Abstract: A system and method that provides an electronic controller module (ECM) that is bi-directionally communicable with a system monitor via a network to control and test pump components. Communication between the ECM and the system monitor may include receiving an operate command, receiving a report command, transmitting status, testing the pump components, monitoring sensors, and otherwise controlling the ECM via the system monitor. The ECM may communicate via the Internet, which may be facilitated by a router. The system monitor may provide advanced analytics, monitoring, maintenance, and reporting. The pump components may include one or more primary pumps and a backup pump, which may be battery operated. The sensor may include a float and sensor for a motor of the pump. The motor may be located in a sump. The ECM may perform timed tests.

Abstract: A rental vehicle has features that can be activated or deactivated wirelessly. Additional features can be purchased and activated after a customer has paid for an initial set of features and started to use the vehicle. Configuration of the vehicle is automated by transmitting a configuration message to the vehicle.

Abstract: A method includes receiving and storing sensor data including a first plurality of data points indicative of a plurality of respective states of the environment external to a vehicle at a plurality of respective times, operational data including a second plurality of data points indicative of a plurality of respective states of an operational parameter of the vehicle at a plurality of respective times, and synchronization data. The method also includes generating a virtual model of an event involving the vehicle using the stored data, at least by generating a first visual representation of the plurality of respective states of the external environment, generating a second visual representation of the plurality of respective states of the operational parameter, and using the synchronization data to cause the first visual representation to be displayed simultaneously with, and in a time-aligned manner with, the second visual representation.

Abstract: Systems and methods are directed to monitoring and assessing driver behavior. A system comprises an interface configured to receive vehicle data acquired by a computer system of a vehicle, a wireless transceiver configured to effect communications with a central office via one or more networks, a display, memory configured to store scoring algorithms, and a processor. The processor is configured to receive at least some of the vehicle data, and generate, in substantially real-time and independently from the central office, a plurality of scores for a plurality of scoring parameters using the stored scoring algorithms and the received vehicle data. The processor is also configured to update, in substantially real-time and independently from the central office, the plurality of scores during a predetermined period of time, and cooperate with the display to present the plurality of scores on the display during the predetermined period of time.

Abstract: An image processing device includes a candidate point extracting unit configured to extract a plurality of candidate points belonging to a predetermined structure from image data, a shape model storing unit configured to store a shape model representing a known shape of the predetermined structure, the shape model being formed by a plurality of model labels having a predetermined connection relationship, and a corresponding point selecting unit configured to select a mapping relationship between the candidate points and the model labels from a set of candidate mapping relationships.

Abstract: The invention includes methods and devices for an improved onboard vehicle diagnostic system. The methods and devices provide for more detailed information and presentation of diagnostic and vehicle performance data for a user. In one example, real time diagnostic and trip system performance data is gathered and displayed relative to time for improved understanding of vehicle performance and operation by a user.

Abstract: The disclosure is generally directed to methods, systems and apparatuses for multi-directional still pictures and/or multi-directional motion pictures and their applications on mobile, embedded, and other computing devices and applications.

Abstract: A method for allocation of network resources in an operations network for a selected environment includes, among other things, a plurality of applications communicating over a network having a bandwidth capacity and a plurality of modes including at least a first mode and a second mode.

Abstract: A method and system where a plurality of ECU is rapidly executed while avoiding deadlock by performing conservative event synchronization. The simulation system is provided with 4 layers, namely a processor emulator which is an ECU emulator, a plant simulator, a external peripheral scheduler, and a mutual peripheral scheduler. The external peripheral scheduler performs advanced execution of the plant simulator only during processor emulator reaction delay time (or the time until the next event). The notification to perform advanced execution of the plant simulator is provided until the actual plant simulator stop time. The mutual peripheral scheduler provides notification to the processor emulator to perform advanced execution only during communication delay timing between processor emulators (or the time until the next event). The processor emulator conservatively processes until the earliest time of the notification times.

Abstract: A method for replacing the address of some bad bytes (bad columns) of the data area and the spare area to the good address of bytes (good columns) in non-volatile storage system is disclosed. The steps of the method are: waiting for a command from a host; judging if there is still some data to be processed; if no, go back to the previous step; if yes, go to next step; judging if a bad column is used; if no, process data access and go back to the step of judging if there is still some data to be processed; and if yes, process data accessing as original operation and increase the address by one.

Abstract: An event recorder includes an outer case, and a first memory module including a first amount of data storage capacity contained within the outer case. The first memory module is configured to receive and store multiple types of data including at least two of: video data; audio data; locomotive data indicative of one or more locomotive operating parameters, locomotive control signals, and locomotive performance characteristics; engine operating parameter data; exhaust characteristics data; electrical data; and positive train control data. A controller contained within the outer case may be configured to associate a universal time stamp with each of the multiple types of data stored in the first memory module. An inner, crash-hardened case may be contained within the outer case, containing a second memory module including a second amount of data storage capacity that is smaller than the first amount.

Abstract: Mobile network services for a vehicle are provided via a computer processing device, and a digital communications module executable by the computer processing device. The digital communications module identifies a content channel selection for content presented on a device in the vehicle, continuously receives information indicating a location of the vehicle, and monitors signal strength of the content as the vehicle moves among location. Upon determining a threshold signal strength is reached, the digital communications module determines an action to be taken, and performs the action.

Abstract: Disclosed herein is a method for preventing a loss of trip data of a vehicle during a substantial instantaneous voltage drop in a vehicle cluster. In the method, the trip data calculated by a processor of a trip computer are stored in a clear region of a memory and the trip data stored in the clear region are backed up in a nonvolatile region of the memory when new trip data is generated. The processor collects the trip data backed up in the nonvolatile region to rewrite the trip data in the clear region after a substantially instantaneous voltage drop occurs.

Abstract: Systems and methods for verifying that the flight crew has not made an error in entering takeoff flight performance data into the flight management system (FMS) using the electronic flight bag (EFB). The EFB includes a user interface that receives basic flight plan information and a processor. The processor automatically receives calculated takeoff performance data based on a previously entered basic flight plan, automatically receives user-entered takeoff performance data from a flight management system (FMS) located on a host aircraft, automatically compares the calculated takeoff performance data to the received takeoff performance data, and generates an entry error indication, if the comparison indicates that at least a portion of the entered takeoff performance data does not match the calculated takeoff performance data. An output device outputs the generated entry error indication.

Abstract: For a method for testing a vehicle or components thereof which is as flexible as possible, it is proposed that a test control unit 3 generates or plays back a virtual world which contains both a virtual vehicle state and a virtual vehicle environment, and the test control unit 3 manipulates a number of sensors and/or actuators of the real vehicle 1 according to the requirements of the virtual world and, at the same time, activates a driving state actuator 2 according to the requirements of the virtual world, and the driving state actuator 2 generates the instantaneous vehicle state and the instantaneous vehicle environment in the virtual world by introducing additional forces or moments into the real vehicle 1 so that the real vehicle 1 experiences the vehicle state and the vehicle environment from the virtual world on the real test track 4.

Abstract: Data during normal driving is generated using travel data during the occurrence of a failure or the like, the travel data being accumulated into ordinary vehicles traveling in a city or other places on a daily basis. A failure diagnosis of a vehicle is performed by comparing a reference value with the time sequence electronic control unit (ECU) data of a plurality of driving parameters during the occurrence of a failure, the data being stored into a storage device in the ECU of the vehicle when a failure of the vehicle has occurred. The time sequence ECU data obtained from a large number of vehicles are sequentially accumulated and stored and the numerical vectors of the accumulated time sequence ECU data are generated. The numerical vectors are clustered and classified into a plurality of clusters according to the characteristics. In each of the plurality of clusters, a range of high occurrence rate values is obtained for the values of the respective driving parameters.

Abstract: A method, apparatus, and computer program product for identifying parts in a vehicle. Signals are received from a plurality of transponders associated with the parts in the vehicle. Locations of the parts are identified based on signal strengths for the signals received from the plurality of transponders and an identification of the parts in the signals.

Abstract: A hybrid construction machine includes a hydraulic apparatus having a pump; a regeneration apparatus configured to generate power using energy discharged from the hydraulic apparatus; a nonvolatile memory configured to store condition information indicating whether a condition of at least one of the hydraulic apparatus and the regeneration apparatus is normal or abnormal; a detection unit that detects the condition; a condition determination unit that generates condition information indicating whether the detected condition is normal or abnormal; an information comparison unit that compares the condition information generated by the condition determination unit with the condition information stored in the nonvolatile memory to determine whether or not content thereof is identical; and an updating unit that writes the condition information generated by the condition determination unit to the nonvolatile memory when a comparison result from the information comparison unit indicates that the content is different

Abstract: A method is provided for detecting use of unauthorized software in an engine control unit provided in a vehicle. The method includes calculating a Checksum Verification Number (CVN) each time the engine is started, comparing a last calculated CVN with a last stored CVN in a list of a plurality of CVN entries, storing the last calculated CVN if the last calculated CVN is different to the last stored CVN together with a date of an entry in the list of CVN and/or the current odometer status, removing entries in the list of CVN according to FIFO principle when the list of CVN is full, and presenting this upon request from an on-board or off-board tool.

Abstract: A data acquisition device for a vehicle includes a first body and a second body. A first body includes a first casing, an antenna member, and two cushion pads. A terminal of the first casing forms a recession and two lateral walls of the recession have two pivot members. The antenna member is disposed in the first casing. The two cushion pads are respectively located on the two lateral walls of the recession and circumferentially disposed around the two pivot members. Each of the cushion pads has a core hole and the pivot members are respectively passing through the core holes. The second body includes a second casing and a process device. A terminal of the second casing has a plug part, and the second casing respectively have two pivot holes pivoted on the two pivot members. The processing device is disposed in the second casing.

Abstract: A plurality of wireless engine sensors each sense an engine parameter as engine data and transmits wirelessly the engine data regarding the sensed engine parameters and receives data regarding a sampling rate. An engine monitoring module is mounted at the aircraft engine and a wireless sensor transceiver is configured to receive the engine data regarding sensed engine parameters from the wireless engine sensors. A first wireless transmitter is carried by the housing. A memory is carried by the housing. A processor is coupled to the memory, sensor transceiver and the first wireless transmitter and collects and stores in the memory engine data relating to engine parameters and transmits the engine data via the first wireless transmitter.

Abstract: A system for detecting a mass tamper event affecting a vehicle mass record for a vehicle being monitored includes a body bounce frequency estimator configured to estimate body bounce frequency for the vehicle and a mass estimator configured to estimate a vehicle mass, m, according to the equation (I), where k is a constant relating to a suspension system in the vehicle and ?b is the estimated body bounce frequency. A first comparator compares the estimated vehicle mass value with an alternative vehicle mass value and identifies a mass tamper event when the estimated vehicle mass value differs from the alternative vehicle mass value by more than a pre-determined amount. An interface communicates mass tamper event data to a remote device. A system and method for recording vehicle mass data are also provided.

Abstract: A method includes receiving and storing sensor data including a first plurality of data points indicative of a plurality of respective states of the environment external to a vehicle at a plurality of respective times, operational data including a second plurality of data points indicative of a plurality of respective states of an operational parameter of the vehicle at a plurality of respective times, and synchronization data. The method also includes generating an animated re-creation of an event involving the vehicle using the stored data, and causing the animated re-creation of the event to be displayed.

Abstract: A shovel management apparatus includes a temporary storing part and an abnormality information storing part. The temporary storing part temporarily stores detection information containing an operation input amount detected by an input amount detecting part of a shovel and physical amounts detected by a plurality of sensors in the shovel. The abnormality information storing part stores abnormality information. A controller performs an abnormality determination based on the detection information. The controller transfers, when an occurrence of an abnormality is determined at a first time, the detection information as the abnormality information, which is stored in a time period from a second time earlier than the first time to at least the first time, from the temporary storing part to the abnormality information storing part.

Abstract: Systems and methods are directed to monitoring and assessing driver behavior. A system comprises an interface configured to receive vehicle data acquired by a computer system of a vehicle, a wireless transceiver configured to effect communications with a central office via one or more networks, a display, memory configured to store scoring algorithms, and a processor. The processor is configured to receive at least some of the vehicle data, and generate, in substantially real-time and independently from the central office, a plurality of scores for a plurality of scoring parameters using the stored scoring algorithms and the received vehicle data. The processor is also configured to update, in substantially real-time and independently from the central office, the plurality of scores during a predetermined period of time, and cooperate with the display to present the plurality of scores on the display during the predetermined period of time.

Abstract: A method includes receiving and storing sensor data including a first plurality of data points indicative of a plurality of respective states of the environment external to a vehicle at a plurality of respective times, operational data including a second plurality of data points indicative of a plurality of respective states of an operational parameter of the vehicle at a plurality of respective times, and synchronization data. The method also includes generating a virtual model of an event involving the vehicle using the stored data, at least by generating a first visual representation of the plurality of respective states of the external environment, generating a second visual representation of the plurality of respective states of the operational parameter, and using the synchronization data to cause the first visual representation to be displayed simultaneously with, and in a time-aligned manner with, the second visual representation.

Abstract: The technology disclosed relates to testing of connected vehicle systems. The connections involved are sometimes referred to as Car-2-Car (C2C), Vehicle-to-Vehicle (V2V), Car-2-Infrastructure (C2I), or Vehicle-to-Infrastructure (V2I). More generically, the connections are referred to as C2X and V2X. The technology disclosed provides an over the wire simulation of signals that a system will receive in operation, which allows testing of algorithms, breadboards, prototypes and complete systems. The system simulates the position of multiple on board units as the move with the vehicles that carry them. It attenuates signals between the OBUs and can attenuate signals among the OBUs and other test components, including roadside units and synthetic OBUs. The simulation is can be practiced as a method, a device, or computer readable medium that causes a device to practice the method or that, when combined with appropriate hardware, produces the device.

Abstract: The present invention relates to a method for detecting the performance of the aircraft comprising: collecting data reflecting operation status of the aircraft; generating the customized message based on the collected data, wherein, the customized message is configured to include one or more main parameters related to the operation status of the aircraft; storing or transmitting the customized message; and detecting the performance of the aircraft based on the customized message.

Abstract: Systems and methods for monitoring health of one or more subsystems of a vehicle system are disclosed. At least one sensor can be operatively coupled to a vehicle subsystem having an operational signature and a control system is coupled to the at least one sensor. Using information provided by the at least one sensor, the control system is structured to generate a reference signature of the subsystem during a learning phase and an operational signature of the subsystem subsequent to the learning phase. Systems and methods for identifying the particular subsystem exhibiting degraded performance are also disclosed.

Abstract: A method and apparatus are provided that allow an off-the-shelf USB flash memory device to be used with a scan tool. The USB flash memory device can have a different operating system then the proprietary operating system of the scan tool. The method and apparatus allows the scan tool to read from and write on the USB flash memory device regardless of the formatted operating system on the device.

Abstract: A device for road and urban mobility and for solving the problem of traffic congestion, installed on a vehicle in order to make traffic flow more fluid in and between cities. The device consists of a set of five electronic modules, including a processor. The processor analyzes and extracts positional data of the equipped vehicle from a satellite signal and sends the requests of same for an exchange with a server, bi-directionally. The device is incorporated into an onboard housing. The present device is intended, in particular, to make the traffic flow more fluid and to communicate with a dedicated server in order to guide the driver of the equipped vehicle during his/her journey from a start point to the point entered into the device as the desired final destination. The present device reduces traffic congestion and pollution caused by greenhouse gas emissions.

Abstract: A driving information restoration system of a vehicle includes: a cluster configured to be operated in a receiving standby mode or transmit driving information stored therein to a diagnosis system depending on a comparison result of the driving information stored therein and driving information stored in controller, display hot key information received from the diagnosis system, transmit information input by a driver to the diagnosis system, and store the driving information received from the diagnosis system.

Abstract: A controller for predicting cruising speeds of a vehicle includes a processor and an extracting unit to extract feature data from segments of a prior trajectory of the vehicle, the feature data including cruising speeds of the vehicle and predictive feature data. The controller also includes a model generator to generate a probabilistic model associating the predictive feature data with the cruising speeds of the vehicle and a predicting unit to predict a cruising speed of the vehicle for a target segment, which is an upcoming cruising segment of the vehicle, by conditioning the probabilistic model on real-time predictive feature data of segments of a current trajectory.

Abstract: A system and method for assisting flight crew recovery in the aftermath of an unexpected event is provided. A processor is used to detect that an unexpected event has occurred in an aircraft and, in response to detecting that the unexpected event has occurred, state data are stored in memory. The processor is also used to detect that the unexpected event has been resolved and, in response to detecting that the unexpected event has been resolved, the processor retrieves the state data from the memory, generates an aftermath plan that includes prompts to guide the flight crew to complete the aftermath plan, and continuously updates the aftermath plan until the aftermath plan is completed.

Abstract: A VIN storage electronic control unit stores a vehicle identification number (VIN). A standby RAM that holds data constantly with an electric power supplied by a battery stores failure diagnosis related information and a rewriting history flag. When the VIN storage electronic control unit rewrites the VIN upon receiving a request signal for rewriting the VIN, the standby RAM updates the rewriting history flag so as to switch into a set status indicating the rewriting is made. When receiving a request signal for eliminating the failure diagnosis related information, the failure diagnosis related information stored in the standby RAM is reset and the rewriting history flag is switched into a reset status. In addition, while the rewriting history flag is in the set status, a malfunction indicator lamp is turned on.

Abstract: A network of collection, charging and distribution machines collects, charges and distributes portable electrical energy storage devices (e.g., batteries, supercapacitors or ultracapacitors). Vehicle diagnostic data of a vehicle using the portable electrical energy storage device is stored on a diagnostic data storage system of the portable electrical energy storage device during use of a respective portable electrical energy storage device by a respective vehicle. Once the user places the portable electrical energy storage device in the collection, charging and distribution machine, or comes within wireless communications range of a collection, charging and distribution machine, a connection is established between the collection, charging and distribution machine and the portable electrical energy storage device.

Abstract: Vehicle event recorders are arranged with integrated web servers to provide a simple user interface and control mechanism which may be address with commonly available hardware and software. A vehicle event recorder of these inventions couples to a network having a workstation node. The workstation having either of the many available web browsers can be used to view, address, control, perform data transfer, et cetera, by way of data exchange in accordance with simple IP protocols. A vehicle equipped with these systems returns to a household to make a network connection. A local server is used to see all exposed system controls as provided by predefined web pages provided by a web server integrated as part of the vehicle event recorder unit.

Abstract: Vehicle operator performance history recording and reporting systems include devices and methods of automatically collecting and processing vehicle crash or event data over time to form a driver history report. A driver history report may include many factors to express performance or quality of driver service, and these may be reduced to a single value normalized expression in view of a collection of many drivers. Vehicle event recorders are arranged to capture data relating to a particular event. These vehicle event recorders are further coupled to systems which form an association between collected data and the vehicle operator in command of the vehicle at the event moment. Systems provide means for long-term storage of data particularly data in a structure which preserves the association between a driver and event records attributed to him/her.

Abstract: A system includes a grade estimation module that receives an accelerometer value and generates a grade estimate based on the accelerometer value, wherein the accelerometer value corresponds to acceleration of a vehicle and the grade estimate corresponds to a grade of the vehicle. A mass estimation module receives the accelerometer value and generates a mass estimate based on the accelerometer value, wherein the mass estimate corresponds to a mass of the vehicle. A shift control module at least one of selects and adjusts one of a plurality of shift schedules based on at least one of the grade estimate and the mass estimate and controls a transmission of the vehicle based on the one of the plurality of shift schedules.

Abstract: A method of predicting a horizontal stabilizer system fault in an aircraft, where the method includes receiving data relevant to a characteristic of the pitch of the aircraft during flight, comparing the received data to a reference pitch characteristic, predicting a fault in the horizontal stabilizer system based on the comparison, and providing an indication of the predicted fault.

Abstract: Auto-location systems and methods of tire pressure monitoring sensor units arranged with a wheel of a vehicle detect a predetermined time (T1) when a wheel phase angle reaches angle of interest using a rim mounted or a tire mounted sensor. The systems and methods transmit a radio frequency message associated with a wheel phase angle indication. The wheel phase angle indication triggers wheel phase and/or speed data such as ABS data at the predetermined time (T1) to be stored. A correlation algorithm is executed to identify the specific location of a wheel based on the wheel phase and/or speed data at the predetermined time (T1). TPM sensor parameters from a tire pressure monitoring sensor unit are assigned to the specific location of the wheel based on a confidence interval width analysis of the ABS data at the predetermined (T1).

Abstract: Digital recording and replay system for an aircraft, comprising a Mission Computer with an Operational Flight Program for generating instrument data for onboard instruments of the aircraft; a Mission Data Recorder connected to said Mission Computer for recording said instrument data; and a Mission Debriefing System; wherein the Mission Debriefing System is configured to reproduce the onboard instruments of the aircraft based on instrument data retrieved from the Mission Data Recorder. Method for reproduction of onboard instrumentation of an aircraft, comprising the steps of connecting a Mission Data Recorder to a Mission Computer of an aircraft having an Operational Flight Program for generating instrument data for onboard instruments; recording instrument data; providing a Mission Debrief System and causing it to reproduce the onboard instruments of the aircraft based on instrument data retrieved from the Mission Data Recorder.

Abstract: A method for assessment of driver behaviour during driving by continuously characterizing (S1) the driver's braking processes by determining (S2) the cause of a chosen braking process such as a camera view, map and location data, evasive maneuvers, ambient conditions, road conditions, and assessing (S3) whether the chosen braking process is the appropriate response. Also a system for assessment of driver behaviour during driving, a motor vehicle with the system and a computer program for performing the process.

Abstract: A method and system for diagnosing a vehicle using a learning value includes performing user authentication in response to an authentication request of a telematics terminal. The learning value is received from the telematics terminal and stored in a database. A set reference range is compared with the learning value stored in the database. It is determined whether the control system operates normally according to the comparison result, and a vehicle diagnosis result is stored in the database.

Abstract: A fuel tank venting system for a motor vehicle includes an outlet side of a tank venting valve connected to an inlet side of a first vent line and to an inlet side of a second vent line. An outlet side of the first vent line is connected to an intake manifold upstream from a throttle valve and downstream from an air filter, and an outlet side of the second vent line is connected to the intake manifold downstream from the throttle valve. The first check valve has a first position sensor and the first closing element has a detectable element. The first position sensor is connected to an electronic control device to transmit signals. A position of the first closing element may be determined by means of the position sensor and the detectable element.

Abstract: For creating an image database for an image evaluation procedure, preferably within an agricultural content, the individual images in the image database are generated during the working process of an agricultural working machine by at least one camera system assigned to the agricultural working machine, and the individual images generated by the at least one camera system are linked to specific data on the working process of the agricultural working machine, and every individual image, which is linked to specific data, is stored in the image database in a manner such that it may be repeatedly called up and edited.

Abstract: A diagnostic tool for a vehicle, includes a signal translator communicating with the vehicle in at least one protocol, an input device for inputting information, a processor controlling a software according to the input information from the input device and communication with the vehicle from the signal translator, the processor controlling a reception of diagnostic data of the vehicle through the signal translator, the processor receiving a selected information of a user and configuration of the diagnostic tool through the input device and correlating the configuration information with the user information, the processor processing the received diagnostic data according to the selected configuration information corresponding to the selected user by the input unit, a memory storing a software controlled by the processor, the memory storing the configuration information according to the corresponding user information, and a display unit receiving and displaying diagnostic information according to the selected

Abstract: A method, implemented in an electronic processing system that includes a memory and one or more processors, includes receiving, at the electronic processing system, sensor data representing information collected by a first sensor (i) located on or in a first vehicle and (ii) configured to sense an environment external to the first vehicle. The method also includes storing the received sensor data in the memory, and generating, via the one or more processors and using the stored sensor data, a virtual model of an event involving at least one vehicle.

Abstract: A method for remotely monitoring and gathering information about a plurality of vehicles, including the steps of accessing the plurality of vehicles wherein each vehicle is individually operated, selecting vehicle data from the plurality of vehicles, communicating the vehicle data from the plurality of vehicles to a remote processor, and processing the plurality of vehicle data into population data by the remote processor. The individual operation of each vehicle preferably includes the steps of generating vehicle data, operating the vehicle based on the vehicle data with a vehicle controller, and storing the vehicle data in a database located on the vehicle.

Abstract: A computer in a vehicle is programmed to, during operation of the vehicle, identify data from one or more data collectors related to at least one stability event of the vehicle; determine a mitigation factor related to each at least one event; and determine a driving score for a driver of the vehicle based at least in part on the data related to the at least one stability event and the mitigation factor related to each at least one event.