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Modern railway and urban transport systems require smart and energy-efficient traction power supply products and solutions to ensure safe, reliable, and environmentally sustainable operations.
Investments in rail accessibility infrastructure are growing, with the government and industry regulations and initiatives being increasingly focussed on making transport networks more inclusive and disabled-friendly.
Railway infrastructure such as passenger information systems, signalling, traction, and train control systems, and stations remain potentially at high risk of cybercrimes. The digitalisation of the industry has made them vulnerable to cyberattacks, attributed to factors such as increased connectivity with the digital systems, increased signalling network connectivity, distributed architecture, supply chain diversity, and more.
Every business system in railway operations generates enormous business data that offers strong support for the streamlined operations and maintenance of railways.
Railway operations are a crucial part of nation-building efforts. Building and protecting infrastructure given the diversity of terrain across the globe and consistently tracking the daily train movements requires efficiency. The integration of advanced artificial intelligence (AI) in various areas of operations has become more important than ever amid rising demand for a safe and secure transport system and increased urbanisation.
The Internet of Things (IoT) in railways helps in tackling the growing challenges of older infrastructure capacity limitations, increasing demand, and rising expectations of passenger experience. Governments and railway operators across the world are continuously adopting smart and intelligent IoT technologies, including digital signage and predictive maintenance, for the modernisation of their railways.
Robotics involves the design, manufacture, and use of robots to perform tasks generally done by human beings. It is being increasingly used across multiple industries, including railways, to improve efficiency and prevent errors that generally occur in processes involving humans.
Environmental social and governance (ESG) considerations are altering the operations of industries by placing more emphasis on sustainability. The railway industry can execute strategies focused on ESG to address greenhouse gas emissions and corporate sustainability. The European and Asian railway industries have taken significant measures for improving air quality by developing electric and alternative-powered trains to replace diesel-powered locomotives.
Rail tunnels shorten the route length by allowing rail lines to pass through natural obstacles such as mountains and provide a means of crossing busy city areas without damaging or interfering with neighbourhoods. Tunnels are also required to accommodate underground railway systems for providing rapid and smooth transport facilities in metropolitan areas while reducing traffic on surface transport networks.
Managing friction at the wheel-rail interface is one of the top priorities for railway operators. Effective friction management can reduce noise and vibration, improve fuel efficiency, prolong rail asset life by reducing wear, improve safety and performance, and reduce operation and maintenance costs.
Railway tracking systems and the monitoring of railway vehicles in real-time can improve their operational safety and reliability while reducing the life-cycle costs of both passenger and freight trains by identifying their maintenance needs early.
Railway operators require skilled workforces to ensure efficient and safe rail operations across their networks. Regular railway training and recruitment enables new employees to understand and confront the challenges posed by their roles.
Operation control systems facilitate the monitoring and tracking of all railway operations, including train cars. From enabling the automatic detection of faults or conflicts, to ensuring optimal use of infrastructure and resources, operational control systems also deliver real-time train departure and arrival information to passengers.
Safety and service quality are crucial in passenger rail transport. Power and signalling infrastructure plays a vital role in achieving the same. Constantly evolving railway infrastructure requires the latest railway connectors, cables, and hoses to be used and installed for seamless railway power supply and communication.
Management of railway infrastructure requires cost-effective solutions, as it is one of the most capital-intensive assets. Railway safety, punctuality, and passenger comfort depend on the railway track, rail maintenance, and railway safety equipment.
Railway bogies, suspension, wheels, and axles form the important components of rolling stock. The bogie framework fitted with the wheels, suspension, and axles supports the rail body and provides stability to the structure while improving the ride quality.
Weighing and controls equipment is crucial for the safe movement of rail, as well as the maintenance of the railway infrastructure. Train weighing equipment is used to weigh bogies, axles, and full trains to ensure they are well-balanced.
Modern railway networks, including high-speed railways and urban mass rapid systems, rely on state-of-the-art signalling and communication systems to ensure safe and reliable operations.
Railway operators build and optimise their assets according to the changing operating requirements of users and regulatory authorities. The effective design, development, operation, and maintenance of railway infrastructure projects is crucial to ensuring their safety, enhancing the user experience and reducing operational costs.
The complex and demanding railway transportation sector requires computer hardware and software that is secure, durable and offers high performance. The evolving technologies in the sector have given rise to embedded solutions and platforms that seamlessly integrate both computer hardware and software.