Abstract: Method and apparatus are disclosed for GNSS statistical speed calibration An example vehicle includes a wheel, a speed sensor for determining a first vehicle speed, an inertial sensor, and a processor. The processor may be configured for determining a second vehicle speed based on information from the inertial sensor and information from a satellite based system, determining that a difference between the first and second vehicle speeds is statistically significant, and responsively adjusting a value of the radius of the wheel.

Abstract: A vehicle includes an antenna system and a controller. The controller may be configured to, responsive to wireless energy, received via the antenna system, exceeding a magnitude and duration indicative of a cellular connection from a nomadic device at a predetermined position in the vehicle in an absence of a connection with the device via a local protocol while the vehicle is in motion, operate a powertrain to limit a speed of the vehicle.

Abstract: A vehicle includes at least one and/or one or more in-vehicle and/or onboard controller(s) that is/are coupled to spaced apart sensor groups that are arrayed within a headliner and/or seats of the vehicle cabin. Each sensor group generally corresponds to and/or with a plurality of and/or one or more seat positions, each having a single seat, and which include a driver zone seat position that has a driver seat. Each sensor group in the array includes at least one signal processor, and a plurality of transceivers, antennas, and/or sensors configured for and tuned to different electromagnetic frequencies and/or powers. Also included are electromagnetically active, directional waveguides that adjust, amplify, and/or attenuate the sensitivity of each of the respective antennas, to electromagnetic energy detected and received from mobile devices located in the vehicle cabin, such that the sensitivity is limited to electromagnetic emissions within a limited effective range for each antenna.

Abstract: A vehicle includes an antenna system and a controller. The controller may be configured to, responsive to wireless energy, received via the antenna system, exceeding a magnitude and duration indicative of a cellular connection from a nomadic device at a predetermined position in the vehicle in an absence of a connection with the device via a local protocol while the vehicle is in motion, operate a powertrain to limit a speed of the vehicle.

Abstract: Methods and apparatus are disclosed for vehicle mobile device usage monitoring with a cell phone usage sensor. An example disclosed vehicle includes a cellphone usage sensor and a communication enforcer. The example cellphone usage sensor monitors a detection area around a driver's seat. The example communication enforcer changes an operation of the vehicle when the cellphone usage sensor detects usage of a mobile device within the detection area, a communication management feature is enabled, and the mobile device is not communicatively coupled to a wireless module of the vehicle.

Abstract: A vehicle includes at least one and/or one or more in-vehicle and/or onboard controller(s) that is/are coupled to spaced apart sensor groups that are arrayed within a headliner and/or seats of the vehicle cabin. Each sensor group generally corresponds to and/or with a plurality of and/or one or more seat positions, each having a single seat, and which include a driver zone seat position that has a driver seat. Each sensor group in the array includes at least one signal processor, and a plurality of transceivers, antennas, and/or sensors configured for and tuned to different electromagnetic frequencies and/or powers. Also included are electromagnetically active, directional waveguides that adjust, amplify, and/or attenuate the sensitivity of each of the respective antennas, to electromagnetic energy detected and received from mobile devices located in the vehicle cabin, such that the sensitivity is limited to electromagnetic emissions within a limited effective range for each antenna.

Abstract: Method and apparatus are disclosed for fuel fill volume estimation for a vehicle. An example vehicle includes a fuel tank float, a dashboard display, and an engine control module. The engine control module divides a fuel tank into zones. When the vehicle is not in motion and a position of the fuel tank float changes by a threshold amount, engine control module measures an initial fuel level. When the position of the fuel tank float does not change for a threshold period of time, the engine control module measures a final fuel level. Additionally, the engine control module calculates an amount of fuel added to the fuel tank based on the zones associated with the initial fuel level and a final fuel level and display the amount on the dashboard display.

Abstract: Method and apparatus are disclosed for fuel fill volume estimation for a vehicle. An example vehicle includes a fuel tank float, a dashboard display, and an engine control module. The engine control module divides a fuel tank into zones. When the vehicle is not in motion and a position of the fuel tank float changes by a threshold amount, engine control module measures an initial fuel level. When the position of the fuel tank float does not change for a threshold period of time, the engine control module measures a final fuel level. Additionally, the engine control module calculates an amount of fuel added to the fuel tank based on the zones associated with the initial fuel level and a final fuel level and display the amount on the dashboard display.

Abstract: Method and apparatus are disclosed for GNSS statistical speed calibration An example vehicle includes a wheel, a speed sensor for determining a first vehicle speed, an inertial sensor, and a processor. The processor may be configured for determining a second vehicle speed based on information from the inertial sensor and information from a satellite based system, determining that a difference between the first and second vehicle speeds is statistically significant, and responsively adjusting a value of the radius of the wheel.

Abstract: Methods and apparatus are disclosed for vehicle mobile device usage monitoring with a cell phone usage sensor. An example disclosed vehicle includes a cellphone usage sensor and a communication enforcer. The example cellphone usage sensor monitors a detection area around a driver's seat. The example communication enforcer changes an operation of the vehicle when the cellphone usage sensor detects usage of a mobile device within the detection area, a communication management feature is enabled, and the mobile device is not communicatively coupled to a wireless module of the vehicle.