The number of people drowning in the sea or in lakes rises from year to year. However, drowning also occurs in private or public swimming pools. According to the statistical data, an average of more than 400 people drown in Germany every year. The numbers are similar for other countries across the world or even higher. On the other hand, the number of lifeguards decreases every year around the world majorly due to the shortage of trained personnel. Some of the tasks of a human lifeguard can be addressed by robotic systems, like detecting an emergency, approaching the target person quickly in the water, securing the person and bringing the target to a safe position. Therefore, we designed, built and tested a robotic underwater vehicle for autonomously rescuing people from drowning. This rescue vehicle uses an external camera system to detect a drowning incident above the water and then sends the robotic vehicle to the detected position. After reaching the target position, the vehicle detects the person based on sensor data (camera, position, orientation), picks the person up and returns it to the surface. There, the person will be rescued by lifeguards who have been alerted automatically in the meantime. A second version of the vehicle will be suitable adapted for supporting rescue forces in search and rescue missions in open waters. This version will therefore be larger and equipped with various other sensors, such as sonars or a GPS system. As a first step of the development, an existing underwater vehicle was modified by adding a top side rescue device, which can be used to securely lift a person underwater to the surface and stay in position until human lifeguards arrive. With the rescue device, it is possible to test the ascending behavior of the vehicle and the secure lift of a person on the rescue system. Important for the design of the rescue system was the safe positioning of the person on the vehicle and the fixation during the transport to the water surfac...