Abstract: A method and system for optimizing vehicle diagnostic trees using similar templates is provided. Diagnostic trees may be modified to include diagnostic code tips or further suggestions or instructions indicating what tool to use or how to use the tool. The diagnostic tree cab be modified or customized by comparing the diagnostic tree to previously modified diagnostic trees corresponding to similar vehicles, and suggestions within the previously modified tree that are referenced within a library can be linked to the diagnostic trees.
Type:
Grant
Filed:
April 1, 2008
Date of Patent:
June 7, 2011
Assignee:
Snap-on Incorporated
Inventors:
Jeff Grier, Sunil Reddy, Carl Krzystofczyk, Bradley Lewis
Abstract: A control system for a self-propelled patient-support apparatus includes a controller that utilizes a power drive speed control algorithm to control the power output to a motor of a drive mechanism for driving the patient-support apparatus across a floor. The control algorithm normalizes a force input by a user on a user input device, the force indicative of a desired drive speed. The algorithm varies the responsiveness of the output to the drive mechanism based on the current operating conditions of the drive mechanism.
Abstract: Techniques are described for determining and providing location-based information, including based on decomposing a geographic area into numerous smaller areas and using one or more layers of polygons to represent various of the smaller areas. In some situations, location-based information for a geographic area is determined efficiently and accurately to reflect actual travel distances and/or times, such as for use in identifying one or more points of interest that are sufficiently proximate to an indicated location (e.g., a current location of a user), and/or to determine actual travel distances and/or times between two or more indicated locations of interest. The location-based information determination may in some situations be performed in a realtime or near-realtime manner after a request is received from a user, such as to interactively provide results to the user that include or are based at least in part on the determined location-based information.
Abstract: The present invention provides a scheme for determining an abnormality of an intake air system with higher accuracy in an engine an intake air amount is controlled by adjusting a lift amount of an intake valve. A throttle opening area is determined based on a current intake air amount. A feedback correction is performed on the throttle opening area. The feedback correction includes determining a correction amount of the throttle opening area such that the gauge pressure inside the intake manifold converges to a desired gauge pressure and then adding the correction amount to the throttle opening area. A feedback control is performed on an air-fuel ratio. The feedback control includes determining a correction amount of the air-fuel ratio based on a detection value of an air-fuel ratio detecting means provided in an exhaust manifold.
Abstract: Systems, methods, and programs create a road map data structure, the data structure including road network data in which a road is represented by a plurality of links connected in a link string. The systems, methods, and programs assign a link ID to each of the links of the road network data. For each link, the link ID has a numerical range set in accordance with both a length of the link and a road attribute, and the link ID is set sequentially in a connection order within the link string.
Abstract: A method of influencing an automated transmission of a motor vehicle having a tractional resistance detection unit, the method comprising the steps of reading data, via the tractional resistance detection unit, containing at least information about a torque of a drivetrain, a rotational speed of the drive train, and an acceleration of the vehicle, determining the external tractional resistance of the vehicle based upon the read data, and influencing the shift program by at least one of activation, adaptation and variation of the shift program, on a basis one of an actual and a statistically prepared data about the external tractional resistance of the vehicle.
Type:
Grant
Filed:
September 30, 2006
Date of Patent:
May 17, 2011
Assignee:
ZF Friedrichshafen AG
Inventors:
Markus Eisele, Harry Nolzen, Jürgen Blaser, Harm Adams
Abstract: Methods and apparatuses for displaying and receiving tactical and strategic flight guidance information are disclosed. A method in accordance with one aspect of the invention includes displaying at least one first indicator to an operator of the aircraft, with a first indicator corresponding to a first instruction input by the operator for directing a first aircraft behavior and implemented upon receiving an activation instruction from the operator. At least one second indicator corresponding to a second instruction for directing a second aircraft behavior at least proximately the same as the first aircraft behavior is displayed, with the at least one second instruction to be automatically implemented at a future time. The at least one second indicator is at least approximately the same as the at least one first indicator. Indicators can be hierarchically organized to simplify presentation and reduce pilot training time.
Type:
Grant
Filed:
June 28, 2010
Date of Patent:
May 17, 2011
Assignee:
The Boeing Company
Inventors:
Daniel J. Boorman, John C. Griffin, III, Peter D. Gunn, Randall J. Mumaw
Abstract: A method of actuating an automatic parking brake for a vehicle, comprising a spring device, designed to absorb the actuating forces, situated in the actuating mechanism of a brake device. This method comprises at least the following steps: application of a preload to the spring device to a value situated in part IV of the operating characteristic, and adjustment of this preload to a level corresponding at least to a minimum braking force required for the vehicle.
Abstract: An improved system for delivering propane or other consumable liquid to remotely located storage tanks including a novel combination of remote monitoring of customer tanks and an improved method of using the remote monitoring data to optimally schedule deliveries, improve safety, and more efficiently operate a propane dealership. More accurate and timely information concerning the status of customer tanks serves to improve operational efficiencies and increase safety. Data received from remote sensors can be collected and organized so that it is easily understood and utilized through the implementation of a user interface accessible via the Internet that allows the information to be presented in an efficient graphical and contextual fashion. Operational efficiencies can also be improved by taking historical propane usage for each tank, weather conditions, and projected fuel usage into account.
Abstract: An improved apparatus and method for monitoring the levels of propane or other consumable liquid in remotely located storage tanks and coordinating delivery of liquid to those tanks, including an improved method of using the remote monitoring data to identify out-of-ordinary conditions at remote tanks, optimally schedule purchases or deliveries, improve safety, and more efficiently operate a propane dealership. More accurate and timely information concerning the status of customer tanks serves to improve operational efficiencies and increase safety. Data received from remote sensors can be collected and organized so that it is easily understood and utilized through the implementation of a user interface accessible via the Internet that allows the information to be presented in an efficient graphical and contextual fashion.
Abstract: A method and device are disclosed for navigation. In at least one embodiment, the method includes determining a route of travel of a vehicle in which the navigation device is located, based upon at least a desired destination and a current location of the vehicle; storing map information including attribute information relating to network area coverage; and determining, based upon at least one of the map information and the attribute information and based upon the route of travel of the vehicle, when network area coverage will permit data information transfer along the route of travel.
Abstract: A method and computer program using airport surveillance data to define common paths taken by vehicles on the airport surface is presented. Position data points for a group of vehicles create separate paths for each of the vehicles in the group. A matrix is created including areas measured between the path of each vehicle in the group and each of the remaining vehicles in the group. A column-wise average for each of the columns in the matrix is calculated, the column having a lowest mean average of all of the columns is determined, and a vector A(J) including the areas and vehicle identifications is created from that column. A difference vector ?A(J) is created having the difference between successive entries in the vector A(J), and subgroups with the group are recursively identified using the values in the difference vector.
Type:
Grant
Filed:
January 24, 2008
Date of Patent:
April 12, 2011
Assignee:
Sensis Corporation
Inventors:
Benjamin S. Levy, David B. Rappaport, Collen J. Knickerbocker
Abstract: A tracking system adapted for use with communicatively coupled traveling host and remote vehicles, includes a locator device configured to determine sets of current position, and trail coordinates for each of the vehicles. The preferred system further includes sensors operable to determine a condition value for each vehicle at each of said set of coordinates, and a controller configured to determine a congruent path between the vehicles, and a congruent path divergence by the host vehicle, and cause the transmission of an alert of the divergence from the host vehicle to the remote vehicle using vehicle-to-vehicle communication.
Type:
Grant
Filed:
May 18, 2006
Date of Patent:
April 5, 2011
Assignee:
GM Global Technology Operations, Inc.
Inventors:
Upali Priyantha Mudalige, William E. Hamilton
Abstract: The present invention is a method and an apparatus for predicting future travel times over a transportation network. In one embodiment, a method for predicting future travel times over a transportation network includes receiving a data point indicating a real-time volume of traffic on the link at a given time and updating a template representative of an observed traffic pattern on the link in accordance with the received data point. A future travel time over the link can then be estimated in accordance with the updated template. Thus, the template is able to adapt to dynamically changing traffic patterns, taking these changing traffic patterns into account when making predictions of future traffic patterns.
Type:
Grant
Filed:
February 27, 2008
Date of Patent:
April 5, 2011
Assignee:
International Business Machines Corporation
Abstract: An activation system for a passenger protection device comprises a pair of communication wires, a central unit for detecting currents flowing in the communication wires, and a satellite unit for varying the currents flowing in the communication wires based on output data of an acceleration detection sensor. The central unit calculates a sum of the detected currents and compares the sum with a first predetermined level to detect the output data of the sensor. The central unit also calculates a difference between the detected currents and compares the difference with a second predetermined level, thereby detecting failure in the communication wires and stopping activation of the passenger protection device.
Abstract: Systems and methods for aircraft guidance using a localizer capture criteria for rectilinear displacement data are disclosed. In one embodiment, the method includes determining a rectilinear deviation D between a current aircraft location and a final defined path (FDP) of an aircraft and determining a location at which the aircraft should begin a reposition maneuver based on the rectilinear deviation D. The method starts a reposition maneuver of the aircraft at a location determined based on a relationship between D and characteristics of the aircraft during the reposition maneuver. In some embodiments, the characteristics of the aircraft may include a velocity of the aircraft with respect to ground, an aircraft track angle, a heading of the FDP of the aircraft, a maximum allowed bank angle of the aircraft during a reposition maneuver, and a time allowance for aircraft rollup and rollout.
Abstract: A device for determining the traffic conditions between measurement locations associated with a roadway is provided. The device includes a processor that is capable of determining when a specified measurement location is passed or traversed and measure data as well as start a time period. If a device is traveling towards another specified measurement location but does not reach the location before the time period expires, a new measurement update may be sent by the device to a server. The information in this update may be utilized by the server to determine that there is a slowdown or blockage in traffic and/or that there is a traffic jam between the measurement locations. The device is capable of receiving a traffic update(s) from the server which may specify traffic conditions between the measurement locations. The traffic conditions may indicate that there is a traffic slowdown/blockage between the measurement locations.
Type:
Grant
Filed:
May 13, 2008
Date of Patent:
March 22, 2011
Assignee:
Nokia Corporation
Inventors:
David William Sutter, Quinn Jacobson, Baik Hoh, Murali Annavaram
Abstract: A disclosed vehicle control system comprises a mobile terminal that transmits a current location of the mobile terminal; a receiving portion that is installed in a vehicle and receives the current location transmitted from the mobile terminal; a vehicle location detecting portion that detects a current location of the vehicle; a controlling portion that controls a vehicle apparatus installed in the vehicle in accordance with a positional relationship between the current position of the mobile terminal received by the receiving portion and the current location of the vehicle detected by the vehicle location detecting portion; and a memory portion that stores behavioral pattern information of a user of the vehicle. The controlling portion controls the vehicle apparatus in accordance with the behavioral pattern information stored in the memory portion and the positional relationship between the current location of the mobile terminal and the current location of the vehicle.
Abstract: A method for operating a navigation system computes a pedestrian route for travel by a pedestrian. A request to calculate the pedestrian route from an origin to a destination and a walking preference for the pedestrian route identifying a feature of the pedestrian route are obtained. A geographic database associated with the navigation system is accessed for data representing at least one pedestrian path. The data representing the pedestrian path includes lighting level attribute information for the pedestrian path. A valid solution pedestrian route from the origin to the destination comprising a series of connected pedestrian paths that support the walking preference is determined.
Type:
Grant
Filed:
April 26, 2010
Date of Patent:
March 22, 2011
Assignee:
Navteq North America, LLC
Inventors:
Steven P. Devries, James M. Herbst, Karen A. Hopkins, Suzanne M. McGrath, Ellen M. Bauer, James R. Bennett, Jason M. Borak
Abstract: An internal combustion engine control apparatus includes: a fuel injector; a cooling fan of a radiator that radiates the heat of coolant in a coolant passage in the internal combustion engine; a flow rate control mechanism that variably controls the flow rate of the coolant; an abnormality detector that detects an abnormality of the cooling fan; and a controller that controls the amount of fuel injected from the fuel injector to the internal combustion engine and the operation of the flow rate control mechanism in accordance with the result of the abnormality detector.
Type:
Grant
Filed:
January 28, 2008
Date of Patent:
March 22, 2011
Assignees:
Toyota Jidosha Kabushiki Kaisha, Denso Corporation