International Conference on Advances in Engineering Systems PAES on July 27-29, 2026 in Prague, Czechia

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.

Name: ICEEAT
Website: http://iceeat.heaig.org