Abstract: A method and a device for operating an assistance system of a vehicle involves detecting laterally static and laterally dynamic objects, which the vehicle is to drive past, as lateral boundary objects. A respective lateral distance of the vehicle from the respective lateral boundary object is detected. A speed of the respective laterally dynamic object is determined and at least the respectively laterally dynamic object is classified according to its type. A set of characteristic curves is stored in a control unit of the vehicle, the characteristic curves of the set being assigned in each case to an environmental situation predetermined depending on lateral boundary objects. It is predetermined by a respective characteristic curve for the respective environmental situation at what maximum speed the vehicle is to drive past a lateral boundary object at different lateral distances from the latter.

Abstract: A method for planning a target trajectory for an autonomously operated vehicle to be travelled along involves determining a discrete set of trajectories as candidates for the target trajectory. Each of the trajectories is composed of a plurality of trajectory sections arranged in a row. The planning is based on a selection of one of the trajectories as a target trajectory. The selection is based on evaluation of the trajectories together with predefined cost functions and an identification of the trajectory evaluated as being the most cost effective. An array of sub-trajectories, each having the same location specifications and different dynamics specifications, is associated with each trajectory section, and costs in accordance with the predefined cost functions are associated with the sub-trajectories.

Abstract: A method and a device for operating an assistance system of a vehicle involves detecting laterally static and laterally dynamic objects, which the vehicle is to drive past, as lateral boundary objects. A respective lateral distance of the vehicle from the respective lateral boundary object is detected. A speed of the respective laterally dynamic object is determined and at least the respectively laterally dynamic object is classified according to its type. A set of characteristic curves is stored in a control unit of the vehicle, the characteristic curves of the set being assigned in each case to an environmental situation predetermined depending on lateral boundary objects. It is predetermined by a respective characteristic curve for the respective environmental situation at what maximum speed the vehicle is to drive past a lateral boundary object at different lateral distances from the latter.

Abstract: In a method and apparatus for collision avoidance or collision mitigation for a vehicle, an existing driving space between the vehicle and a potential collision object is detected. A first warning function and/or an information function is activated when a first threshold value is reached. A system intervention with autonomous partial braking combined with at least one further safety measure is activated when a second threshold value is reached.

Abstract: A method for operating a vehicle having a collision avoidance system including a sensor for sensing potential other parties to a collision and having an evaluator, connected to a control unit, for evaluating a risk of a collision. It is proposed that when the other party to a collision comes relatively close in the lateral direction, an actuator system is activated in order to predefine a setpoint trajectory of the vehicle in order to avoid a lateral collision. In addition, a device for operating the method is provided.

Abstract: In a method and apparatus for collision avoidance or collision mitigation for a vehicle, an existing driving space between the vehicle and a potential collision object is detected. A first warning function and/or an information function is activated when a first threshold value is reached. A system intervention with autonomous partial braking combined with at least one further safety measure is activated when a second threshold value is reached.

Abstract: A method for detecting an object in a motor vehicle environment uses a detection means which scans the environment at predetermined angular increments ?i+??i (i=1,2, . . ., N). When sensing a reflection signal of the object at an angle ?i, the angular increments are refined in the angular range between the adjacent angles ?i?1 and ?i+1 as a function of signal propagation times ti?1, ti and ti+1 of the reflection signals sensed at the angles ?i?1, ?i and ?i+1.

Abstract: A method for detecting an object in a motor vehicle environment uses a detection means which scans the environment at predetermined angular increments ?i+1??i (i=1, 2, . . . , N). When sensing a reflection signal of the object at an angle ?i, the angular increments are refined in the angular range between the adjacent angles ?i?1 and ?i+1 as a function of signal propagation times ti?1, ti and ti+1 of the reflection signals sensed at the angles ?i?1, ?i and ?i+1.

Abstract: The invention relates to a method for assisting the driver of a vehicle (10) when performing a driving maneuver, such as a parking or shunting maneuver. In this case, a reference trajectory (16) is determined, along which the vehicle (10) is to be moved. A steering wheel position to be set and controlling the vehicle along the reference trajectory (16) is indicated to the driver during the driving maneuver. The vehicle longitudinal speed is influenced independently of the driver in the event of a steering angle deviation between the actual steering angle actually set by the driver and the desired steering angle corresponding to the requested steering wheel position. As a result, the driver can be given a greater reaction time in order to set the indicated steering wheel position.

Abstract: 1. Method and device for assisting the driver of a vehicle during a parking maneuver. 2.1. Known devices for assisting the driver of a vehicle during the execution of a parking maneuver usually comprise surroundings-sensing means for sensing and measuring potential parking gaps, means for determining a parking strategy and information means for outputting instructions to the driver, which instructions guide him into the parking gap. The new method and the new device are intended to provide the driver with better assistance during the execution of the parking maneuver. 2.2. For this purpose, a parking situation image on which the parking gap, an optimum setpoint position and a first and second vehicle are represented in a plan view is displayed to the driver on an image display device.

Abstract: The invention relates to a method for assisting the driver of a vehicle (10) when performing a driving maneuver, such as a parking or shunting maneuver. In this case, a reference trajectory (16) is determined, along which the vehicle (10) is to be moved. A steering wheel position to be set and controlling the vehicle along the reference trajectory (16) is indicated to the driver during the driving maneuver. The vehicle longitudinal speed is influenced independently of the driver in the event of a steering angle deviation between the actual steering angle actually set by the driver and the desired steering angle corresponding to the requested steering wheel position. As a result, the driver can be given a greater reaction time in order to set the indicated steering wheel position.