Dr. Anas Bataw, director of the Centre of Excellence in Smart Construction (CESC) at Heriot-Watt University in Dubai discusses the importance of digital twins
What is a digital twin and how does it complement the modern construction industry?
It is widely acknowledged that construction has historically been a labour and time intensive process as well as being highly linear. In recent times digitalization has been seen as an essential approach to ensure construction companies stay competitive, grow revenue and provide a safer and more sustainable environment; even more so in a post-pandemic world.
A digital twin, which is an exact, digital replica of a physical entity, can aid and complement the digitalization of the construction process by accelerating and automating traditional design, production and operational processes.
The use of the digital twin method will ultimately drive growth in the modern construction sector by creating newer, faster and more sustainable products and services.
What research is CESC/EGIS doing that is advancing the study of digital twins and their application in the regional construction industry?
One of the core objectives of CESC is enabling technologies. We work towards creating awareness through ongoing research and collaboration with both industry partners and government to encourage embracing the latest technologies and how they can help the construction industry, including the use of digital twin.
Our Heriot-Watt Built Environment courses and research focus on all aspects of digital and smart technology including the use of digital twin and artificial intelligence (AI). We are fully committed to ensuring the next generation of construction professionals is skilled to understand smart technology and is able to identify key challenges and how best to improve and implement digital change in the industry.
How can the predictive capabilities of digital twins help the construction industry achieve their sustainability and efficiency aims?
Sustainability is a key area for improvement within the Built Environment and the digital transformation of the sector is undoubtedly set to improve this issue. Using digital twin technology, the practicality and sustainability of a building project can be tested in a simulated environment and provide accurate data which can be improved on if necessary, before building commences in real time. The use of digital twin technology can also help with expenditure before a project starts. Buildings and construction together account for *36% of global energy use and *39% of energy-related carbon dioxide (Source: 2017 World Green Council) so data-driven energy management can have a positive impact on both the environment and the bottom line.
How can real world technology (smartphones, drones, laser scanners, etc) be utlilised with digital twins to improve performance and efficiencies on site?
Real world technology is becoming increasingly utilised with digital twin and it is becoming easier to transfer data as technology becomes more sophisticated. For example, the use of the cheapest smartphone camera now has high enough resolution to capture shapes of beams and walls, data which can be transferred to a digital twin and therefore boosting productivity and efficiency on site.
How can IoT and AI be combined with digital twins to unlock its true potential and power?
Digital Twin and its modern concept have potentially been limited over the last few years, however, the advances in technology driven by AI and IoT will drive the current key areas where digital twin technology is successfully being used with even greater effects and outcomes. Combining digital twin technology with AI and in-depth analytics will lead to even better efficiency, an improvement in health, safety and wellbeing and a higher level of sustainability.
What are the future implications of digital twin technology? Where can it lead the industry?
The construction industry is facing one of its most challenging times ahead post-pandemic and it is time to embrace and address key issues around project management and performance, budget restraints, sustainability, potential labour shortages and Health & Safety concerns.
Embracing emerging digital twin technology is essential to ensure these issues are addressed quickly and efficiently.
Digital technology and the IoT in the construction industry are set to grow. It’s critical that the Built Environment understands and fully embraces digital twin technology and its positive impact on the industry.
For more information please visit the Heriot-Watt University website.
About the author
Dr. Anas Bataw is the Director of the Centre of Excellence in Smart Construction (CESC) at Heriot-Watt University. In this role, he has the overall responsibility to establish and lead vibrant and collaborative initiatives leveraging CESC industrial partners and expertise across Heriot – Watt University, with a strong emphasis on smart construction to transform the future of construction, and drive research and innovations in the sector. A unique model for collaborative Industry-led research engagement focusing on Sustainability, Well-being, Productivity and Performance.
Anas also leads on representing CESC and Heriot-Watt University amongst industry partners, professional societies and relevant external bodies in order to build collaborative research links with smart construction stakeholder organisations in the region. Anas has a proven track record in academia and industry collaboration in the Architecture, Engineering and Construction sectors in UAE, UK, Singapore, Malaysia, KSA, Qatar and India.
He has strong entrepreneurial leadership skills in identifying, developing, building cases and implementing smart initiatives and AEC innovations that are responsive to the needs of rapidly growing organisations and disruptive industries. Before joining Heriot-Watt University, Dr. Bataw has led renowned businesses and large-scale programs across the region, where he contributed to the development and implementation of AEC and Smart city Innovations that shaped the markets in the GCC. Anas holds a PhD in Civil Engineering from The University of Manchester. In his free time Anas is a keen swimmer and cyclist and enjoys socializing with family and friends.