Method and apparatus for 3-D accelerometer based slope determination, real-time vehicle mass determination, and vehicle efficiency analysis
First Claim
1. A system for producing a performance metric indicative of a performance of a driver using at least in part slope data derived from vehicle position data, comprising:
- (a) at least one vehicle data acquisition component disposed at a vehicle, the at least one vehicle data acquisition component being configured to collect time indexed vehicle data, the time indexed vehicle data comprising;
(i) 3-D accelerometer data;
(ii) speed data;
(iii) torque data;
(b) at least one processor, remote from the vehicle, the at least one processor being configured to implement the functions of;
(i) determining a slope the vehicle is traveling over a specific point in time based on the 3-D accelerometer data;
(ii) determining a mass of the vehicle at a specific point in time, based on the slope the vehicle is traveling over at that point in time, the speed data at the point in time, the torque data at that point in time, and the engine speed at that point in time;
(iii) producing the performance metric of the driver'"'"'s operation of the vehicle based at least in part on the mass of the vehicle, the mass having been determined using slope data derived from vehicle position data;
(c) a wireless data link in the vehicle to convey the vehicle data to the at least one processor remote from the vehicle; and
(d) wherein the processor is further configured to provide a vehicle mass output that is used by at least one vehicle controller to control operation of the vehicle.
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Accused Products
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.
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Citations
16 Claims
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1. A system for producing a performance metric indicative of a performance of a driver using at least in part slope data derived from vehicle position data, comprising:
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(a) at least one vehicle data acquisition component disposed at a vehicle, the at least one vehicle data acquisition component being configured to collect time indexed vehicle data, the time indexed vehicle data comprising; (i) 3-D accelerometer data; (ii) speed data; (iii) torque data; (b) at least one processor, remote from the vehicle, the at least one processor being configured to implement the functions of; (i) determining a slope the vehicle is traveling over a specific point in time based on the 3-D accelerometer data; (ii) determining a mass of the vehicle at a specific point in time, based on the slope the vehicle is traveling over at that point in time, the speed data at the point in time, the torque data at that point in time, and the engine speed at that point in time; (iii) producing the performance metric of the driver'"'"'s operation of the vehicle based at least in part on the mass of the vehicle, the mass having been determined using slope data derived from vehicle position data; (c) a wireless data link in the vehicle to convey the vehicle data to the at least one processor remote from the vehicle; and (d) wherein the processor is further configured to provide a vehicle mass output that is used by at least one vehicle controller to control operation of the vehicle. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A vehicle telematics system for use in a vehicle, the vehicle telematics system comprising:
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(a) an accelerometer component for collecting 3-D accelerometer data from the vehicle during vehicle operation, the 3-D accelerometer data being time-indexed; and (b) a performance metric determining component comprising a wireless data link to a remote processor configured to implement the functions of determining a slope the vehicle is traveling over at a specific point in time based on the position data, determining a mass of the vehicle based on slope, velocity data, torque data, and engine speed data; and
producing a driver performance metric based at least in part on the mass of the vehicle; and(c) a display on which the driver performance metric is displayed to the driver; and (d) wherein the processor is further configured to provide a vehicle mass output that is used by at least one vehicle controller to control operation of the vehicle. - View Dependent Claims (10, 11, 12, 13)
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14. A vehicle telematics system for use in a vehicle, the vehicle telematics system comprising:
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(a) a component for collecting 3-D accelerometer data from the vehicle during vehicle operation, the 3-D accelerometer data being time indexed; and (b) at least one data port for receiving vehicle data from the vehicle during operation of the vehicle, the vehicle data comprising; (i) speed data; (ii) torque data; and (iii) engine speed data; (c) a processor configured to implement the functions of determining a slope the vehicle is traveling over at a specific point in time based on the 3-D accelerometer data, determining a mass of the vehicle based on slope, speed data, torque data, and engine speed data; and
producing a driver performance metric based at least in part on the mass of the vehicle; and(d) wherein the processor is further configured to provide a vehicle mass output that is used by at least one vehicle controller to control operation of the vehicle. - View Dependent Claims (15, 16)
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Specification