Call for papers/Topics

Full Articles/ Reviews/ Shorts Papers/ Abstracts are welcomed in the following research fields:

1. Digital & Intelligent Systems

The primary driver of modern engineering is the shift from "writing code" to "expressing intent," where AI autonomously optimizes designs.

  • Generative Engineering & AI-Driven Design

    • Automated code compliance and structural stress testing.

    • Natural language CAD modeling (text-to-3D).

    • Topology optimization for material reduction.

  • Digital Twins & Virtual Simulation

    • Real-time "mirroring" of physical assets for predictive maintenance.

    • GPU-accelerated 3D navigation and modeling.

    • Cloud 3.0: Hybrid and sovereign cloud architectures for AI scalability.

  • Cyber-Physical Security

    • Zero-Trust security models for smart grids and autonomous fleets.

    • AI-powered threat detection for industrial control systems.

    • Post-quantum cryptography to secure engineering data.

2. Infrastructure & Civil Engineering (Smart Cities)

Civil engineering has evolved to focus on "living" structures that can sense, adapt, and repair themselves.

  • Advanced Sustainable Materials

    • Self-healing concrete (using embedded bacteria or healing agents).

    • Self-healing asphalt with conductive fibers.

    • Carbon-negative building materials and bio-concrete.

  • Smart Infrastructure

    • Civil Information Modeling (CIM) for horizontal infrastructure.

    • Fiber-optic sensors for real-time stress and seismic monitoring in high-rises.

    • Intelligent water and waste management systems.

  • Resilient Urban Planning

    • Modular and 3D-printed construction.

    • Digital twin-based urban flood and heatwave simulation.

    • Integration of IoT into public transit and smart grids.

3. Mechanical & Robotics 

Mechanical engineering is increasingly defined by mechatronics and autonomy, moving from rigid machines to adaptive systems.

  • Autonomous Systems & Mobility

    • Level 4 and 5 autonomous vehicle powertrains and thermal management.

    • Drone delivery networks and advanced rail systems.

    • In-road wireless charging for electric vehicles (EVs).

  • Advanced Robotics

    • Biohybrid robots (combining living muscle tissue with 3D-printed frames).

    • Hyper-automation of industrial assembly lines.

    • Soft robotics for surgical and disaster-relief environments.

  • Aerospace & Defense

    • Shape-memory alloys for morphing aircraft wings and landing gear.

    • UAV (Unmanned Aerial Vehicle) autonomous flight technologies.

    • Miniaturized satellite technology and lunar base engineering.

4. Energy & Environmental Engineering

The transition to "Green Engineering" is no longer an elective but a core requirement across all disciplines.

  • Next-Generation Energy Storage

    • Solid-state batteries (replacing lithium-ion for safer, faster charging).

    • Energy harvesting (piezoelectric fabrics and surfaces).

    • Microgrids and localized energy networks.

  • Sustainable Power Systems

    • Organic and transparent solar panels.

    • Hydrogen fuel cell optimization.

    • Smart grid load forecasting and fault detection using AI.

  • Environmental Remediation

    • Advanced water purification using nanomaterials.

    • Aerogels for oil spill clean-up and high-performance insulation.

    • Carbon capture and storage (CCS) engineering.

5. Biomedical & Materials Science

Engineering at the micro and nano scale is revolutionizing healthcare and material properties.

  • Biomedical Engineering

    • Bio-integrated materials (mimicking skin and muscle).

    • Electric bandages for accelerated wound healing.

    • 3D bioprinting of tissues and organs.

    • AI-powered prosthetic limbs (e.g., the "Esper Hand").

  • Nanotechnology & Metamaterials

    • Metamaterials for 5G/6G signal enhancement and "invisibility" cloaking.

    • Nano-scale drug delivery systems.

    • Phase-change materials for thermal energy storage.

  • Human-Machine Interaction

    • Brain-Computer Interfaces (BCIs) for rehabilitation and control.

    • Extended Reality (XR) for remote surgical and engineering collaboration.