Scope of JAATE

Scope of the Journal of Advanced Applied Technology and Engineering (JAATE)

The Journal of Advanced Applied Technology and Engineering (JAATE), published by the University of M’sila, is a peer-reviewed academic journal dedicated to the dissemination of original research and critical reviews in the fields of applied technology and engineering.

JAATE is a scholarly platform for researchers, academics, and industry professionals that promotes scientific discussion and fosters interdisciplinary collaboration. The journal publishes articles in English.

Areas of interest include, but are not limited to:

Electrical engineering

Electromagnetism and Microwave
Signal and Image Processing
Automatic Control
Design, Control and Diagnostic of Electromagnetic and Hybrid Devices
Renewable Energy and Green Hydrogen
Electrical Networks and High Voltage
Power Electronics
Control and Diagnostics of Electric Drives

Electronics

Computer vision, image and video processing and interpretation.
Modeling, identification, and processing of signals and dynamic systems.
Advanced materials for engineering (composite materials, smart materials, nanomaterials, materials for energy).
AI-driven green technologies: energy optimization, renewable energies, intelligent resource management.
Intelligent control, decision systems, autonomous systems, and intelligent vehicles.
Advanced design of sensors and intelligent detection systems
Nanosensors and biosensors for environmental and biomedicalapplications
Optical and photonic sensors
Next-generation wireless communications (5G/6G)
Optical communication systems
Satellite and space communications
Massive MIMO and beamforming technologies
Machine learning for communication networks
Photonic crystal structures and devices
Plasmonics and nanophotonics
Metamaterials and metasurfaces
Integrated photonic circuits
Nanostructured optical materials
Photonic devices for sensing and communication
Microwave circuit and antenna design
RF systems for wireless applications
Millimeter-wave communication systems
RF integrated circuits (RFIC)
Microwave photonics
Electromagnetic compatibility and propagation
Adaptive and robust control systems
Intelligent control using machine learning
Fuzzy logic and neuro-fuzzy control
Autonomous systems and robotic control
Nonlinear and optimal control systems
Smart grid control and energy systems
Advanced digital signal processing
AI-based signal processing techniques
Image and video processing
Speech and audio signal processing
Biomedical signal processing
Deep learning for signal analysis

Mechanical engineering

Reliability, fatigue, and material behavior
Mechanical manufacturing
Machining and numerical simulation of bio-composite materials

Civil Engineering

Materials, Environment, and Geosciences
Characterization and development of new materials
Structures and Geotechnics
Soil characterization, stabilization, and improvement
Numerical modeling and behavior analysis of geotechnical structures
Geotechnics 4.0 (Application of AI and new technologies such as GIS, remote sensing, etc., in geotechnics)
Foundation engineering
Pathology of constructions and materials
Durability of materials
Characterization of raw earth materials
Development of geomaterials
Compressed and stabilized earth bricks
Pathology of constructions and materials
Durability of materials
Characterization of raw earth materials
Development of geomaterials
Compressed and stabilized earth bricks
Characterization of mineral waste
Identification, classification, and analysis of mineral waste
Valorization of mineral waste
Development of innovative treatment processes for recycling
Formulation and characterization of innovative concretes and composite materials
Durability of innovative concretes and composite materials
Introduction of new types of cements
Advanced analysis methods, such as scanning electron microscopy
Development of high-performance geomaterials from local or recycled resources
Investigation of soil-structure interactions using coupled experimental and numerical approaches

Hydraulics

Environment and water resource engineering
Hydrological and hydraulic modeling
Sediment transport, erosion, and reservoir siltation processes
Effect of climate changes on water resources
Groundwater quality Engineeringand management solutions
Sustainable water resources management
GIS and remote sensing in Water Resources Management
Rheology and non-Newtonian fluid mechanics
Study of emulsions, interfacial areas, and bioactive compounds
Inundation and hydrological extreme event
Optimization and AI in Hydraulic.
Water Policy and regulation.
Applied Environmental WaterChemistry
Dams and hydraulic structures
Water supply and sewerage
Irrigation and drainage
Water treatment, Desalination and water reuse
Valorization of bio-based natural materials (chemistry)
Biochemical processes and sustainable technologies (chemistry)
Structural characterization and physicochemical properties of materials (mechanic)
Renewable Energy and Sustainable Development (mechanic)