Spiking Neural Networks (SNNs): A Path towards Brain-Inspired AI
DOI:
https://doi.org/10.4314/0hd1n838Keywords:
Spiking Neural Networks. Brain-Inspired AI, Neuromorphic Computing,.Event-Driven Processing. Edge ComputingAbstract
Spiking Neural Networks (SNNs) represent a significant step toward brain-inspired artificial intelligence by mimicking the temporal dynamics and energy efficiency of biological neurons. Unlike traditional artificial neural networks, SNNs process information through discrete spikes, enabling event-driven computation and efficient learning mechanisms. This paradigm shift enhances real-time processing, low-power consumption, and neuromorphic computing applications. With advancements in hardware and training algorithms, SNNs hold great promise for edge computing, robotics, and cognitive modelling. This paper explores the fundamental principles of SNNs, their advantages over conventional deep learning models, and the challenges in developing large-scale, efficient spiking architectures.
Downloads
Published
Issue
Section
Most read articles by the same author(s)
- Enefiok Archibong Etuk, Omankwu, Obinnaya Chinecherem Beloved, Human-AI Collaboration: Enhancing Decision-Making in Critical Sectors , Communication In Physical Sciences: Vol. 12 No. 2 (2025): VOLUME 12 ISSUE 2
Similar Articles
- Aniedi Ojo, Victoria Enoc-Ahiamadu, Lawrence Abakah, Emurode Williams, Deborah Warmate, Machine Learning Investigation of Retail Demand Shocks, ETF Investing, and Limits to Arbitrage , Communication In Physical Sciences: Vol. 10 No. 3: VOLUME 10 ISSUE 3 (2023-2024)
- Aniedi Ojo, Victoria Enoc-Ahiamadu, Lawrence Abakah, Emurode Williams, Deborah Warmate Warmate, Machine Learning Investigation of Retail Demand Shocks, ETF Investing, and Limits to Arbitrage , Communication In Physical Sciences: Vol. 11 No. 4 (2024): VOLUME 11 ISSUE 4
- Edoise Areghan, From Data Breaches to Deepfakes: A Comprehensive Review of Evolving Cyber Threats and Online Risk Management , Communication In Physical Sciences: Vol. 9 No. 4 (2023): VOLUME 9 ISSUE 4
- Olatunde Ayeomoni, The Use of Supervised and Unsupervised Learning Methods for Detecting Auditing Anomalies , Communication In Physical Sciences: Vol. 8 No. 4 (2022): VOLUME 8 ISSUE 4
- Aramide Ajayi, Anuoluwapo Rogers, Emmanuel Egyam, Justin Nnam, Chidinma Jonah, Leveraging Machine Learning for Predictive Analytics in Mergers and Acquisitions: Valuation, Risk Assessment, and Post-Merger Performance , Communication In Physical Sciences: Vol. 8 No. 4 (2022): VOLUME 8 ISSUE 4
- Nnaemeka Emeka Ogbene, Hyacinth Chibueze Inyiama, Frank Ekene Ozioko, Nnamdi Johnson Ezeora, Agbo Chibuike George, Asogwa Tochukwu Chijindu, Application of Green Computing at Nigerian Tertiary Institutions , Communication In Physical Sciences: Vol. 8 No. 4 (2022): VOLUME 8 ISSUE 4
- Mujeeb Abdulrazaq, Rare-Event Prediction in Imbalanced Data: A Unified Evaluation and Optimization Framework for High-Risk Systems , Communication In Physical Sciences: Vol. 9 No. 4 (2023): VOLUME 9 ISSUE 4
- Emmanuel Oluwemimo Falodun, Faith, Technology, and Safety: A Theoretical Framework for Religious Leaders Using Artificial Intelligence to Advocate for Gun Violence Prevention , Communication In Physical Sciences: Vol. 8 No. 4 (2022): VOLUME 8 ISSUE 4
- Chidumebi Uzoho, The Role of Contaminated Water in Food Poisoning: An Assessment of Agricultural and Processing Practices , Communication In Physical Sciences: Vol. 12 No. 3 (2025): VOLUME 12 ISSUE 3
- Sanusi Abdullahi Sidi, Anas Tukur Balarabe, Abdulrashid Sani, Bashar Aliyu Yauri, Zahriya L. Hassan, YOLOv8-Based Deep Learning System for Liver Tumor Detection , Communication In Physical Sciences: Vol. 13 No. 2 (2026): VOLUME 13 ISSUE 2
You may also start an advanced similarity search for this article.