Advanced IC: The ICMV can be combined with advanced technologies such as Artificial Intelligence and auto-feedback controls.Ĥ. Layer Specific: Produce layer-specific ICMV values.Ĥ. Decouple: Produce valid solution of ICMV during double-jump or decouple when the roller drum and compacted material lose contact.ģ. Correlation: The threshold value for coefficient of correlation between ICMV and in-situ spot tests is generally accepted as R = 0.70 or R = 0.5.Ģ. Level 5 – Dynamic Mechanistic and Artificial Intelligence Solutions: The Level 5 ICMVs are a combination of dynamic mechanistic solutions and artificial intelligence solutions.ġ.Level 4 – Hybrid Model with Dynamic Mechanistic Solutions: The Level 4 ICMVs are dynamic mechanistic solutions with hybrid of various mechanistic ICMV models.It is a static solution based on Discrete Vibration Model, Steel Drum Movement Model, or Continuum Static Model. Level 3 – Simplified Static Mechanistic Solutions: The Level 3 ICMVs are simplified static mechanistic solutions.It is computed based on Reactive Model with Rolling Resistance for static compaction. Level 2 – Energy and Rolling Resistance Solutions: The Level 2 ICMVs are energy and rolling resistance solutions.It is computed based on the Reactive Model for Vibratory Compaction or Reactive Model for Oscillation Frequency Reactive Model. Level 1 ICMV – Empirical Solutions based on Frequency Responses: The Level 1 ICMVs are empirical solutions based on frequency responses represented by harmonic ratios.This lays out the road map for past, present, and future ICMV development. The classification is based on four criteria: (1) correlation with material’s mechanical (modulus) and physical properties (density), (2) validity during decoupling when a drum loses contact with compacted body, (3) capability to allow performance analysis of the compacted body, (4) applicability to obtain layer-specific mechanical and physical properties of compacted body, (5) capability to be enhanced by advanced technology such as AI. The following describe the “Levels of ICMV” for the systematic classification of ICMV.
Therefore, IC and ICMV can be used to improve quality monitoring and control, but also pushing the enhancements of roller technologies. ICMV is a modern compaction quality control metrics and techniques that can cover 100 percent of the compacted area. Intelligent Compaction Measurement Value (ICMV) is a generic term, coined by the US Federal Highway Administration (FHWA), for a calculated value based on accelerometer measurements on IC vibratory roller drums. Intelligent Compaction Measurement Value (ICMV) IC rollers facilitate real-time compaction monitoring and timely adjustments to the compaction process by integrating measurement, documentation, and control systems. IC rollers also maintain a continuous record of color-coded plots, allowing the user to view plots of the precise location of the roller, the number of roller passes, and material stiffness measurements.Ĭompaction is one of the most important processes in roadway construction. It is necessary in order to attain high quality and uniformity of pavement materials, which in turn better ensure long-lasting performance. Pavement materials often possess optimum densities that ensure adequate support, stability, and strength-achieving these densities uniformly is key, and IC aids this process. Current procedures using conventional compaction machines may result in inadequate and/or non-uniform material densities, which can be one of the major factors in premature pavement failure. IC helps users overcome this issue by optimizing the compaction process.
Intelligent Compaction (IC) refers to the compaction of road materials, such as soils, aggregate bases, or asphalt pavement materials, using modern vibratory rollers equipped with an integrated measurement system, an onboard computer reporting system, Global Positioning System (GPS) based mapping, and optional feedback control.