Patent application number | Description | Published |
20110040455 | MOTOR VEHICLE - The present invention relates to a motor vehicle having a steering wheel, the motor vehicle including a first display, integrated into the steering wheel, for the variable representation of information; a first touchscreen, situated over the first display, for the input of commands; a second display, integrated into the steering wheel and separated spatially from the first display, for the variable representation of information; and a second touchscreen, situated over the second display, for the input of commands. | 02-17-2011 |
20110043468 | MOTOR VEHICLE - A motor vehicle includes a steering wheel, a first touchpad integrated into the steering wheel adapted to input commands, a second touchpad integrated into the steering wheel and spatially separated from the first touchpad adapted to input commands, and a coordination module adapted to generate a command to operate a function of the motor vehicle as a function of a touch motion over the first touchpad and a simultaneously-occurring touch motion over the second touchpad. | 02-24-2011 |
20110082615 | User Configurable Vehicle User Interface - A method for configuring and personalizing a vehicle user interface is provided, the user interface utilizing a touch screen display mounted within the vehicle. User configurable aspects of the user interface include the number of zones within the touch screen display, the size of each zone, the subsystem interface assigned to each zone, the style and information contained within each subsystem interface, display brightness levels for the overall display or per zone, and the assignment and location of persistent soft buttons. | 04-07-2011 |
20110082616 | Vehicle User Interface with Proximity Activation - A method for using a vehicle user interface is provided, the user interface utilizing a touch screen display mounted within the vehicle. A proximity detection system provides a means for switching the touch screen display from the sleep mode to the normal use mode without the user having to touch the screen, thus expediting user interaction with the touch screen. The proximity detection system may be configured to distinguish the user's presence per touch screen zone, thereby allowing the system controller to switch only a zone of the touch screen from the sleep mode to the normal use mode. | 04-07-2011 |
20110082618 | Adaptive Audible Feedback Cues for a Vehicle User Interface - A system and a method are provided for adapting a vehicle user interface to generate audible feedback cues when the user interacts with the vehicle interface via touch-sensitive soft buttons and the vehicle speed exceeds a preset speed. When the vehicle speed does not exceed the preset speed, either no audible feedback cues are provided to the user during interaction via the touch-sensitive soft buttons, or the volume level of the audible feedback cues is less than that used when the vehicle speed exceeds the preset speed. The system and method may further utilize a sensor for monitoring the sound level with the vehicle cabin. The sound level of the vehicle cabin may be used to set the volume level of the audible feedback cue, thus insuring for example that the feedback cues may be heard over cabin noise. | 04-07-2011 |
20110082619 | Adaptive Soft Buttons for a Vehicle User Interface - A system and a method are provided for configuring the touch-sensitive area and/or the tap duration associated with a plurality of touch-sensitive soft buttons of a vehicle user interface in response to varying vehicle conditions. In particular, as a monitored vehicle condition deteriorates, the system controller coupled to the vehicle user interface expands the touch-sensitive region and/or increases the tap duration of the touch-sensitive soft buttons, thereby improving the user's ability to successfully interact with the interface. Vehicle conditions that may be monitored and used to configure the touch-sensitive area and/or tap duration include passenger cabin vibration levels, vehicle speed, turn radius, lateral force levels, precipitation levels and external ambient temperature. | 04-07-2011 |
20110082620 | Adaptive Vehicle User Interface - A method is provided for configuring a vehicle interface in response to a monitored vehicle condition. For example, the vehicle condition sensor may be a precipitation sensor, in which case the set of vehicle subsystem touch-sensitive soft buttons correspond to windshield wiper controls when the precipitation sensor indicates a non-zero precipitation level. Alternately, the vehicle condition sensor may be a GPS sensor, in which case the set of vehicle subsystem touch-sensitive soft buttons correspond to activation controls an external system such as a garage door controller, a home lighting controller, or a home security controller. Alternately, the vehicle condition sensor may sense driving style, for example by monitoring vehicle speed, acceleration, lateral force or the output of a performance mode selector, in which case the set of vehicle subsystem information graphics correspond to essential vehicle operating controls. | 04-07-2011 |
20110082627 | Morphing Vehicle User Interface - A method for operating a vehicle user interface is provided, the user interface utilizing a touch-screen display mounted within the vehicle. In one aspect, the visual or visual/interactive properties of the interface change after the user initiates interface interaction. In another aspect, the interface allows a user to utilize any of a variety of different control interaction techniques, all to achieve the same function. | 04-07-2011 |