Abstract: A system and method for controlling electromechanical valves operating in an engine is presented. According to the method, armature levitation position may be changed to accommodate varying rates of valve stem growth. The method may reduce valve noise during a wide range of engine operating conditions.

Abstract: A vehicle hill hold may be accomplished, for a vehicle having an automated clutch between the engine output and the transmission input, while protecting the clutch from potential excess wear due to overheating. A hill hold may be accomplished by automatically switching the torque holding the vehicle in place from the clutch to the brakes. Alternatively, a hill hold may be accomplished by increasing an accelerator pedal position sensitivity and switching the clutch between fully engaged and fully disengaged based on changes in the pedal position.

Abstract: Automotive vehicles are increasingly being equipped with remote starting devices. If the vehicle is within a space which is very well sealed, it is possible that the concentration of the exhaust gases may exceed desirable levels. A method and system are disclosed in which a mass-based determination of air/fuel ratio is compared with the air/fuel ratio being maintained by the exhaust gas oxygen sensor. When the air/fuel ratio based on a mass measurement deviates from the air/fuel ratio based on the exhaust gas oxygen sensor by more than a threshold difference, the remotely started vehicle is turned off.

Abstract: A method is provided of restricted substance management and recycling in a manufacturing environment. The method includes the steps of inputting restricted substances and recycle content data of parts supplied by a supplier for a vehicle into a computer system of a vehicle manufacturer. The method also includes the steps of reviewing the inputted data and determining parts with banned or recycled content or substances over predetermined thresholds. The method further includes the steps of reporting the determined parts to the supplier and vehicle manufacture.

Abstract: Systems and methods for turbocharging an internal combustion engine include operating two turbochargers in a series configuration for a first operating region and a parallel configuration for a second operating region. Systems and methods for controlling exhaust gas recirculation (EGR) in a turbocharged internal combustion engine provide low pressure EGR upstream of a compressor inlet for a first operating region and high pressure EGR downstream of a compressor outlet for a second operating range to further improve turbocharger operating margin and overall efficiency.

Abstract: A system and method to control engine valve timing to improve the start of an internal combustion engine. Electromechanical valves are controlled in a manner to reduce hydrocarbon emissions during the start of an internal combustion engine.

Abstract: A method for improving engine position sensing of an internal combustion engine is described. According to one aspect of the description, the determination of engine position may be improved by correcting rotational position of the internal combustion engine at a number of engine locations.

Abstract: A method of controlling an automotive vehicle having a turning radius includes determining a hand wheel torque and applying brake-steer as a function of hand wheel torque.

Abstract: A system and method are disclosed for operating an internal combustion engine in which the intake valves are electromechanical valves and the engine has direct fuel injection. By opening the intake valves during the intake stroke when the piston is moving at its maximum speed, the turbulence through the intake valve is enhanced, thereby increasing combustion speed, and hence combustion stability at low torque, low speed operating conditions. Furthermore, if the fuel injection interval occurs when flow of gases through the intake is highest, air-fuel mixing is improved.

Abstract: A method for controlling stopping and starting of an engine having a variable event valvetrain is described. According to the method engine valves may be used to reduce engine evaporative emissions as well as engine starting emissions.

Abstract: A steering system (10) for a vehicle includes at least one wheel (14) that pivots to define a steering angle (20), and a steering lock (12) that limits an input to the steering angle (20) from an operator to a selected maximum value. The steering system (10) also includes a motor operatively connected to the wheel (14) that augments the input to the steering angle (20) from the operator, and a controller (42) operatively connected to the motor and adjusting the augmentation of the input to the steering to provide a maximum angle from the operator based upon at least one operating parameter, that includes the size of the wheel, thereby allowing the wheel (14) to pivot to a steering angle (20) based on the operating parameter that exceeds the steering angle (20) corresponding to the maximum allowable value as defined by the operator input.

Abstract: A method for adjusting fuel injection, the method comprising during an engine start from a non-warmed-up condition, identifying a fuel quality of fuel supplied to the engine during said start based on a performance of said start, and after said start is completed and during a transient fueling condition, adjusting a fuel injection amount based on said identified fuel quality from said start.

Abstract: A method for notifying installers 14–22 of the existence, type, and location of a portion 26 of an item within an assembly line 10. The notification allows the installers 14–22 to respectively ensure that the components 40 which are needed to be placed upon the portion 26 are available for use by the installer 14–22 in a timely manner.

Abstract: A hybrid-electric powertrain for a vehicle having forward traction wheels and rearward traction wheels in an all-wheel drive configuration. An engine and an electric motor deliver power through delivery paths to the traction wheels. The power delivery paths may have multiple ratio gearing so that more power can be delivered mechanically to improve powertrain performance and to allow the electric motor size to be reduced. The powertrain may include a controller for automatically balancing power distribution to the forward and rearward traction wheels to avoid wheel slip.

Abstract: A wheel support knuckle and trailing arm assembly that is attached to a toe link of a vehicle suspension system. The trailing arm assembly is formed by a blade member and a reinforcement member. The wheel support knuckle defines an axle bore and includes an integrally formed upper link receptacle and an integrally formed brake caliper track. The toe link is retained on the trailing arm assembly by a clevis formed by a transverse wall formed in the blade member and a parallel transverse wall formed in the reinforcement member. An alternative embodiment discloses a one-piece trailing arm that defines a clevis for connection to the toe link between a transverse wall and a tab that extends parallel to the transverse wall. A method of making cast wheel support knuckle and stamped trailing arm assembly is also disclosed.

Abstract: An independent rear suspension system is provided that has a trailing arm connected between a frame rail and a wheel support knuckle. A lower control arm is connected between a frame cross member and the knuckle. The suspension system also includes an upper link that extends between the frame rail and the knuckle. The toe link and upper link are generally vertically aligned. A stabilizer bar extends between the toe link and upper link and is connected to the lower control arm outboard of the shock and spring to reduce space requirements for the suspension system forward of the wheel support knuckle. The lower control arm is elongated and attached to the frame cross member inboard of the frame rails to improve the ratio of wheel travel to shock travel.

Abstract: A system, method, and article of manufacture for reducing the rate of fuel vapor formation within a fuel storage tank include a plurality of discrete independent floating particles or elements to reduce exposed evaporative surface area of fuel in the fuel storage tank while conforming to a changing fuel tank cross-section as fuel level changes. The elements or particles may have a self-tessellating geometry to facilitate formation of a single or multi-layer barrier or cover and be made or coated with a material that resists fuel wetting and degradation, such as a highly fluorinated polymer including polytetrafluoroethylene.

Abstract: The device, a wheel cover assembly, covers at least a portion of a wheel. The wheel cover assembly is secured to the wheel by a lug nut having a flange. The wheel cover assembly has a wheel cover which has an inner surface and an outer surface. The wheel cover assembly also has a plurality of lug wells. Each lug well includes a plurality of extensions extending from the inner surface of the wheel cover to the distal end of the lug well. The extensions have an engagement leg at the distal end of the lug well. Additionally, at least one of the engagement legs is non-axisymmetrical with respect to the remaining engagement legs.

Abstract: A fuel delivery module assembly for a vehicle which includes a fuel delivery module for supplying fuel from a fuel tank, a flange for attachment to a fuel tank and an emissions canister for controlling evaporative emissions. The fuel delivery module includes a reservoir for retaining fuel and a fuel pump for supplying fuel from the reservoir. The emissions canister is coupled to the fuel delivery module in a sliding relationship and is arranged such that the emissions canister can be displaced along a slide axis relative to the fuel delivery module between an installed position, in which the reservoir and emissions canister overlap parallel with the slide axis, and an installation position, in which the reservoir and emissions canister substantially do not overlap parallel with the slide axis. The invention also provides a fuel tank assembly comprising such a fuel delivery module assembly and to a method of positioning such a fuel delivery module assembly within a fuel tank.

Abstract: Intelligent vehicle rollover detection systems and methods are claimed and described. An embodiment may comprise various data sensors to sense various signals and a control circuit to receive the signals. In some embodiments, the control circuit may be adapted to provide a vehicle unstable signal to activate a first occupant restraint system and a rollover detection signal to activate a second occupant restraint system. In some embodiments, the control circuit may also determine an updated threshold and a reduced threshold, and generate a rollover detection signal in response to at least one of the updated threshold and a reduced threshold. Other embodiments are also claimed and described.

Abstract: A door for use in a vehicle and including an interior panel portion having an outer boundary facing toward an interior portion of the vehicle and including an opening. An insert positioned within at least a portion of the opening.

Abstract: A vehicle mode controller, a driving mode collecting means, and a plurality of subsystem controllers including an engine management system, a transmission controller, a steering controller, a brakes controller and a suspension controller, provide an improved system and method of operating a vehicle control system in a host vehicle in a manner suitable for a respective driving surface in a plurality of different off-road surfaces and terrains such as might be encountered when driving off-road. An improved method is provided for controlling a vehicle control system by avoiding unplanned combinations of subsystem configuration modes and minimizing the transition time when changing between subsystem configuration modes.

Abstract: A host vehicle system includes a blind-spot warning system providing an indication to the host vehicle a target vehicle entering a blind-spot. The system includes a vehicle bus receiving various vehicle control signals, magneto-resistive sensors receiving proximity information as a function of magnetic field variations, a smart algorithm controller analyzing bus signals and sensor signals, and various vehicle collision systems such as passive restraints, optical light guides, and audible warnings operating in response to a threat from a target vehicle.

Abstract: Various systems and methods are disclosed for carrying out combustion in a fuel-cut operation in some or all of the engine cylinders of a vehicle. Further, various subsystems are considered, such as fuel vapor purging, air-fuel ratio control, engine torque control, catalyst design, and exhaust system design.

Abstract: A tool holder assembly having a cutting tool, a tool holder, and a sealing portion. The sealing portion is configured to inhibit fluid leakage between the cutting tool and the tool holder.

Abstract: A system for an engine of a vehicle, comprising of a cylinder of the engine, a first injector configured to inject a first fuel to said cylinder, a second injector configured to inject a second fuel to said cylinder, and a controller configured to, during a first operating condition, commence combustion in the engine by injecting fuel into said cylinder from only said first injector during a first start, and during a second operating condition, to commence combustion in the engine by injecting fuel into said cylinder from only said second injector during a second start.

Abstract: A system and method for stopping an internal combustion engine. According to one aspect of the disclosure, a shutdown sequence of the engine includes retarding ignition timing relative to ignition timing prior to initiation of the shutdown sequence, and then advancing ignition timing relative to ignition timing prior to initiation of the shutdown sequence.

Abstract: A method for inhibiting stalling of an engine of a hybrid electric vehicle. The method includes determining whether the engine is running, determining whether a gear ratio of a power transfer unit is selected, starting a timer, and implementing a stall mitigation strategy. The stall mitigation strategy is terminated when a predetermined period of time has elapsed.

Abstract: A system (18) for controlling a safety system (44) of an automotive vehicle (10) includes a longitudinal acceleration sensor (36), a vehicle speed sensor (20), a lateral acceleration sensor (32), a yaw rate sensor, and a controller (26). The controller (26) determines a stability index and provides a first observer that determines a reference longitudinal velocity in response to the longitudinal acceleration signal, the yaw rate signal, a pitch attitude and vehicle speed from wheel speed sensors. The controller (26) determines a reference lateral velocity in response to the lateral acceleration signal, the yaw rate signal, a roll attitude, a pitch attitude and vehicle speed from the wheel speed sensors. The controller provides a second observer that determines a second longitudinal velocity in response to the longitudinal acceleration signal, the yaw rate signal, a lateral velocity, the pitch attitude and a first adjustment based on the longitudinal reference velocity.

Abstract: A method of controlling a trailer brake system using a trailer brake controller positioned within a passenger vehicle is provided. The method includes obtaining intended braking inputs and developing an effective baseline trailer brake controller output profile based thereon. The method scales the effective baseline trailer brake controller output profile in response to an adjustable gain setting set by an operator. The wheel speed is determined at a plurality of wheel locations and vehicle acceleration is calculated. The vehicle acceleration is utilized to selectively choose one of the wheel speed. The vehicle velocity is based on the selectively chosen wheel speed. The vehicle velocity is used to calculate a correction factor to the effective baseline trailer brake controller output profile. The effective baseline trailer brake controller output profile is then adjusted using the correction factor to generate a corrected trailer brake controller output signal.

Abstract: A vehicle powertrain including a multiple cylinder internal combustion engine and a controllable transmission controls engine shutdown by shutting off a fuel supply device or devices such as a fuel pump or fuel injector(s) while the transmission is in gear to load the engine and reduce or eliminate engine run-on. The transmission may be controlled to couple the input shaft to a stationary component or simultaneously engage clutches corresponding to different gear ratios to provide a holding torque on the engine.

Abstract: A fuel system for an internal combustion engine uses a fuel pump having an internally mounted pressure-responsive buffer which increases the volume available for fuel within the pump's discharge port upon shutdown of the pump, so as to assist in the mitigation of fugitive hydrocarbon emissions from fuel injectors which might otherwise result from a hot soak of an automotive engine.

Abstract: A method to regulate catalyst temperature by adjusting engine air and fuel amounts. The method provides catalyst temperature regulation while reducing fuel consumption.

Abstract: A host vehicle system includes a lane change system providing an indication to the host vehicle a target vehicle entering a destination lane. The system includes arrays of magneto-resistive sensors on both sides of the vehicle receiving proximity information as a function of magnetic field variations, a vehicle bus receiving various vehicle control signals, a smart algorithm controller analyzing bus signals and sensor signals, and various vehicle collision systems such as passive restraints, optical light guides, and audible warnings operating in response to a threat from a target vehicle.

Abstract: The method includes the steps of determining a number of gear teeth for each gear and pinion that, in combination, would produce desired gear ratios. Current gearset parameters including distances and angles relating the positions of the gears and pinions are determined. For a predetermined angular rotation of a selected gear or pinion, and using the current gearset parameters, an error is determined representing a difference in phases of a tooth on the selected gear or pinion into its mesh cycle. A first phase is determined along a first portion of a drive path of meshing gears and pinions, and a second phase is determined along a second portion of the drive path distinct from the first portion. One or more of the current gearset parameters are repetitively changed to determine a set of correspond optimal gearset parameters, for which the error is equal to or less than an acceptable error. Then a gearset having the optimal gearset parameters is produced.

Abstract: An automotive side impact assembly 10 is provided. The automotive side impact assembly 10 includes a door assembly 18 having a door body portion 20 and a window opening portion 22. The door body portion 20 and said window opening portion 22 meet to form a beltline 24. A window assembly 26 is positioned within the window opening portion 22 and extends into the door body portion 20 when in a window closed condition 28. An automotive seat assembly 12 is positioned adjacent said door assembly 18. A side-impact air bag assembly 32 is positioned within the automobile 14 such that the side air-bag 32 is deployed between the door assembly 18 and the automotive seat 12. The side-impact air bag assembly 32 has a deployed condition in which a side air-bag 32 is deployed during a collision.

Abstract: A fastener is configured for use in the manufacture of molded plastic components that will be subsequently attached to other components by the fastener. The low profile head portion of the fastener has a rounded contoured and convoluted top surface to facilitate the flow of plastic material around the head portion during the molding process. The underside of the head portion is formed with a square face surrounded circumferentially by circumferential land surfaces that provides a high pull-out force resistance for the fastener. The square face on the underside and convoluted top surface of the head portion provides a high spin-out torque resistance without sacrificing the pull-out force resistance. The rounded edges of the head portion are compatible with molding processes to allow the flow of plastic material to fully encapsulate the head portion within the molded plastic component.

Abstract: A method of integrating product information management with vehicle design includes the steps of selecting a vehicle program requirement from a library stored in a memory of a computer system, wherein the library is accessed through an information portal on the computer system. The method also includes the steps of selecting an information database containing information related to the design of the vehicle from the library, wherein the information database is accessed through the information portal, and determining if the information from the information database correlates with the program requirement. The method further includes the steps of using the information from the information database in the design of the vehicle, if the information from the information database correlates with the program requirement.

Abstract: A vehicle headlight system including a light source, digital beam forming optics optically coupled to the light source, and a memory storing a plurality of light illumination patterns. The memory is electrically coupled to the digital beam forming optics. The digital beam forming optics is adapted to output light from the light source in the form of at least one of the light illumination patterns in response to at least one vehicle operating condition.

Abstract: A system and method to control spark in a cylinder of a multi-cylinder engine. Spark can be controlled in a cylinder while reducing the possibility of producing a spark at a spark plug coupled to an ignition coil.

Abstract: An electronic valve actuation system and control method is described. The valve timing is changed between early and late intake valve closing depending on engine operating conditions. Further, valve timing is adjusted to control engine airflow or engine torque. Finally, air-fuel ratio is adjusted based on feedback from an exhaust gas oxygen sensor as well as an estimate of air, fuel, and residual exhausted from cylinders operating with late valve closing (after bottom dead center) timing.

Abstract: A recessed storage well is formed in the rear load floor of an automotive vehicle to provide cargo transport capabilities for wet cargo. The recessed storage well is provided with a drain to permit the flow of liquids collected within the recessed storage well to be discharged externally of the vehicle. The recessed storage well is formed from impervious material to permit the storage of wet articles of cargo without dampening the carpet covering on the rear load floor. The drain is seated in an automotive frame component by a rubber grommet that prevents the transfer of vibrational noise to the recessed storage well. The drain enables the use of a water spray in clean-up operations by allowing the collected water to drain away from the recessed storage well.

Abstract: A crash notification system (12) for an automotive vehicle (10) is used to communicate with a communication network (22) and ultimately to a response center (24). The system (12) within vehicle (10) includes an occupant sensor (30) that generates an occupant sensor status signal. A crash sensor (34) a vehicle identification number memory (48), or a vertical acceleration sensor (46) may also be used to provide information to the controller (14). The controller (14) generates a communication signal that corresponds to the occupant sensor status signal and the other information so that appropriate emergency personnel may be deployed.

Abstract: A vision-based object detection decision-making system (10) for a vehicle (12) includes multiple vision sensing systems (14) that have vision receivers (20) and that generate an object detection signal. A controller (16) includes a plurality of sensing system aid modules (18) that correspond to each of the vision sensing systems (14). The controller (16) operates the sensing system aid modules (18) in response to a vehicle parameter and generates a safety system signal in response to the object detection signal. The sensing system aid modules (18) have associated operating modes and operate the vision sensing systems (14) in the operating modes in response to the vehicle parameter.

Abstract: A linkage mechanism operably associated with the front and rear doors of an automotive vehicle that pivots a bumper device into an interfering position with respect to the closing of the front door against the B-pillar of the vehicle when the rear door remains opened. The linkage mechanism includes a spring-loaded actuation lever that moves in response to the opening of the rear door to cause through connecting links the pivotal movement of the bumper device from a retracted position to an interfering position to interfere with the closing of the front door. The closing of the rear door causes the retraction of the pivoted bumper device to enable the closing of the front door. A manually activated stop lever is pivotally movable against the bumper device to prevent the pivotal movement thereof out of the retracted position even when the rear door is opened.