ICISAS 2025 is the leading research conference of Curtin University Dubai, bringing together experts who are shaping the future through innovation, sustainability, and applied sciences.
ICISAS 2025 is the leading research conference of Curtin University Dubai, bringing together experts who are shaping the future through innovation, sustainability, and applied sciences. The event provides a strong platform for sharing new knowledge that supports technological progress and sustainable development.The main purpose of the conference is to encourage collaboration across engineering, technology, management, and scientific fields. It connects researchers, industry leaders, policymakers, and students who are committed to creating solutions that address global challenges through responsible and forward-looking innovation.ICISAS 2025 aims to highlight research that can improve material performance, energy systems, sustainable design, and advanced manufacturing. This aligns closely with the book theme, which focuses on innovative engineering approaches that enhance durability, efficiency, and environmental responsibility.A major focus of the conference is on advanced materials, renewable energy technologies, and intelligent systems. Participants explore areas such as nanocomposites, eco-friendly concretes, solar and wind optimization, AI-driven monitoring, IoT-enabled engineering processes, robotics applications, and improved safety systems.The conference also features research on wastewater treatment, structural optimization, machining processes, geotechnical solutions, and sustainable industrial practices. These topics demonstrate how engineering innovations can reduce environmental impact and support sustainable infrastructure and industry.Over two days, the conference offers keynote talks, plenary sessions, poster and oral presentations, symposiums, networking activities, and exhibitor showcases. This diverse programme helps participants engage deeply with new technologies, practical solutions, and collaborative opportunities.ICISAS 2025 stands out for its strong participation from government leaders, eminent scientists, technologists, industry experts, and academics. By bringing together such a wide group, the conference creates a unique environment where cutting-edge engineering research meets real-world application and policy impact.
1 Reduction of drag force using alternative materials and adjusting
thickness in aircraft wingspan 2 Improving carpooling security using
blockchain based decentralized secure ride sharing system 3 Enhancing
industrial wastewater treatment: Advanced nanomembranes from cellulose/GO
particles aligned with Oman Vision 2040 4 Biochar/Ag nanocomposite: A
corrosion inhibitor and self-healing solution for carbon steel 5 A
comparative investigation on the long term durability performance of fly-ash
based geopolymer concrete and conventional concrete in chloride environment
6 Enhancement of power quality in wind power generation based hybrid
standalone microgrid under faults on distribution lines 7 Screw defect
detection using Xception algorithm over Resnet50 algorithm for better
accuracy 8 Determination of optimal control parameters for positioning
nanocomposite based redundant articulated robot joints by sustainable
simulation method 9 A novel license plate recognition system using YOLO in
comparison with histogram of oriented gradient algorithm for better accuracy
10 Effect of air velocity and water temperature on a mechanical-draft cooling
tower performance 11 IoT technologies in power and grid systems 12
Optimization of PV panels using IoT and PVsyst 13 The innovation of the use
of graphene in aerospace materials 14 Advanced cloudburst prediction using
machine learning 15 Treatment of vegetable oil wastewater using
nanocomposite membranes system and smart engineering for sustainable
development 16 A comparative study on physical and mechanical properties of
AAC lightweight cellular concrete and Foam concrete blocks 17 Forecasting
and analysing renewable and non-renewable energy generation and demand
patterns using machine learning and deep learning techniques 18 A
comprehensive study on potato and tomato disease prediction using deep
learning techniques 19 Enhancing underwater archaeology with computer
vision: A deep learning approach for shipwreck detection 20 AI-driven fire
detection system for UAVs: Integrating CNNs with thermal imaging 21 A
machine learning-based framework for customer churn prediction 22 Studies of
self-adjusting non-linear polynomial neural network for machine learning 23
Characterization and development of IGA-MMCs: A sustainable approach to
automotive-grade metal matrix composite 24 Experimental investigation on
mechanical and metallurgical characterization of 2014 and 2024 aluminium
alloys using friction welding 25 Bound for secure vertex cover pebbling
number of a hypercube towards sustainable transportation for circular
economy 26 Enhancing accuracy of 48 × 48 dimensional image using CNN 27 A
novel smart framework for forest vegetation sustainability through remote
monitoring 28 Development of an AI-enhanced Arduino-based smart planter
system 29 Intelligent predictive control strategy for Hall-Héroult process
in aluminium smelting industry: A review 30 Enhancing launch vehicle power
resilience: Piezoelectric energy harvesting for sustainable space missions
31 Shaping a greener future: Energy auditing and conservation in Maldives
utilizing augmented physics informed neural network-Addax Optimization
approach 32 Performance analysis of the optimized steel I-beam section from
Eurocode 3 33 Soil analysis and crop guidance system using IoT sensors 34 A
framework to implement comprehensive resource tracking and crop wellness 35
Comparative results of thermal analysis on metal matrix and Zirconium dioxide
for deep groove ball bearing 36 An analytical study on the impact of line
and grid infill patterns on the tensile strength characteristics of used
Filament Fabrication (FFF) manufactured thin-walled PEEK specimens 37
Investigation of voltage profile in distribution systems at different
penetration levels of solar photovoltaic systems 38 Tribological behaviour
of Mo4%Sn composite nanocoating prepared by electrodeposition method 39
Evaluating the performance of powder of glass waste as a novel soil
stabilizer in geotechnical engineering 40 Hybrid computational intelligence
model for energy efficiency in wireless sensor networks 41 Tribological
behaviours of Ni-Al2O3/4%Sn composite coating by electrodeposition technique
Dr. Chithirai Pon Selvan is a John Curtin Distinguished Professor with 25+ years of excellence in engineering educa>tion, research, and leadership. As Director of Research and Head of School Science and Engineering, Curtin University Dubai, he has published extensively, led major initiatives, and received prestigious awards for his global contributions to sustainability. [ https://orcid.org/0000-0001-9295-3340].
Dr. Wahidul K. Biswas is a Professor in the Sustainable Engineering Group in the School of Civil and Mechanical Engineering at Curtin University in Australia. His teaching and research focused on life cycle engineering, sustainability assessment of engineering solutions, green engineering, and industrial ecology. [ https://orcid.org/0000-0002-7480-2650].
Prof. (Dr.) Kuldeep K. Saxena is currently serving as Director, Research Collaboration, Galgotias University, Uttar Pradesh, India. With over 15+ years of experience in academia, research, and industry, he has established himself as a leading expert in materials science, micro-manufacturing, and sustainability. Dr. Saxena holds a Ph.D. from IIT Roorkee. [ https://orcid.org/0000-0003-4064-5113].
Dr. Kamalakanta Muduli is Head of Mechanical Engineering at Papua New Guinea University of Technology, possesses 16+ years of experience and 75+ Scopus/ABDC publications. Specializing in sustainable supply chains and Industry 4.0, he serves as a guest editor for major publishers like Springer and Taylor & Francis and is a Fellow of the Institution of Engineers (India). [ https://orcid.org/0000-0002-4245-9149]
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