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UVS-Oman 2026 2026 : 3rd International Conference on Unmanned Vehicle Systems on Intelligent Systems for Industrial Challenges | |||||||||||||||
| Link: https://uvsc.om/ | |||||||||||||||
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Call For Papers | |||||||||||||||
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Main Topics
The range of targeted topics is very broad, but priority is given to subjects on real world applications; including: research, industry, business, and education. The Technical Program Committee is inviting proposals for paper presentations, demonstrations, and poster contributions on topic relevant to UVS. These include but not limited to the following: 1. Technological Advances in Unmanned Vehicle Systems (UVS) and Robotics • Innovative design approaches and modular, scalable architectures • Propulsion systems: electric, hybrid, and alternative power sources • Lightweight and durable materials for improved efficiency • Sensor and perception technologies for enhanced autonomy • Energy efficiency and power management solutions • Self-healing materials and damage-resistant structures • Adaptive camouflage and stealth technologies • Bio-inspired design and engineering • Micro-Electro-Mechanical Systems (MEMS) Applications in UVS 2. Intelligent Navigation, Control, and Decision-Making • Machine learning and AI-driven navigation algorithms • Simultaneous Localization and Mapping (SLAM) • Navigation in GPS-Denied Environments • Swarm intelligence and multi-vehicle coordination • Bio-inspired navigation and adaptive control systems • Real-time decision-making and self-learning autonomy • Multi-sensor fusion for robust localization and obstacle avoidance • Condition monitoring and fault tolerance of autonomous vehicles and operations 3. Applications and Use-Cases of UVS and Robotics in Industry and the Public Sector • Oil and gas asset monitoring, inspection, and maintenance • Inspection of power grids and critical Infrastructure • Logistics, supply chain, warehouse management, and package delivery • Precision agriculture and innovative farming solutions • Environmental monitoring and disaster response • Mining and hazardous environment operations • Mapping and Geographic Information Systems (GIS) • Marine and underwater exploration • Defense and security applications, including border surveillance • Healthcare applications, including medical supply delivery • Tourism and Filmmaking • Space exploration and planetary rovers • Design, Construction, and Building Performance Monitoring 4. Integration with IoT, Smart Cities, and Urban Mobility • Data interoperability and real-time traffic analysis • Smart traffic management and autonomous public transportation • Emergency response systems and disaster management integration • Standards for data exchange and communication • Community engagement in urban planning and adoption strategies • Integration of UAVs with 5G networks • Digital Twins for Smart Cities 5. Data Analytics, Cybersecurity, and System Resilience • Big data analytics and predictive insights for UVS • Real-time data processing, edge computing, and visualization tools • Communication protocols for reliable system coordination • Cybersecurity threat assessment and vulnerability analysis • Blockchain for secure data sharing in connected unmanned systems • Robust security protocols, encryption methods, and cryptographic protection • Secure communication, incident response, and adaptive defense mechanisms • Continuous monitoring strategies for resilient unmanned systems • AI-driven anomaly detection in cyber-physical systems • Post-quantum cryptography for securing unmanned systems 6. Education and Training of Unmanned Vehicle Systems (UVS) and Robotics • Integrating Unmanned Vehicle Systems into Engineering & STEM Curricula • Hands-on Learning with UVS: Lab-Based Approaches and Simulations • Developing Low-Cost Educational Drones and UGVs for Schools & Universities • Multidisciplinary Approaches to UVS Education: Combining Robotics, AI, and IoT • Competitions and Hackathons: Engaging Students in UVS Innovation • Certifications and Accreditation in UVS Education • Teaching Ethics, Safety, and Regulations for UVS Operations • Digital Twins and Virtual Reality for UVS Training • Bridging the Gap Between UVS Education and Industry Needs • Internships and Industry Partnerships for UVS Students 7. Regulatory, Ethical, and Societal Implications • Safety standards, certifications, and legal accountability • Ethical dilemmas in autonomous decision-making • Privacy concerns and data protection in unmanned systems • Public perception, acceptance, and policy frameworks • Development of international regulations and compliance measures • Liability in accidents involving unmanned systems • Workforce displacement and economic impact of automation • Risk and reliability of autonomous vehicle systems 8. Challenges and Future Trends in UVS and Robotics • Intuitive user interfaces and ergonomics for unmanned systems • Training, simulation, and VR/AR-based operator environments • Trust, reliability, and user acceptance studies • Sustainability considerations and eco-friendly operational practices • Overcoming regulatory, technological, and societal barriers • Psychological and cognitive effects of human interaction with autonomous vehicles • Standardization of human-UVS interaction protocols • Emerging technologies, AI advancements, and global market trends |
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