Aim and Scope
Detailed Scope for the Journal of Advance Research in Applied Science :
Engineering Applications -
Mechanical Engineering: Innovative designs, mechanics, and implementations that solve mechanical problems, including dynamics, thermodynamics, heat transfer, and fluid mechanics.
Electrical Engineering: Development and improvement of electrical systems, power generation, microelectronics, and signal processing technologies.
Civil Engineering: Advanced research in the construction of infrastructure, focusing on sustainable and resilient structures, geotechnics, transportation, and environmental engineering.
Chemical Engineering: Studies on chemical production, process engineering, and material transformations, including the design of reactors, safety, and control processes.
Biotechnology and Healthcare -
Medical Biotechnology: Development of therapeutic strategies, vaccines, diagnostic tools, and innovative treatment methods using biological systems.
Agricultural Biotechnology: Genetic engineering, pest-resistant crops, and biologically-engineered solutions to increase crop yields and farming sustainability.
Pharmaceutical Sciences: Formulation of new drugs and delivery methods, pharmacokinetics, and pharmacodynamics.
Information Technology -
Software Development: Cutting-edge software solutions for data management, user interfaces, network security, and application development.
Hardware Innovations: Design and fabrication of computer hardware, IoT devices, and wearable technology.
Network Solutions: Advancements in network architecture, protocols, broadband technologies, and cybersecurity measures.
Environmental Science and Green Technology -
Pollution Control: Technologies and strategies for reducing air, water, and soil pollution.
Renewable Energy: Research into solar, wind, geothermal, and bioenergy technologies.
Sustainable Practices: Sustainable development methodologies, life cycle analysis, and environmental impact assessments.
Materials Science -
Nano-materials: Synthesis, characterization, and applications of nanostructured materials.
Composite Materials: Development and testing of composite materials for various industrial applications.
Smart Materials: Design and application of materials that respond dynamically to environmental changes and technological needs.
Robotics and Automation -
Industrial Robotics: Use of robots in manufacturing, assembly, and quality control.
Service Robotics: Development of robots for services, including healthcare, domestic use, and entertainment.
Automated Systems: Innovations in automated transport systems, smart factories, and home automation.
Applied Physics and Chemistry -
Technological Physics: Application of physics concepts in developing new devices and improving existing technologies.
Industrial Chemistry: Chemical processes in industrial settings, focusing on scaling up reactions, and creating safer and more efficient processes.
Data Science and Analytics -
Big Data Applications: Utilization of large datasets to solve complex problems across various scientific and industrial fields.
Machine Learning: Application of machine learning algorithms in predictive modeling and decision-making processes.
Statistical Analysis: Advanced statistical techniques to analyze and interpret complex datasets.
Ethical, Legal, and Social Implications -
Ethics in Science and Technology: Addressing ethical issues surrounding new technologies and scientific research.
Legal Issues: Compliance and regulatory issues related to applied sciences and technology development.
Social Impact: Studies on the social implications and public acceptance of applied scientific research and innovations.
