Smart City Management TwinUp city digital twin stands out as a critical technology for making cities smarter, more sustainable, and more livable.

More Effective Urban Planning

Digital twins enable testing of planned infrastructure projects (roads, bridges, buildings) in a virtual environment. This allows the potential impacts to be analyzed in advance.

More Effective Transportation Planning

The urbanization process of new areas can be optimized using digital twins, taking factors like traffic density, green space needs, and population density into account.

Improved Traffic Management

Real-time data can be used to monitor traffic flow and identify problem areas. Hazardous zones can be identified, and preventative measures can be taken.

Transportation Management

Intelligent transportation solutions such as traffic light synchronization and optimization of public transportation routes can be implemented

Energy Management

The energy usage of buildings and infrastructure can be monitored to improve efficiency.Carbon emissions in the city can be modeled and strategies for reduction can be developed.

Energy Sustainability

The most suitable locations for solar panels or wind turbines can be determined through digital twins

Emergency Management

Scenarios for natural disasters such as earthquakes, floods, or storms can be created. This helps in developing effective evacuation plans

Risk Management

The risk levels of infrastructure (bridges, dams) can be monitored, enabling preventive maintenance.Digital twins guide resource allocation for the fastest response during emergencies.

Digital Twin Smart City Management

What We Do

TwinUp has created a comprehensive digital twin of the city for metropolitan municipalities. Within the scope of this project, we have developed a highly detailed and dynamic digital representation of the city that allows for real-time monitoring, analysis and management of urban infrastructure and resources. The digital twin provides valuable insights to support urban planning, increase operational efficiency and contribute to the sustainable development of the city. By working integrated with all the hardware in the field, we provide a 100% real-time reflection of the city.

Autonomous transportation management is a key component of the digital twin that allows urban planners to model, analyze, and optimize traffic flow across a city. Using real-time data, traffic patterns can be monitored and potential bottlenecks identified and reduced. This helps inform decisions on road infrastructure improvements, traffic light coordination, and future urban mobility planning to reduce congestion and improve overall traffic efficiency.

TwinUp Digital twin technology provides great benefits in infrastructure, superstructure and urban transformation projects. In infrastructure, maintenance and improvement processes are optimized, costs are reduced and interruptions are reduced by real-time monitoring and analysis of existing systems. In superstructure, energy efficiency is increased and construction processes are accelerated by simulating building and structural designs. In urban transformation, digital twins enable more planned and sustainable projects to be developed with critical data such as ground conditions, traffic impact and population density by performing regional analyses. In addition, it contributes to cities becoming more resilient with disaster scenarios and risk analyses. This technology supports the management of cities with more efficient, environmentally friendly and long-term solutions.

The Twinup energy module offers significant advantages in terms of efficiency and sustainability. Energy production, transmission and consumption processes are optimized with real-time data analysis, thus reducing costs and making resource use more efficient. The integration of renewable energy sources is facilitated and the capacity utilization of the energy infrastructure is increased. Interruptions are minimized with fault prediction and preventive maintenance applications in energy systems. It also contributes to environmental sustainability by reducing carbon emissions.

Digital rail is an integral part of the urban digital twin, which provides a real-time digital representation of the city’s rail infrastructure. This system ensures optimum performance and safety by enabling efficient monitoring, planning and maintenance of rail services. We also facilitate data-driven decision-making for future rail network expansions and support the seamless integration of rail transport with other modes of urban mobility.

The TwinUp population module provides significant contributions to urban planning and management by analyzing population movements and density distributions. With real-time data, factors such as population density, migration, and demographic changes can be monitored, allowing for better planning of infrastructure and superstructure needs. While optimal distribution of services such as health, education, and transportation is ensured, evacuation plans can be created more effectively in emergency and disaster scenarios. In addition, with the insights obtained from population data, cities’ future growth and development strategies are planned more sustainably and efficiently.

Digital twin simulations identify high-risk areas in disasters such as earthquakes, floods and fires in advance. Thus, structures can be strengthened and necessary precautions can be taken. It provides early warning against disasters by analyzing real-time sensor data. This accelerates the evacuation and life-saving processes of the public. VR (Virtual Reality) simulations teach the society how to behave in disasters. It contributes to awareness-raising activities for institutions and the public. As a result, digital twin disaster simulations improve disaster preparation, response and rescue processes and minimize loss of life and property.

The TwinUp VR (Virtual Reality) module makes planning, training and simulation processes more effective by providing visualization of complex data. Thanks to this module, infrastructure and superstructure projects can be examined and experienced by users and decision-makers in a virtual environment. Risk analyses, disaster scenarios and traffic flows can be simulated in a way that is close to reality, allowing for more accurate and safe planning. In addition, the VR module supports participatory processes by providing information about urban projects to city dwellers. This technology, which is also used in education and awareness studies, enables users to easily understand complex systems and contribute to decision-making processes.

TwinUp AI models provide prediction and real-time analysis by increasing the capabilities of the digital twin. It processes sensor data to predict failures in advance, optimize maintenance processes and reduce unplanned downtime. It increases resource management and operational efficiency by simulating different scenarios. It supports rapid decision-making in crisis situations with risk analysis. It makes digital twins smarter with its continuously learning structure and ensures sustainability by optimizing energy consumption. It also improves user experience, speeds up processes and minimizes human errors.

The TwinUp IoT (Internet of Things) module enables systems to work more intelligently and efficiently by integrating real-time data streams and information from connected devices. IoT sensors collect instant data from areas such as traffic, infrastructure, superstructure, disaster and energy and enable analysis on the digital twin. This enables fault prediction, energy consumption optimization and improvement of operational processes. The IoT module is also used in applications such as managing traffic density in cities, smart lighting and environmental monitoring. It also plays a vital role in more efficient use of resources and supporting environmental sustainability. This module supports more accurate decisions by ensuring that the digital twin is constantly connected to the real world.

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