Agri-Tech Automation refers to the use of machines, robots, and digital technology to carry out farming tasks with minimal human involvement. This includes activities such as planting, watering, harvesting, and monitoring crop health. By automating these processes, farms can increase efficiency, reduce labour costs, and improve crop yields.
Soil health sensors are electronic devices that measure different properties of soil, such as moisture, temperature, nutrient levels, and pH. These sensors help farmers, gardeners, and researchers understand the condition of the soil in real time. By providing accurate data, soil health sensors support better decisions about planting, irrigation, and fertilisation.
Precision irrigation is a farming technique that delivers the right amount of water directly to the roots of crops when they need it. It uses technology like sensors, weather data, and automated systems to control where, when, and how much water is used. This method helps save water, reduce waste, and can improve crop yields…
Water-Smart Tech refers to tools, systems, and devices designed to use water efficiently and reduce waste. These technologies help manage how much water we use at home, in businesses, and in public spaces. The main goal is to conserve water resources while still meeting our daily needs.
Microgrid management refers to the process of controlling and optimising small, local energy grids that can operate independently or alongside the main electricity grid. It involves balancing supply and demand, integrating renewable energy sources, and ensuring reliable power delivery. Effective microgrid management helps maintain stability, reduce costs, and support sustainability in local energy systems.
Industrial IoT integration is the process of connecting machines, sensors and other devices in factories or industrial sites to computer systems and networks. This allows real-time data to be collected, shared and analysed to improve efficiency, safety and decision-making. By integrating IoT technology, businesses can automate processes, monitor equipment remotely and respond faster to issues.
Smart dust networks are tiny wireless sensors that can collect and send data about their environment. These sensors, often as small as grains of sand, can measure things like temperature, light, or movement. They communicate with each other and send information back to a central computer, making it possible to monitor large areas without cables…
Ambient intelligence refers to electronic environments that are sensitive and responsive to the presence of people. It uses sensors, artificial intelligence, and connected devices to adapt spaces and services automatically to users’ needs. The aim is to make technology blend into the background so that it helps without being intrusive or obvious.
Wearable sensors are small electronic devices that can be attached to the body or built into clothing and accessories to measure different physical or biological signals. They are designed to monitor data such as heart rate, temperature, movement, or steps taken throughout the day. These sensors send the collected data to a smartphone or computer…
Smart fabric technology refers to textiles that have been enhanced with digital components or advanced materials, enabling them to sense, react or adapt to environmental conditions or the wearer’s needs. These fabrics can include embedded sensors, conductive threads or microelectronics to add new functions beyond traditional clothing or textiles. Smart fabrics are used in a…