Keynotes
  

• The use of dynamic methods in pile installation and design
  Goble, G.
  
  

• Comments on the current and future use of pile dynamic testing
  Fellenius, B.H. & Massarsch, K.R.

• Mastering the art of pile testing
  Rausche, F., Nagy, M. & Likins, G.

• Recent developments in dynamic pile testing
  Middendorp, P.

• A role of pile load test - Pile load test as element test for design of foundation system
  Matsumoto, T., Matsuzawa, K. & Kitiyodom, P.

• Dynamic analysis of open-ended pipe piles
  Paikowsky, S.G. & Chernauskas, L.R.

• Economic and environment-friendly ways of designing and using deep foundations
  Katzenbach, R.

Theme 1 |

Wave mechanics applied to pile engineering
  

• Analysis of wave propagation in piles
  Chai, H.Y. & Wei, C.F.

• Analytic solution for one-dimensional propagation of waves and its adaptation to result interpretation of pile integrity test (PIT)
  Rodríguez, J. & Restrepo, V.

• Identification of stress wave phenomena caused by soil-pile interaction
  Fritsch, M., Stahlmann, J. & Elmer, K.H.

• Dynamic analysis of a single pile in time domain considering frequency dependence of soil resistance
  Kitiyodom, P., Matsumoto, T., Tomisawa, K., Kojima, E. & Kumagai, H.

• Dimensional analysis of the wave equation applied to pile driving
  Alves, A.M.L., Lopes, F.R. & Danziger, B.R.

Theme 2 |

Relationship between static resistance to driving and long-term static soil resistance
  

• PDA testing to evaluate axial setup in cohesive soils
  Sully, J. & Parra, E.J.

• Load rate effects on high strain tests in high plasticity soils
  Rodríguez, J., Alvarez, C. & Velandia, E.

• Dynamic testing in sensitive & difficult soil conditions
  Morgano, C.M., White B.A. & Allin, R.

• Long-term capacity of driven non-uniform piles in cohesive soil-field load tests
  Ghazavi, M. & Ahmadi, H.A.

Theme 3 |

Case histories involving measurement and analysis of stress waves
  

• Driving fatigue during installation of monopile foundations of the Egmond aan Zee offshore wind farm
  Kooistra, A., Oudhof, J. & Kempers, M.

• The use of a Sledgehammer and a PDA to low-strain integrity test a hurricane damaged oil offshore platform
  Stevens, R.F. & Viking, K.

• Dynamic load test method by hitting the inner bottom of close-ended steel pipe pile
  Fujisawa, H., Yamashita, D., Kanehira, Y., Arai, M., Kitamura, K., Kuwabara, F. & Matsumoto, T.

• Pile driving in the Haina Coast, Dominican Republic
  Alvarez, T.A.

• High strain and low strain dynamic test analysis for pre-stressed pipe pile with obvious defects
  Zhang, X.W. & Zhou, W.

• A case study of piling project and testing in Poland
  Rybak, J., Sobala, D. & Tkaczynski, G.

• The approach of solving the problem of floating-piles via high-strain dynamic method
  Liang, X., Fang, J.Q. & Zhang, X.S.

• Polish experience of dynamic tests for bored piles
  Gwizdala K., Brzozowski T. & Blockus M.

• Use of CAPWAP for uplift resistance evaluation of wind energy tower piles
  Teferra, W., Saavedra. M.R. & Echaniz, P.

• Pile foundation testing of a hurricane resistant jetty
  Middendorp, P., Plooy, P.J. & Kruit, D.B.

• High strain dynamic testing practice in Portugal - Coimbra Polis site
  Kaidussis, R.N., Bibi, R., Paulino, J., Pereira, G. & Gil, R.

• A case study for quay deck foundation of container terminal in Hong Kong
  Song, M. J. & Park, Y. H.

Theme 4 |

Dynamic monitoring of driven piles

• Dynamic measurements of precast concrete jointed piles in a layered soil
  Haddad, A. & Kheyrodin, A.

• Installation behavior of concrete cylinder piles
  Malhotra, S.

• Installation monitoring of open end pipe piles
  Malhotra, S.

• Pile driving and testing equipment
  Meshcheriakov N.G., Meshcheriakov G. N., Vakulin A.A. & Vakulin N.A.

• Verticality effect of two extremely long driven piles
  Chu, K. H. & Zhang, L. M.

• Driveability and performance of steel H-piles on weathered rock
  Shek, L.M.P., Zhang, L. M. & Tang, K. H.

• Estimating residual stresses in long driven piles in weathered soils
  Wang, H. & Zhang, L. M.

• Numerical analysis for pile geometry effect on drivability
  Ghazavi, M. & Tavassoli O.

• Prevention of cracking for large diameter concrete pipe piles
  Liu E. Y. F.

Theme 5 |

Dynamic soil-pile interaction models. Numerical and physical modelling
  

• Discrete wave equation analysis for seismic responses of piles
  Chang, D.W., Cheng, S.H. & Lin, B.S.

• A finite difference continuum numerical model for pile driving analysis
  Fakharian, K. & Feizee Masouleh, S.

• Vibration prediction for vibratory and impact pile driving using a non-linear dynamic soil-structure interaction analysis
  Masoumi, H.R., François, S. & Degrande, G.

• Pile response and free field vibrations due to low strain dynamic loading
  Masoumi, H.R., Degrande, G. & Holeyman, A.

• Numerical simulation of low strain dynamic pile tests
  Niederleithinger, E.

• Dynamical studies of the role of buildings' foundations with continuous and discontinuous methods
  Alfonsi P. & Bourgeois E.

• Modelling cyclic pile response using the Finite Element Method
  Taborda, D., Zdravković, L., Kontoe, S. & Potts, D.M.

• Mathematical analysis of soil saturation effect on seismic pile response
  Ghazavi, M. & Mohseni Diba, S.

• Pile-soil-pile interaction under horizontal harmonic vibrations: A simple approach
  Ghazavi, M. & Ravanshenas, P.

• Evaluation of 1D and 2D numerical modelling techniques of dynamic pile testing
  Pinto, P.L., Grazina, J.C. & Lourenço, J.C.

• Miniature pile drivers for centrifuge testing
  Levacher, D., Morice, Y. & Thorel, L.

• Seismic behavior of a heterogeneous soil profile having uncertain depth
  Badaoui, M., Mebarki, A. & Berrah, M.K.

Theme 6 |

High-strain dynamic test
  

• Large-scale dynamic high-strain load testing of a bridge pier foundations
  Hussein, M., Bullock, P., Rausche, F. & McGillivray, R.

• A simplified method for predicting the load-settlement curve based on force-velocity data
  Beim, J. & Hussein, F.

• Experiences of remote testing and appropriate safety factors used in Sweden
  Hermansson, I., Grävare, M., Bjerendal, T. & Grävare, C-J.

• The effect of ram mass on pile stresses and pile penetration
  Rausche, F., Likins, G., Miyasaka, T. & Bullock, P.

• PDA Testing: 2008 State of the art
  Likins, G., Piscsalko, G., Roppel, S. & Rausche, F.

• What constitutes a good PDA test?
  Likins, G. & Rausche, F.

• Automatic signal matching techniques in dynamic pile load testing. The SIMBAT method
  Stain, R.T. & Volkovoy, Y.

• High strain dynamic pile testing on rock socketed reinforced concrete piles - Mumbai experience
  Vaidya, R.

• A case study on the dynamic testing of large diameter – long drilled shafts into weathered rock
  Seok, J., Cho, C., Ji, W., Yoon, J. & Park, M.

Theme 7 |

Low-strain dynamic test
  

• Integrity testing of piles in platform—pile systems
  Chai, H.Y.

• Effect of soil resistance on the low strain mobility response of piles using impulse transient response method
  Liang, L. & Beim, J.

• In-place nondestructive evaluation of foundations of unknown type and depth
  Sack, D., Olson, L. & Tinkey, Y.

• Critical comparison of ultrasonic pile testing standards
  Amir, J.M. & Amir, E.I.

• Limitations of low-strain integrity test for PHC piles and solution
  Shi, F., Huang, Y. & Hou, W.S.

• Quality evaluation criteria for pile integrity test on deep foundation bored in tropical soil
  Cunha, R.P.

• Comparing cross-hole sonic logging  and low-strain integrity testing results
  White B., Nagy, M. & Allin, R.

• Non-destructive evaluations of in-service concrete piles by flexural wave approach
  Wang, H. & Chang, T.-P.

Theme 8 |

Rapid-load test
  

• A piling method accompanying rapid load testing
  Matsuzawa, K., Nakashima, Y., Nakayama, M. & Matsumoto, T.

• Newly developed rapid loading test method for small piles
  Kunimatsu, S., Umeda, M., Murakami, H. & Sakai, T.

• Rapid load test on high bearing capacity piles
  Miyasaka, T., Kuwabara, F., Likins, G. & Rausche, F.

• Rapid pile test simulation in the geocentrifuge
  Hölscher, P., van Lottum, H., Bezuijen, A., Huy, N.Q. & van Tol, A.F

• Segmental signal matching method for Statnamic load test of piles
  Chang, W.K. & Cheng, C.H.

• A new application of Statnamic: Pyrodriver
  Van Foeken, R.J. & Westerbeek, J.A.

• Interpretation of rapid pile load tests in sand regard to the rate effect and excess of pore pressure
  Huy, N.Q., van Tol, A.F & Hölscher, P.

• Verification of Statnamic load testing with static load testing in a cohesive soil type in Germany
  Middendorp, P., Beck, C. & Lambo, A.

Theme 9 |

Monitoring and analysis of vibratory driven piles
  

• Vibro-drivability monitoring of piles – Two case studies of a PCPS concrete pile and a 200-ft-long steel pipe pile
  Stevens, R.F., Viking, K. & Roberts, T.

• Vibratory driving and segregation in granular matter
  Denies, N. & Holeyman, A.

• Sheet pile vibro-driving: Assumptions vs. measurements
  Whenham, V. & Holeyman, A.

• Sheet pile vibro-driving: Power pack-vibrator-sheet pile-soil interactions
  Holeyman, A. & Whenham, V.

• Comparative vibration behaviour of vibratory and impact driven prefabricated concrete piles
  Rocher-Lacoste, F., Lenti, L., Lasseret, M. & Saule, R.

Theme 10 |

Correlation of dynamic and static load tests
  

• Static and dynamic load tests comparison considering load energy level and soil nonlinearity
  Gouveia Pereira, J.J., Gomes Correia, A., Santos J.A. & Simões, T.N.

• Three examples of dynamic and static load tests in the Central Europe
  Bubenicek, M. & Duba, O.

• A dynamic and static load test program for drilled shafts founded in hard clay in Minatitlan, Mexico
  Mendez, A. & Samano A.

• Evaluation of dynamic analyses and static pile load tests from bored cast-in-situ piles in dense sands and sandstones
  Abou-Jaoude, G., Sadek, S. & Ghalayini, I.

• High strain dynamic testing in micropiles. Comparison of static and dynamic test results
  Oteo, C., Arcos J.L., Gil, R. & Fernández Tadeo, C.

• Static and dynamic testing of driven piles in Poland
  Rybak, J., Sobala, D. & Tkaczynski, G.

• Comparison between static and dynamic pile capacity. A case study from Norway
  Tistel, J., Tørum, E., Rønning, S., Alstad, M., Vik, A. & Schram Simonsen, A.

• Dynamic and static testing of concrete foundation piles with structure-integrated fiber optic sensors
  Schallert,  M., Habel, W.R., Göbel, I.R., Stahlmann, J. & Wardinghus, P.

• Correlation of CAPWAP with instrumented static load test on a steel H pile
  Paraíso, S.C., Costa C.M.C. & Aleixo, L.

• Comparison of static and dynamic pile load tests using an elastoplastic soil model
  Costa D´Aguiar, S., Santos J.A., Lopez-Caballero, F. & Modaressi, A.

Theme 11 |

Quality assurance of deep foundations using dynamic methods
  

• Offshore pile acceptance using dynamic pile monitoring
  Webster, S., Givet, R. & Griffith, A.

• Application of low-strain integrity tests for quality assurance of deep foundations in Thailand
  Maung A. Win, Aye Z. Z. & Thayanan Boonyarak

• Statistical analysis of a large number of PEM tests on piles
  Amir, E.I. & Amir, J.M.

• Test and consolidation method for defect of rock-socketed bored piles
  Shi, F. & Chen, M.

• Multi-methods testing on tip faults of rock-socketed cast-in-place piles
  Huang, Y.

Theme 12 |

Incorporation of dynamic testing into design codes and testing standards
  

• Worldwide dynamic foundation testing codes and standards
  Beim, G. & Likins, G.

• European standard and guideline for Rapid Load Test
  Hölscher, P., van Tol, A.F. & Middendorp, P.

Theme 13 |

Ground vibrations induced by pile motions
  

• Induced vibrations in a metallic structure by a precast pile and its correlation with the stress-wave pile test - A case study
  Mota, R.

• Examination of ground vibrations and dynamic pile measurements during driven pile installation
  Hajduk, E.L. & Adams, J.C.

• Benign and harmful dynamic effects from pile driving
  Svinkin, M.R.

Theme 14 |

Dynamic measurements in ground field testing
  

• Influence of rod type in SPT efficiency
  Rodrigues, C., Cavalcante, E.H., Danziger, B.R. & Viana da Fonseca, A.

• On the energy reaching the sampler during SPT
  Cavalcante, E.H., Danziger, B.R. & Danzinger, F.A.B.