Big Data refers to extremely large datasets that may be analyzed computationally to reveal patterns, trends, and associations, especially relating to human behavior and interactions. It's characterized by its high volume, velocity, and variety (the "3 Vs"), and requires specific tools and methods for storage, processing, and analysis.
Researchers introduced innovative computer vision techniques to the maritime industry, incorporating ensemble learning and domain knowledge. These methods significantly improve detection accuracy and optimize video viewing on vessels, offering advancements for marine operations and communication.
Researchers leverage AI to optimize the design, fabrication, and performance forecasting of diffractive optical elements (DOEs). This integration accelerates innovation in optical technology, enhancing applications in imaging, sensing, and telecommunications.
In an article published in Computers and Education: Artificial Intelligence, researchers explored various methods for generating question-answer (QA) pairs using pre-trained large language models (LLMs) in higher education. They assessed pipeline, joint, and multi-task approaches across three datasets through automated metrics, teacher evaluations, and real-world educational settings.
A review in Materials & Design explores how big data, machine learning (ML), and digital twin technologies enhance additive manufacturing (AM). These technologies improve AM by optimizing design, material properties, and process efficiency, offering significant advancements in quality, efficiency, and sustainability.
Researchers reviewed AI advancements in electric power systems, highlighting its transformative potential due to modern microprocessors and data storage. The study categorizes AI applications into four areas and presents detailed case studies in wind power forecasting, smart grid security, and fault detection.
The Laplacian correlation graph (LOG) significantly improves stock trend prediction by modeling price correlations. Experimental results show superior accuracy and returns, highlighting LOG's potential in real-world investment strategies.
A recent review in the Journal of Materials Research and Technology explores machine learning's transformative potential in designing and optimizing magnesium (Mg) alloys. By leveraging ML, researchers can efficiently enhance Mg alloy properties, expediting their development and broadening industrial applications.
In their study published in the journal Smart Cities, researchers employed smart sensing and predictive analytics to address challenges in Japan's urban development and infrastructure resilience. Focusing on Setagaya, Tokyo, the research produced predictive models accurately determining critical bearing layer depths, crucial for government plans and construction risk assessments.
Researchers explore the application of AI and ML in volatility forecasting, revealing their promise in improving accuracy and informing financial decisions. The review underscores the need for further exploration in explainable AI, uncertainty quantification, and alternative data sources to advance forecasting capabilities.
Exploring the financial challenges faced by expanding enterprises like the ZH group, researchers present a strategic financial control strategy incorporating intelligent algorithms. Through practical implementation and theoretical analysis, they highlight the efficacy of reverse neural networks and particle swarm optimization in enhancing decision-making and mitigating financial risks.
Researchers detail advancements in using Random Forest (RF) models to pinpoint tax risks within real estate, providing insights into discrepancies between declared values and model judgments. By meticulously selecting indicators and leveraging historical data, the RF model emerges as a robust tool for tax risk identification, offering decision support for tax authorities and promoting improved compliance levels within the real estate industry.
This study provides an in-depth exploration of the advancements, challenges, and future prospects of digital twins in various industrial applications. It covers the theoretical frameworks, technological implementations, and practical considerations essential for understanding and leveraging digital twins effectively across different sectors.
In a study published in Scientific Reports, advanced AI techniques dissected the social media activity of 1358 VK users, unveiling correlations between behavior and personality traits. Through meticulous analysis of 753,252 posts and reposts alongside Big Five traits and intelligence assessments, the research highlighted the influence of emotional tone and engagement metrics on psychological attributes, advocating for behavior-based diagnostic models in the digital realm.
Researchers demonstrate the transformative potential of agricultural digital twins (DTs) using mandarins as a model crop, showcasing how data-driven decisions at the individual plant level can enhance precision farming, optimize resource allocation, and improve fruit quality, ultimately leading to a paradigm shift in agriculture towards individualized farming practices.
Researchers from the University of Ostrava delve into the intricate landscape of AI's societal implications, emphasizing the need for ethical regulations and democratic values alignment. Through interdisciplinary analysis and policy evaluation, they advocate for transparent, participatory AI deployment, fostering societal welfare while addressing inequalities and safeguarding human rights.
Researchers developed a comprehensive system leveraging IoT and cloud computing to monitor and predict drinking water quality in real-time. The system integrates sensors, microcontrollers, web servers, and machine learning models to collect, transmit, analyze, and predict water quality parameters. Machine learning algorithms, particularly decision trees, achieved high accuracy in predicting drinkability, demonstrating the system's potential to enhance water safety and contribute to achieving Sustainable Development Goals.
Researchers propose a Correlated Optical Convolutional Neural Network (COCNN) inspired by quantum neural networks (QCNN), aiming to overcome the limitations of existing optical neural networks (ONNs) and achieve algorithmic speed-up. COCNN introduces optical correlation to mimic quantum states' symmetry identification, demonstrating faster convergence and higher learning accuracy compared to conventional CNN models. Experimental validation shows COCNN's capability to perform quantum-inspired tasks, indicating its potential to bridge the gap between quantum and classical computing paradigms in information processing.
The Mobilise-D consortium unveils a groundbreaking protocol using IMU-based wearables for real-world mobility monitoring across clinical cohorts. Despite achieving accurate walking speed estimates, the study emphasizes context-dependent variations and charts a visionary future, envisioning wearables as integral in ubiquitous remote patient monitoring and personalized interventions, revolutionizing healthcare.
Contrary to common concerns, a study published in Nature unveils that the introduction of artificial intelligence, particularly industrial robots, has positively impacted employment in China's manufacturing sector from 2006 to 2020. The research challenges pessimistic views, highlighting increased job creation, enhanced labor productivity, and refined division of labor, with a significant positive effect on female employment, offering valuable insights for global AI employment dynamics.
Researchers employ advanced intelligent systems to analyze extensive traffic data on northern Iranian suburban roads, revolutionizing traffic state prediction. By integrating principal component analysis, genetic algorithms, and cyclic features, coupled with machine learning models like LSTM and SVM, the study achieves a significant boost in prediction accuracy and efficiency, offering valuable insights for optimizing transportation management and paving the way for advancements in traffic prediction methodologies.
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