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7 of the best handheld vacuums for 2022

Mashable

Sure, stick vacuums can clean the heck out of your floors and robot vacuum cleaners can do all the dirty work for you without having to get up from the couch. But sometimes, you need a tool that can easily reach awkward spots (like in your car), quickly clean up messy spills, and bust the dust in no time. Handheld vacuums are a great buy because they're some of the most convenient cleaning devices you can own. These tiny workhorses are lightweight and compact, meaning they're easy to store, and you can quickly grab one when your pet knocks over some Cheerios or you need to scurryfunge (i.e., quickly clean when a friend or an in-law is on their way over -- eek) and make countertops, curtains, window sills, and shelves presentable in, like, minutes. But what should you look for in a handheld vacuum?


Machine Learning in Materials Science

#artificialintelligence

Before getting into what polymers are on a molecular level, let's see some familiar materials that are good examples. Some examples of polymers include: plastic, nylon, rubber, wood, protein, and DNA. In this case, we will focus primarily on synthetic polymers like plastic and nylon. At the molecular level, polymers are composed of long chains of repeating molecules. The molecule that repeats in this chain is known as a monomer (or subunit).


Classifying Music Genres with LightGBM

#artificialintelligence

Many machine learning algorithms can perform worse if they deal with data that has an extremely large number of features (dimensions). This is particularly the case if many of those features are highly sparse. This is where dimension reduction can be useful. The idea is to project the high dimensional data into a lower dimension subspace, while retaining as much of the variance present in the data as possible. We will initially use two methods (PCA and t-SNE) to explore whether it is appropriate to use dimension reduction on our lyric data, as well as get an early indication of what a good range of dimensions to reduce into might be.


Papers to Read on Stochastic Gradient Descent

#artificialintelligence

Abstract: We study the Stochastic Gradient Descent (SGD) algorithm in nonparametric statistics: kernel regression in particular. The directional bias property of SGD, which is known in the linear regression setting, is generalized to the kernel regression. More specifically, we prove that SGD with moderate and annealing step-size converges along the direction of the eigenvector that corresponds to the largest eigenvalue of the Gram matrix. These facts are referred to as the directional bias properties; they may interpret how an SGD-computed estimator has a potentially smaller generalization error than a GD-computed estimator. The application of our theory is demonstrated by simulation studies and a case study that is based on the FashionMNIST dataset.


The History of Artificial Intelligence - Science in the News

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It began with the "heartless" Tin man from the Wizard of Oz and continued with the humanoid robot that impersonated Maria in Metropolis. By the 1950s, we had a generation of scientists, mathematicians, and philosophers with the concept of artificial intelligence (or AI) culturally assimilated in their minds. One such person was Alan Turing, a young British polymath who explored the mathematical possibility of artificial intelligence. Turing suggested that humans use available information as well as reason in order to solve problems and make decisions, so why can't machines do the same thing? This was the logical framework of his 1950 paper, Computing Machinery and Intelligence in which he discussed how to build intelligent machines and how to test their intelligence.


Amazon digs into ambient and generalizable intelligence at re:MARS

#artificialintelligence

We are excited to bring Transform 2022 back in-person July 19 and virtually July 20 - 28. Join AI and data leaders for insightful talks and exciting networking opportunities. Many, if not most, AI experts maintain that artificial general intelligence (AGI) is still many decades away, if not longer. And the AGI debate has been heating up over the past couple of months. However, according to Amazon, the route to "generalizable intelligence" begins with ambient intelligence. And it says that future is unfurling now.


HPE invests in TruEra for AI explainability and quality management

#artificialintelligence

We are excited to bring Transform 2022 back in-person July 19 and virtually July 20 - 28. Join AI and data leaders for insightful talks and exciting networking opportunities. With artificial intelligence (AI) and machine learning (ML) now serving as key attributes to make IT systems faster, more accurate and beneficial for an enterprise's bottom line, the importance of transparency in how these components are working also becomes more critical . Why? Biases can creep into AI / ML models just as it does in humans, and when it does, queries can go awry and skewed analytics can cause production results to be incorrect. Explainable AI is important for trust, compliance and building less-biased AI models. Both customers and regulators want to know more about what's inside the black box.


How to Create a AI Chatbot in Python Framework

#artificialintelligence

Chatbots are software tools created to interact with humans through chat. The first chatbots were able to create simple conversations based on a complex system of rules. Using Flask Python Framework and the Kompose Bot, you will be able to build intelligent chatbots. In this post, we will learn how to add a Kompose chatbot to the Python framework Flask. You will need a Kommunicate account for deploying the python chatbot.


How do Kernel Regularizers work with neural networks?

#artificialintelligence

Regularization is the process of fine-tuning neural network models by inducing a penalty term in the error parameter to obtain an optimal and reliable model which converges better with minimal loss during testing and performs better for unseen data. Regularization helps us get a more generic and reliable model which functions well with respect to changes in patterns of data and any possible uncertainties. So in this article let us see how kernel regularizers work with neural networks and place at what layers of the neural networks are useful to obtain optimal neural networks. Regularization is the process of adding penalty factors to the network layers to alter the weight propagation through the layers which facilitate the model to converge optimally. There are mainly two types of penalties that can be enforced on the network layers which are named as L1 regularization considers the weight of the layers as it is while the L2 regularization considers the squares of weights.


Humans in the loop help robots find their way: Computer scientists' interactive program aids motion planning for environments with obstacles

#artificialintelligence

Engineers at Rice University have developed a method that allows humans to help robots "see" their environments and carry out tasks. The strategy called Bayesian Learning IN the Dark -- BLIND, for short -- is a novel solution to the long-standing problem of motion planning for robots that work in environments where not everything is clearly visible all the time. The peer-reviewed study led by computer scientists Lydia Kavraki and Vaibhav Unhelkar and co-lead authors Carlos Quintero-Peña and Constantinos Chamzas of Rice's George R. Brown School of Engineering was presented at the Institute of Electrical and Electronics Engineers' International Conference on Robotics and Automation in late May. The algorithm developed primarily by Quintero-Peña and Chamzas, both graduate students working with Kavraki, keeps a human in the loop to "augment robot perception and, importantly, prevent the execution of unsafe motion," according to the study. To do so, they combined Bayesian inverse reinforcement learning (by which a system learns from continually updated information and experience) with established motion planning techniques to assist robots that have "high degrees of freedom" -- that is, a lot of moving parts.