Method and system for measurement of road profile
First Claim
1. In a method of measuring road surface profile which includes the steps of providing a vehicle having a suspended mass adapted to be propelled over a road surface, measuring distance from the suspended mass to the road surface as the vehicle is propelled over the road surface, determining acceleration of said suspended mass with respect to the road surface as the vehicle is propelled over the road surface, and determining road surface profile as a combined function of said distance and acceleration,the improvement for measuring said road surface profile independently of variations in vehicle speed over said road surface comprising the steps of determining spatial domain acceleration of said suspended mass as a conjoint function of acceleration of said suspended mass with respect to said road surface and distance traveled over said road surface, and then determining said road surface profile in the spatial domain as a conjoint function of said spatial domain acceleration, said distance to the road surface.
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Abstract
Apparatus and method for use on a measurement vehicle to measure road surface profile independently of variations in vehicle velocity over the road surface. Transducers are mounted on the vehicle suspended mass for measuring distance (W-Y) to the road surface and acceleration Y normal to the road surface as the vehicle is propelled over the road surface. A third transducer is responsive to fixed increments ds of vehicle travel over the road surface. Surface profile is determined as a continuous function of the time-independent equation
W=(W-Y)+∫∫(Y/V.sup.2) ds ds,
ps where V is average vehicle velocity over each successive incremental distance ds. A spatial domain filter attenuates profile wavelength components in excess of a desired preselected maximum wavelength.
42 Citations
8 Claims
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1. In a method of measuring road surface profile which includes the steps of providing a vehicle having a suspended mass adapted to be propelled over a road surface, measuring distance from the suspended mass to the road surface as the vehicle is propelled over the road surface, determining acceleration of said suspended mass with respect to the road surface as the vehicle is propelled over the road surface, and determining road surface profile as a combined function of said distance and acceleration,
the improvement for measuring said road surface profile independently of variations in vehicle speed over said road surface comprising the steps of determining spatial domain acceleration of said suspended mass as a conjoint function of acceleration of said suspended mass with respect to said road surface and distance traveled over said road surface, and then determining said road surface profile in the spatial domain as a conjoint function of said spatial domain acceleration, said distance to the road surface.
- 3. Apparatus for measuring road surface profile comprising a measurement vehicle adapted to be propelled over a road surface to be measured and including a suspended mass, distance measuring means mounted on said suspended mass for providing a first signal as a function of distance to the road surface as said vehicle is propelled over the road surface, acceleration measuring means mounted on said suspended mass for providing a second signal as a function of acceleration of said suspended mass in a direction normal to the road surface as said vehicle is propelled over the road surface, means responsive to vehicle travel over the road surface for providing a repetitive third signal indicative of vehicle travel over fixed distance increments, time-independent means responsive to said third signal for integrating said second signal with respect to said third signal in the spatial domain, and means for indicating road surface profile as a combined function of said first signal and said integrated second signal and independently of variations of velocity of said vehicle over said road surface.
- 6. Apparatus for measuring road surface profile comprising a suspended mass adapted to be propelled with respect to said road surface, first means mounted on said mass for providing a signal (W-Y) as a function of distance between said suspended mass and the road surface, second means mounted on said suspended mass for providing a signal Y as a function of acceleration of said suspended mass in a direction normal to the road surface, third means adapted to be responsive to travel of said suspended mass over the road surface for providing a signal indicative of each incremental distance ds of travel over the road surface, fourth means responsive to said third means for determining average velocity V of said mass over each successive said incremental distance ds, and fifth means responsive to said first, second, third and fourth means for indicating road surface profile W as a continuing function of the time-independent equation
- space="preserve" listing-type="equation">W=(W-Y)+∫
∫
(Y/V.sup.2)ds ds.
- View Dependent Claims (7, 8)
- space="preserve" listing-type="equation">W=(W-Y)+∫
Specification
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- Resources
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Current AssigneeElson B. Spangler
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Original AssigneeElson B. Spangler
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InventorsSpangler, Elson B.
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Primary Examiner(s)Swisher, S. Clement
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Application NumberUS06/372,322Time in Patent Office609 DaysField of Search73/105, 73/146US Class Current73/105CPC Class CodesB60G 17/0165 to an external condition, e...B60G 2400/104 lateral or transversal with...B60G 2400/204 Vehicle speedB60G 2400/252 verticalB60G 2400/821 Uneven, rough road sensing ...B60G 2800/702 Improving accuracy of a sen...G01B 7/28 for measuring contours or c...G01C 7/04 involving a vehicle which m...
