Resistive memory devices are a type of non-volatile memory that store data by changing the resistance of a material within the device. These devices use an electrical current to switch between different resistance states, which represent binary data such as 0s and 1s. Unlike traditional memory like RAM or hard drives, resistive memory retains information…
Optical computing is a method of performing calculations using light instead of electrical currents. This approach takes advantage of the speed at which light travels and the ability to process multiple signals at once using different wavelengths. By using components like lasers, mirrors, and special materials, optical computers aim to perform certain tasks much faster…
Bioinspired robotics is an area of engineering where robots are designed by taking inspiration from living organisms, such as animals or plants. By studying how creatures move, sense their environment, or adapt to challenges, engineers develop robots that can perform similar tasks more efficiently. This approach often leads to robots with improved movement, flexibility, and…
AI for Power Quality refers to the use of artificial intelligence techniques to monitor, analyse, and improve the stability and reliability of electrical power systems. These AI tools can detect issues like voltage dips, surges, and harmonics that may affect the performance of equipment and the safety of electrical networks. By using data from sensors…
AI for Demand Response refers to the use of artificial intelligence to help manage and balance the supply and demand of electricity. By predicting when energy use will be high or low, AI systems can automatically adjust how much electricity is used or stored. This helps prevent blackouts and reduces the need for expensive or…
AI for Smart Lighting refers to the use of artificial intelligence technology to control and optimise lighting systems. These systems can automatically adjust brightness, colour and timing based on factors such as occupancy, time of day and user preferences. The goal is to improve energy efficiency, comfort and convenience in homes, offices and public spaces.
AI for construction safety uses computer systems to help monitor, predict, and prevent accidents at building sites. These systems can analyse data from cameras, sensors, and reports to spot unsafe conditions or risky behaviour. By quickly identifying hazards, AI can help workers and managers take action before accidents happen.
AI for Air Traffic refers to the use of artificial intelligence technologies to help manage and control air traffic. This includes using computer systems to predict flight paths, detect possible collisions, and optimise routes for safety and efficiency. By analysing large amounts of data quickly, AI can assist air traffic controllers in making better decisions…
AI for Rail Automation refers to the use of artificial intelligence technologies to control, monitor, and optimise railway systems. This includes automating train operations, managing schedules, predicting maintenance needs, and improving safety. By analysing large amounts of data from sensors and cameras, AI can help railways run more efficiently and reliably.
AI for autonomous shipping refers to the use of artificial intelligence technologies to enable ships to navigate, operate and make decisions with minimal human intervention. These systems use sensors, cameras, and data analysis to understand their surroundings, plot courses, and avoid obstacles. The aim is to increase safety, efficiency, and reliability in maritime transport while…