In a method for operating a safety system of a motor vehicle, a corresponding safety system, and a motor vehicle equipped with such safety system, status signals from several sensor devices are captured by the safety system, wherein the status signals indicate respective status change of a functional unit of the motor vehicle. Thereafter, a chronological order of the status changes is determined and evaluated to detect a consistency or an inconsistency with the proper application of a seat belt of the motor vehicle. If an inconsistency is detected and it persists over a predetermined period of time, a control signal is transmitted by the safety system to a safety device of the motor vehicle.

In a method for identifying misuse of a seat belt in a vehicle, vehicle data are detected and, based on said data, a plausibility check is performed for determining whether the seat belt is fastened as intended. Signals of at least one belt buckle sensor and of at least one webbing extension sensor are detected and a plausibility check for misuse is performed by taking the time course of the signals and/or the point in time of input of the signals into account so as to make a comparison with stored reference data. A seat belt system in a vehicle for carrying out said method comprises at least one belt buckle sensor and at least one webbing extension sensor as well as at least one seat occupation sensor, one door sensor, one vehicle acceleration sensor and/or one vehicle speedometer as well as a control unit in which the signals of the sensors are stored and evaluated.

A vehicular vision system includes a driver-side exterior mirror assembly, a passenger-side mirror assembly and an interior mirror assembly. The fields of view of the mirror reflective elements of the exterior mirror assemblies are adjustable by the driver via a respective actuator. The exterior mirror assemblies include respective cameras that each have a respective rearward field of view that supplements the field of view of the mirror reflective element when viewed by the driver of the vehicle. A video display is disposed behind the mirror reflector of an interior mirror reflective element such that displayed video images are viewable through the mirror reflector of the interior mirror reflective element. The video display includes a driver-side display portion and a passenger-side display portion that each display images derived from image data captured by the respective camera while not displaying images derived from image data captured by the other camera.

A vision system for a vehicle includes a driver-side exterior mirror assembly having a driver-side camera for capturing driver-side image data and a passenger-side exterior mirror assembly having a passenger-side camera for capturing passenger-side image data. A video display disposed at the vehicle displays video images derived from image data captured by the driver-side and passenger-side cameras. The video display includes a driver-side display portion and a passenger-side display portion. The driver-side display portion of the video display displays video images derived from driver-side image data captured by the driver-side camera and does not display video images derived from any passenger-side image data captured by the passenger-side camera. The passenger-side display portion of the video display displays video images derived from passenger-side image data captured by the passenger-side camera and does not display video images derived from any driver-side image data captured by the driver-side camera.

An object detecting apparatus is provided which includes relative speed obtaining means for obtaining a relative speed of a nearby object, relative acceleration calculating means for calculating a relative acceleration of the object from the relative speed, and limiting means for setting an upper limit of the relative acceleration when a given condition where a degree of reliability of a detected value of the relative speed is expected to be low is met and then also limiting the value of the relative acceleration using the upper limit when the given condition is met. The object detecting apparatus is capable of executing a control task accurately using a value of the relative acceleration calculated based on a detected value of the relative speed.

A vision system for a vehicle includes a driver-side exterior mirror assembly having a driver-side camera for capturing driver-side image data and a passenger-side exterior mirror assembly having a passenger-side camera for capturing passenger-side image data. A video display disposed at the vehicle displays video images derived from image data captured by the driver-side and passenger-side cameras. The video display includes a driver-side display portion and a passenger-side display portion. The driver-side display portion of the video display displays video images derived from driver-side image data captured by the driver-side camera and does not display video images derived from any passenger-side image data captured by the passenger-side camera. The passenger-side display portion of the video display displays video images derived from passenger-side image data captured by the passenger-side camera and does not display video images derived from any driver-side image data captured by the driver-side camera.

A cabin monitoring system for a vehicle includes a video display screen disposed in a cabin of the vehicle so as to be viewable by a driver of the vehicle. A camera assembly is disposed at a ceiling of the cabin of the vehicle and includes a camera having an imager and a lens, with the camera having a field of view that encompasses a rear seat area of the vehicle. An illumination device is operable to illuminate the rear seat area encompassed by the field of view of the camera. The illumination device, when operated, illuminates the rear seat area and the camera captures image data representative of the illuminated rear seat area. The image data captured by the camera is provided to the video display screen for displaying video images for viewing by the driver of the vehicle.

A cabin monitoring system for a vehicle includes a video display screen disposed in a cabin of the vehicle so as to be viewable by a driver of the vehicle. A camera assembly is disposed at a ceiling of the cabin of the vehicle and includes a camera having an imager and a lens, with the camera having a field of view that encompasses a rear seat area of the vehicle. An illumination device is operable to illuminate the rear seat area encompassed by the field of view of the camera. The illumination device, when operated, illuminates the rear seat area and the camera captures image data representative of the illuminated rear seat area. The image data captured by the camera is provided to the video display screen for displaying video images for viewing by the driver of the vehicle.

An accessory system for a vehicle includes an attachment element bonded to an in-cabin windshield surface at a first windshield location and an attachment member attached at the in-cabin windshield surface at a second windshield location. An interior rearview mirror assembly has a mirror support that has a mirror mount configured to mount the mirror assembly to the attachment element. A module is configured to be received by and be supported by the attachment member attached at the windshield. With the module received by and supported by the attachment member at the windshield, a camera of the module views through the windshield and is part of a driver assistance system of the vehicle. With the module received by and supported by the attachment member at the windshield, the mirror mount can be mounted to and demounted from the attachment element without demounting the module from the attachment member.

Technologies and techniques for combating drowsiness of a driver of a motor vehicle. A calculation rule is used in which a fatigue progression curve, that represents a fatigue development of the driver over time, can be generated based on a parameter set, and specific values for the parameter set are determined for a route ahead. The fatigue progression curve for the route ahead may be determined via the calculation rule using the determined values for the parameter set, and the fatigue progression curve is analyzed. A countermeasure may be initiated depending on a result of the analysis, in which countermeasure at least one value of a variable parameter of the parameter set is specifically changed.