Method and apparatus to encode fuel use data with GPS data and to analyze such data
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G07C-005/08
G08G-001/0968
G07C-005/00
B60R-016/023
G08G-001/00
출원번호
US-0836487
(2010-07-14)
등록번호
US-9230437
(2016-01-05)
발명자
/ 주소
Brinton, Brett
McQuade, Charles Michael
Andre, Roger
Hansen, Joshua
출원인 / 주소
ZONAR SYSTEMS, INC.
인용정보
피인용 횟수 :
0인용 특허 :
213
초록▼
System and method for analyzing position data and fuel injector data from a vehicle equipped with a geographical position system (GPS) and fuel injector sensors to enable fuel use patterns of the vehicle to be analyzed. Data defining a flow of fuel through the vehicle's fuel injectors is combined wi
System and method for analyzing position data and fuel injector data from a vehicle equipped with a geographical position system (GPS) and fuel injector sensors to enable fuel use patterns of the vehicle to be analyzed. Data defining a flow of fuel through the vehicle's fuel injectors is combined with temporal data and GPS data to produce fuel use encoded GPS data that is transmitted to a remote computer. The fuel use encoded GPS data can be analyzed to determine how much fuel was used by the vehicle during off road use to enable proper fuel tax computations to be performed. The data can also be used to evaluate the mechanical condition of a vehicle. By monitoring fuel use for a trip repeated numerous times, a decrease in fuel efficiency may indicate a mechanical problem (dirty injectors, fouled spark plugs, etc).
대표청구항▼
1. A method for automatically detecting the existence of a mechanical problem in a vehicle equipped with a geographical position system, the method comprising the steps of: (a) collecting geographical position data from the vehicle during vehicle operation, the geographical position data being time
1. A method for automatically detecting the existence of a mechanical problem in a vehicle equipped with a geographical position system, the method comprising the steps of: (a) collecting geographical position data from the vehicle during vehicle operation, the geographical position data being time indexed;(b) collecting fuel injector data from the vehicle during operation of the vehicle, the fuel injector data being time indexed to define a quantity of fuel passing through an engine fuel injector at a specific point in time;(c) combining the fuel injector data and the geographical position data together at the vehicle to produce fuel use encoded position data for a first instance of operating the vehicle on a route;(d) combining the fuel injector data and the geographical position data together at the vehicle to produce fuel use encoded position data for a second instance of operating the vehicle on the route;(e) conveying the fuel use encoded position data to a remote computing device that is physically spaced apart from the vehicle; and(f) causing the remote computing device to automatically compare fuel use during the second instance of operating the vehicle on the route to fuel use during the first instance of operating vehicle on the route and if fuel efficiency has decreased, to provide an indication for inspecting the vehicle for a mechanical problem. 2. The method of claim 1, further comprising the steps of: (a) collecting odometer data from the vehicle during operation of the vehicle; and(b) including the odometer data in the fuel use encoded position data such that the odometer data is also time indexed. 3. A method for generating and using fuel use encoded position data from a vehicle equipped with a geographical position system to determine at least one operational characteristic of the vehicle, the method comprising the steps of: (a) collecting geographical position data from the vehicle during vehicle operation;(b) collecting fuel injector data from the vehicle during operation of the vehicle, the fuel injector data defining a quantity of fuel passing through an engine fuel injector;(c) combining the fuel injector data and the geographical position data together at the vehicle to produce fuel use encoded position data, such that the fuel use encoded position data is time indexed;(d) conveying the fuel use encoded position data to a remote computing device; and(e) using said remote computing device to automatically analyze the fuel use encoded position data to determine at least one aspect of the vehicle condition. 4. the method of claim 3, further comprising the steps of: (a) collecting odometer data from the vehicle during operation of the vehicle; and(b) including the odometer data in the fuel use encoded position data, before conveying the fuel use encoded position data to the remote computing device. 5. The method of claim 3, wherein the step of analyzing the fuel use encoded position data to determine at least one aspect of the vehicle condition comprises the step of comparing the vehicle's fuel usage for a first trip with the vehicle's fuel use for a second trip, where the geographical position data collected during the first and second trip indicate the vehicle traversed the same route for the first and second trips, such that a change in the fuel usage indicates a change in fuel consumption required to traverse the same route. 6. The method of claim 3, wherein the step of analyzing the fuel use encoded position data to determine at least one aspect of the vehicle condition comprises the step of enabling a user to define a geofence, such that only fuel use encoded position data falling within the confines of the geofence are included within the analysis. 7. A system for analyzing fuel use encoded position data from a vehicle equipped with a geographical position system and a fuel injector sensor indicating a quantity of fuel passing through a fuel injector in the vehicle, to determine at least one operating characteristic of the vehicle, the system comprising: (a) a geographical position system for use in the vehicle, the geographical position system including: (i) a positioning sensing component for collecting geographical position data from the vehicle during vehicle operation, the geographical position data being time indexed;(ii) a first data port for receiving fuel injector data from the vehicle during operation of the vehicle, the fuel injector data being time indexed to define a quantity of fuel passing through an engine fuel injector at a specific point in time;(iii) a processor for combining the fuel injector data and the geographical position data together to produce fuel use encoded position data; and(iv) a data link for conveying the fuel use encoded position data to an external computing device; and(b) a remote computing device spaced apart from the vehicle and configured to receive the fuel use encoded position data via the data link, the remote computing device including a non-transitory memory for storing machine instructions and a processor, the said machine instructions, when implemented by a processor, enabling a user to access the fuel use encoded position data for the vehicle, and analyzing the fuel use encoded position data to determine at least one aspect of the vehicle condition. 8. The system of claim 7, wherein the remote computing device is configured to monitor changes in the vehicle's use of fuel, by implementing the steps of: (a) enabling a user to define a route traversed by the vehicle; and(b) automatically generating a fuel usage report for the vehicle, the fuel usage report identifying how much fuel the vehicle used traversing the route, such that changes in fuel use while traversing the same route can be identified. 9. The system of claim 7, wherein the remote computing device is configured to enable the user to define geographical positions corresponding to off road use of the vehicle, or enable the user to define the route traversed by the vehicle, by enabling the user to define a geofence. 10. The system of claim 7, wherein the geographical position system for use in the vehicle further includes a second data port for receiving odometer data from the vehicle during operation of the vehicle, and wherein the processor is configured to include the odometer data in the fuel use encoded position data such that the odometer data is also time indexed. 11. A method for using fuel use encoded position data from a vehicle equipped with a geographical position system to determine at least one aspect of the vehicle condition, the method comprising the steps of: (a) providing, to a remote computer, time indexed fuel use encoded position data collected during operation of the vehicle, the fuel use encoded position data including fuel injector data defining a quantity of fuel passing through an engine fuel injector during operation of the vehicle and geographical position data defining a relative location of the vehicle during operation of the vehicle; and(b) using the remote computer to automatically analyze the fuel use encoded position data to determine at least one aspect of the vehicle condition. 12. The method of claim 11, wherein the step of automatically analyzing the fuel use encoded position data comprises the step of automatically analyzing how elevation changes during operation of the vehicle affects fuel usage. 13. The method of claim 11, wherein the step of automatically analyzing the fuel use encoded position data comprises the step of automatically analyzing how a type of road surface encountered during operation of the vehicle affects fuel usage. 14. The method of claim 11, wherein the step of automatically analyzing the fuel use encoded position data comprises the step of automatically generating an idle time fuel usage report for the vehicle, the idle time fuel usage report identifying how much fuel the vehicle used while remaining in a static position during the specified time period.
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