Abstract: Documents related to delivery of loads shipped by trucking operators can be scanned or otherwise captured using mobile computing devices having document capture and/or document delivery functionality. Load related data can be manually input by drivers during the capture process. Such data can be incorporated into the scanned document as metadata. The concepts disclosed herein encompass establishing a logical connection between the mobile computing device implementing the document capture functionality and a vehicle ECU or vehicle data bus. The document capture application is configured to extract data form the vehicle ECU or vehicle data base and incorporate that data into the document captured. Data, such as location data, can be similarly captured by establish a logical connection with a telematics device including a GPS component. Where the telematics device includes a wireless data link, the capture document can be wirelessly conveyed to a remote data center.

Abstract: A fuel authorization program based on equipping fuel station, fuel pumps, and vehicles with components to enable automatic fuel authorization for enrolled vehicles. The program includes fuel pumps including a pump transmitting sensor that automatically emits a pump ID. As a vehicle pulls in next to the pump a vehicle coupling receiving sensor detects the pump ID signal and a proximity link is created. The vehicle sensor passes the pump ID via hardwire or Bluetooth to vehicle fuel authorization processor (which can be part of a telematics device). The vehicle processor transmits the pump ID (and any fuel authorization credentials needed, such as a PIN or VIN) via WI-FI to a Station processor for fuel vendor authorization. If approved, the pump is enabled. As the vehicle moves away the coupling sensor link is broken and the vehicle transmits a “disconnect” message via Wi-Fi and the pump is disabled.

Abstract: A fuel authorization program based on equipping fuel station, fuel pumps, and vehicles with components to enable automatic fuel authorization for enrolled vehicles. The program includes fuel pumps including a pump transmitting sensor that automatically emits a pump ID. As a vehicle pulls in next to the pump a vehicle coupling receiving sensor detects the pump ID signal and a proximity link is created. The vehicle sensor passes the pump ID via hardwire or Bluetooth to vehicle fuel authorization processor (which can be part of a telematics device). The vehicle processor transmits the pump ID (and any fuel authorization credentials needed, such as a PIN or VIN) via WI-FI to a Station processor for fuel vendor authorization. If approved, the pump is enabled. As the vehicle moves away the coupling sensor link is broken and the vehicle transmits a “disconnect” message via Wi-Fi and the pump is disabled.

Abstract: Position data received wirelessly from a vehicle enrolled in an inspection waiver program are employed to determine when the enrolled vehicle is approaching an inspection station. After determining that the enrolled vehicle is approaching an inspection station, and if the enrolled vehicle has a valid inspection waiver, a bypass confirmation can selectively be provided to the vehicle operator, authorizing the operator to bypass the inspection station. The task of determining when an enrolled vehicle is approaching the location of an inspection station can be performed using a processor disposed in the vehicle, or at a remote location separate from both the vehicle and the inspection station, or at the inspection station. The inspection stations can be mobile so that their locations are varied to prevent operators from intentionally avoiding an inspection, as may occur with fixed inspection stations.

Abstract: A system prevents vehicle failures on public roadways. The system receives performance data from a plurality of vehicles, which includes episodic event data and periodic operational data collected on-board each respective vehicle. Based on the episodic event data, a first specific fault condition or a first developing fault condition is automatically determined. Based on an accumulation over time of the received periodic operational data, a second specific fault condition or a second developing fault condition is automatically determined. The system generates a service recommendation for the specific vehicle from the determined specific or developing fault condition, and upon generating the service recommendation, the system selects a plurality of pre-qualified vehicle service vendors.

Abstract: A fuel authorization system enables data to be exchanged between vehicles and a fuel vendor, to verify that the vehicle is authorized to receive fuel. Each fuel island is equipped with a camera and a short range radio (RF) component. Participating vehicles are equipped with fuel authorization component including an IR transmitter and a RF component that can establish a data link with the fuel island's RF unit. When the camera senses a vehicle in the fuel lane, an RF query is sent to the vehicle. Participating vehicles respond with an IR transmission. An RF data link is then established between the enrolled vehicle and the fuel vendor to verify that the vehicle is authorized to receive fuel. Once the verification is complete, the fuel dispenser is enabled. In some embodiments, the IR data link is not required, as the camera can distinguish between multiple fuel lanes.

Abstract: Documents related to delivery of loads shipped by trucking operators can be scanned or otherwise captured using mobile computing devices having document capture and/or document delivery functionality. Load related data can be manually input by drivers during the capture process. Such data can be incorporated into the scanned document as metadata. The concepts disclosed herein encompass establishing a logical connection between the mobile computing device implementing the document capture functionality and a vehicle ECU or vehicle data bus. The document capture application is configured to extract data from the vehicle ECU or vehicle data bus and incorporate that data into the document captured. Data, such as location data, can be similarly captured to establish a logical connection with a telematics device including a GPS component. Where the telematics device includes a wireless data link, the capture document can be wirelessly conveyed to a remote data center.

Abstract: Data is collected during the operation of a vehicle and used to produce a ranking of a driver's performance, and that ranking is shared on a hosted website, such that the drivers can compare their performance metrics to their peers. Fleet operators can use these performance metrics as incentives, by linking driver pay with performance. Individual fleet operators can host their own website, where driver rankings in that fleet can be compared, or the website can be hosted by a third party, and multiple fleet operators participate. The third party can offset their costs for operating the website by charging participating fleet operators a fee, and/or by advertising revenue. In some embodiments, all driver performance data is displayed in an anonymous format, so that individual drivers cannot be identified unless the driver shares their user ID.

Abstract: A method of providing visual feedback to a driver based on data collected during vehicle operation. A processor at the vehicle analyzes vehicle data, and determines when predetermined threshold values have been reached for particular parameters. Whenever such a threshold is reached, an audible indication is provided to the driver, indicating that the baseline has been exceeded. Certain parameters have at least two threshold values. When a first threshold value is reached, an alert is presented to the driver, but no data is recorded or reported. When a second threshold value is reached, another alert is presented to the driver, and data is recorded for reporting to a driver manager or supervisor. This approach provides a driver warning, that if they correct the triggering behavior, their supervisor is never notified of that behavior. However, if the behavior escalates, and the second threshold is breached, the behavior is recorded.

Abstract: Position data received wirelessly from a vehicle enrolled in an inspection waiver program are employed to determine when the enrolled vehicle is approaching an inspection station. After determining that the enrolled vehicle is approaching an inspection station, and if the enrolled vehicle has a valid inspection waiver, a bypass confirmation can selectively be provided to the vehicle operator, authorizing the operator to bypass the inspection station. The task of determining when an enrolled vehicle is approaching the location of an inspection station can be performed using a processor disposed in the vehicle, or at a remote location separate from both the vehicle and the inspection station, or at the inspection station. The inspection stations can be mobile so that their locations are varied to prevent operators from intentionally avoiding an inspection, as may occur with fixed inspection stations.

Abstract: System and method for collecting object identification data from a plurality of objects that interact with a vehicle during operation of the vehicle, where the vehicle interacts with specific objects at specific geographical positions. An identification sensor is coupled to a geographical position sensor, and whenever an object is identified a record is generated, the record including the identification of the object, the position of the vehicle when the interaction between the object and the vehicle occurs, and the time of the interaction. Exemplary objects include passengers, containers, and documents. Exemplary interactions include loading/unloading an object from the vehicle, boarding a passenger, unloading a passenger, transferring a bulk material from the vehicle into a specific container, and/or transferring a bulk material from a specific container to the vehicle. The record may also include additional data about a parameter of the object (such as the object's weight, volume, or temperature).

Abstract: Operational data generated and used in a vehicle to control various vehicular systems is temporarily stored in a data buffer in the vehicle. A processor in the vehicle is configured to detect anomalous conditions, which can be based on predefined fault codes or user defined conditions (based on a single parameter or a combination of parameters). Whenever such an anomaly is detected, a diagnostic log is conveyed from the vehicle to a remote location. Such a log will include the detected anomaly, and buffered operational data. In at least one embodiment, the diagnostic log includes buffered operational data collected both before and after the anomaly. The diagnostic log is analyzed at the remote location to diagnose the cause of the anomalous condition, so a decision can be made as to whether the vehicle requires immediate repair, or whether the repair can be scheduled at a later time.

Abstract: A non-transitory memory medium having machine instructions stored thereon for remotely monitoring vehicle performance data, generating a driver performance ranking based on the vehicle performance data, and generating a webpage for displaying the driver performance ranking. Further, the machine instructions, when implemented by a processor, carry out the functions of analyzing the vehicle performance data to generate a driver performance ranking; and automatically generating a webpage for displaying the driver performance ranking on a driver performance ranking website.

Abstract: Vehicle data is collected during the operation of a vehicle is used to assess various aspects of driver performance and originate a performance ranking. A performance improvement tip is displayed on a website to assist the driver in improving his performance. In preferred embodiments the performance ranking for the driver is displayed. In preferred embodiments, the tip informs the driver of the degree an aspect of his driving performance decreased his ranking relative to other drivers. In a preferred embodiment, information regarding the driver's performance with respect to one or more time period-specific campaigns is displayed.

Abstract: A method of reporting a performance of a driver of a fleet vehicle that includes, while operating the fleet vehicle, automatically collecting vehicle data that can be used to evaluate the driver's performance and enabling a specific driver to be associated with the vehicle data and using a computing device to analyze the vehicle data to calculate a driver efficiency performance ranking. The driver efficiency performance ranking is displayed on a driver efficiency performance ranking website, where the display includes information about a performance bonus the driver is eligible for by meeting a specified performance ranking.

Abstract: Operational data generated and used in a vehicle to control various vehicular systems is temporarily stored in a data buffer in the vehicle. A processor in the vehicle is configured to detect anomalous conditions, which can be based on predefined fault codes or user defined conditions (based on a single parameter or a combination of parameters). Whenever such an anomaly is detected, a diagnostic log is conveyed from the vehicle to a remote location. Such a log will include the detected anomaly, and buffered operational data. In at least one embodiment, the diagnostic log includes buffered operational data collected both before and after the anomaly. The diagnostic log is analyzed at the remote location to diagnose the cause of the anomalous condition, so a decision can be made as to whether the vehicle requires immediate repair, or whether the repair can be scheduled at a later time.

Abstract: Operational data generated and used in a vehicle to control various vehicular systems is temporarily stored in a data buffer in the vehicle. A processor in the vehicle is configured to detect anomalous conditions, which can be based on predefined fault codes or user defined conditions (based on a single parameter or a combination of parameters). Whenever such an anomaly is detected, a diagnostic log is conveyed from the vehicle to a remote location. Such a log will include the detected anomaly, and buffered operational data. In at least one embodiment, the diagnostic log includes buffered operational data collected both before and after the anomaly. The diagnostic log is analyzed at the remote location to diagnose the cause of the anomalous condition, so a decision can be made as to whether the vehicle requires immediate repair, or whether the repair can be scheduled at a later time.

Abstract: Vehicle data is collected during the operation of a vehicle and used to repeatedly find slope being traveled upon and using this slope, the mass of the vehicle at a plurality of different locations. Using this information, a ranking of a driver's performance is determined. Fleet operators can use these performance metrics as incentives, by linking driver pay with performance. Individual fleet operators can host their own website, where driver rankings in that fleet can be compared, or a website can be hosted by a third party, and multiple fleet operators participate. The third party can offset their costs for operating the website by charging participating fleet operators a fee, and/or by advertising revenue. In some embodiments, all driver performance data is displayed in an anonymous format, so that individual drivers cannot be identified unless the driver shares their user ID.

Abstract: Three dimensional accelerometer data is used to determine a slope the vehicle is traveling over at a specific point in time. The slope data can then be combined with other metrics to provide an accurate, slope corrected vehicle mass. The vehicle mass can then be used along with other vehicle data to determine an amount of work performed by a vehicle, enabling s detailed efficiency analysis of the vehicle to be performed. To calculate slope, horizontal ground speed (VHGS) can be calculated using the Pythagorean Theorem. One can take the Z/Up magnitude and divide it by the horizontal ground speed. Replacing Z, x and y with directional vectors enables one to calculate slope. The slope data is then used to determine the mass of the vehicle at that time. Pervious techniques to calculate mass did not factor in slope, and thus are not accurate.

Abstract: Data is collected during the operation of a vehicle and used to produce a ranking of a driver's efficiency performance, and that ranking is shared on a hosted website, such that the drivers can compare their performance metrics to their peers. Fleet operators can use these performance metrics as incentives, by linking driver pay with efficiency performance. Individual fleet operators can host their own website, where driver rankings in that fleet can be compared, or the website can be hosted by a third party, and multiple fleet operators participate. The third party can offset their costs for operating the website by charging participating fleet operators a fee, and/or by advertising revenue. In some embodiments, all driver efficiency performance data is displayed in an anonymous format, so that individual drivers cannot be identified unless the driver shares their user ID.