Patent application number | Description | Published |
20090195376 | SYSTEM AND METHOD FOR CONTROLLING A SAFETY RESTRAINT STATUS BASED ON DRIVER STATUS - A system and method for notifying primary and second drivers about a status of a safety restraint in a vehicle is provided. A primary and secondary keys are adapted to be associated to the primary and secondary drivers. A key ignition device is positioned on each of the primary key and secondary keys. The key ignition device is adapted to generate driver status signals indicative of whether the driver the primary driver or the secondary driver. A controller is adapted to determine whether the driver of the vehicle is the primary driver or the secondary driver based on the driver status signals. The controller is further adapted to generate restraint status signals indicative of the status of the safety restraint. The controller is further adapted to selectively control the operation of generating the restraint signals based on whether the driver of the vehicle is the primary or secondary driver. | 08-06-2009 |
20090198410 | SYSTEM AND METHOD FOR CONTROLLING EARLY LOW FUEL WARNING BASED ON DRIVER STATUS - A system and method is provided for controlling the operation of notifying drivers of the fluid level. Primary and secondary keys are adapted to be associated to primary and secondary drivers. A key ignition device is positioned on the primary and secondary keys and generate driver status signals. A fluid level sensing device is operable to generate a fluid level signal indicative of the fluid level. A controller is coupled to the fluid level sensing device and the key ignition device. The controller determines whether the driver of the vehicle is the primary or secondary driver in response to the driver status signals. The controller notifies the primary or secondary driver of the fluid level in response to the fluid level signal. The controller selectively controls the operation of notifying the primary or the secondary driver based on whether the driver is the primary or secondary driver. | 08-06-2009 |
20090198413 | SYSTEM AND METHOD FOR CONTROLLING ELECTRONIC STABILITY CONTROL BASED ON DRIVER STATUS - A system and method for controlling the operation of stabilizing the movement of a vehicle between primary and secondary drivers is provided. A primary key is adapted to be associated to the primary driver. A secondary key is adapted to be associated to the secondary driver. A key ignition device is positioned on the primary and secondary keys and is configured to generate driver status signals indicative of whether the driver is a primary or secondary driver. The controller is adapted to determine whether the driver of the vehicle is the primary driver or the secondary driver based on the driver status signals. The controller is further adapted to stabilize the movement of the vehicle. The controller is further adapted to selectively control the operation of stabilizing the movement of the vehicle in response to the driver status signals. | 08-06-2009 |
20090198445 | SYSTEM AND METHOD FOR CONTROLLING OBJECT DETECTION BASED ON DRIVER STATUS - Primary and secondary keys are adapted to be associated to primary and secondary drivers. A key ignition device is positioned on each of the primary and secondary keys and is configured to generate driver status signals indicative of whether the driver the primary driver or the secondary driver. A controller is operably coupled to the key ignition device. The controller is adapted to determine whether the driver is the primary driver or the secondary driver. The controller is adapted to generate position notification signals indicative of the position of the object with respect to the vehicle. The controller is adapted to notify the primary and secondary drivers of the position of the object. The controller is adapted to selectively control the operation of generating the position notification signals based on whether the driver is the primary driver or the secondary driver. | 08-06-2009 |
20100277273 | SYSTEM AND METHOD FOR ASSIGNING DRIVER STATUS TO A SPARE KEY AND FOR PROGRAMMING THE SPARE KEY TO A VEHICLE - In at least one embodiment, a method and device for assigning a driver status of one of a primary driver and a secondary driver to a spare key is provided. A controller is configured to receive a first key identification signal from a first key indicative of the driver status for the first key being that of one of the primary and the secondary driver. The controller is configured to determine whether the driver status indicated on the first key identification signal corresponds to the one of the primary driver and the secondary driver. The controller is configured to receive a spare key identification signal and assign the spare key identification signal to correspond to the driver status as indicated on the first key identification signal. | 11-04-2010 |
20110082625 | SYSTEM AND METHOD FOR CONTROLLING ONE OR MORE VEHICLE FEATURES BASED ON DRIVER STATUS - In at least one embodiment, a device for controlling one or more vehicle features for a primary driver and a secondary driver is provided. The device comprises at least one controller that is configured to receive at least one driver status signal indicative of the driver being one of the primary driver and the secondary driver and to determine whether the driver of the vehicle is the one of the primary driver and the secondary driver based on the at least one driver status signal. The controller is further configured to control one or more vehicle features and to prevent the one or more vehicle features from being disabled in response to determining that the at least one driver status signal indicates that the driver of the vehicle is the secondary driver. | 04-07-2011 |
20110215899 | METHOD AND SYSTEM FOR AUTHORIZING A VEHICLE DRIVEAWAY - Various embodiments may include methods and systems for authorizing a vehicle driveaway. A vehicle driveaway authorization code may be received by, for example, a computer system and circuit configured to receive the vehicle authorization code. The vehicle driveaway authorization code may have a corresponding user authorization code. Input may be received at the vehicle that defines the user authorization code. An identifying signal may also be wirelessly received to identify a wireless nomadic device in a vicinity of the vehicle. It may be determined whether the nomadic device was previously wirelessly paired with the vehicle based on the identifying signal. The vehicle driveaway authorization code may be compared to the user authorization code. If the nomadic device was previously wirelessly paired with the vehicle and if the vehicle driveaway authorization code corresponds to the user authorization code, a vehicle drive may be enabled. | 09-08-2011 |
20110215901 | METHOD AND SYSTEM FOR ENABLING AN AUTHORIZED VEHICLE DRIVEAWAY - Various embodiments may include methods and system for enabling an authorized vehicle driveaway. A vehicle driveaway authorization code for authorizing a vehicle to be driven and a user authorization code that corresponds to the vehicle driveaway authorization code may be generated. The codes may be generated by, for example, at least one server configured to generate the authorization codes. The at least one server may be communicating with a nomadic device and a vehicle driveaway authorization system. A vehicle driveaway request signal may be received. In response to a receipt of the vehicle driveaway request signal, the vehicle driveaway authorization code may be transmitted to the vehicle driveaway authorization system and the user authorization code may be transmitted to the nomadic device for input to the vehicle driveaway authorization system in order to enable the vehicle to be driven. | 09-08-2011 |
20120126964 | SYSTEM AND METHOD FOR CONTROLLING EARLY LOW FUEL WARNING BASED ON DRIVER STATUS - A system and method is provided for controlling the operation of notifying drivers of the fluid level. Primary and secondary keys are adapted to be associated to primary and secondary drivers. A key ignition device is positioned on the primary and secondary keys and generates driver status signals. A fluid level sensing device is operable to generate a fluid level signal indicative of the fluid level. A controller is coupled to the fluid level sensing device and the key ignition device. The controller determines whether the driver of the vehicle is the primary or secondary driver in response to the driver status signals. The controller notifies the primary or secondary driver of the fluid level in response to the fluid level signal. The controller selectively controls the operation of notifying the primary or the secondary driver based on whether the driver is the primary or secondary driver. | 05-24-2012 |
20130040620 | METHOD AND SYSTEM FOR ENABLING AN AUTHORIZED VEHICLE DRIVEAWAY - Various embodiments may include methods and system for enabling an authorized vehicle driveaway. A vehicle driveaway authorization code for authorizing a vehicle to be driven and a user authorization code that corresponds to the vehicle driveaway authorization code may be generated. The codes may be generated by, for example, at least one server configured to generate the authorization codes. The at least one server may be communicating with a nomadic device and a vehicle driveaway authorization system. A vehicle driveaway request signal may be received. In response to a receipt of the vehicle driveaway request signal, the vehicle driveaway authorization code may be transmitted to the vehicle driveaway authorization system and the user authorization code may be transmitted to the nomadic device for input to the vehicle driveaway authorization system in order to enable the vehicle to be driven. | 02-14-2013 |
20130060419 | SYSTEM AND METHOD FOR CONTROLLING OBJECT DETECTION BASED ON DRIVER STATUS - Primary and secondary keys are adapted to be associated to primary and secondary drivers. A key ignition device is positioned on each of the primary and secondary keys and is configured to generate a driver status signal indicative of whether the driver the primary driver or the secondary driver. A controller is operably coupled to the key ignition device. The controller is adapted to determine whether the driver is the primary driver or the secondary driver. The controller is adapted to generate a position notification signal indicative of the position of the object with respect to the vehicle. The controller is adapted to notify the primary and secondary drivers of the position of the object. The controller is adapted to selectively control the operation of generating the position notification signals based on whether the driver is the primary driver or the secondary driver. | 03-07-2013 |
20130066525 | VEHICLE SHUT-DOWN FUNCTIONALITY FOR PEPS-EQUIPPED VEHICLES - A vehicle comprises a plurality of control module structures. A first control module structure is configured for determining a current motive mode of the vehicle. A second control module structure is configured for determining information indicating that a driver of the vehicle has left the vehicle unattended while the vehicle is in a motive-enabled mode. A third control module structure is configured for causing a secure idle mode to be implemented as a function of determining the information indicating that the driver of the vehicle has left the vehicle unattended while the vehicle is in the motive-enabled mode. Implementing the secure idle mode can include inhibiting the vehicle from being driveable until a driver access code is successfully received and authenticated by the vehicle. | 03-14-2013 |
20140320260 | MITIGATION OF LF INTERFERENCE FROM ADJACENT VEHICLES ALSO USING LF APPROACH DETECTION SYSTEM - A system may include at least one antenna and a controller in communication with the antenna. The controller may be configured to establish a pattern for transmitting low frequency challenges; and instruct the first antenna to transmit the low frequency challenges based on the established pattern. | 10-30-2014 |
20140350825 | VEHICLE SHUT-DOWN FUNCTIONALITY FOR PEPS-EQUIPPED VEHICLES - A vehicle comprises a plurality of control module structures. A first control module structure is configured for determining a current motive mode of the vehicle. A second control module structure is configured for determining information indicating that a driver of the vehicle has left the vehicle unattended while the vehicle is in a motive-enabled mode. A third control module structure is configured for causing a secure idle mode to be implemented as a function of determining the information indicating that the driver of the vehicle has left the vehicle unattended while the vehicle is in the motive-enabled mode. Implementing the secure idle mode can include inhibiting the vehicle from being driveable until a driver access code is successfully received and authenticated by the vehicle. | 11-27-2014 |