"Pavements Performance." . . "Pavements Cracking." . . . . . . . . "Consists of 15 papers that examine approaches to pavement raveling detection and measurement; traffic speed deflectometer results; the testing of lasers used for ride quality measurement on hot-mix asphalt pavements; measuring pavement roughness using an android-based smartphone application; and performance predictions of rutting for the National Center For Asphalt Technology test track. Evaluates the dynamic performance of sub-grade and foundation layers using lightweight deflectometer tests; aggregate base layer variability on pavement performance; a back calculation procedure for bonded concrete overlays of asphalt pavement; a back calculation of an asphalt concrete modulus master curve using field-measured falling weight deflectometer data; and scaling relationships of dissipation-induced pavement-vehicle interactions. Explores the incorporation of surface micro-texture in the prediction of skid resistance of flexible pavements; the establishment of relationship between pavement surface friction and mixture design properties; a surface drainage evaluation for rigid pavements; a study of cornering maneuvers of a pneumatic tire on asphalt pavement surfaces using the finite element method; and applying Florida's past crash data to evaluate hydroplaning risk prediction methods ."@en . "Pavement management 2014. Volume 3"@en . . . . . . . . . "Pavement management, 2014. Volume 3"@en . . . . "\"TRB's Transportation Research Record (TRR): Journal of the Transportation Research Board, No. 2457 consists of 15 papers that examine approaches to pavement raveling detection and measurement; traffic speed deflectometer results; the testing of lasers used for ride quality measurement on hot-mix asphalt pavements; measuring pavement roughness using an android-based smartphone application; and performance predictions of rutting for the National Center For Asphalt Technology test track. This issue also evaluates the dynamic performance of subgrade and foundation layers using lightweight deflectometer tests; aggregate base layer variability on pavement performance; a backcalculation procedure for bonded concrete overlays of asphalt pavement; a backcalculation of an asphalt concrete modulus master curve using field-measured falling weight deflectometer data; and scaling relationships of dissipation-induced pavement-vehicle interactions. In addition, this TRR explores the incorporation of surface microtexture in the prediction of skid resistance of flexible pavements; the establishment of relationship between pavement surface friction and mixture design properties; a surface drainage evaluation for rigid pavements; a study of cornering maneuvers of a pneumatic tire on asphalt pavement surfaces using the finite element method; and applying Florida's past crash data to evaluate hydroplaning risk prediction methods .\""@en . . . . . "National Research Council (U.S.). Transportation Research Board. Committee on Surface Properties-Vehicle Interaction," . . "National Research Council (U.S.). Transportation Research Board," . . "National Research Council (U.S.). Transportation Research Board. Committee on Strength and Deformation Characteristics of Pavement Sections," . . "National Research Council (U.S.). Transportation Research Board. Committee on Pavement Monitoring and Evaluation," . . "surface dynamics." . . "deformation." . . "Pavements Evaluation." . . "pavement management systems." . . . . "Pavements Service life." . . "Pavements Testing." . . "National Research Council (U.S.). Transportation Research Board. Design and Construction Group," . . "Pavements Riding qualities." . . "Pavements Maintenance and repair Management." . . "Pavements Live loads." . .