Logra una transformación fluida de la infraestructura con tecnología digital. Mejora la eficiencia en edificios, la electrificación, redes y movilidad. Desbloquea soluciones sostenibles que optimizan el rendimiento, reducen las emisiones e impulsan la innovación en el transporte para todos.
Autonomous infrastructure uses real-time data to manage performance and optimize outcomes without constant manual control. While it scales differently across buildings, mobility, and grids, the principle remains the same: sense, decide, and act. Explore how this works across three domains:
An autonomous building monitors its own environment and adjusts systems to match real-time usage. Instead of following fixed schedules, sensors balance HVAC and lighting based on occupancy and weather. This self-regulation lowers operational costs and carbon emissions while maintaining a consistent environment for occupants.
Autonomous mobility is the shift toward transport networks that function as self-managing entities. Beyond the vehicles themselves, digital signaling and infrastructure use real-time analytics to predict maintenance and adjust service levels. This results in a more reliable transit system that optimizes energy use based on actual passenger flow.
Autonomous infrastructure refers to physical systems (e.g. power grids and water networks) that use integrated data to manage themselves. These systems use industrial AI to monitor performance and respond to demand changes or faults. This reduces the need for manual oversight and ensures critical services remain resilient and efficient.
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We are moving beyond simple connectivity to create infrastructure that thinks, learns, and acts. By integrating Siemens Mobility and Smart Infrastructure technologies, we enable buildings and grids to become self-regulating assets. Tackle volatility in energy markets and urban density with systems designed for future-proof, touchless performance.
With urbanization rapidly increasing, traditional systems cannot scale. We are evolving infrastructure into cognitive, self-regulating environments that independently intuit and anticipate user needs to manage this global shift.
Through Building X, facilities move beyond manual oversight to achieve up to 30% energy savings. Industrial AI automates thermal control and energy distribution by learning occupancy patterns and adjusting in real-time.
Autonomous infrastructure requires a circular lifecycle. The Mireo platform achieves a 95% recycling rate through modular design and 3D printing, ensuring that the infrastructure remains in a continuous, self-sustaining loop.
Siemens connects digital and physical systems across Smart Infrastructure and Mobility to meet growing demands. We link sensors and software to manage energy and transport networks. This shift toward autonomous operations drives efficiency and resilience across buildings, grids, and transit.
Revolutionize infrastructure with innovative solutions. Explore our portfolio to enhance urban infrastructure and mobility.
Our leading AI-native platform. Building X enables your facility to become a self-adjusting ecosystem, making real-time decisions to balance occupant comfort with radical energy efficiency.
This SaaS-led ecosystem enables DSOs and industrial customers to move toward dynamic grid management. Utilizing the Gridscale X framework, the grid becomes capable of balancing renewable volatility and EV demand spikes instantly.
Designed to accelerate the energy transition by adding mission-critical AI capabilities. This software allows grid operators to move from reactive monitoring to predictive, autonomous shaping of the power landscape.
The future of mobility is a self-healing fleet. Railigent X integrates AI-driven digital services to ensure rail networks operate with total reliability, identifying and solving potential failures before they impact the passenger.
See how organizations are using autonomous technologies to improve reliability and resource efficiency. These real-world applications demonstrate how self-optimizing systems solve complex operational challenges across energy, transport, and building management.
Case study
Siemens and AcegasApsAmga use Gridscale X in Trieste. This digital twin creates a self-balancing energy network, reducing port pollution through automated load shifting.
Case study
Siemens and COIMA revamp Milan’s 65-year-old Pirelli 35 into a cognitive, energy-independent building, reducing energy use by 60% through AI-driven environmental controls.
Case study
Siemens provides DB Energie with AI tools to automate transmission. This enhances grid and rail efficiency, allowing the network to respond dynamically to renewable energy surges.
Article
As climate volatility grows, local microgrids provide the AI needed to maintain power when the grid fails. Discover how "Energy-as-a-Service" is scaling these resilient solutions.
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Smart tech allows buildings to manage their CO2 balance and automate energy reduction. This shift toward self-sufficient assets helps portfolios reach climate-neutrality.
Article
See how a self-contained, solar-powered microgrid manages its own distribution to boost economic growth and reduce poverty in Upper Blinkwater.
Organiza el futuro de la infraestructura con IA Industrial. Logra una independencia operativa perfecta desplegando sistemas de optimización automática que mejoran la eficiencia, eliminan los residuos y evolucionan junto con las necesidades de tu negocio.
