Your essential guide to Digital Twins: from basics to benefits – Part 2

• January 24, 2025

Frank Scheufens, Product Manager at PNY Technologies explains the benefits and uses of Digital Twins in this second installment.

Operating Digital Twins: virtually manage, monitor and optimize physical assets

A digital twin operates through a cycle of data collection, transmission, analysis, and user interaction. The process begins with data collection, where physical assets are fitted with sensors that monitor various parameters—such as temperature, pressure, or movement. This data is then transmitted to the digital twin via cloud or edge computing, allowing the digital model to update in real-time. Advanced algorithms and analytics are applied to the incoming data, helping the twin predict future states, identify anomalies, and provide actionable insights.

The real power of a digital twin lies in its interactivity. Operators can interact with the model to test hypothetical scenarios, diagnose problems, and adjust operations without affecting the actual physical asset. This simulation capability, coupled with real-time data, provides a dynamic environment for experimentation and optimization.

The role of AI in Digital Twin projects

Artificial intelligence (AI) plays a crucial role in maximizing the potential of digital twins. AI’s ability to handle massive datasets, identify patterns, and make predictions allows digital twins to go beyond basic monitoring. In many cases, machine learning algorithms are integrated into the twin to enable predictive analytics—forecasting potential failures or maintenance needs before they occur. This predictive capability helps organizations shift from reactive to proactive maintenance, reducing costs and avoiding unexpected downtime.

AI can also help with anomaly detection, identifying unusual behavior patterns in the data. In industries like manufacturing or aviation, these patterns might indicate a need for maintenance or signal a potential issue. Additionally, AI algorithms can simulate various scenarios within the digital twin, allowing organizations to optimize processes and test changes without risking real-world consequences. In some advanced applications, AI even enables the digital twin to make autonomous decisions, adjusting operations based on the analyzed data.

Challenges in Digital Twin projects

While digital twins offer immense benefits, they also come with challenges that need to be managed carefully. One of the most significant is data management. The vast quantities of data generated by sensors can be overwhelming, requiring robust storage, processing, and analysis capabilities. Integrating a digital twin with existing, sometimes outdated, systems can also be challenging. Legacy infrastructure isn’t always compatible with modern digital twins, necessitating extensive adjustments and integrations. Another challenge is the high initial cost. Developing a digital twin, especially for complex systems, involves significant investment. This includes installing sensors, building models, integrating AI capabilities, and ensuring cybersecurity. The initial expense can be a barrier for smaller organizations or those with tight budgets.

Cybersecurity is another critical concern. Digital twins rely on a constant flow of data, often transmitted through the internet or other networks. This data transmission can become a vulnerability, exposing the twin to potential cyber threats if not adequately secured. Keeping a digital twin accurate over time also requires continuous maintenance. Models must be regularly calibrated and adjusted to reflect changes in the physical object they represent, which can be a demanding and time-consuming process.

Why Digital Twins require special platforms

Developing and managing a digital twin demands a specialized platform due to the unique requirements of real-time data processing, integration, and visualization.

A dedicated platform offers several benefits:

• Data integration: These platforms can aggregate data from various sources—IoT devices, cloud databases, and other systems—seamlessly. This allows the digital twin to have a holistic view of the physical system.
• Advanced analytics: Many platforms include built-in analytics and machine learning tools, making it easier to apply AI to data analysis and predictions. • Scalability: A specialized platform can grow as the digital twin project expands, whether it’s adding more assets, increasing data points, or integrating additional processes.
• Security: Given the importance of data protection, dedicated platforms often include robust security features to safeguard sensitive information.
• Visualization & interaction: Digital twin platforms provide tools for visualizing the model and interacting with it in a meaningful way, such as through 3D interfaces or augmented reality.

These platforms streamline the complex process of building and maintaining a digital twin, ensuring the project is efficient, scalable, and secure.

Types of Digital Twins: from components to processes

Digital twins come in various forms, each catering to different aspects of a physical system:

1. Component Twins: These focus on individual parts or components of a system, like an engine or a pump. Component twins are often used to monitor the health and performance of critical parts, predicting failures before they occur.
2. Asset Twins: These model entire assets, such as a vehicle or a machine. Asset twins are used to track the overall health, efficiency, and lifecycle of the asset, providing valuable insights for maintenance and upgrades.
3. System Twins: System twins represent groups of assets working together, like a factory production line. They help optimize workflows, identify bottlenecks, and improve overall efficiency.
4. Process Twins: These are the most comprehensive, simulating entire processes or operations. Process twins allow organizations to see how different components and systems interact over time, providing insights that can streamline complex workflows and improve productivity. Each type of digital twin offers a unique perspective, from the granular level of individual parts to the broad view of entire processes.

Security considerations for Digital Twins

Security is a top priority when it comes to digital twins, as they involve constant data exchanges between the physical and digital realms. The level of security varies based on implementation, but several challenges need to be addressed:

• Data transmission: With data continuously flowing from the physical object to the digital twin, encryption is crucial. End-to-end encryption ensures that data remains secure during transmission, protecting it from interception.
• Integration points: Digital twins are often connected to other systems, like cloud platforms or analytics tools. Each connection point can be a potential vulnerability, so it’s vital to secure them with proper authentication and encryption measures.
• IoT device security: Many digital twins rely on IoT devices to gather real-time data, and these devices can be targets for cyberattacks. Ensuring they have up-to-date firmware, secure communication channels, and strong access controls is essential.

A multi-layered security approach, regular updates, and proactive monitoring are key to ensuring that digital twins remain secure while handling sensitive data.

Conclusion

Digital twins are revolutionizing industries by creating a bridge between the physical and digital worlds. They provide a dynamic, real-time view of physical systems, offering unprecedented opportunities for optimization, prediction, and innovation. However, they also come with challenges, from high initial costs to cybersecurity concerns. With the right platform, tools, and security measures in place, digital twins can offer significant advantages, helping organizations navigate the complexities of modern technology and stay ahead of the competition. As AI and IoT technologies continue to advance, the capabilities and applications of digital twins are only expected to grow, making them an integral part of the future of smart systems and connected industries.

We’ve featured the best IT management tool.

This article was produced as part of TechRadarPro’s Expert Insights channel where we feature the best and brightest minds in the technology industry today. The views expressed here are those of the author and are not necessarily those of TechRadarPro or Future plc. If you are interested in contributing find out more here: https://www.techradar.com/news/submit-your-story-to-techradar-pro

Source

Frank Scheufens, Product Manager at PNY Technologies explains the benefits and uses of Digital Twins in this second installment. Frank Scheufens Product Manager for Professional Visualization at PNY Technologies EMEA. Operating Digital Twins: virtually manage, monitor and optimize physical assets A digital twin operates through a cycle of data collection,…