School of Engineering, Design and Built Environment
- Our People
- Engineering Courses
- Built Environment Courses
- Students
- Engagement, News and Events
- Solar Car Website
-
Research
- - Centre for Infrastructure Engineering
- - Centre for Advanced Manufacturing Technology
- - Intelligent Infrastructure Engineering
- - Renewable Energy And Water
- - Urban Transformation
- - Advanced Manufacturing
- - Future Materials
- - Advanced Technologies For Human Machine Interface
- - Digital Systems And Design
- - Centre for Smart Modern Construction
- MakerSpace
- Work Integrated Learning
- Contact the School
- Higher Degree Research
- Alumni and Industry
- Women Transforming the Built Environment
- Dean's Merit List Recipients
- Indigenous Strategic Plan
Research Projects
c4SMC actively engages in innovative research projects to cater for the advancements of construction industry via the introduction of smart and modern technologies and processes.
Funded Research Projects
- BIM Execution Framework for early-stage estimating in PPP projects (RICS- PPP BIM project)
- Construct NSW - Survey on Digitalisation of Construction
- Developing a classification of digital capabilities of designers and builders in NSW
- Capturing the Best Practices in Disaster Resilience adopted by Australian Construction Companies
- Developing an assessment tool for evaluating the mentally healthy levels of project organizations in Australia
- Blockchain and smart contract-based land and property management system for the built environment
- Liquid Waste Management in the Construction Projects
- Improving the Mental Health of Project Management Practitioners (PMPs) in Architecture, Engineering and Construction (AEC) Projects during Covid-19 Pandemic
- As Fit as a Fiddle – Examining Effects of Music on Work-Related Stress of Project Management Practitioners
Centre Collaborated PhD Research Projects
- Project Zero - Methodology for Estimating Embodied Carbon through a Distributed Ledger Platform for Construction Supply Chains
- Project One - Developing a Blockchain Based e-Procurement Framework for Construction Supply Chains
- Project Two - Methodology to Predict Contractors’ Performance Using Price and Non-price Measures
- Project Three - Developing a Smart Modern Construction Enterprise Maturity Model (SMCeMM) for business scenarios leading to Industry 4.0.
- Project Four - Developing a Skill Profile Prediction Model for Typologies of Offsite Construction
- Project Five - Developing a Methodology for Integrating Blockchain Data with BIM for Construction Supply Chains
- Project Six - Developing a Methodology for Construction and Demolition Waste Trading Through a Blockchain Platform
- Project Seven: Optimising Energy Consumption and Indoor Environmental Parameters for Occupants’ Dynamic Usage of Buildings Using IoT and Digital Twin Technologies
- Project Eight: Developing a Blockchain-Based Post-Contract Work and Payment Certification Framework for Construction Projects
- Project Nine: Developing a practical framework for optimal financial performance of PPP Projects
- Project Ten: Holistic Framework for Mental Health Management for Project Management Professionals in AEC Organizations
- Project Eleven: Developing a Multi Criteria Model for Performance Prediction of Construction Consultancy Practices
- Project Twelve: A Digital Framework for Procurement of Offsite Construction within Design for Manufacturing and Assembly(DfMA)
Other PhD Research Projects
- A Life-Cycle Cost Model for Green Commercial Office Buildings with Optimal Green Star Credits
- Behaviour of Shear Connectors for Sustainable Composite Structures Under Static and Fatigue Loading
- Dynamic Behaviour of Elasto Plastic Concrete Transom on Railway Bridge Components
- Feasibility study on Synthetic Fibre Reinforced Concrete (SFRC) transoms as railway bridge components under static loading
- Finite Element Model-based Code Calibration for Design of Steel Fibre Reinforced Recycled Aggregate Concrete Beams
- Investigation of Bushfire-enhanced Wind and its Effects on Buildings
- Investigation of the Effects of Carbon-Conditioning on Recycled Aggregate Concrete
- Life-Cycle Greenhouse-Gas Emissions of Commercial Buildings: An Analysis for Green-Building Implementation Using a Green-Star Rating System
- The Carbon Footprint Reduction Toolkit for Blacktown City Council
- Commercial Design of Recycled Aggregate Carbonation Chamber [MPhil]
- A Whole Life-Cycle Success Paradigm for Managing Dam Engineering Industry Projects
RHC Buttons
Mobile options: