Deep Learning is a subset of machine learning that uses artificial neural networks with multiple layers (hence "deep") to model and understand complex patterns in datasets. It's particularly effective for tasks like image and speech recognition, natural language processing, and translation, and it's the technology behind many advanced AI systems.
Researchers introduced a groundbreaking hybrid model for short text filtering that combines an Artificial Neural Network (ANN) for new word weighting and a Hidden Markov Model (HMM) for accurate and efficient classification. The model excels in handling new words and informal language in short texts, outperforming other machine learning algorithms and demonstrating a promising balance between accuracy and speed, making it a valuable tool for real-world short text filtering applications.
Researchers introduced Relay Learning, a novel deep-learning framework designed to ensure the physical isolation of clinical data from external intruders. This secure multi-site deep learning approach, Relay Learning, significantly enhances data privacy and security while demonstrating superior performance in various multi-site clinical settings, setting a new standard for AI-aided medical solutions and cross-site data sharing in the healthcare domain.
This review article discusses the evolution of machine learning applications in weather and climate forecasting. It outlines the historical transition from statistical methods to physical models and the recent emergence of machine learning techniques. The article categorizes machine learning applications in climate prediction, covering both short-term weather forecasts and medium-to-long-term climate predictions.
This study explores the application of deep learning models to segment sheep Loin Computed Tomography (CT) images, a challenging task due to the lack of clear boundaries between internal tissues. The research evaluates six deep learning models and identifies Attention-UNet as the top performer, offering exceptional accuracy and potential for improving livestock breeding and phenotypic trait measurement in living sheep.
This research paper compared various computational models to predict ground vibration from mining blasts. The study found that a blackhole-optimized LSTM model provided the highest predictive accuracy, outperforming conventional and advanced methods, offering a robust foundation for AI-powered solutions in vibration forecasting and design optimization in the mining industry.
Researchers reviewed the application of machine learning (ML) techniques to bolster the cybersecurity of industrial control systems (ICSs). ML plays a vital role in detecting and mitigating cyber threats within ICSs, encompassing supervised and unsupervised approaches, and can be integrated into intrusion detection systems (IDS) for improved outcomes.
This paper explores the integration of IoT with drone technology to enhance data communication and security across various industries, including agriculture and smart cities. The study focuses on the use of machine learning and deep learning techniques to detect cyberattacks within drone networks and presents a comprehensive framework for intrusion detection.
This study, published in Nature, explores the application of Convolutional Neural Networks (CNN) to identify and detect diseases in cauliflower crops. By using advanced deep-learning models and extensive image datasets, the research achieved high accuracy in disease classification, offering the potential to enhance agricultural efficiency and ensure food security.
Researchers introduce a Convolutional Neural Network (CNN) model for system debugging, enabling teaching robots to assess students' visual and movement performance while playing keyboard instruments. The study highlights the importance of addressing deficiencies in keyboard instrument education and the potential of teaching robots, driven by deep learning, to enhance music learning and pedagogy.
Researchers have introduced the All-Analog Chip for Combined Electronic and Light Computing (ACCEL), a groundbreaking technology that significantly improves energy efficiency and computing speed in vision tasks. ACCEL's innovative approach combines diffractive optical analog computing and electronic analog computing, eliminating the need for Analog-to-Digital Converters (ADCs) and achieving low latency.
Researchers delve into the realm of mobile robot path planning. Covering single-agent and multi-agent scenarios, the study explores environmental modeling, path planning algorithms, and the latest advancements in artificial intelligence for optimizing navigation. It also introduces open-source map datasets and evaluation metrics.
Researchers have introduced a cutting-edge Driver Monitoring System (DMS) that employs facial landmark estimation to monitor and recognize driver behavior in real-time. The system, using an infrared (IR) camera, efficiently detects inattention through head pose analysis and identifies drowsiness through eye-closure recognition, contributing to improved driver safety and accident prevention.
Researchers introduced an innovative machine learning framework for rapidly predicting the power conversion efficiencies (PCEs) of organic solar cells (OSCs) based on molecular properties. This framework combines a Property Model using graph neural networks (GNNs) to predict molecular properties and an Efficiency Model using ensemble learning with Light Gradient Boosting Machine to forecast PCEs.
This paper presents MULTITuDE, a benchmark dataset designed for multilingual machine-generated text (MGT) detection. The study evaluates various detection methods across 11 languages, demonstrating that fine-tuning detectors with multilingual language models is an effective approach, and the linguistic similarity between languages plays a significant role in the generalization of detectors.
Researchers introduced the Lightweight Hybrid Vision Transformer (LH-ViT) network for radar-based Human Activity Recognition (HAR). LH-ViT combines convolution operations with self-attention, utilizing a Residual Squeeze-and-Excitation (RES-SE) block to reduce computational load. Experimental results on two human activity datasets demonstrated LH-ViT's advantages in expressiveness and computing efficiency over traditional approaches.
Researchers presented an approach to automatic depression recognition using deep learning models applied to facial videos. By emphasizing the significance of preprocessing, scheduling, and utilizing a 2D-CNN model with novel optimization techniques, the study showcased the effectiveness of textural-based models for assessing depression, rivaling more complex methods that incorporate spatio-temporal information.
Tenchijin, a Japanese startup, is utilizing deep learning and satellite data to address issues with satellite internet, particularly the impact of weather on ground stations. Their AI system accurately predicts suitable ground stations, providing more reliable internet connectivity, and their COMPASS service has applications in renewable energy, agriculture, and city planning by optimizing land use decisions using a variety of data sources.
Researchers have introduced a novel self-supervised learning framework to improve underwater acoustic target recognition models, addressing the challenges of limited labeled samples and abundant unlabeled data. The four-stage learning framework, including semi-supervised fine-tuning, leverages advanced self-supervised learning techniques, resulting in significant improvements in model accuracy, especially under few-shot conditions.
This study explores the application of artificial intelligence (AI) models for indoor fire prediction, specifically focusing on temperature, carbon monoxide (CO) concentration, and visibility. The research employs computational fluid dynamics (CFD) simulations and deep learning algorithms, including Long Short-Term Memory (LSTM), Convolutional Neural Network (CNN), and Transpose Convolution Neural Network (TCNN).
This review explores the applications of artificial intelligence (AI) in studying fishing fleet (FV) behavior, emphasizing the role of AI in monitoring and managing fisheries. The paper discusses data sources for FV behavior research, AI techniques used in monitoring FV behavior, and the uses of AI in identifying vessel types, forecasting fishery resources, and analyzing fishing density.
Terms
While we only use edited and approved content for Azthena
answers, it may on occasions provide incorrect responses.
Please confirm any data provided with the related suppliers or
authors. We do not provide medical advice, if you search for
medical information you must always consult a medical
professional before acting on any information provided.
Your questions, but not your email details will be shared with
OpenAI and retained for 30 days in accordance with their
privacy principles.
Please do not ask questions that use sensitive or confidential
information.
Read the full Terms & Conditions.