Patent application number | Description | Published |
20100250071 | DUAL FUNCTION TOUCH SWITCH WITH HAPTIC FEEDBACK - A control interface system is disclosed. The system comprises an input device that receives input of a user to control a plurality of systems of the vehicle and a plurality of dual function sensors interposed along a surface of said input device. Each of the dual function sensors includes a first circuit that is sensitive to contact of the user with the surface of said input device and a second circuit sensitive to pressure exerted upon the surface of the input device greater than a predetermined threshold. The dual function sensors generate a first signal when the first circuit senses the contact of the user and generate a second signal when the second circuit senses the pressure exerted upon the surface of the input device. The system further includes a processing unit which receives the first and second signals and controls the plurality of systems within the vehicle based upon the received signals. | 09-30-2010 |
20110301813 | CUSTOMIZABLE VIRTUAL LANE MARK DISPLAY - A method of displaying virtual lane markings relative to a vehicle position within a roadway lane may entail reading vehicle data such as speed into a vehicle control module, determining if the vehicle data is above a particular threshold, switching a virtual lane display switch, determining weather conditions, and displaying virtual lane markings upon a vehicle windshield based upon a result of determining weather conditions. Detecting actual lane markings on one or both of a left side of the roadway lane and a right side of the roadway lane may be accomplished with a vehicle-mounted camera. Moreover, determining whether a steering wheel has rotated a predetermined number of degrees may further play a role in displaying the virtual lane markings on a windshield of the vehicle. From a driver viewing perspective through a windshield, virtual lane markings may be displayed on the windshield to overlay actual lane markings. | 12-08-2011 |
20120253593 | SYSTEMS AND METHODS FOR HAPTIC FEEDBACK CONTROL IN A VEHICLE - A control system for a vehicle includes first and second modules. The first module receives input from an operator of the vehicle via an input device, wherein the operator input includes a change to an operating parameter of a vehicle system. The second module selectively adjusts a resistance of the input device based on the operator input and a predetermined threshold. A method for controlling a vehicle includes receiving input from an operator of the vehicle via an input device, wherein the operator input includes a change to an operating parameter of a vehicle system, and selectively adjusting a resistance of the input device based on the operator input and a predetermined threshold. | 10-04-2012 |
Patent application number | Description | Published |
20100326756 | Vehicle Air Intake System - The present disclosure relates to air intake systems and methods for manufacturing the same. Systems include an air inlet that defines a slope equal to a vertical distance between a surface of a fascia shield and a surface of the engine intake channel, divided by a longitudinal distance between the shield and engine intake channel. Unwanted moisture and debris is filtered from the engine intake channel. | 12-30-2010 |
20110023813 | AIR CLEANER FOR MOTOR VEHICLES OPERATING IN EXTREME WEATHER CONDITIONS - A motor-vehicle air cleaner comprises the filter assembly, an air-cleaner housing configured to fittably and removably accommodate the filter assembly and to enclose the main filter and the auxiliary filter separately when the filter assembly is accommodated in the air-cleaner housing. The motor-vehicle air cleaner further comprises a flow restrictor configured to restrict air flow to the auxiliary filter. | 02-03-2011 |
20120266577 | AIR CLEANER FILTER ASSEMBLY FOR MOTOR VEHICLES OPERATING IN EXTREME WEATHER CONDITIONS - A filter assembly for a motor-vehicle air cleaner includes a main filter, an auxiliary filter set apart from the main filter, and a filter mount fixed to and configured to support the main filter and the auxiliary filter. In one embodiment, the filter mount is fittable in and removable from a housing of the air cleaner, and comprises a sealing element passing between the main filter and the auxiliary filter. | 10-25-2012 |
20120304607 | AIR CLEANER FOR MOTOR VEHICLES OPERATING IN EXTREME WEATHER CONDITIONS - A motor-vehicle air cleaner comprises the filter assembly, an air-cleaner housing configured to fittably and removably accommodate the filter assembly and to enclose the main filter and the auxiliary filter separately when the filter assembly is accommodated in the air-cleaner housing. The motor-vehicle air cleaner further comprises a flow restrictor configured to restrict air flow to the auxiliary filter. | 12-06-2012 |
20130152529 | AIR CLEANER FILTER ASSEMBLY FOR MOTOR VEHICLES OPERATING IN EXTREME WEATHER CONDITIONS - A filter assembly for a motor-vehicle air cleaner comprises a main filter, an auxiliary filter set apart from the main filter, and a filter mount fixed to and configured to support the main filter and the auxiliary filter. In this embodiment, the filter mount is fittable in and removable from a housing of the air cleaner, and comprises a sealing element passing between the main filter and the auxiliary filter. | 06-20-2013 |
20140230386 | AIR CLEANER FILTER ASSEMBLY FOR MOTOR VEHICLES OPERATING IN EXTREME WEATHER CONDITIONS - A filter assembly for a motor-vehicle air cleaner comprises a main filter, an auxiliary filter set apart from the main filter, and a filter mount fixed to and configured to support the main filter and the auxiliary filter. In this embodiment, the filter mount is fittable in and removable from a housing of the air cleaner, and includes a sealing element passing between the main filter and the auxiliary filter. | 08-21-2014 |
Patent application number | Description | Published |
20130088347 | Method and Apparatus For Do Not Disturb Message Delivery - A computer implemented method includes detecting a vehicle state for which a user is to be notified. The method also includes sending a notification for a user regarding the vehicle state. The method further includes receiving a response that a do not disturb mode is enabled for the user. The method additionally includes queuing the notification for later delivery. The method also includes re-sending the notification for the user at a later point in time than when an original notification was sent. | 04-11-2013 |
20130096768 | Method and Apparatus for Do Not Disturb Message Delivery - A computer-implemented method includes detecting a reportable change in vehicle state. The method also includes qualifying the reportable change for delivery based on evaluation of one or more situational variables associated with the reportable change. Further, the method includes delivering a notification relating to the reportable change to a wireless to be delivered to a device user despite an active do not disturb state of the wireless device, conditional on the qualification of the reportable change as deliverable. | 04-18-2013 |
20130191321 | Method and Apparatus for Providing Charging State Alerts - A computer implemented method includes determining whether a time of day corresponds to a charging window, responsive to a determination that a vehicle is in a non-charging state. The method also includes retrieving a start time and charge requirement for an upcoming journey. The method further includes determining if sufficient time remains to charge a vehicle to the charge requirement, responsive to a determination that the time of day corresponds to the charging window. Also, the method includes alerting a user to the non-charging state, responsive to a determination that insufficient time remains to charge the vehicle to the charge requirement. | 07-25-2013 |
20140371970 | Method and Apparatus for Providing Charging State Alerts - A computer implemented method includes determining whether a time of day corresponds to a charging window, responsive to a determination that a vehicle is in a non-charging state. The method also includes retrieving a start time and charge requirement for an upcoming journey. The method further includes determining if sufficient time remains to charge a vehicle to the charge requirement, responsive to a determination that the time of day corresponds to the charging window. Also, the method includes alerting a user to the non-charging state, responsive to a determination that insufficient time remains to charge the vehicle to the charge requirement. | 12-18-2014 |