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MIT Schwarzman College of Computing

This compact chip has the capability to secure user information whilst facilitating effective processing on a mobile device.

Researchers from MIT and the MIT-IBM Watson AI Lab have developed a machine-learning accelerator that provides strong data protection while allowing massive AI models to run effectively on individual devices. The innovations applied in developing the chip help protect sensitive information such as health records or financial data against common cyber-attacks, without negatively affecting the…

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Julie Shah has been appointed as the chief of the Aeronautics and Astronautics Department.

Julie Shah ’04, SM ’06, PhD ’11 has been appointed as the new head of MIT's Department of Aeronautics and Astronautics (AeroAstro). An MIT alumnus, Shah holds the prestigious role of H.N. Slater Professor in the department. Shah's appointment is primarily due to her robust record of providing forward-thinking and cross-disciplinary leadership. Her contributions to robotics…

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Begin developing a superior AI assistant by imitating the unpredictable actions of individuals.

MIT and the University of Washington researchers have devised a method to model human or machine agent behaviour incorporating unknown computational constraints limiting problem-solving abilities. The technique generates an "inference budget" by observing a few previous actions, effectively predicting future behaviour. Lead author Athul Paul Jacob believes the work could help AI systems better understand…

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This compact microchip can ensure the protection of user information, while facilitating effective processing on a mobile phone.

Researchers at MIT and the IBM Watson AI lab have developed a machine-learning accelerator chip which is more resilient to common types of cyber attacks. The chip is designed to protect sensitive user data, such as health records or financial information, whilst also enabling large-scale AI models to run efficiently on devices. The design of…

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Julie Shah has been appointed as the leader of the Aeronautics and Astronautics Department.

Julie Shah ’04, SM ’06, PhD ’11, already an esteemed professor in Aeronautics and Astronautics, has been named the new department head for the same field at MIT starting May 1. A renowned figure in the field of robotics and AI, Shah has a reputation for significant technical contributions to this sector, especially in the…

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To develop an improved AI assistant, begin by simulating the unpredictable actions of human beings.

Researchers at MIT and the University of Washington have devised a model for detecting the computational limitations of an agent, whether human or machine, that obstruct their ability to solve problems. Agents' performance is monitored to calculate their "inference budget", estimates of the time and effort likely to be re-invested in similar tasks, which then…

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This miniature device can protect user information while facilitating effective computation on a mobile device.

MIT and the MIT-IBM Watson AI Lab researchers have developed a machine-learning accelerator ingrained with defenses against the most common cyber-attacks. The device, which could find use in advanced AI applications like VR/AR and autonomous vehicles, offers robust security at the cost of increased power consumption and a slightly higher price tag. But maintaining optimum…

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Julie Shah has been appointed as the chief of the Department of Aeronautics and Astronautics.

Julie Shah, the H.N. Slater Professor in Aeronautics and Astronautics, has been named the new head of the Department of Aeronautics and Astronautics (AeroAstro) at the Massachusetts Institute of Technology (MIT), commencing her role on 1 May. Shah's appointment is seen as an endorsement of her visionary leadership and the key roles she has played…

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For crafting an improved AI assistant, begin by emulating the unpredictable tendencies of humans.

Researchers from MIT and University of Washington have developed a novel method that utilizes a good model of human behaviour, specifically involving the computational constraints in decision-making, in order to improve the collaboration between AI and humans. The unique technique of their new model permits an automatic inference regarding an agent's computational constraints solely based…

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This small microchip can protect user information, while simultaneously facilitating effective processing on a mobile device.

Researchers from MIT and the MIT-IBM Watson AI Lab have designed a machine-learning accelerator that can improve the security of health-monitoring apps. These applications can be slow and inefficient due to the large machine-learning models that need to be transferred between a smartphone and a central memory server. Instead, the team developed a chip that…

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In order to improve the efficiency of an AI assistant, begin by simulating the unpredictable actions of individuals.

MIT and the University of Washington researchers have developed a model to understand and predict human behavior by considering computational constraints that limit decision-making abilities for both humans and machines. One of the defining points about the model is its ability to derive an agent's computational constraints or "inference budget" based on a few previous…

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For the improvement of AI assistance, initially emulate the unpredictable actions of humans.

Researchers from MIT and the University of Washington have developed a model to predict human behavior that accounts for computational constraints. These constraints can impact the problem-solving abilities of both human and artificial intelligences (AI). The model can infer an “inference budget”, a computation of the possible constraints on an agent’s problem-solving methods, by observing…

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