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Technical Papers, Specifications, and Reports in Chronological Order

The followings are listed in chronological order.  You may use the "Find" or "Search" feature of your browser to find what you want.

Technical Papers

  • Thurner, H. (1980). "The compactometer principle: Contribution to the discussion in Session IV." Proc., Intl. Conf. on Compaction, Vol. II, Paris.
  • Forssblad, L. (1980). "Compaction meter on vibrating rollers for improved compaction control", Proc., Intl. Conf. on Compaction, Vol. II, 541-546, Paris.
  • Hansbo, S., and Pramborg, B. (1980). "Compaction control." Proc., Intl. Conf. on Compaction, Vol. II, 559-564, Paris.
  • Machet, J.M. (1980). "Compactor-mounted control devices", Proc., Intl. Conf.on Compaction, Vol. II, 577-581, Paris.
  • Thurner, H. and Sandström, Å. (1980). "A new device for instant compaction control." Proc., Intl. Conf. on Compaction, Vol. II, 611-614, Paris.
  • Machet, J.M., and Sanejouand, R. (1980). "Modules mathematiques dans le domaine du compactage par vibration", Proc., Intl. Conf.on Compaction, Vol. II, Paris.
  • Yoo, T., and Selig, E. (1980). "New concepts for vibratory compaction of soil", Proc., Intl. Conf. on Compaction, Vol. II, 703-707,Paris.
  • Floss, R., Gruber, N.,and Obermayer, J. (1983). "A dynamical test method for continuous compaction control." Proc. 8th European Conf. on Soil Mechanics and Foundation Engineering, Rathmayer, H.G., and Saari, K.H.O., Eds., May, Helsinki, 25-30.
  • Samaras, A., Lamm, R., and Treiterer, J. (1991). "Application of continuous dynamic compaction control for earthworks in railroad construction." Transportation Research Record No. 1309, Journal of the Transportation Research Board, National Academy Press, 42-46.
  • Thurner, H. and Sandström, Å. (1991). "Quality assurance in soil compaction," Proc., XIXth PIARC World Road Congress, 468-477, Marrakesh.
  • Pietzsch, D., and Poppy, W. (1992). "Simulation of soil compaction with vibratory rollers", Journal of Terramechanics, 29(6), 585-597.
  • Sandström, Å. (1993). "Oscillatory compaction." Proc., XII IRF World Road Congress, 957-961, May, Madrid.
  • Thurner, H. (1993). " Continuous compaction control - specifications and experience." Proc., XII IRF World Congress, 951-956, Madrid.
  • Iwakuma, H., and Sumiyoshi, K. (1995). "The effect of compaction by the vibratory roller", Proc., of the 4th Asia-Pacific Regional Conf. of the ISTVS: Oskonowa, Japan, November, 157-163.
  • Tateyama, K., Nakajima, S., and Fujiyama, T. (1995). "The evaluation of ground properties and its application to the automatic control of vibratory soil comapctors," Automattion and Robotics in Construction XII, Bundy, McCrea, and Szymanski (Eds), 563 - 570.
  • Geistlinger, L. (1996). "Onboard compaction meters make inroads into U.S. market", Roads & Bridges Magazine, 34(8), August, 40 - 42.
  • Adam, D. (1997). "Flächendeckende dynamische verdichtungs kontrolle (FDVK) mit vibrationswalzen sonderdruck (Surface covering dynamic compaction control with vibration rollers - special edition." Österreichische Geotechniktagung (Austrian Geotechnique Conference), 26 and 27 May, Vienna.
  • Adam, D., and Brandl, H. (1997). "Roller-Integrated Continuous Compaction Control of Soils", Proc., 3rd Intl. Conf. on Soil Dynamics (ICSD-III), August, Tiberias, Israel.
  • Brandl, H., and Adam, D. (1997). "Sophisticated Continuous Compaction Control of Soils and Granular Materials" Proc., XIVth Intl. Conf. on Soil Mechanics & Foundation Engineering, Vol. 1, September, Hamburg, Germany.
  • Adam, D. (1997). "Continuous compaction control (CCC) with vibratory rollers," Proc., GeoEnvironment 97 1st Australia - New Zealand Conf. on Environmental Geotechnics, 245 - 250, November, Melbourne, Australia.
  • Adam, D., and Kopf, F. (1998). "Application of continuous compaction control (CCC) to waste disposal liners", Proc. 3rd Intl. Congress on Environmental Geotechnics, September, Lisboa, Portugal.
  • Uchiyama, K., Kanamori, Y., Nohse, Y., and Mitsui, A. (1998). "Influence of soil comapction of vibrating rollers with different vibration mechanisms." Proc., of the 5th Asia-Pacific Regional Conf., of the ISTVS: Okinawa, Japan, November, 112-119.
  • Adam, D., (1999). "Elastic plastic modelling of homogeneous and layered soil under dynamic loading". Proc. Of COST 337 & ETC 11 Workshop on Modelling and Advanced Testing for Unbound Granular Materials, January, Lisboa, Portugal.
  • Adam, D. (1999). "Flächendeckende dynamische verdichtungskontrolle mit vibrationswalzen. (Continuous Compaction Control with vibratory rollers)". Austrian Engineer and Architect Magazine 144, Class Number 2, Vienna, 65-74 (in German).
  • Adam, D. (1999). "Geotechnics of the Austrian-Hungarian Highway A4", Geotechnical Engineering for Transportation Infrastructure, Barends et al. (eds), Balkema, Rotterdam.
  • Nohse, Y., Uchiyama, K., Kanamori, Y., Kase, J., Kawai, Y., Masumura, K., and Tateyama, K. (1999). "An attempt applying a new control system for the vibratory compaction using GPS and CMV in the embankment construction (Part 1)." Proc. of the 13th Intl. Conf. of the ISTVS: Okinowa, Japan, 295-300.
  • Adam, D., and Kopf, F. (2000). "Sophisticated compaction technologies and continuous compaction control," Workshop on Compaction of Soils and Granular Materials, Modeling of Compacted Materials, Compaction Management and Continuous Control, International Society of Soil Mechanics and Geotechnical Engineering (European Technical Committee), 207 - 220, Paris.
  • Anderegg, R., (2000). "ACE Ammann Compaction Expert - automatic control of the compaction." Workshop on Compaction of Soils and Granular Materials, Modeling of Compacted Materials, Compaction Management and Continuous Control, International Society of Soil Mechanics and Geotechnical Engineering (European Technical Committee), 229-236, Paris.
  • Thurner, H., Sandström, Å. (2000). "Continuous Compaction Control, CCC." Workshop on Compaction of Soils and Granular Materials, Modeling of Compacted Materials, Compaction Management and Continuous Control, International Society of Soil Mechanics and Geotechnical Engineering (European Technical Committee), 237-246, Paris.
  • Floss, R. and Kloubert, H., (2000), "Newest Developments in Compaction Technology," Workshop on Compaction of Soils and Granular Materials, Modeling of Compacted Materials, Compaction Management and Continuous Control, , International Society of Soil Mechanics and Geotechnical Engineering (European Technical Committee), Paris.
  • Adam, D., and Kopf, F. (2000). "Sophisticated roller compaction technologies and roller-integrated compaction control." Compaction of Soils, Granulates and Powders, A.A.Balkema, Rotterdam, Brookfield, 113-132.
  • Brandl, H. (2001). "Compaction of soil and other granular material - interactions," Geotechnics for Roads, Rail Tracks and Earth Structures, A.A.Balkema Publishers, Lisse /Abingdon/ Exton (Pa) /Tokyo, 3-11.
  • Adam, D., Markiewicz, R. (2001). "Compaction behaviour and depth effect of the polygon-drum," Geotechnics for Roads, Rail Tracks and Earth Structures, A.A.Balkema Publishers, Lisse /Abingdon/ Exton (pa) /Tokyo, 27-36.
  • Brandl, H. (2001). "The importance of optimum compaction of soil and other granular material," Geotechnics for Roads, Rail Tracks and Earth Structures, A.A.Balkema Publishers, Lisse /Abingdon/ Exton (Pa) /Tokyo, 47-66.
  • Kröber, W., Floss, E., Wallrath, W. (2001). "Dynamic soil stiffness as quality criterion for soil compaction," Geotechnics for Roads, Rail Tracks and Earth Structures, A.A.Balkema Publishers, Lisse /Abingdon/ Exton (Pa) /Tokyo, 189-199.
  • Adam, D. (2001). "Sophisticated compaction of soil, earth structures, roads and rail tracks." Proc., 5th Intl. Geotech. Conf. Geotechnical Structures Optimization, September, Bratislava, Slovakia.
  • Mooney, M., Bouton, C., and Pan, J. (2001). "Measurement of acceleration during vibratory compaction of unsaturated soils." Proc. of 10th Int. Conf. Soil Dynamics & Earthquake Engineering, Philadelphia, Pa.
  • Minchin, R.E. Thomas, H.R. Swanson, D.C. (2001). "Theory behind a vibration-based quality-based asphalt density measuring system," Transportation Research Record No. 1761, Journal of the Transportation Research Board, National Academy of Press, 70-78.
  • Mooney, M., Gorman, P.B., Chan, G., and Srour, C. (2002). "Observed changes in vibratory roller signature during soil compaction." Proc., 1st European Conf. on Structural Health Monitoring, Balageaus D. L. (Ed), July, Paris, France.
  • Mooney, M., Chan, G.B., Farouk, E. and Pan, J. (2002). "Health monitoring during vibratory soil of compaction", Proc., 9th Intl. Symp. on Smart Structures and Materials, San Diego, CA. March 18-22.
  • Kloubert, H. (2002). "Asphalt manager with high efficient compaction system for better roads," Proc., Intl. Conf. on Bituminous Mixtures and Pavements, Thessaloniki, Greece.
  • Nohse, Y., Kitano, M. (2002). "Development of a new type of single drum vibratory roller." Proc., 14th Intl. Conf. of the Intl. Soc. for Terrain-Vehicle Systems, Vicksburg, MS, October.
  • Adam, D., Brandl, H. (2003). "Sophisticated roller integrated continuous compaction control." Proc., 12th Asian Regional Conf. on Soil Mechanics and Geotechnical Engineering - Geotechnical Infrastructure for the New Millennium, August, Singapore.
  • Gorman, P. and Mooney, M. (2003). "Monitoring roller vibration during compaction of crushed rock," Proc., 20th Intl. Symp. on Automation and Robotics in Construction, Eindhoven, Netherlands, Ger Maas & Frans van Gassel, Eds., 415-419.
  • Preisig, M., Caprez, M., and Amann, P. (2003). "Validation of continuous compaction control (CCC) methods." Workshop on Soil Compaction, September, Hamburg.
  • Minchin, R. E., Thomas, H, R. (2003). "Validation of vibration-based onboard asphalt density measuring system." J. Const. Eng. and Mgmt., 129(1), February. 1-7.
  • Sandström A.J., and Pettersson, C.B. (2004). "Intelligent systems for QA/QC in soil compaction", Proc., 83rd Annual Transportation Research Board Meeting, January 11-14. Washington, D.C.
  • Anderegg R., and Kaufmann, K. (2004). "Intelligent compaction with vibratory rollers - feedback control systems in automatic compaction and compaction control," Transportation Research Record No. 1868, Journal of the Transportation Research Board, National Academy Press, 124-134.
  • Adam, D., and Kopf, F. (2004). "Operational devices for compaction optimization and quality control (Continuous Compaction Control & Light Falling Weight Device)." Proc., of the Intl. Seminar on Geotechnics in Pavement and Railway Design and Construction, December, Athens, Greece (Invited paper), 97-106.
  • Brandl, H., Adam, D. (2004). "Continuous compaction control (CCC) for fill dams and roller compacted concrete dams," New Developments in Dam Engineering - Proc., 4th Intl. Conf. on Dam Engineering, October, Nanjing, China (Keynote paper), 17-44.
  • Adam, D., and Kopf, F. (2005). Flächendeckende Dynamische Verdichtungskontrolle (FDVK) - Kalibrierung und Anwendung gemäß RVS 8S.02.6 (Continuous Compaction Control (CCC) - calibration and application according to the Austrian specification RVS 8S.02.6), Austrian Engineer and Architect Magazine 150, Class Number 4-5/2005, Vienna. (in German).
  • White, D.J, Jaselskis, E., Schaefer, V., and Cackler, E. (2005). "Real-time compaction monitoring in cohesive soils from machine response." Transportation Research Record No. 1936, National Academy Press, 173-180.
  • Mooney, M. A., Gorman, P. B. and Gonzalez, J. N. (2005). "Vibration Based Health Monitoring During Earthwork Construction," Structural Health Monitoring, 4(2), 137-152.
  • Rinehart, R. and Mooney, M. (2005). "Instrumentation of a Roller Compactor to Monitor Earthwork Compaction," Proc. 22nd Int. Symp. Automation and Robotics in Construction, Sept. 11-14, Ferrara, Italy.
  • Minchin, R., Swanson, D., and Thomas, H. (2005). "Computer methods in intelligent compaction." Proc., 2005 Intl. Conf. on Computing in Civil Engineering, Cancun, CD-ROM.
  • Yongfeng, J., Guangfeng, L., Yindi, F., Zongyi, L. (2005). "Intelligent compaction control based on fuzzy neural network." Proc., 6th Intl. Conf. on Parallel and Distributed Computing, Application, and Technologies (PDCAT'05), IEEE Computer Society, 5-8 December, Dalian, China.
  • Camargo, F., Larsen, B., Chadbourn, B., Roberson, R., and Siekmeier, J. (2006). "Intelligent compaction: a Minnesota case history." Proc., 54th Annual University of Minnesota Geotech.Conf., February, Minneapolis, CD-ROM.
  • Anderegg, R., von Felten, D., and Kaufmann, K. (2006). "Compaction monitoring using intelligent soil compactors." Proc., GeoCongress 2006: Geotechnical Engineering in the Information Technology Age, February, Atlanta, CD-ROM.
  • Tawfik, E. (2006). "Validation of numerical evaluation of dynamic response of lumped parameter systems using Runge-Kutta-Nystrom (R-K-N) method." Proc., GeoCongress 2006: Geotechnical Engineering in the Information Technology Age, February, Atlanta, CDROM.
  • Mooney, M., Rinehart, R., and van Susante, P. (2006). "The Influence of Heterogeneity on Vibratory Roller Compactor Response," Proc., GeoCongress 2006: Geotechnical Engineering in the Information Technology Age, February, Atlanta, CD-ROM.
  • White, D.J, Morris, M., and Thompson, M. (2006), "Power-based compaction monitoring using vibratory padfoot," Proc., GeoCongress 2006: Geotechnical Engineering in the Information Technology Age, Atlanta, CD-ROM.
  • Hossain, M., Mulandi, J., Keach, L., Hunt, M., and Romanoschi, S. (2006). "Intelligent compaction control." Proc., 2006 Airfield and Highway Pavement Specialty Conf., ASCE, May, Atlanta, Ga.
  • Petersen, D., Siekmeier, J., Nelson, C., Peterson, R. (2006). "Intelligent soil compaction - technology, results and a roadmap toward widespread use." Transportation Research Record No. 1975, Journal of the Trasnsportation Research Board, National Academy Press, 81-88.
  • Ryden, N. and Mooney, M. (2007). "Surface Wave Testing to Investigate the Nature of Roller Determined Soil Stiffness," Proc. Symp. on the Application of Geophysics to Engineering and Environmental Problems: SAGEEP 2007, Denver, Colorado, April, 1388-1394.
  • Mooney, M. A. and Rinehart, R. (2007). "Field Monitoring of Roller Vibration during Compaction of Subgrade Soil," Journal of Geotechnical and Geoenvironmental Engineering, ASCE, 133(3), 257-265.
  • Thompson, M., and White, D. (2007). "Field calibration and spatial analysis of compaction
  • monitoring technology measurements." Transportation Research Record No. 2004, : Journal of the Transportation Research Board, National Academy Press, 69-79.
  • Mooney, M. A., and Adam, D. (2007). "Vibratory roller integrated measurement of earthwork compaction: An overview." Proc., 7th Intl.Symp. on Field Measurements in Geomechanics: FMGM 2007, ASCE, Boston, Ma.
  • Scherocman, J., Rakowski, S., and Uchiyama, K. (2007). "Intelligent compaction, does it exist?", Proceedings of the Annual Conference-Canadian Technical Asphalt Association, Issue 52, pages 373-398, Polyscience publication, 2007.
  • Adam, D., Brandl, H., Kopf, F., and Paulmichl, I. (2007). "Heavy tamping integrated dynamic compaction control", Ground Improvement, 11(4), 237-243.
  • Rinehart, R., and Mooney, M. (2008). "Instrumentation of a roller compactor to monitor vibration behavior during earthwork compaction." Journal of Automation in Construction, 17(2), 144-150.
  • White, D., Vennapusa, P., Gieselman, H. (2008). "Roller-integrated compaction monitoring technology: Field evaluation, spatial visualization, and specifications." Proc., 12th Intl. Conf. of Intl. Assoc. for Computer Methods and Advances in Geomechanics (IACMAG), 1-6 October, Goa, India.
  • Thompson, M., and White, D. (2008). "Estimating compaction of cohesive soils from machine drive power." J.of Geotech. and Geoenviron. Engg, ASCE, (accepted).
  • White, D., and Thompson, M. (2008). "Relationships between in-situ and roller-integrated compaction measurements for granular soils." J.of Geotech. and Geoenviron. Engg, ASCE (accepted).
  • Newman, K., and White, D. (2008). "Rapid assessment of cement/fiber stabilized soil using roller-integrated compaction monitoring." Transportation Research Record: Journal of the Transportation Research Board, National Academy Press (accepted).
  • Thompson, M., White, D., Gieselman, H., and Siekmeier, J. (2008). "Variable feedback control intelligent compaction to evaluate subgrade and granular pavement layers - Field study at Minnesota US 14." Proc., 87th Annual Transportation Research Board Meeting, Washington, D.C.
  • White, D., Thopmson, M., Vennapusa, P., and Siekmeier, J. (2008). "Implementing intelligent compaction specifications on Minnesota TH 64: Synopsis of measurement values, data management, and geostatistical analysis." Transportation Research Record: Journal of the Transportation Research Board, National Academy Press (accepted).

Specifications

  • ZTVE StB/TP BF-StB. (1994). Surface Covering Dynamic Compaction Control Methods - German Specifications and Regulations, Additional Technical Contractual Conditions and Guidelines for Earthwork in Road Construction and Technical Testing Instructions for Soil and Rock in Road Construction, Research Society of Road and Traffic, Germany.
  • RVS 8S.02.6. (1999). "Continuous compactor integrated compaction - Proof (proof of compaction)," Technical Contract Stipulations RVS 8S.02.6 - Earthworks, Federal Ministry for Economic Affairs, Vienna.
  • ATB Väg. (2004). "Kapitel E - Obundna material VV Publikation 2004:111," General technical construction specification for roads, Road and Traffic Division, Sweden.
  • ISSMGE. (2005). Roller-Integrated continuous compaction control (CCC): Technical Contractual Provisions, Recommendations, TC3: Geotechnics for Pavements in Transportation Infrastructure. International Society for Soil Mechanics and Geotechnical Engineering.
  • Adam, D., and Kopf, F. (2005). Flächendeckende Dynamische Verdichtungskontrolle (FDVK) - Kalibrierung und Anwendung gemäß RVS 8S.02.6 (Continuous Compaction Control (CCC) - calibration and application according to the Austrian specification RVS 8S.02.6), Austrian Engineer and Architect Magazine 150, Class Number 4-5/2005, Vienna. (in German).
  • Mn/DOT. (2006). Excavation and embankment - (QC/QA) IC quality compaction (2105) pilot specification. Minnesota Department of Transportation, St. Paul, Mn.
  • Mn/DOT. (2007). Excavation and embankment - (QC/QA) IC quality compaction (2105) pilot specification. Minnesota Department of Transportation, St. Paul, Mn.
  • Newman, K., White, D. J. (2008). Rapid Soil Stabilization for Contingency Airfield Construction, Army Corps of Engineers Report.

Technical Reports

  • Thurner, H., Forssblad, L. (1978). Compaction meter on vibrating rollers, Research Bulletin of Dynapac AB. No. 8022, Solna.
  • Thurner, H., Sandström, Å. (1980). Compaction meter on vibrating roller, Dynapac Research, Solna.
  • Geodynamik. (1982). Compactometer, compaction meter for vibratory rollers ALFA-030, Internal Report, Geodynamik, Stockholm, Sweden.
  • Forssblad, L. (1984). Compaction control using vibratory rollers equipped with compaction meter -studies at Arlanda airport, Research Bulletin No. 8031, Dynapac, Sweden.
  • Hoover, J.M. (1985). In-situ stability of smooth-drum vibratory compacted soils with Bomag Terrameter, Engineering Research Instititute, ERI Project No. 1722, Iowa State University, Ames, Iowa, March.
  • DYNAPAC (1989). Compaction and paving, theory and practice, Karlskrona, Sweden.
  • Floss, R. (1991). "Dynamische verdichtungsprüfung bei erd- und straßenbauten (Dynamic compression check with earth constructions and road constructions," Notebook 612, Research and Traffic Technology, Federal Ministry for Traffic, Germany (in German).
  • Snowdon, R. (1992). Compaction monitoring devices for earthworks, Transport Research Laboratory, Research report No. 361, Crowthorne, Berkshire.
  • Sandström, Å. (1994). Numerical simulation of a vibratory roller on cohesionless soil, Internal Report, Geodynamik, Stockholm, Sweden.
  • SAKAI (1996). Compaction equipment, theory and practice, Takayanagi, Japan.
  • Kopf, F., (1999). Continuous Compaction Control (CCC) During compaction of soils by means of dynamic rollers with different kinds of excitation, Ph.D. Dissertation, Technical University of Vienna, Faculty of Civil Engineering, Vienna, Austria.
  • AMMANN (1999). Einige Aspekte der Verdichtung, Langenthal, Schweiz
  • Adam, D., and Brandl, H. (2000). Flächendeckende dynamische verdichtungskontrolle (FDVK) mit
  • vibrationswalzen - vrundlagenforschung und praktische anwendung (Continuous Compaction Control with vibratory rollers - basic research and practical application), Road Research Publications Number 506, Research Project No. 3.147, Federal Minisitry of Economic Affairs, Vienna (in German).
  • Adam, D., Brandl, H. (2002). "Roller-integrated continuous compaction control of soils" Annuaire de l'universite d'architecture, de genie civil et de geodesie - Sofia, Bulgaria (in French).
  • AMMANN (2002). European and U.S. Patents on the ACE-System, AMMAN Verdichtung AG, Langenthal, Switzerland.
  • AMMANN (2003). ACE-Soil Compaction and Compaction Control - CD ROM, AMMAN, Verdichtung AG, Langenthal, Switzerland.
  • Mooney, M.A., Gorman, P.B., Tawfik, E.F., Gonzalez, J.N. and Akanda, A.S. (2003). Exploring Vibration-Based Intelligent Soil Compaction, Oklahoma Department of Transportation Report, Item 2146.
  • Briaud , J. L., Seo, J. (2003). Intelligent Compaction: Overview and Research Needs, Texas A&M University.
  • White, D.J, Jaselskis, E., Schaefer, V., Cackler, T., Drew, I., and Li, L. (2004). Field Evaluation of Compaction Monitoring Technology: Phase I, Final Report, Iowa DOT Project TR-495, Iowa State University, Ames, Ia.
  • Petersen, D. (2004). Continuous compaction control - MnROAD demonstration, Mn/DOT Report MN/RC - 2005-07, CNA Consulting Engineers, Minneapolis, Mn.
  • Adam, D., and Kopf, F. (2004). Anwendung der Flächendeckenden Dynamischen Verdichtungskontrolle (FDVK) im Deponiebau (Application of Continuous Compaction Control (CCC) for landfill construction), Österreichische Wasser- und Abfallwirtschaft Heft (in German).
  • Adam, D., Brandl, H., and Kopf, F. (2005). Continuous Compaction Control (CCC) with differently excited rollers, Schriftenreihe der Straßenforschung Heft 553, Forschungsvorhaben Nr. 3.176 (Road Research Publications No. 553, Research Project No. 3.176), Federal Ministry of Traffic, Innovation, and Technology, Vienna (in German).
  • White, D.J, Thompson, M., Jovaag, K., Morris, M., Jaselskis, E., Schaefer, V. and Cackler, E. (2006). Field evaluation of compaction monitoring technology: Phase II. Final Report, Iowa DOT Project TR-495, Iowa State University, Ames, Ia.
  • Sebesta, S., Estakhri, C., Scullion, T., Liu W. (2006). New technologies for evaluating flexible pavement construction: Year 1 report, FHWA/TX-06/0-4774-1, Texas Transportation Institute, The Texas A&M University System, College Station, Tx.
  • Zambrano, C., Drnevich, V., Bourdeau, P. (2006). Advanced Compaction Quality Control, Indiana DOT Final Report FHWA/IN/JTRP - 2006/10, Purdue University.
  • Petersen, L., and Peterson, R. (2006). Intelligent Compaction and In-Situ Testing at Mn/DOT TH53, Final Report MN/RC-2006-13, May, Minnesota Department of Transportation, St. Paul, Mn.
  • White, D.J, Thompson, M., Vennapusa, P. (2007). Field Validation of Intelligent Compaction Monitoring Technology for Unbound Materials, Mn/DOT Report No. MN/RC 2007-10, Iowa State University, Ia.
  • White, D.J, Thompson, M., Vennapusa, P. (2007). Field study of compaction monitoring systems: self-propelled non-vibratory 825G and vibratory smooth drum CS-533 E rollers, Final Report, Center of Transportation Research and Education, Iowa State University, Ames, Ia.
  • Mooney, M., White, D. (2007). Intelligent soil compaction systems, Interim Report (unpublished), NCHRP 21-09 Project, Prepared for NCHRP Transportation Research Board of the National Academies, February.