Márcio Almeida earned his Civil Engineering degree at the Federal University of Rio de Janeiro, in 1974 and obtained his MSc at COPPE/UFRJ in 1977 when he joined COPPE. Marcio got his PhD from the University of Cambridge, UK in 1984. Then he returned to UFRJ and in 1994 became Professor of Geotechnical Engineering. His postdoc was at Italy (ISMES) and NGI, Norway in the early 1990s. He has published around 300 technical publications including more than 70 articles in international refereed journals and has supervised around 90 doctoral and master dissertations. He received the Terzaghi and José Machado awards from the Brazilian Association of Geotechnical Engineering (ABMS). He has served on the editorial board of Geotechnique, Geotechnique Letters, ICE-Ground Improvement and Int. Journal of Physical Modelling, among others. In June 2015 he delivered the “Coulomb Lecture” at the French Geotechnical Society. His main topics of interest are Soft Clay Engineering, Ground Improvement, Marine Geotechnics and Physical Modelling. Mario Riccio is Civil Engineer by Federal University of Juiz de Fora (UFJF) in 1998, obtaining his MSc in 2001 and his PhD in 2007 at COPPE/Federal University of Rio de Janeiro. He has worked for five years in Geotechnical Engineering Companies. His postdoc was done at COPPE/Federal University of Rio de Janeiro finishing in 2015. In 2008, he was awarded the Dirceu de Alencar Velloso prize promoted by AEERJ (Rio de Janeiro Association of Engineering Companies). Also in 2017, he has received the Mokshagundam Visvesvaraya prize by ICE (Institution of Civil Engineers, England). Since 2015, he is associate professor of Civil Engineering at Federal University of Juiz de For. His main research interests contain soft soil improvement, geosynthetics and soil retaining systems. Iman Hosseinpour got his BSc in Civil Engineering and MSc in Geotechnical Engineering from the Noshirvani University of Technology, Iran in 2005 and 2008, respectively. He has then completed his PhD in Geotechnical Engineering by the Graduate School of Engineering (COPPE) at Federal University of Rio de Janeiro (UFRJ), Brazil, in 2015. Following two years postdoc at COPPE/UFRJ, he joined the Department of Civil Engineering at the University of Guilan, Iran as an assistant professor. He is given the Brazilian Association Geotechnical Engineering (ABMS)’s excellent doctoral thesis award in 2016. He is also the recipient of 2017 Institution of Civil Engineers (ICE, UK) award for the paper published in the Ground Improvement Journal. His research interests involve soft soils, geosynthetics, large-scale experimental tests and numerical analyses. Dimiter Alexiew earned his Dipl.-Ing. in Civil Engineering at the Technical University (TUCE), Sofia, in 1978. Then he worked as researcher, design engineer and consultant for geotechnics at the Bulgarian Institute for Construction, and was simultaneously honorary assistant professor for geotechnics at TUCE. He got his Doctor in Civil engineering & Geotechnics from TUCE in 1990. After working as design engineer and consultant at the Bavarian LGA Geotechnical Institute in Nuremberg, Germany, he was until 2017 Head of Engineering and Technical Director of Huesker Synthetic, Germany. Recently he founded his own independent Consulting for Geosynthetics & Geotechnics. His activities include a wide range of geotechnical projects, many of them pioneering, development of design procedures and novel geosynthetics, and co-authoring of codes and standards. He has published about 230 technical publications, and has held more than 100 lectures and reports. He is invited lecturer at the University in Siegen, Germany, and member of several German and International Societies and Committees.
Geosynthetic encased columns (GECs) are a relatively recent technique that is used to reduce settlements and to improve the load-bearing capacity of soft and highly compressible deposits where traditional (non-encased) stone columns are not a suitable alternative. […] There is now a large literature comprising case studies of GECs supporting embankments, and guidance on the analysis and design of these structurers. Nevertheless, there is until now no single book summarising the current knowledge for this soft ground improvement technique and recommendations for their design. The book reviewed here meets the need of design engineers for a comprehensive single source for the specification, design and analysis of geosynthetic encased columns for soft soil improvement. […] This book contains a good review of the principles behind GEC soil improvement, comprehensive calculation examples, guidelines for numerical analyses, detailed real-world project examples, and practical tips. The book is aimed at practising civil and geotechnical engineers but is also a useful resource for researchers, graduate students and undergraduate students taking advanced geotechnical foundation engineering courses. R. J. Bathurst, Geosynthetics International, Volume 26 Issue 2, April, 2019, pp. 222-222