involved 1,270,927 tweets from 378,300 users who agreed to have their locations made available. The researchers compiled the data with a web crawler program and multilingual natural language processing applications that review the content of tweets and rate them in affective terms based on the vocabulary used. They also used satellite data from NASA and NOAA to create a map of wildfires and haze over time, linking that to the social media data.

Using this method creates an advantage that regular public-opinion polling does not have: It creates a measurement of mood that is effectively a real-time metric rather than an after-the-fact assessment. Moreover, substantial wind shifts in the region at the time in 2019 essentially randomize which countries were exposed to more haze at various points, making the results less likely to be influenced by other factors.

The researchers also made a point to disentangle the sentiment change due to wildfire smoke and that due to other factors. After all, people experience mood changes all the time from various natural and socioeconomic events. Wildfires may be correlated with some of them, which makes it hard to tease out the singular effect of the smoke. By comparing only the difference in exposure to wildfire smoke, blown in by wind, within the same locations over time, this study is able to isolate the impact of local wildfire haze on mood, filtering out nonpollution influences.

“What we are seeing from our estimates is really just the pure causal effect of the transboundary wildfire smoke,” Du says.

The study also revealed that people living near international borders are much more likely to be upset when affected by wildfire smoke that comes from a neighboring country. When similar conditions originate in their own country, there is a considerably more muted reaction.

“Notably, individuals do not seem to respond to domestically produced fire plumes,” the authors write in the paper. The small size of many countries in the region, coupled with a fire-prone climate, make this an ongoing source of concern, however.

“In Southeast Asia this is really a big problem, with small countries clustered together,” Zheng observes.

Zheng also co-authored a 2022 study using a related methodology to study the impact of the Covid-19 pandemic on the moods of residents in about 100 countries. In that case, the research showed that the global pandemic depressed sentiment about 4.7 times as much as the normal Sunday-to-Monday shift.

“There was a huge toll of Covid on people’s sentiment, and while the impact of the wildfires was about one-fifth of Covid, that’s still quite large,” Du says.

In policy terms, Zheng suggests that the global implications of cross-border smoke pollution could give countries a shared incentive to cooperate further. If one country’s fires become another country’s problem, they may all have reason to limit them. Scientists warn of a rising number of wildfires globally, fueled by climate change conditions in which more fires can proliferate, posing a persistent threat across societies.

“If they don’t work on this collaboratively, it could be damaging to everyone,” Zheng says.

The research at MIT was supported, in part, by the MIT Sustainable Urbanization Lab. Jianghao Wang was supported by the National Natural Science Foundation of China.

Anushree Chaudhuri: Involving local communities in renewable energy planning

Anushree Chaudhuri: Involving local communities in renewable energy planning

Anushree Chaudhuri has a history of making bold decisions. In fifth grade, she biked across her home state of California with little prior experience. In her first year at MIT, she advocated for student recommendations in the preparation of the Institute’s Climate Action Plan for the Decade. And recently, she led a field research project throughout California to document the perspectives of rural and Indigenous populations affected by climate change and clean energy projects.

“It doesn’t matter who you are or how young you are, you can get involved with something and inspire others to do so,” the senior says.

Initially a materials science and engineering major, Chaudhuri was quickly drawn to environmental policy issues and later decided to double-major in urban studies and planning and in economics. Chaudhuri will receive her bachelor’s degrees this month, followed by a master’s degree in city planning in the spring.

The importance of community engagement in policymaking has become one of Chaudhuri’s core interests. A 2024 Marshall Scholar, she is headed to the U.K. next year to pursue a PhD related to environment and development. She hopes to build on her work in California and continue to bring attention to impacts that energy transitions can have on local communities, which tend to be rural and low-income. Addressing resistance to these projects can be challenging, but “ignoring it leaves these communities in the dust and widens the urban-rural divide,” she says.

Silliness and sustainability 

Chaudhuri classifies her many activities into two groups: those that help her unwind, like her living community, Conner Two, and those that require intensive deliberation, like her sustainability-related organizing.

Conner Two, in the Burton-Conner residence hall, is where Chaudhuri feels most at home on campus. She describes the group’s activities as “silly” and emphasizes their love of jokes, even in the floor’s nickname, “the British Floor,” which is intentionally absurd, as the residents are rarely British.

Chaudhuri’s first involvement with sustainability issues on campus was during the preparation of MIT’s Fast Forward Climate Action Plan in the 2020-2021 academic year. As a co-lead of one of several student working groups, she helped organize key discussions between the administration, climate experts, and student government to push for six main goals in the plan, including an ethical investing framework. Being involved with a significant student movement so early on in her undergraduate career was a learning opportunity for Chaudhuri and impressed upon her that young people can play critical roles in making far-reaching structural changes.

The experience also made her realize how many organizations on campus shared similar goals even if their perspectives varied, and she saw the potential for more synergy among them.

Chaudhuri went on to co-lead the Student Sustainability Coalition to help build community across the sustainability-related organizations on campus and create a centralized system that would make it easier for outsiders and group members to access information and work together. Through the coalition, students have collaborated on efforts including campus events, and off-campus matters such as the Cambridge Green New Deal hearings.

Another benefit to such a network: It creates a support system that recognizes even small-scale victories. “Community is so important to avoid burnout when you’re working on something that can be very frustrating and an uphill battle like negotiating with leadership or seeking policy changes,” Chaudhuri says.

Fieldwork

For the past year, Chaudhuri has been doing independent research in California with the support of several advisory organizations to host conversations with groups affected by renewable energy projects, which, as she has documented, are often concentrated in rural, low-income, and Indigenous communities. The introduction of renewable energy facilities, such as wind and solar farms, can perpetuate existing inequities if they ignore serious community concerns, Chaudhuri says.

As state or federal policymakers and private developers carry out the permitting process for these projects, “they can repeat histories of extraction, sometimes infringing on the rights of a local or Tribal government to decide what happens with their land,” she says.

In her site visits, she is documenting community opposition to controversial solar and wind proposals and collecting oral histories. Doing fieldwork for the first time as an outsider was difficult for Chaudhuri, as she dealt with distrust, unpredictability, and needing to be completely flexible for her sources. “A lot of it was just being willing to drop everything and go and be a little bit adventurous and take some risks,” she says.

Role models and reading

Chaudhuri is quick to credit many of the role models and other formative influences in her life.

After working on the Climate Action Plan, Chaudhuri attended a public narrative workshop at Harvard University led by Marshall Ganz, a grassroots community organizer who worked with Cesar Chavez and on the 2008 Obama presidential campaign. “That was a big inspiration and kind of shaped how I viewed leadership in, for example, campus advocacy, but also in other projects and internships.”

Reading has also influenced Chaudhuri’s perspective on community organizing, “After the Climate Action Plan campaign, I realized that a lot of what made the campaign successful or not could track well with organizing and social change theories, and histories of social movements. So, that was a good experience for me, being able to critically reflect on it and tie it into these other things I was learning about.”

Since beginning her studies at MIT, Chaudhuri has become especially interested in social theory and political philosophy, starting with ancient forms of Western and Eastern ethic, and up to 20th and 21st century philosophers who inspire her. Chaudhuri cites Amartya Sen and Olúfẹ́mi Táíwò as particularly influential. “I think [they’ve] provided a really compelling framework to guide a lot of my own values,” she says.

Another role model is Brenda Mallory, the current chair of the U.S. Council on Environmental Quality, who Chaudhuri was grateful to meet at the United Nations COP27 Climate Conference. As an intern at the U.S. Department of Energy, Chaudhuri worked within a team on implementing the federal administration’s Justice40 initiative, which commits 40 percent of federal climate investments to disadvantaged communities. This initiative was largely directed by Mallory, and Chaudhuri admires how Mallory was able to make an impact at different levels of government through her leadership. Chaudhuri hopes to follow in Mallory’s footsteps someday, as a public official committed to just policies and programs.

 “Good leaders are those who empower good leadership in others,” Chaudhuri says.

3 Questions: Paloma Duong on the complexities of Cuban culture

3 Questions: Paloma Duong on the complexities of Cuban culture

As a state run by a Communist Party, Cuba appears set apart from many of its neighbors in the Americas. One thing lost as a result, to a large extent, is a nuanced understanding of the perspectives of Cuban citizens. MIT’s Paloma Duong, an associate professor in the program in Comparative Media Studies/Writing, has helped fill this void with a new book that closely examines contemporary media — especially online communities and music — to look at what Cubans think about the contemporary world and what outsiders think about Cuba. The book, “Portable Postsocialisms: New Cuban Mediascapes after the End of History,” has just been published by the University of Texas Press. MIT News spoke with Duong about her work.

Q: What is the book about?

A: The book looks at a specific moment in Cuban history, the first two decades of the 21st century, as a case study of the relationship between culture, politics, and emergent media technologies. This is a greater moment of access to the internet and digital media technologies. The 1990s are known as the “Special Period” in Cuba, a decade of economic collapse and disorientation. Yet while the turn of the 21st century is this moment of profound change, images of a Cuba frozen in time endure.

One of the book’s focal points is to delve into the cultural and political discourses of change and continuity produced in this new media context. What is this telling us about Cubans’ experience of postsocialism — that is, the moment when the old referents of socialism still exist in everyday experience but socialism as a radical project of social transformation no longer appears as a viable collective goal? And, in turn, what can this tell us about the more general global experience concerning the demise of and desire for socialist utopias in this time period?

That question also requires a look at how global narratives and images about Cuba circulate. The symbolic weight of Cuba as the last bastion of socialism, as inspiration or cautionary tale existing outside of historical time, is one of them. I examine Cuba as a traveling media object invested with competing political desires. Even during the Prohibition Era in the U.S. you can already hear and see Cuba as a provider of transgressive desires to the American imagination in songs and advertising from that time.

Top-down narratives are routinely imposed on Cubans, either by their own government or by foreign observers exoticizing Cubans. I wanted to understand how Cubans were narrating their own experience of change. But I also wanted to recognize the international impact of the Cuban Revolution of 1959 and account for how its global constituents experienced its denouement. 

Q: The book looks at Cuban culture with reference to music, fashion, online communities, and more. Why did you decide to explore all these cultural artifacts?

A: Because I was looking at both Cubans’ accounts of postsocialism, and at Cuba as an object of imagination traveling around the world, it seemed to me impossible to just choose one medium. The way we construct our images of the world, and ourselves, is intrinsically multimedia. We don’t just get all our information from literature, or film, or news media alone. Instead, I focus on specific narratives and images of change — of womanhood, of economic reform, of Internet access, and so on — looking at how they are reproduced or contested across media practices and cultural objects.

I use the term “portable” in different ways to describe these operations. A song, for instance, can be portable in many ways. Digital and especially streaming media open new circuits of music exchange and consumption. But the aesthetic experience of a song is itself a portable one; it lingers and remains with you. And whether analyzing songs, advertising, memes, or more, I study objects and practices that allow us to see the double status of Cuba, as a symbol and as an experience.

In this sense the book is about Cuba, but it is also about ourselves. We tend to look at Cuba through a Cold War framework that casts the country as an exception with respect to former socialist countries, to Latin America, to the capitalist world. But what happens if we look at Cuba as [also] participating in that world, not as an exception but as a particular experience of broader transformations? I’m not saying Cuba is the same as everywhere else. But the premise of the book is that Cuba is not an exceptional place outside of history. In fact, I argue that the narrative of its exceptionality is the key to understanding our shared historical moment and the political dimensions of our cultural and media practices.

Q: How would you say this approach sits with reference to other studies of modern Cuba?

A: There are other, more traditional scholarly ways of looking at Cuba. Some perspectives emphasize the liberal individual confronting an authoritarian state, foregrounding repression and censorship. Others focus instead on the Cuban nation-state as resisting global markets and transnational capital.

There are merits to these perspectives. But when only those perspectives predominate we miss the ways in which both the state and markets might dispossess everyday citizens. In looking at the cultural responses of people, you see citizens picking up on the fact that the global markets are leaving them behind, that the state is leaving them behind. They are not getting either what the state promises, which is social welfare, or what the markets promise, which is upward mobility. The book shows how abandoning Cold War frameworks of analysis, and how taking into account the ways in which cultural and media practices shape our political experiences, can offer a new understanding of Cuba but also of our own global present.

A new test could predict how heart attack patients will respond to mechanical pumps

A new test could predict how heart attack patients will respond to mechanical pumps

Every year, around 50,000 people in the United States experience cardiogenic shock — a life-threatening condition, usually caused by a severe heart attack, in which the heart can’t pump enough blood for the body’s needs.

Many of these patients end up receiving help from a mechanical pump that can temporarily help the heart pump blood until it recovers enough to function on its own. However, in nearly half of these patients, the extra help leads to an imbalance between the left and right ventricles, which can pose danger to the patient.

In a new study, MIT researchers have discovered why that imbalance occurs, and identified factors that make it more likely. They also developed a test that doctors could use to determine whether this dysfunction will occur in a particular patient, which could give doctors more confidence when deciding whether to use these pumps, known as ventricular assist devices (VADs).

“As we improve the mechanistic understanding of how these technologies interact with the native physiology, we can improve device utility. And if we have more algorithms and metrics-based guidance, that will ease use for clinicians. This will both improve outcomes across these patients and increase use of these devices more broadly,” says Kimberly Lamberti, an MIT graduate student and the lead author of the study.

Elazer Edelman, the Edward J. Poitras Professor in Medical Engineering and Science and the director of MIT’s Institute for Medical Engineering and Science (IMES), is the senior author of the paper, which appears today in Science Translational Medicine. Steven Keller, an assistant professor of medicine at Johns Hopkins School of Medicine, is also an author of the paper.

Edelman notes that “the beauty of this study is that it uses pathophysiologic insight and advanced computational analyses to provide clinicians with straightforward guidelines as to how to deal with the exploding use of these valuable mechanical devices. We use these devices increasingly in our sickest patients and now have greater strategies as to how to optimize their utility.”

Imbalance in the heart

To treat patients who are experiencing cardiogenic shock, a percutaneous VAD can be inserted through the arteries until it is positioned across the aortic valve, where it helps to pump blood out of the left ventricle. The left ventricle is responsible for pumping blood to most of the organs of the body, while the right ventricle pumps blood to the lungs.

In most cases, the device may be removed after a week or so, once the heart is able to pump on its own. While effective for many patients, in some people the devices can disrupt the coordination and balance between the right and left ventricles, which contract and relax synchronously. Studies have found that this disruption occurs in up to 43 percent of patients who receive VADs.

“The left and right ventricles are highly coupled, so as the device disrupts flow through the system, that can unmask or induce right heart failure in many patients,” Lamberti says. “Across the field it’s well-known that this is a concern, but the mechanism that’s creating that is unclear, and there are limited metrics to predict which patients will experience it.”

In this study, the researchers wanted to figure out why this failure occurs, and come up with a way to help doctors predict whether it will happen for a given patient. If doctors knew that the right heart would also need support, they could implant another VAD that helps the right ventricle.

“What we were trying to do with this study was predict any issues earlier in the patient’s course, so that action can be taken before that extreme state of failure has been reached,” Lamberti says.

To do that, the researchers studied the devices in an animal model of heart failure. A VAD was implanted in the left ventricle of each animal, and the researchers analyzed several different metrics of heart function as the pumping speed of the device was increased and decreased.

The researchers found that the most important factor in how the right ventricle responded to VAD implantation was how well the pulmonary vascular system — the network of vessels that carries blood between the heart and lungs — adapted to changes in blood volume and flow induced by the VAD.

This system was best able to handle that extra flow if it could adjust its resistance (the slowing of steady blood flow through the vessels) and compliance (the slowing of large pulses of blood volume into the vessels).

“We found that in the healthy state, compliance and resistance could change pretty rapidly to accommodate the changes in volume due to the device. But with progressive disease, that ability to adapt becomes diminished,” Lamberti says.

A dynamic test

The researchers also showed that measuring this pulmonary vascular compliance and its adaptability could offer a way to predict how a patient will respond to left ventricle assistance. Using a dataset of eight patients who had received a left VAD, the researchers found that those measurements correlated with the right heart state, therefore predicting how well the patients adapted to the device, validating the findings from the animal study.

To do this test, doctors would need to implant the device as usual and then ramp up the speed while measuring the compliance of the pulmonary vascular system. The researchers determined a metric that can assess this compliance by using just the VAD itself and a pulmonary artery catheter that is commonly implanted in these patients.

“We created this way to dynamically test the system while simultaneously maintaining support of the heart,” Lamberti says. “Once the device is initiated, this quick test could be run, which would inform clinicians of whether the patient might need right heart support.”

The researchers now hope to expand these findings with additional animal studies and continue collaboration with manufacturers of these devices in the future, in hopes of running clinical studies to evaluate whether this test would provide information that would be valuable for doctors.

“Right now, there are few metrics being used to predict device tolerance. Device selection and decision-making is most often based on experiential evidence from the physicians at each institution. Having this understanding will hopefully allow physicians to determine which patients will be intolerant to device support and provide guidance for how to best treat each patient based on right heart state,” Lamberti says.

The research was funded by the National Heart, Lung and Blood Institute; the National Institute of General Medical Sciences; and Abiomed.

Anantha Chandrakasan named MIT’s inaugural chief innovation and strategy officer

Anantha Chandrakasan named MIT’s inaugural chief innovation and strategy officer

Anantha Chandrakasan, dean of the School of Engineering and the Vannevar Bush Professor of Electrical Engineering and Computer Science, has been named as MIT’s first chief innovation and strategy officer, effective immediately. He will continue to serve as dean of engineering, a role he has held since 2017.

As chief innovation and strategy officer, Chandrakasan will work closely with MIT President Sally Kornbluth to advance the ambitious agenda that she has laid out in the first year of her presidency. He will collaborate with key stakeholders across MIT, as well as external partners, to launch initiatives and new collaborations in support of these strategic priorities.

“I was immediately impressed by Anantha’s can-do attitude and his clear interest in working with us to develop and advance our priorities for the Institute,” President Kornbluth says. “With his signature energy, creativity, and enthusiasm, he has a gift for organizing complex initiatives and ideas and making sure they move forward with alacrity. Combined with his strategic insight, deep knowledge across many subject areas, and terrific record in raising funds for important ideas, Anantha is uniquely suited to serve MIT in this new role, and I’m delighted he has agreed to take it on.”

In his new role, Chandrakasan will help develop and implement plans to advance research, education, and innovation in areas that President Kornbluth has identified as her top priorities — such as climate change and sustainability, artificial intelligence, and the life sciences. He will also play a leading role in efforts to secure the resources needed for MIT researchers to pursue bold work in these key areas.

“I am thrilled and honored to help advance President Kornbluth’s vision for MIT in this new role,” Chandrakasan says. “Working closely with faculty, staff, and students across the Institute, I am excited to help shape and launch initiatives that will accelerate research and innovation on some of the world’s most urgent needs. My hope is to enable our researchers with the support, resources, and infrastructure they need to maximize the impact of their work.”

Working closely with MIT’s existing programs in entrepreneurship, Chandrakasan will develop strategies to accelerate innovation across the Institute. These efforts will aim to grow and support these programs, while identifying new opportunities to support student and faculty entrepreneurs and maximize their impact.

In addition to examining ways to advance research, entrepreneurship, and collaborations, Chandrakasan will work with Provost Cynthia Barnhart and Chancellor Melissa Nobles to advance new educational initiatives. This will include developing new programs and tracks to optimize students’ preparation for a variety of career paths.

“In many ways, this role is a natural extension of the significant work Anantha has already been doing to help shape strategic priorities on an Institute level,” Barnhart says. “All of MIT stands to benefit from his extensive experience launching and building new programs and initiatives.”

As dean of engineering since 2017, Chandrakasan has implemented a variety of interdisciplinary programs, creating new models for how academia and industry can work together to accelerate the pace of research. This has resulted in the launch of initiatives including the MIT Climate and Sustainability Consortium, the MIT-IBM Watson AI Lab, the MIT-Takeda Program, the MIT and Accenture Convergence Initiative, the MIT Mobility Initiative, the MIT Quest for Intelligence, the MIT AI Hardware Program, the MIT-Northpond Program, the MIT Faculty Founder Initiative, and the MIT-Novo Nordisk Artificial Intelligence Postdoctoral Fellows Program.

Chandrakasan has also played a role as dean in establishing a variety of initiatives beyond the School of Engineering. He was instrumental in the 2018 founding of the Schwarzman College of Computing, the most significant structural change to MIT in nearly 70 years. He also has served in leadership roles on MIT Fast Forward, an Institute-wide plan for addressing climate change; as the inaugural chair of the Abdul Latif Jameel Clinic for Machine Learning in Health; and as the co-chair of the academic workstream for MIT’s Task Force 2021. Before becoming dean, Chandrakasan led an Institute-wide working group to guide the development of policies and procedures related to MIT’s 2016 launch of The Engine, and also served on The Engine’s inaugural board.

Chandrakasan has focused as dean on fostering a sense of community within MIT’s largest school. He has launched several programs to give students and staff a more active role in shaping the initiatives and operations of the school, including the Staff Advice & Implementation Committee, the undergraduate Student Advisory Group, the Graduate Student Advisory Group (GradSage), the Gender Equity Committee, and the MIT School of Engineering Postdoctoral Fellowship Program for Engineering Excellence. Working closely with GradSage, Chandrakasan has also played a role in establishing the Daniel J. Riccio Graduate Engineering Leadership Program.

Prior to becoming dean in 2017, Chandrakasan served for six years as head of the Department of Electrical Engineering and Computer Science (EECS), MIT’s largest academic department. As department head, he led the development of initiatives that continue to have an impact across MIT. He created Rising Stars in EECS, an academic career workshop that rotates amongst various universities and has become a model for similar efforts in other disciplines. Under his leadership, EECS also launched the SuperUROP program as well as Start6, which has since become StartMIT, a program supporting students interested in entrepreneurship.