Focus and Scope

The Journal of Next-Gen Engineering Systems (JNES) aims to advance the frontiers of engineering by focusing on innovative systems, technologies, and methodologies that are shaping the future of various engineering disciplines. Our mission is to provide a dynamic platform for researchers, practitioners, and thought leaders to share cutting-edge research, interdisciplinary approaches, and practical applications that drive the development of next-generation engineering systems. We are committed to fostering collaboration across sectors to solve complex engineering challenges and enhance sustainable practices.

The Journal of Next-Gen Engineering Systems (JNES) encompasses a wide range of topics within the realm of modern engineering systems. Our scope includes, but is not limited to:

  1. Smart and Adaptive Systems:

    • Development and implementation of smart engineering systems
    • Internet of Things (IoT) applications in engineering
    • Adaptive systems and their role in responsive engineering design
  2. Sustainable Engineering Solutions:

    • Integration of sustainability principles in engineering design
    • Development of green technologies and renewable energy systems
    • Life cycle assessment and circular economy approaches in engineering
  3. Advanced Materials and Manufacturing:

    • Innovations in materials science for next-gen applications
    • Additive manufacturing and 3D printing technologies
    • Smart manufacturing systems and Industry 4.0 integration
  4. Cyber-Physical Systems:

    • The intersection of physical and digital engineering systems
    • Applications of cyber-physical systems in manufacturing and infrastructure
    • Real-time monitoring and control of engineering processes
  5. Data-Driven Engineering:

    • Applications of big data analytics in engineering
    • Machine learning and artificial intelligence in system optimization
    • Predictive maintenance and performance monitoring using data analytics
  6. Engineering Design and Optimization:

    • Innovative design methodologies and frameworks
    • Optimization techniques for engineering systems
    • Design for manufacturability and assembly principles
  7. Robotics and Automation:

    • Advanced robotics applications in various engineering fields
    • Automation in manufacturing, construction, and service industries
    • Human-robot interaction and collaborative robotics
  8. Interdisciplinary Engineering Approaches:

    • Integration of engineering with fields such as biology, computer science, and social sciences
    • Case studies showcasing innovative engineering solutions across disciplines
    • Research that emphasizes the socio-economic impact of engineering systems

By addressing the evolving landscape of engineering through a next-generation lens, the Journal of Next-Gen Engineering Systems (JNES) seeks to become a premier outlet for innovative research and transformative ideas that contribute to the sustainable development of engineering practices and technologies worldwide.