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Blogs 16 June 2026

The Middle East’s construction sector is expanding at an unprecedented scale, driven by giga-projects, urbanisation, and infrastructure diversification. Yet, delays and cost overruns remain constant challenges.

Smart construction technology Middle East is emerging as a critical solution, helping developers lessen risks, improve efficiency, and deliver projects on time.

The scale of delays in regional construction

Project delays are a long-standing issue across the region, regularly tied to supply chain interruptions, geopolitical uncertainty, and coordination challenges. Recent industry insights show that external elements, such as conflict and rising costs, continue to complicate project delivery schedules.

At the same time, the conventional reliance on disjointed communication tools and outdated reporting systems has widened the gap between project complexity and operational visibility. This has made it difficult for stakeholders to track progress in real time and respond quickly to emerging issues.

Against this backdrop, digital construction solutions are changing how projects are planned, monitored, and executed.

How digital construction solutions improve project visibility

One of the most significant ways smart construction technology in the Middle East reduces delays is by strengthening transparency. Digital technologies now allow stakeholders to access real-time data on site progress, workforce productivity, and material usage.

For example, the adoption of document management systems and digital workflows is helping streamline approvals and reduce administrative bottlenecks. Industry coverage shows that such systems are being introduced specifically to combat project delays by improving coordination and lessening dependence upon manual processes.

By replacing static reports with live dashboards, project teams can identify risks earlier and take corrective action before delays escalate. This switch from reactive to proactive project management is a defining feature of current construction technology trends.

Key benefits of smart construction technology:

● Improved project visibility
● Reduced delays
● Better planning and coordination
● Enhanced safety

BIM and integrated planning

Building information modelling (BIM) has established itself as a key element of digital construction solutions in the region. By creating a shared digital representation of a project, BIM enables better collaboration between architects, engineers, and contractors.

Research into smart technologies highlights BIM alongside tools such as drones, sensors, and augmented reality as key enablers of improved construction performance.

In practical terms, BIM reduces delays by identifying design clashes before construction begins, optimising sequencing, and improving resource planning. This minimises expensive rework and provides smoother project execution.

Automation and AI-driven optimisation

AI and automation are increasingly being integrated into construction workflows, further strengthening the impact of smart construction technology in the Middle East.

Digital innovations such as AI-driven optimisation and smart systems have already been highlighted as ways to increase efficiency and reduce operational strain in infrastructure management.

In construction, AI can analyse large datasets to predict expected delays, optimise schedules, and allocate resources suitably. Automation also reduces human error, particularly in repetitive or data-intensive tasks such as progress evaluation and reporting.

Drones, sensors and real-time monitoring

Another major development shaping construction technology trends is the use of drones and IoT-enabled sensors. These tools deliver real-time insights into site conditions, allowing faster decision-making.

Drones can capture high-definition images and generate accurate site surveys, reducing the time required for inspections. Meanwhile, sensors embedded in equipment and materials can monitor performance, detect faults, and prevent disruptions.

Such technologies not only improve efficiency as well as improve safety, an important factor given that accidents and incidents might significantly delay project timeframes.

For example, Hamm’s Smart Compact digital compaction assistant has been simplifying the compaction process in asphalt construction by controlling the compaction modes and forces based on the selected layer type – base, binder or surface course – automatically and separately for both drums.

The system continuously monitors the asphalt’s physical properties, such as temperature and rigidity, as well as its complex cooling behaviour, to ensure homogeneous compaction by applying the optimum compaction energy and modes in each case. There is even the option of incorporating local weather data.

The role of smart infrastructure in the Middle East

The rise of smart infrastructure in the Middle East is further accelerating the adoption of advanced construction technologies. Governments across the region are investing in digital ecosystems that integrate construction, transport, energy, and urban planning.

Earlier insights from industry analysts highlight how developments such as connected infrastructure, 5G networks, and data-driven systems are enabling more efficient project delivery and collaboration.

These interconnected systems enable better coordination among stakeholders, reducing delays caused by miscommunication or fragmented workflows. They also support long-term operational efficiency, ensuring that infrastructure projects remain sustainable and adaptable.

Addressing workforce and productivity challenges

Labour productivity has traditionally been a limiting factor in construction timelines. However, digital construction solutions are helping to address this issue by augmenting human capabilities.

Wearable technologies, mobile applications, and digital tools are enabling workers to perform tasks more efficiently while reducing errors. Smart helmets, vests, and monitoring systems also improve safety outcomes, minimising disruptions caused by accidents.

At the same time, digital training tools such as virtual reality are helping upskill the workforce, ensuring that teams can adapt to increasingly complex project requirements.

Overcoming barriers to adoption

Despite the clear benefits, adopting smart construction technology in the Middle East is plagued with challenges. High upfront investment costs, the need for workforce training, and opposition to change can slow implementation.

Research indicates that successful adoption requires collaboration among stakeholders and the development of standards and regulatory frameworks to ensure consistency and security.

However, as the scale and complexity of projects continue to grow, the cost of not adopting these technologies is becoming increasingly difficult to justify.

ProjectVIEW ERP from Danaos Corporation directly addresses these challenges.

By seamlessly integrating Bill of Quantities (BoQ), Work Breakdown Structures (WBS), and cost codes into one unified platform, it enables continuous, real-time tracking of actual versus planned costs throughout the entire project lifecycle.

This integrated visibility helps contractors identify cost deviations early, pinpoint root causes, and document financial impacts with precision. All this helps in strengthening their ability to support claims and manage contractual risks effectively.

The future of construction in the Middle East

In the future, the integration of advanced technologies is likely to redefine the region’s construction sector. From AI and automation to BIM and IoT, construction technology trends are merging to create more efficient, resilient, and transparent project environments.

As governments push forward with ambitious development agendas, the role of smart infrastructure in the Middle East will only become more critical. Digitalisation is no longer a competitive advantage as it is now a necessity for executing projects punctually and within budget.

The continuing issue of project delays in the Middle East is being addressed through a new generation of digital construction solutions. By improving visibility, improving collaboration, and enabling evidence-based decision-making, smart construction technology in the Middle East is changing how projects are delivered.

While barriers to adoption remain, the advantages are evident. As the industry keeps evolving, accepting these technologies will be crucial to ensuring the region’s ambitious construction goals are realised efficiently and sustainably.

Stay updated with the latest construction technology insights on Technical Review Middle East.

Blogs 16 June 2026

Utilities across the Middle East are continuously investing in intelligent power networks to improve reliability, reduce losses, and support the transition to cleaner energy systems.

Rising electricity demand, population growth, the integration of renewable energy, and urban expansion are placing greater pressure on conventional utility infrastructure, accelerating the adoption of the smart grid model in the Middle East.

Governments and utilities throughout the region are now prioritising digital transformation initiatives that modernise electricity transmission and distribution networks. These efforts are helping utilities improve operational capability, optimise power flows and respond more effectively to variable demand patterns.

The rising emphasis on grid digitalisation shows a broader shift towards more connected, data-driven and resilient energy systems.

Why smart grids are becoming essential

Traditional electricity grids were designed for one-way power delivery, where electricity moved from centralised power plants to consumers. However, the rapid growth of renewable energy, distributed generation and electrification is creating far more intricate energy ecosystems.

According to industry analysis, Middle Eastern countries are significantly increasing utility-scale power generation capacity while also facing rising electricity consumption driven by urbanisation and industrial growth. This is creating new challenges for utilities as they attempt to adjust supply and demand efficiently.

Smart grids address these challenges by leveraging digital technologies, sensors, automation systems, and real-time communication to improve the management of electricity networks. They enable utilities to monitor power flows more accurately, identify faults quickly and optimise energy distribution.

Industry experts note that intelligent grids are becoming critical as electricity networks become increasingly dynamic and complex.

DEWA’s smart grid transformation

One of the most prominent examples of the smart grid strategy in the Middle East is Dubai Electricity and Water Authority’s long-term smart grid programme.

DEWA announced that it invested approximately US$1.9bn in its updated Smart Grid Strategy 2035, which aims to modernise Dubai’s electricity and water infrastructure using advanced digital technologies.

As part of the programme, DEWA replaced traditional electricity and water meters with smart meters between 2015 and 2020. The utility also automated its transmission network connected to 400kV and 132kV substations and expanded its communication network to support thousands of distribution substations across Dubai.

The utility stated that smart grids provide interoperability across the entire electricity and water network while supporting the use of disruptive technologies and Fourth Industrial Revolution applications.

Smart meters play an important role in improving efficiency by enabling utilities to collect real-time consumption data and manage demand more effectively. These systems also reduce manual handling and improve outage detection and response times.

Improving efficiency through digitalisation

A major advantage of grid digitalisation is the ability to provide utilities with real-time visibility into network performance.

Utilities across the region are increasingly deploying digital monitoring systems, advanced analytics and AI-powered platforms to strengthen operational decision-making. According to industry commentary, utilities are undergoing a fundamental shift driven by national strategies such as the UAE Energy Strategy 2050 and DEWA’s Smart Grid Strategy 2035.

As networks become increasingly interconnected, utilities require improved observability and analytics-based management systems to uphold operational excellence. Real-time surveillance allows operators to detect inefficiencies, detect abnormalities and prevent outages before they worsen.

Digital transformation is therefore becoming central to improving utility efficiency and dependability across the region.

Reducing energy losses and improving reliability

One of the main benefits of the smart grid approach in the Middle East is the reduction of transmission and distribution losses.

Traditional grids often suffer from inefficiencies caused by ageing infrastructure, poor visibility, and delayed fault detection. Smart grid systems use automated controls, intelligent sensors, and digital communications to quickly identify and isolate problems.

Industry experts identify incident isolation, sophisticated modelling, and real-time response features as core functions that enable intelligent grids to improve efficiency.

This is particularly important in the Middle East, where utilities must maintain an uninterrupted electricity supply despite extreme weather and rapidly growing urban populations.

Smart grids also help utilities better regulate supply and demand. Rather than simply increasing generation capacity, utilities can use digital systems to optimise consumption patterns and manage peak consumption periods more efficiently.

Supporting renewable energy integration

The expansion of renewable energy is another major factor driving investment in power infrastructure in the Middle East.

As countries across the region accelerate solar and wind deployment, utilities are facing greater challenges in integrating intermittent renewable energy inputs into existing networks.

Smart grids help address this issue by enabling more flexible, responsive electricity systems.

Research into Middle East energy infrastructure highlights how linked and digitalised power networks can improve system reliability, reduce reserve requirements and support energy exchanges between regions.

Industry experts also note that digital grid technologies help manage supply and demand in real time while improving the grid’s ability to absorb renewable energy generation.

Technologies such as advanced metering infrastructure, distributed energy resource management and battery storage systems are becoming increasingly important as utilities modernise their networks.

Improving utility performance

Artificial intelligence and automation are also becoming increasingly important within energy efficiency technologies.

AI-enabled analytics can process large amounts of operational data to detect inefficiencies, predict faults and optimise network performance. Automated systems can respond more quickly to changes in grid conditions than manual operations.

Industry reporting highlighted Siemens Energy’s collaboration with DEWA to implement AI-powered digital twin technology at the Jebel Ali M Station. According to the company, the system responsively adapts to grid swings while improving operational steadiness.

The deployment reportedly achieved fuel savings exceeding 2% per power block while reducing carbon emissions.

AI, automation, and predictive maintenance technologies are increasingly helping utilities reduce downtime, improve asset management, and enhance operational reliability.

Smart cities and connected infrastructure

The development of smart cities is also accelerating investment in power infrastructure in the Middle East.

Governments across the Gulf are embedding smart grids among broader urban development strategies that include connected transport systems, intelligent buildings and digitally managed utilities.

Earlier industry discussions on smart grids in the region highlighted the importance of intelligent buildings, automated metering infrastructure, and connected city systems in creating more sustainable city environments.

As smart city projects continue to expand, utilities are expected to play a central role in supporting digitally connected urban ecosystems.

Challenges to implementation

Though progress has been made, utilities still deal with challenges in deploying large-scale smart grid systems.

The modernisation of electricity infrastructure calls for substantial investment in digital technologies, cybersecurity, communication networks and workforce capabilities. Industry commentary has also noted concerns around financing and regulatory systems needed to support large-scale adoption.

Cybersecurity is another growing concern as utility networks become steadily interconnected and dependent upon digital systems.

However, despite these challenges, utilities increasingly view grid digitalisation as essential to supporting future energy demand and sustainability objectives.

The adoption of the smart grid Middle East model is changing how utilities manage electricity generation, transmission and distribution. Through high-tech monitoring systems, AI-powered analytics, automation, and smart metering technologies, utilities are improving operational capabilities, reducing losses, and strengthening reliability.

As renewable energy capacity grows and electricity demand continues to rise, investment in energy efficiency technologies and modern power infrastructure in the Middle East will become even more important. Smart grids are no longer viewed as optional upgrades but as critical infrastructure supporting the region’s long-term energy transition and sustainable development goals.

Blogs 16 June 2026

Manufacturers across the Gulf and wider Middle East are accelerating their adoption of digital technologies as they seek to improve efficiency, reduce downtime, strengthen competitiveness and meet sustainability targets

Increasingly, the shift towards connected systems, artificial intelligence (AI), automation, and data-driven operations is transforming factories into highly integrated production environments.

As a result, Industry 4.0 Middle East manufacturing is becoming a major driver of industrial modernisation, particularly in sectors such as metals, energy, logistics, chemicals and advanced manufacturing.

The region’s governments have also placed industrial digitalisation at the centre of their economic diversification strategies. Initiatives such as the UAE’s Operation 300bn and Abu Dhabi’s Industrial Strategy are encouraging manufacturers to adopt smart technologies, automation and advanced digital infrastructure to improve productivity and long-term resilience.

Digitalisation reshaping manufacturing operations

One of the defining characteristics of smart manufacturing in the Middle East is the growing use of connected systems that enable real-time visibility across industrial operations. Manufacturers are increasingly deploying sensors, cloud platforms, AI analytics and digital twins to monitor production processes and improve operational performance.

As Technical Review Middle East reported earlier, manufacturers are moving towards integrated ecosystems that combine automation, AI, immersive technologies, and predictive maintenance capabilities. Omnix International, for example, expanded its digitisation initiative to help regional manufacturers adopt scalable smart factory technologies and predictive operational systems.

The company stated that manufacturers are under pressure from supply chain disruptions, rising operational costs and labour shortages, pushing them towards more agile and data-driven environments. These technologies are helping manufacturers move away from fragmented production systems towards integrated and predictive operations.

This transition is enabling industrial companies to improve asset utilisation, reduce maintenance-related downtime and make faster operational decisions.

AI adoption gaining momentum

Artificial intelligence is becoming increasingly important in Industry 4.0 manufacturing in the Middle East, particularly as manufacturers seek to automate workflows and improve efficiency.

A report highlighted by Rockwell Automation found that 98% of manufacturing companies in the Middle East are already using or planning to use generative AI, representing the highest adoption rate globally. The study also found that 96% of manufacturers in the region are committed to broader AI and machine learning technologies.

The report showed that manufacturers are using AI to improve operational efficiency, cybersecurity and sustainability outcomes. Workflow automation, anomaly detection and data-driven insights are among the main use cases being implemented across industrial operations.

Manufacturers are also increasingly investing in infrastructure and talent to support AI deployment. According to the survey, many companies have moved beyond experimentation and are integrating AI directly into operations to improve efficiency and decision-making.

This growing adoption reflects the broader shift towards digital factories, where production systems are interconnected and can respond dynamically to operational conditions.

Automation improving productivity

The expansion of industrial automation technologies is another major factor driving efficiency gains across Middle East manufacturing.

Automation is helping companies reduce manual intervention, improve consistency and accelerate production cycles. Advanced robotics, automated workflows and digitally managed production systems are becoming increasingly common across the region’s industrial sector.

Digital design and engineering technologies are helping GCC manufacturers shorten product development cycles and optimise production processes. GDS Middle East noted that tools such as SolidWorks, CATIA, and simulation software are enabling manufacturers to test and refine designs earlier in the development phase, significantly reducing time-to-market.

Automation platforms such as DriveWorks are also being used to handle repetitive engineering tasks more efficiently, allowing engineers to focus on more complex innovation and development work. Simulation tools are enabling manufacturers to conduct virtual testing before production begins, helping reduce risk, material waste and operational inefficiencies.

These developments demonstrate how smart manufacturing in the Middle East is increasingly relying on digital engineering, simulation and automated workflows to improve industrial performance.

Private 5G and connected factories

Connectivity is also becoming a critical component of digital factories.

In one notable example, EMSTEEL launched what was described as the UAE’s first private 5G network in manufacturing in partnership with e& UAE. The initiative supports the company’s broader Industry 4.0 strategy by enabling high-speed, reliable connectivity across industrial environments.

The network supports applications such as real-time equipment monitoring, digital maintenance systems and operational analytics. Workers can use connected devices to access maintenance histories, sensor data and equipment documentation instantly, helping reduce downtime and improve productivity.

EMSTEEL described the deployment as a fundamental shift in how it operates and manages industrial assets, highlighting the growing role of connected infrastructure in manufacturing efficiency.

Private networks, IoT systems, and connected sensors are expected to become increasingly important as manufacturers continue to develop fully integrated production ecosystems.

Digital twins and predictive maintenance

Digital twin technology is also playing a growing role in Industry 4.0 manufacturing in the Middle East.

Digital twins create virtual replicas of industrial assets and production systems, enabling manufacturers to simulate performance, monitor equipment and predict maintenance requirements before failures occur.

Previously, Technical Review Middle East also highlighted how companies such as Hexagon are expanding their smart manufacturing and digital twin capabilities through AI and machine learning. These systems help manufacturers improve productivity, reduce downtime and enhance product quality by combining simulation data with real-world operational insights.

Similarly, Omnix’s manufacturing initiative includes digital twin platforms designed for real-time monitoring, optimisation and predictive maintenance.

Predictive maintenance is particularly important for heavy industrial sectors where unexpected equipment failures can lead to costly production interruptions. By identifying issues early, manufacturers can improve reliability and reduce maintenance costs.

Sustainability and efficiency goals

Many manufacturers are also using industrial automation technologies to support sustainability targets alongside operational efficiency improvements.

Emirates Global Aluminium (EGA) stated that it has implemented more than 80 Industry 4.0 applications since launching its digital transformation programme in 2021, generating approximately US$100mn in value.

The company is integrating AI and advanced data analytics into its next-generation aluminium smelting technology to improve operational performance while reducing energy consumption and emissions.

EGA’s progress reflects a wider regional trend in which manufacturers are increasingly combining digital transformation with sustainability objectives.

Challenges remain

Despite the progress, challenges remain in implementing smart manufacturing strategies in the Middle East.

According to industry reports, manufacturers continue to face obstacles such as integration complexity, skill shortages, resistance to change and the high initial cost of technology deployment.

However, regional manufacturers increasingly view digital transformation as essential rather than optional. As global competition intensifies and operational pressures continue to rise, the adoption of AI, automation and connected systems is expected to accelerate further.

The rise of Industry 4.0 in Middle East manufacturing is reshaping industrial operations across the region. From AI-driven analytics and predictive maintenance to connected factories and automation platforms, manufacturers are increasingly using digital technologies to improve efficiency, reduce downtime and strengthen competitiveness.

As investment in digital factories, connectivity and industrial automation technologies continues to grow, Middle East manufacturers are positioning themselves for a more agile, data-driven and sustainable industrial future.

Blogs 16 June 2026
The construction industry in the Middle East is increasingly turning to advanced technologies to improve project productivity, reduce waste and accelerate project schedules

Among the most significant developments remains the rise of 3D printing construction in the Middle East, which is changing how buildings and infrastructure are designed and built.

Driven by ambitious urban development programmes, sustainability targets, and the growing need for faster construction methods, governments and developers across the region are examining the potential of additive manufacturing to reinvent traditional construction practices.

From villas and offices to modular structures and experimental urban projects, the region is presenting itself as an early adopter of construction-scale 3D printing technologies.

The rise of additive manufacturing in construction

Additive manufacturing, commonly referred to as 3D printing, entails forming structures layer by layer using computer-controlled systems and specialised materials such as concrete composites. In contrast to traditional construction, which frequently depends on extensive formwork and labour-intensive processes, 3D printing automates much of the building process.

Research into construction 3D printing notes that the technology is increasingly being used for houses, bridges and even entire communities, highlighting its growing role in modern construction.

The technology is attracting attention because it can significantly reduce construction time, minimise material waste, and enable more complex architectural designs. Studies examining 3D printing in sustainable buildings also found that the technology supports customised designs, faster project delivery and sustainability-oriented construction approaches.

These advantages are particularly relevant to the Middle East, where fast urbanisation and giga-project development are increasing pressure on the construction sector to deliver projects more efficiently.

Faster project delivery and reduced labour dependency

One of the biggest advantages of 3D printing construction in the Middle East is speed.

Large-scale 3D printers can produce structural components and walls in a fraction of the time required for traditional construction methods. Industry commentary on robotic construction technologies notes that 3D-printing machines can build structures in weeks rather than months.

This accelerated timeline is helping developers reduce project delays and optimise labour requirements, particularly as construction firms face workforce shortages and rising labour costs.

Research into 3D concrete printing also highlights how the technology reduces the requirement for traditional formwork, which can account for a substantial proportion of concrete construction costs.

By automating monotonous construction processes, companies can improve productivity while reducing dependence on large onsite labour teams. This is becoming increasingly important as regional developers seek more efficient project delivery models.

Supporting sustainable construction goals

Sustainability remains another major factor driving the growth of additive manufacturing in construction.

The construction sector has traditionally been associated with high levels of material waste and carbon emissions. However, 3D printing enables far more precise material application, reducing excess consumption and minimising waste.

Research examining sustainable 3D printing applications in the UAE found that the technology supports sustainability objectives through reduced material waste, rapid construction and more economical resource use.

Construction-scale 3D printing also enables the use of alternative and locally sourced materials. Some experimental projects globally are already using earth-based materials and low-carbon alternatives to conventional concrete.

This is consistent with broader sustainable development goals across the Gulf, where governments are increasingly prioritising low-carbon construction methods and resource efficiency.

Greater design flexibility

The rise of 3D-printed buildings is also enabling architects and engineers to experiment with more complex, customised designs.

Traditional construction methods often limit design flexibility due to formwork constraints and high fabrication costs. In contrast, 3D printing enables the more efficient production of structures with curved geometries, complex facades, and unconventional forms.

Industry discussions around 3D-printed architecture in the Middle East note that large-scale printers are now capable of producing architectural-scale building elements several metres across using rapidly curing concrete mixtures.

Researchers studying additive construction also emphasise that 3D printing enables complex, optimised designs that are difficult to achieve with conventional building methods.

This is highly valuable in the Middle East, where iconic and visually distinctive architecture continues to play a central role in major urban developments.

Integration with modular construction

The growth of modular construction technology is additionally supporting the adoption of 3D printing across the region.

Modular construction involves manufacturing building components in controlled factory environments before transporting them to project sites for assembly. Industry analysis notes that modular construction is increasingly adopted due to its potential to improve quality control, reduce waste, and accelerate project completion.

3D printing complements modular approaches by supporting the rapid production of customised building components and structural elements.

The combination of digital fabrication and off-site manufacturing is helping construction companies improve operations while reducing on-site interferences and material inefficiencies. Controlled production environments also improve consistency and reduce exposure to adverse weather conditions, which can prove particularly beneficial in harsh Middle East climates.

Smart cities and future urban development

Governments across the Gulf are increasingly integrating advanced construction technologies into broader smart city strategies.

Dubai has long set itself up as a global leader in construction innovation and previously announced ambitions to become a major hub for 3D printing technologies. Parallel initiatives are emerging elsewhere in the region as governments seek to modernise infrastructure delivery and promote advanced manufacturing capabilities.

Industry experts believe the Middle East could become a global leader in robotic and additive construction technologies because of its willingness to adopt innovative building methods and invest in large-scale infrastructure programmes.

The rise of smart cities and digitally connected infrastructure is expected to further accelerate investment in automated construction systems, AI-driven design and additive manufacturing technologies.

Challenges facing adoption

Despite the momentum behind 3D printing construction in the Middle East, several difficulties remain.

Research about additive construction highlights technical limitations, material reliability concerns and quality assurance requirements as ongoing issues facing the industry.

There are also concerns surrounding structural strength, standardisation and governmental approvals for large-scale printed buildings. Some industry discussions note that while the technology offers efficiency advantages, quality control and long-term durability remain areas that require further development.

Additionally, large-scale 3D printing systems require considerable upfront investment, specialised expertise and integration with conventional construction processes.

Despite these challenges, the technology continues to advance rapidly, driven by growing investment in materials science, robotic systems, and digital construction platforms.

The future of 3D printed buildings

As construction technologies advance, the role of 3D-printed buildings is expected to expand significantly.

Advances in robotics, AI-driven design optimisation and material development are helping increase print quality, scalability and structural performance. Research suggests that additive construction could play an increasingly important role in sustainable and effective urban development.

The Middle East’s focus on innovation, sustainability, and rapid infrastructure development makes it a top candidate for the increased adoption of construction-scale additive manufacturing technologies.