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Enhancing human physical capability
Open Ocean
Two-dimensional radiographs are commonly used for evaluating sub-surface hard structures of teeth, but they have low sensitivity for earl...
We have developed a new process to screen patients at the point-of-care with FDA-approved technology-enabled mobile health screenings (TE...
K. Angelino, D. A. Edlund, P. Shah. Near-Infrared Imaging for Detecting Caries and Structural Deformities in Teeth. Journal of Translational Engineering in Health and Medicine (2017). PMID: 28507826
K. Angelino, D. A. Edlund, G. Bhatia, S. Wu, P. Shah. IEEE 17th International Conference on Bioinformatics and Bioengineering (2017). DOI: 10.1109/BIBE.2017.00-33
K. Angelino*, P. Shah*, D. Edlund, M. Mohit, G. Yauney. BMC Oral Health 17.1: 162 (2017). PMID: 29284461. * Equal contribution
G. Yauney, K. Angelino, D. A. Edlund, P. Shah. IEEE 17th International Conference on Bioinformatics and Bioengineering (2017). DOI: 10.1109/BIBE.2017.00-37
A. Rana, G. Yauney, L. C. Wong, O. Gupta, A. Muftu, P. Shah. IEEE Healthcare Innovations and Point of Care Technologies (HI-POCT). IEEE (2017). DOI: 10.1109/HIC.2017.8227605
Aman Rana, Yauney G, Lowe A, Shah P. IEEE Xplore, Proceedings of 17th International Conference on Machine Learning and Applications (2018) (Conference acceptance rate: 14%). DOI: 10.1109/ICMLA.2018.00133
Health 0.0
Technical summary: Future of clinical development is on the verge of a major transformation due to convergence of large new digital data ...
We built a low-cost and open source 405 nm imaging device to capture red fluorescence signatures associated with the oral biomarker porph...
General OverviewStaining of tissues sections using chemical and biological dyes has been used for over a century for visualizing various ...
We report a novel method that processes biomarker images collected at the point of care and uses machine learning algorithms to provide a...
Biomarker imaging provides non-invasive indicators of disease and is used by human experts to augment disease diagnosis. It is, however, ...
Making the invisible visible–inside our bodies, around us, and beyond–for health, work, and connection
The full text of our paper is available here.Sometimes the thing that we want to see is hidden behind something else. A neighboring vehi...
Humans can accurately sense the position, speed, and torque of their limbs, even with their eyes shut. This sense, known as proprioceptio...
Seamlessly coupling the worlds of bits and atoms by giving dynamic physical form to digital information and computation
Revealing insights into the human condition and repairing brain disorders via novel tools for mapping and fixing brain computations
We present an 8K (7680 x 4320 pixels) visualization system for terabyte-scale, three-dimensional microscopy images of a brain slice that ...
The brain is a three-dimensional, densely-wired circuit that computes via large sets of widely distributed neurons interacting at fast ti...
New technologies for recording neural activity, controlling neural activity, or building brain circuits, may be capable someday of servin...
Complex biological systems such as brain circuits are extended 3-D structures made out of nanoscale building blocks such as proteins, RNA...
Creating technology for social change
Changing storytelling, communication, and everyday life through sensing, understanding, and new interface technologies
www.ajl.orgAn unseen force is rising—helping to determine who is hired, granted a loan, or even how long someone spends in prison. This f...
Reimagining human cooperation in the age of social media and artificial intelligence
Deep Angel is an artificial intelligence that erases objects from photographs. The algorithm is hosted on http://deepangel.media.mit...
New molecule for imaging calcium in neurons reduces crosstalk from neighboring neurons.
Biplanar fluoroscopy (BiFlo) enables three-dimensional bone kinematics analysis using x-ray videos and bone geometry from segmented CT. H...
We are expanding the home-video viewing experience by generating imagery to extend the TV screen and give the impression that the scene w...
Fluorescent probe could allow scientists to watch circuits within the brain and link their activity to specific behaviors.
New 3D imaging technique can reveal, much more quickly than other methods, how neurons connect throughout the brain.
Most of the underwater world remains far off the map. For many of the most exciting exploration challenges—from Maya cenotes to urban aqu...
"The research is…unique in its approach to enable seeing through dense fog for self-driving cars and augmented driving."
Using a femtosecond laser and a camera with a time resolution of about one trillion frames per second, we recover objects hidden out of s...
During the gait cycle, the human ankle complex serves as a primary power generator while simultaneously stabilizing the entire limb. Thes...
Can a person look at a portable display, click on a few buttons, and recover his or her refractive condition? Our optometry solution comb...
We are exploring mathematical modeling of time-of-flight imaging problems and solutions.
We use time-resolved information in an iterative optimization algorithm to recover reflectance of a three-dimensional scene hidden behind...
Time of Flight 3D cameras like the Microsoft Kinect are prevalent in computer vision and computer graphics. In such devices, the power of...
Lensless imaging with compressive ultrafast sensingTraditional cameras require a lens and a mega-pixel sensor to capture images. The lens...
Imagine a physical object that floats through the air, unconstrained by gravity, which can move freely to display the motion of a planet ...
Ed Boyden and collaborators combine expansion microscopy with lattice light-sheet microscopy to capture detailed images of the brain.
The 2019 Forbes 30 Under 30 list includes at least three members of the Media Lab community.
Heshmat, B., Tancik, M., Satat, G. & Raskar, R. Photography optics in the time dimension. Nature Photonics 12, 560–566 (2018). 10.1038/s41566-018-0234-0
Technique can capture a scene at multiple depths with one shutter click—no zoom lens needed
MIT researchers have developed a system that can produce images of objects shrouded by fog so thick that human vision can’t penetrate it.
Seeing through dense, dynamic, and heterogeneous fog conditions. The technique, based on visible light, uses hardware that is similar to ...
Developed by MIT researchers, the technology could be a boon for drivers and driverless cars
The Gender Shades project pilots an intersectional approach to inclusive product testing for AI.Algorithmic Bias PersistsGender Shades is...
He is passionate about developing imaging technologies that solve great challenges in society, science, and health
Computational method improves the resolution of time-of-flight depth sensors 1,000-fold.
Kadambi, Achuta and Raskar, Ramesh, Rethinking Machine Vision Time of Flight with GHz Heterodyning, IEEE Access 2017
Researchers want to know what images make us feel more attached to other people. They call their project “Deep Empathy.”
Kadambi, Achuta, et al. "Depth Sensing Using Geometrically Constrained Polarization Normals." International Journal of Computer Vision 125.1-3 (2017): 34-51.
What would your city look like after a disaster? Deep Empathy is a collaboration between the Scalable Coope...
Expansion microscopy (ExM) is a new imaging modality developed by MIT Media Lab's Synthetic Neurobiology group. ExM allows biomolecules t...
Terahertz time-gated spectral imaging for content extraction through layered structures.
One day, you're a terrible killing and eating machine. Flash forward 65 million years, and you're being conquered by a $150 gaming access...
Enlarging clinical samples for imaging to understand the building blocks of pathologies with nanoscale precision