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Senior Applied Scientist - Machine Learning, Personalization, Recommendations, Machine Learning, Causal Inference, Personalization

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Job summaryHow can we create a rich, data-driven shopping experience on Amazon? How do we build data models that helps us innovate different ways to enhance customer experience? How do we combine the world's greatest online shopping dataset with Amazon's computing power to create models that deeply understand our customers? Recommendations at Amazon is a way to help customers discover products. Our team's stated mission is to "grow each customer’s relationship with Amazon by leveraging our deep understanding of them to provide relevant and timely product, program, and content recommendations". We strive to better understand how customers shop on Amazon (and elsewhere) and build recommendations models to streamline customers' shopping experience by showing the right products at the right time. Understanding the complexities of customers' shopping needs and helping them explore the depth and breadth of Amazon's catalog is a challenge we take on every day. Using Amazon’s large-scale computing resources you will ask research questions about customer behavior, build models to generate recommendations, and run these models directly on the retail website. You will participate in the Amazon ML community and mentor Applied Scientists and software development engineers with a strong interest in and knowledge of ML. Your work will directly benefit customers and the retail business and you will measure the impact using scientific tools. We are looking for passionate, hard-working, and talented Applied scientist who have experience building mission critical, high volume applications that customers love. You will have an enormous opportunity to make a large impact on the design, architecture, and implementation of cutting edge products used every day, by people you know.Key job responsibilitiesScaling state of the art techniques to Amazon-scaleWorking independently and collaborating with SDEs to deploy models to productionDeveloping long-term roadmaps for the team's scientific agendaDesigning experiments to measure business impact of the team's effortsMentoring scientists in the departmentContributing back to the machine learning science community


andromeda - AI Generated Artwork

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AI Art Generator App. ✅ Fast ✅ Free ✅ Easy. Create amazing artworks using artificial intelligence.



The Significance of Artificial Intelligence in Web Development

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In the blockbuster sci-fi movie starring Keanu Reeves, "The Matrix", a fictional world controlled by Artificial Intelligence (AI) is shown. The movie showed a world controlled by AI. The world has come a long way since then, and today big data, AI, and machine learning are increasingly making their presence felt in almost every aspect of our lives. AI in business is being used in an extensive range of industries and applications such as blockchain, marketing, education, website development, entertainment, and banking to name a few. Artificial Intelligence is one of the most talked about technology trends these days.


How Do You Even Cheat In Chess? Artificial Intelligence And Morse Code - AI Summary

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On Monday, Carlsen explicitly accused fellow grandmaster and rival Hans Niemann of cheating for the first time in a lengthy statement on Twitter. The accusation comes weeks after the Norwegian withdrew from the Sinquefield Cup in St. Louis, Missouri, on September 19 following his surprise defeat to the American. It all really began in 1996 when grandmaster Garry Kasparov, widely recognized as one of the best players ever, faced off against an IBM supercomputer called'Deep Blue' in a series of matches. As a result, online chess sites, like Chess.com, have developed anti-cheating technology to detect when players are using outside computer software during games in an attempt to curb foul play. At one point, the young Soviet champion Anatoly Karpov claimed Russian exile Viktor Korchnoi was trying to blind him with his mirrored sunglasses, reports El País.


Bayesian Machine Learning in Python: A/B Testing - Views Coupon

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This course is all about A/B testing. A/B testing is used everywhere. A/B testing is all about comparing things. If you're a data scientist, and you want to tell the rest of the company, "logo A is better than logo B", well you can't just say that without proving it using numbers and statistics. Traditional A/B testing has been around for a long time, and it's full of approximations and confusing definitions. In this course, while we will do traditional A/B testing in order to appreciate its complexity, what we will eventually get to is the Bayesian machine learning way of doing things.


How Machine Learning Is Changing Our Lives - SMU Daily Campus

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Machine learning is a method of teaching computers to learn from data, without being explicitly programmed. The goal is to create algorithms that can automatically learn and improve from experience. Machine learning algorithms can be divided into two categories: supervised and unsupervised. Supervised algorithms learn from a set of training data that has been labeled with the correct answers. Unsupervised algorithms learn from data that has not been labeled, and must learn to recognize patterns on their own.


Deep Learning from Phylogenies for Diversification Analyses

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Birth-death models are widely used in combination with species phylogenies to study past diversification dynamics. Current inference approaches typically rely on likelihood-based methods. These methods are not generalizable, as a new likelihood formula must be established each time a new model is proposed; for some models such formula is not even tractable. Deep learning can bring solutions in such situations, as deep neural networks can be trained to learn the relation between simulations and parameter values as a regression problem. In this paper, we adapt a recently developed deep learning method from pathogen phylodynamics to the case of diversification inference, and we extend its applicability to the case of the inference of state-dependent diversification models from phylogenies associated with trait data.


AI-guided screening uses electrocardiogram data to detect a hidden risk factor for stroke

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Researchers at Mayo Clinic have used artificial intelligence (AI) to evaluate patients' electrocardiograms (ECGs) in a targeted strategy to screen for atrial fibrillation, a common heart rhythm disorder. Atrial fibrillation is an irregular heartbeat that can lead to blood clots that may travel to the brain and cause a stroke, but it is largely underdiagnosed. In the digitally-enabled, decentralized study, AI identified new cases of atrial fibrillation that would not have come to clinical attention during routine care. Earlier research had already developed an AI algorithm to identify patients with a high likelihood of previously unknown atrial fibrillation. "We believe that atrial fibrillation screening has great potential, but currently the yield is too low and the cost is too high to make widespread screening a reality," says Peter Noseworthy, M.D., a cardiac electrophysiologist at Mayo Clinic and lead author of the study.


Global Big Data Conference

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Tool use has long been a hallmark of human intelligence, as well as a practical problem to solve for a vast array of robotic applications. But machines are still wonky at exerting just the right amount of force to control tools that aren't rigidly attached to their hands. To manipulate said tools more robustly, researchers from MIT's Computer Science and Artificial Intelligence Laboratory (CSAIL), in collaboration with the Toyota Research Institute (TRI), have designed a system that can grasp tools and apply the appropriate amount of force for a given task, like squeegeeing up liquid or writing out a word with a pen. The system, dubbed Series Elastic End Effectors, or SEED, uses soft bubble grippers and embedded cameras to map how the grippers deform over a six-dimensional space (think of an airbag inflating and deflating) and apply force to a tool. Using six degrees of freedom, the object can be moved left and right, up or down, back and forth, roll, pitch, and yaw. The closed-loop controller--a self-regulating system that maintains a desired state without human interaction--uses SEED and visuotactile feedback to adjust the position of the robot arm in order to apply the desired force.