Aircraft & Spacecraft construction

The use of sensors in aircraft and spacecraft construction has undergone a revolutionary development in recent decades. Today, sensors can be found in almost all areas of the aerospace industry and play a crucial role in monitoring and controlling aircraft and spaceships. One example of the use of sensors is monitoring the structural integrity of aircraft. Sensor systems are used here to measure changes in the tension, elongation and temperature of the aircraft parts. This enables potential problems to be identified and rectified at an early stage, which helps to improve the safety and efficiency of aircraft. Sensors such as GPS, inertial sensors and magnetometers enable aircraft and spaceships to determine their exact position, speed and orientation. This is particularly important for long-haul flights and space missions, where precise navigation is crucial, and sensors are also used in space travel to monitor the environment and the condition of the spacecraft. For example, sensors can be used to measure the pressure, temperature and composition of the atmosphere in a space capsule. This is important to ensure that astronauts can work and live in the right conditions, and overall, sensors in aerospace engineering have a huge impact on the safety, efficiency and performance of aircraft and spacecraft. By continuously developing and improving sensor technology, future aerospace missions can be made even safer and more successful.