Research Articles
Beyond Neurons: How Artificial Astrocytes Are Creating More Explainable AI
Discover how artificial astrocytes, inspired by brain cells, are revolutionizing neural networks by improving performance and explainability in AI systems.
THINGSvision: The Universal Remote for Deep Neural Networks
THINGSvision is a Python toolbox designed to streamline the extraction of activations from deep neural networks, bridging artificial and biological vision research.
From Swarms to Synapses: How Biology is Revolutionizing Computing
Explore how biologically inspired computing is transforming technology through evolutionary algorithms, neural networks, and DNA computing.
Cracking the Code of Ever-Changing Networks: The AI That Learns from Dynamic Graphs
Explore how Continuous-Time Generative Graph Neural Networks are revolutionizing our understanding of dynamic networks in social media, finance, and biological systems.
Mapping the Social Networks of Your Brain: The Quest to Find Neural Communities
Discover how scientists are detecting neural communities in the brain using advanced graph neural networks and community detection algorithms.
Expressiveness in Biologically Inspired Languages: How Nature Is Rewriting the Code of Computing
Exploring how biologically inspired programming languages are reshaping computing through natural systems modeling and neural network architectures.
How AI Is Revolutionizing Cancer Detection: When Computers Learn to Spot Disease
Explore how big data analytics and deep convolutional neural networks are transforming cancer diagnosis through advanced pattern recognition and AI technology.
How AI and Evolutionary Algorithms Are Revolutionizing Drug Delivery
Exploring how artificial neural networks and genetic programming are transforming drug release prediction from solid lipid matrices.
How Neural Networks are Revolutionizing Movement Science: From Lab to Living Room
Exploring how computational intelligence and neural networks are transforming movement analysis, gait assessment, and the diagnosis of neurological disorders.
Cracking Cancer's Code: When Fractional Mathematics Meets Artificial Intelligence
Exploring how fractional-order neural networks are revolutionizing cancer cell propensity prediction through advanced computational complexity approaches.