The disclosure includes a system and method for reconfiguring a second vehicle based on one or more preferences of a user without the user directly providing an input to the second vehicle to reconfigure the second vehicle. The method may include wirelessly receiving user profile data at a second vehicle. The user profile data may indicate one or more preference of the user. The method may also include updating one or more settings of the second vehicle based on the user profile data so that the second vehicle is reconfigured based on the one or more preferences of the user.

A method of operating a motor vehicle with a chassis system comprising at least two, preferably four vibration damper includes carrying out a body control and a wheel control with the chassis system, and controlling the energy supply for the chassis system via an energy control arrangement. A motor vehicle performing the method is also disclosed.

Methods, systems, and vehicles are provided for controlling lift for vehicles. In accordance with one embodiment, a vehicle includes a body, one or more sensors, and a processor. The one or more sensors are configured to measure values pertaining to one or more parameter values for a vehicle during operation of the vehicle. The processor is coupled to the one or more sensors, and is configured to at least facilitate determining whether an unplanned lift of the body of the vehicle is likely using the parameters, and implementing one or more control measures when it is determined that the unplanned lift of the body of the vehicle is likely.

A glass composition including: from 65 to 75 weight % SiO.sub.2; from 10 to 20 weight % Na.sub.2O; from 5 to 15 weight % CaO; from 0 to 5 weight % MgO; from 0 to 5 weight % Al.sub.2O.sub.3; from 0 to 5 weight % K.sub.2O; from greater than 0 and up to 0.03 weight % total iron (Fe.sub.2O.sub.3); and from greater than 0 and up to 0.003 weight % FeO.

A method and system for applying vehicle settings to a vehicle that include storing at least one user settings profile on a plurality of components associated with the vehicle based on a computing device that is used to create or update the at least one user settings profile. The system and method also include determining if the at least one user settings profile has been updated since a last ignition cycle of the vehicle. The system and method further include selecting the at least one user settings profile to be applied to control a vehicle system of the vehicle from at least one component of the plurality of components based on if the at least one user settings profile has been updated since the last ignition cycle of the vehicle and on a connection of at least: a first portable device and a second portable device to the vehicle.

A sensor for sensing a physical transmitter field dependent on a physical quantity to be measured, including: a sensor circuit for sensing the transmitter field and for outputting a sensor signal dependent on the transmitter field a circuit carrier having a first region in which at least a part of the sensor circuit is supported and a second region in which at least a first mechanical interface and a second mechanical interface for connecting the circuit carrier to a retainer are arranged, and a noise resistance element, which is arranged between the first region and the second region and which is designed to conduct structure-borne noise entering via the first mechanical interface to the second mechanical interface.

A method and system for applying vehicle settings to a vehicle. The method and system include receiving a device identification (ID) from at least one of: a first portable device and a second portable device. The method and system additionally include identifying a user settings profile that is associated to the device ID. The method and system also include determining if the user settings profile has been updated since a last ignition cycle of the vehicle. The method and system further include applying the user settings profile to control a vehicle system, wherein the user settings profile is retrieved from at least one of: a central user settings data repository, a telematics unit of the vehicle, and a head unit of the vehicle.

A method and system for applying vehicle settings to a vehicle. The method and system include receiving a device identification (ID) from at least one of: a first portable device and a second portable device. The method and system additionally include identifying a user settings profile that is associated to the device ID. The method and system also include determining if the user settings profile has been updated since a last ignition cycle of the vehicle. The method and system further include applying the user settings profile to control a vehicle system, wherein the user settings profile is retrieved from at least one of: a central user settings data repository, a telematics unit of the vehicle, and a head unit of the vehicle.

The disclosure includes a system and method for reconfiguring a vehicle based on one or more preferences of a first user without the first user directly providing an input to the vehicle to reconfigure the vehicle. The method may include wirelessly receiving first user profile data at a vehicle. The first user profile data may be associated with a first user. The first user profile data may describe how one or more settings of the vehicle should be configured for the first user. Upon receipt of the first user profile data, the vehicle may be configured in accordance with second user profile data describing how the one or more settings of the vehicle should be configured for a second user. The method may include reconfiguring the one or more settings of the vehicle based on the first user profile data so that the vehicle is reconfigured for the first user.

The present invention obtains a controller and a control method capable of appropriately assisting with driving by a rider. In the controller and the control method according to the present invention, an acquisition section of a controller (60) acquires yaw rate information of a traveling straddle-type vehicle (100), and in a control mode in which behavior control operation to make the straddle-type vehicle (100) automatically decelerate or automatically accelerate is performed, an execution section of the controller (60) changes the behavior control operation according to the yaw rate information.