Lane change intention estimation of a vehicle

1 - 15 . (canceled) 16 . A device comprising: a plurality of vehicle sensor devices for capturing a plurality of different lane change indicator signals; and a signal analysis device designed to receive the detected plurality of different lane change indicator signals from the vehicle sensor devices and to output a lane change intention estimation signal, wherein the signal analysis device has a programmable device which is set up to: capture a plurality of different lane change indicator signals; transform the respective lane change indicator signals into respective associated individual probabilities of a lane change using respective assigned transformation functions; weight the respective individual probabilities of the lane change; determine a weighted overall probability of the lane change as the average of the weighted individual probabilities of the lane change; estimate the existence of a lane change intention depending on the overall probability of the lane change; and output a lane change estimation signal associated with the lane change intention. 17 . The device of claim 16 , wherein the plurality of different lane change indicator signals includes at least one course angle signal, a lateral distance signal, and a lateral velocity signal. 18 . The device of claim 17 , wherein the plurality of different lane change indicator signals also includes a steering angle signal and a yaw rate signal. 19 . The device of claim 18 , wherein the programmable device is further set up to compensate the steering angle signal and the yaw rate signal depending on a course of the road. 20 . The device of claim 18 , wherein the programmable device is further set up to: capture a longitudinal velocity signal of the vehicle with a longitudinal velocity sensor device; and adjust at least one of the transformation functions associated with the steering angle signal, the yaw rate signal, or the course angle signal depending on the detected longitudinal velocity signal. 21 . The device of claim 17 , wherein the programmable device is further set up to: detect a state signal of a lane change display device of the vehicle; and increase the overall probability of a lane change depending on the state signal of the lane change display device. 22 . The device of claim 21 , wherein the state signal of the lane change display device indicates an activation period and a side of the vehicle. 23 . The device of claim 21 , wherein the programmable device is further set up to determine a sideways motion state of the vehicle, and the increase of the overall probability of the lane change is also carried out depending on the determined sideways motion state. 24 . The device of claim 17 , wherein the programmable device is further set up to transform the lateral distance signal into a distance-dependent multiplication factor; and increase the overall probability of a lane change depending on the distance-dependent multiplication factor. 25 . The device of claim 24 , wherein increasing the overall probability of the lane change is carried out depending on the lateral velocity signal. 26 . The device of claim 24 , wherein the increase of the overall probability of a lane change is not carried out during a multiplication interruption period, which starts when a first half of the vehicle crosses a first lane boundary line. 27 . The device of claim 26 , wherein the multiplication interruption period is terminated if the vehicle falls below a minimum distance from a second lane boundary line. 28 . A method comprising: capturing a plurality of different lane change indicator signals; transforming the respective lane change indicator signals into respective associated individual probabilities of a lane change using respective assigned transformation functions; weighting the respective individual probabilities of the lane change; determining a weighted overall probability of the lane change as the average of the weighted individual probabilities of the lane change; estimating the existence of a lane change intention depending on the overall probability of the lane change; and outputting a lane change estimation signal associated with the lane change intention. 29 . A computer comprising a processor and a memory storing instructions executable by the processor to: capture a plurality of different lane change indicator signals; transform the respective lane change indicator signals into respective associated individual probabilities of a lane change using respective assigned transformation functions; weight the respective individual probabilities of the lane change; determine a weighted overall probability of the lane change as the average of the weighted individual probabilities of the lane change; estimate the existence of a lane change intention depending on the overall probability of the lane change; and output a lane change estimation signal associated with the lane change intention.