2024 APCENS Call For Papers
7th Asia-Pacific Conference on Engineering & Natural Sciences
Submission Deadline August 05, 2024
The goal of APCENS 2024 is to facilitate the gathering of prominent academic scientists, researchers, and scholars to exchange and disseminate their knowledge and research findings across various engineering and technology domains. This conference offers a platform for researchers, practitioners, and educators to showcase and deliberate on the most recent advancements, trends, issues, and pragmatic hurdles faced, along with the solutions embraced within the realms of engineering and technology.
The areas of interest for the Special Session – "Engineering Tomorrow’s World: Harnessing Innovation for Sustainable Development"– and submission encompass a wide range of topics, including but not limited to:
| ● | Biomechanics |
| ● | Biomedical Imaging |
| ● | Medical Devices and Instrumentation |
| ● | Biological Signal Processing |
| ● | Biomedical Sensors and Biosensors |
| ● | Biomedical Materials and Biomaterials |
| ● | Biomedical Modeling and Simulation |
| ● | Regenerative Medicine and Tissue Engineering |
| ● | Medical Robotics and Automation |
| ● | Biomedical Data Science and Bioinformatics |
System and Naval Mechatronic Engineering
| ● | Marine Dynamics and Control Systems |
| ● | Naval Architecture |
| ● | Marine Robotics and Autonomous Systems |
| ● | Marine Sensors and Instrumentation |
| ● | Underwater Acoustics and Signal Processing |
| ● | Marine Power Systems and Renewable Energy |
| ● | Marine Environmental Monitoring and Protection |
| ● | Marine Navigation and Positioning Systems |
| ● | Human Factors and Ergonomics in Marine Systems |
| ● | Safety and Reliability Engineering for Marine Systems |
| ● | Adsorption Principles and Structure Character of Porous Mate |
| ● | Advanced Chemical Engineering |
| ● | Thermodynamics |
| ● | Advanced Process Control |
| ● | Advanced Transport Phenomena |
| ● | Catalysis |
| ● | Energy and Environmental Biotechnology |
| ● | Enzyme and Fermentation Engineering |
| ● | Interfacial Phenomena |
| ● | Ionic Liquids |
| ● | Material Development |
| ● | Microhydrodynamics: Theory and Applications |
| ● | Molecular and Cell Biology |
| ● | Nanomaterial and Synthesis |
| ● | Polymer Physical Structure & Chemistry |
| ● | Polymer Structures |
| ● | Process Safety |
| ● | Process System Engineering |
| ● | Reactor Technology |
| ● | Scaling Concepts in Microfluidics Separation |
| ● | Bridge Engineering |
| ● | Cartography and Geographic Information System |
| ● | Coastal Engineering |
| ● | Computational Mechanics |
| ● | Construction Technology |
| ● | Disaster Prevention and Mitigation |
| ● | Engineering Management |
| ● | Environmental Management |
| ● | Environment-Friendly Construction and Development |
| ● | Geological Engineering |
| ● | Geotechnical Engineering |
| ● | Hydraulic Engineering |
| ● | Monitoring and Control Of Structures |
| ● | Safety Management |
| ● | Seismic Engineering |
| ● | Structural Engineering Geotechnical Engineering |
| ● | Surveying Engineering |
| ● | Transportation and Highway Engineering |
| ● | Water Engineering |
Computer and Information Sciences
| ● | Advanced Database |
| ● | Artificial Intelligence |
| ● | Computational and Artificial Intelligence |
| ● | Computer Architecture |
| ● | Computer Networks |
| ● | Computer Vision |
| ● | Data Communication and Networking |
| ● | Data Management |
| ● | Data Mining |
| ● | Embedded systems |
| ● | Knowledge Management |
| ● | Mining Data, Text, and the Web |
| ● | Mobile computing |
| ● | Multimedia DB's |
| ● | Networks and Systems |
| ● | Operating Systems |
| ● | Parallel and Distributed Computing |
| ● | Reconfigurable computing Sensor networks |
| ● | Signal Processing |
Electrical and Electronic Engineering
| ● | Electronics and Communications Engineering |
| ● | Applied Electricity |
| ● | Electro Engineering |
| ● | Fuel Cells and Renewable Energy Systems |
| ● | Electric Vehicle Technologies |
| ● | Applied Mechanics |
| ● | Computational Mechanics |
| ● | Combustion and Fuels |
| ● | Controls and Dynamics |
| ● | Environmental Management |
| ● | Fluid Mechanics |
| ● | Refrigeration and Air-Conditioning |
| ● | Rotor Dynamics |
| ● | Air Pollution |
| ● | Atmospheric Diffusion |
| ● | Biological Treatment Processes |
| ● | Control of Toxic Gases |
| ● | Emerging Contaminants |
| ● | Engineering Mathematics |
| ● | Environmental Economics |
| ● | Environmental Engineering |
| ● | Environmental Planning and Management |
| ● | Environmental Toxicology |
| ● | Fluid Mechanics |
| ● | Ground Water Pollution |
| ● | Hydrology |
| ● | Industrial Air Pollution |
| ● | Noise Pollution Control |
| ● | Physical and Chemical Treatment Processes |
| ● | Solid Wastes |
| ● | Thermodynamics |
| ● | Water and Wastewater Treatment |
| ● | Water Pollution Control |
Fundamental and Applied Sciences
| ● | Catalysis |
| ● | Chemical Sciences |
| ● | Computational Modeling |
| ● | Engineering Sciences |
| ● | Food, Agriculture and Veterinary Sciences |
| ● | Geology, Earth and Environmental Sciences |
| ● | Green Technology |
| ● | Innovation and Science and Engineering Education |
| ● | Mathematical and Statistical Sciences |
| ● | Medical Sciences |
| ● | Nanotechnology |
| ● | Physics and Mathematical Sciences |
Geosciences and Petroleum Engineering
| ● | Geology and Geological Engineering |
| ● | Geophysics |
| ● | Petroleum Geology |
| ● | Reservoir Engineering |
| ● | Drilling Engineering |
| ● | Production Engineering |
| ● | Formation Evaluation |
| ● | Enhanced Oil Recovery (EOR) |
| ● | Environmental Geosciences |
| ● | Geological Data Analysis and Modeling |
Material Science and Engineering
| ● | Advanced Polymer Chemistry |
| ● | Applied Optics |
| ● | Crystal Structure |
| ● | Electronic Ceramic Materials |
| ● | Energy Materials |
| ● | Kinetics of Materials |
| ● | Liquid Alloy Processing |
| ● | Magnetic Materials |
| ● | Mag, netic Materials |
| ● | Magnetic Materials |
| ● | Mechanica, l Behavior of Materials |
| ● | Optoelectronic Materials |
| ● | Physical Ceramics |
| ● | Powder Metallurgy |
| ● | Precise Controlled |
| ● | Sintering Theory |
| ● | Solidification Processing |
| ● | Thermodynamics of Materials |
| ● | Welding Metallurgy |
| ● | X-ray Diffraction |
| ● | Adaptive Control |
| ● | Conduction Heat Transfer |
| ● | Continuum Mechanics |
| ● | Corrosion and Reliability |
| ● | Discrete-Time Signal Processing |
| ● | Energy Systems |
| ● | IC packaging process |
| ● | Linear System Theory and Design |
| ● | Mechanical Design of Robotics System |
| ● | Micro-System Technology |
| ● | Numerical Heat Transfer |
| ● | Physical System Modeling |
| ● | Precision Fluid Power control |
| ● | Refrigeration and Air Conditioning |
| ● | Screw Theory and Its Applications |
| ● | Theory of Thermal Stresses |
| ● | Thermal system Analysis |
| ● | Transport Phenomena and Material Processing |
| ● | Viscoelastic Fluids |
| ● | Wave Propagation in Elastic Solids |
Engineering Tomorrow’s World: Harnessing Innovation for Sustainable Development
Renewable Energy Solutions :
| ◆ | Explore innovative technologies and strategies for harnessing renewable energy sources such as solar, wind, and hydroelectric power to meet the world's growing energy demands sustainably. |
| ◆ | Discuss the potential of renewable energy solutions to reduce carbon emissions, mitigate climate change, and enhance energy security, while promoting economic growth and social equity. |
Smart Infrastructure Development :
| ◆ | Examine the integration of smart technologies, IoT sensors, and data analytics in infrastructure
development to optimize resource utilization, enhance resilience, and improve service delivery. |
| ◆ | Discuss how smart infrastructure initiatives can contribute to more efficient transportation systems,
resilient urban planning, and sustainable water and waste management practices. |
Circular Economy Strategies :
| ◆ | Explore the principles of the circular economy and innovative approaches for reducing waste, promoting resource efficiency, and fostering sustainable consumption and production patterns. |
| ◆ | Discuss the potential of circular economy strategies to create economic value, minimize environmental impact, and enhance social well-being by closing material loops and promoting a regenerative approach to resource management. |
Green Building and Sustainable Architecture :
| ◆ | Discuss advancements in green building design, sustainable materials, and energy-efficient technologies aimed at minimizing environmental impact and maximizing occupant comfort and well-being. |
| ◆ | Explore how green building practices can reduce energy consumption, lower greenhouse gas emissions, and promote healthier indoor environments, contributing to more sustainable and resilient communities. |
Clean Water and Sanitation Technologies :
| ◆ | Explore innovative solutions for ensuring access to clean water and sanitation services, including advanced water treatment technologies, decentralized sanitation systems, and water reuse practices. |
| ◆ | Discuss the critical role of clean water and sanitation in promoting public health, reducing poverty, and fostering socio-economic development, particularly in underserved communities and regions. |
Digital Innovation for Sustainable Agriculture :
| ◆ | Examine the potential of digital technologies, precision agriculture, and agro-tech innovations for enhancing productivity, resource efficiency, and sustainability in agricultural practices. |
| ◆ | Discuss how digital innovation can support smallholder farmers, optimize resource management, and promote climate-smart agriculture to ensure food security, alleviate poverty, and protect natural resources. |
