Goto

Collaborating Authors

Deep Learning


TensorFlow 3D: Deep Learning for Autonomous Cars' 3D Perception

#artificialintelligence

Google has released TensorFlow 3D, a library that adds 3D deep-learning capabilities to the TensorFlow machine-learning framework. The new library brings tools and resources that allow researchers to develop and deploy 3D scene understanding models. TensorFlow 3D contains state-of-the-art models for 3D deep learning with GPU acceleration. These models have a wide range of applications from 3D object detection (e.g. For instance, 3D object detection is a hard problem using point cloud data due to high sparsity.


Edge#4: Beauty of Neural Architecture Search, and Uber's Ludwig that needs no code

#artificialintelligence

In this issue: we look at Neural Architecture Search (NAS) and how it relates to AutoML; we explain the research paper “A Survey on Neural Architecture Search” and how it helps to understand NAS; we speak about Uber’s Ludwig toolbox that lowers the entry point for developers by enabling the training and testing of ML models that can be done without writing code.


A deepfake future is closer than you think. Should we be worried?

#artificialintelligence

Deepfakes have started to appear everywhere – from viral celebrity face swaps to impersonations of political leaders. Millions got their first taste of the technology when they saw former US president Barack Obama using an expletive to describe then-president Donald Trump, or actor Bill Hader shape shifting on a late-night talk show. Earlier this week, social media went into a frenzy after deepfakes surfaced of actor Tom Cruise in a series of TikTok videos that appear to show him doing a magic trick and playing golf, all with a smoothness that was unsettlingly realistic. This isn't even a super high quality deepfake and I'm willing to bet that it could fool most people. Now imagine the quality of deepfake a government agency could produce.https://t.co/wMFMarEtAi


Modeling Healthy Anatomy with Artificial Intelligence for Unsupervised Anomaly Detection in Brain MRI

#artificialintelligence

"Just Accepted" papers have undergone full peer review and have been accepted for publication in Radiology: Artificial Intelligence. This article will undergo copyediting, layout, and proof review before it is published in its final version. Please note that during production of the final copyedited article, errors may be discovered which could affect the content. To develop an unsupervised deep learning model on MR images of normal brain anatomy to automatically detect deviations indicative of pathologic states on abnormal MR images. In this retrospective study, spatial autoencoders with skip-connections (which can learn to compress and reconstruct data) were leveraged to learn normal variability of the brain from MR scans of healthy individuals.


Retrofitting MIT's deep learning "boot camp" for the virtual world

#artificialintelligence

Deep learning is advancing at lightning speed, and Alexander Amini '17 and Ava Soleimany '16 want to make sure they have your attention as they dive deep on the math behind the algorithms and the ways that deep learning is transforming daily life. Last year, their blockbuster course, 6.S191 (Introduction to Deep Learning) opened with a fake video welcome from former President Barack Obama. This year, the pair delivered their lectures "live" from Stata Center -- after taping them weeks in advance from their kitchen, outfitted for the occasion with studio lights, a podium, and a green screen for projecting the blackboard in Kirsch Auditorium on their Zoom backgrounds. "It's hard for students to stay engaged when they're looking at a static image of an instructor," says Amini. "We wanted to recreate the dynamic of a real classroom." Amini is a graduate student in MIT's Department of Electrical Engineering and Computer Science (EECS), and Soleimany a graduate student at MIT and Harvard University.


Blockchain LSTM Neural Nets Coming to the GNY Machine Learning Wallet

#artificialintelligence

The solution- Use GNY's LSTM neural network to better understand the multiple systems that converge in ground water systems. These include weather patterns, domestic and industrial water usage, non-weather climate events (ie. The LSTM could efficiently predict both the demands on water and the changing resources available to meet those needs. Extending these predictions into the future would allow the Department of Agriculture's NWI to predict when shortages will occur and develop plans that can prepare individuals and businesses accordingly. Better prediction of different annual, and seasonal patterns would increase preparedness and extend the amount of time available to respond meaningfully to potentially life threatening challenges.


The 10 Best Machine Learning Tools to Look For in 2021

#artificialintelligence

With ever-growing data generation and its usage, the demand for machine learning models is multiplying. As ML systems encompass algorithms and rich ML libraries, it helps analyze data and make decisions. There is no wonder that machine learning is gaining more visibility as ML applications are dominating almost every aspect of the modern-day world. With rapidly increasing exploration and adoption of this technology in businesses, it is setting the ground for ample employment opportunities. However, landing a career in this disruptive field, you must be well-equipped and familiar with some of the best machine learning tools to create efficient and functional ML algorithms. Here are the 10 best machine learning tools to look for in 2021.


AI: how low can you go?

#artificialintelligence

Markets are subject to fads and the embedded-control sector is far from immune to them. In the 1990s, fuzzy logic seemed to be the way forward and microcontroller (MCU) vendors scrambled to put support into their offerings only to see it flame out. Embedded machine learning (ML) is seeing a far bigger feeding frenzy as established MCU players and AI-acceleration start-ups try to demonstrate their commitment to the idea, which mostly goes under the banner of TinyML. Daniel Situnayake, founding TinyML engineer at software-tools company Edge Impulse and co-author of a renowned book on the technology, says the situation today is very different to that of the 1990s. "The exciting thing about embedded ML is that machine learning and deep learning are not new, unproven technologies - they've in fact been deployed successfully on server-class computers for a relatively long time, and are at the heart of a ton of successful products. Embedded ML is about applying a proven set of technologies to a new context that will enable many new applications that were not previously possible."


Release PyTorch 1.8 Release, including Compiler and Distributed Training updates, New Mobile Tutorials and more · pytorch/pytorch

#artificialintelligence

We are excited to announce the availability of PyTorch 1.8. This release is composed of more than 3,000 commits since 1.7. It includes major updates and new features for compilation, code optimization, frontend APIs for scientific computing, and AMD ROCm support through binaries that are available via pytorch.org. It also provides improved features for large-scale training for pipeline and model parallelism, and gradient compression. Along with 1.8, we are also releasing major updates to PyTorch libraries including TorchCSPRNG, TorchVision, TorchText and TorchAudio.


Deep learning-enabled medical computer vision

#artificialintelligence

A decade of unprecedented progress in artificial intelligence (AI) has demonstrated the potential for many fields—including medicine—to benefit from the insights that AI techniques can extract from data. Here we survey recent progress in the development of modern computer vision techniques—powered by deep learning—for medical applications, focusing on medical imaging, medical video, and clinical deployment. We start by briefly summarizing a decade of progress in convolutional neural networks, including the vision tasks they enable, in the context of healthcare. Next, we discuss several example medical imaging applications that stand to benefit—including cardiology, pathology, dermatology, ophthalmology–and propose new avenues for continued work. We then expand into general medical video, highlighting ways in which clinical workflows can integrate computer vision to enhance care. Finally, we discuss the challenges and hurdles required for real-world clinical deployment of these technologies.