Background research

Berg N, Smith A, Russell S, Dixon N, Proudfoot D and Take A (2018) Correlation of acoustic emissions with patterns of movement in an extremely slow-moving landslide at Peace River, Alberta, CanadaCanadian Geotechnical Journal. DOI: 10.1139/cgj-2016-0668. 

Biller T, Smith A and Dixon N (2018) Early detection of seepage-induced internal erosion using acoustic emission monitoring. 15th BGA Young Geotechnical Engineers Symposium, University of Surrey, 2-3 July 2018. 

Biller T, Smith A and Dixon N (2019) Monitoring seepage-induced internal erosion using acoustic emission. EWG‐IE 27th Annual Meeting, University of British Columbia, 18‐21 June 2019.

Codeglia D (2017) Development of an acoustic emission waveguide-based system for monitoring of rock slope deformation mechanisms. PhD Thesis, School of Architecture, Building and Civil Engineering, Loughborough University, UK. 

Codeglia D, Dixon N, Fowmes GJ and Marcato G (2015) Strategies for rock slope failure early warning using acoustic emission monitoring. In IOP Conference Series: Earth and Environmental Science (Vol. 26, No. 1, p. 012028). IOP Publishing. 

Codeglia D, Dixon N, Fowmes G and Marcato G (2017) Analysis of acoustic emission patterns for monitoring of rock slope deformation mechanisms. Engineering geology, 219, 21-31. 
Dixon N, Hill R and Kavanagh J (2003) Acoustic emission monitoring of slope instability: Development of an active wave guide system. Institution of Civil Engineers Geotechnical Engineering Journal, 156, 2, 83-95. 

Dixon N and Spriggs M (2007) Quantification of slope displacement rates using acoustic emission monitoring. Canadian Geotechnical Journal, 44, 6, 966-976. 

Dixon N, Spriggs MP, Meldrum P, Ogilvy R, Haslam E and Chambers J (2010) Development of a low cost acoustic emission early warning system for slope instability. Proceedings 11th International Association of Engineering Geologists, 1803-1810. 

Dixon N, Spriggs MP, Marcato G and Pasuto A (2012a) Landslide hazard evaluation by means of several monitoring techniques, including an acoustic emission sensor. Proceedings of the 11th International and 2nd North American Symposium on Landslides and Engineered Slopes. Landslides and Engineered Slopes: Protecting Society through Improved Understanding. CRC Press, 2, 1405-1411. 

Dixon N, Spriggs MP, Meldrum P and Haslam E (2012b) Field trial of an acoustic emission early warning system for slope instability. Proceedings of the 11th International and 2nd North American Symposium on Landslides and Engineered Slopes. Landslides and Engineered Slopes: Protecting Society through Improved Understanding. CRC Press, 2, 1399-1404. 

Dixon N, Moore R, Spriggs MP, Smith A, Meldrum P and Siddle R (2014) Performance of an acoustic emission monitoring system to detect subsurface ground movement at Flat Cliffs, North Yorkshire, UK. IAEG XII Congress, 2, 117-120, Turin. 

Dixon N, Spriggs MP, Smith A, Meldrum P and Haslam E (2015a) Quantification of reactivated landslide behaviour using acoustic emission monitoring. Landslides 12 (3), 549-560. 

Dixon N, Smith A, Spriggs MP, Ridley A, Meldrum P and Haslam E (2015b) Stability monitoring of a rail slope using acoustic emission. Proceedings of the Institution of Civil Engineers: Geotechnical Engineering 168 (5), 373-384. 

Dixon N, Codeglia D, Smith A, Fowmes G and Meldrum P (2015c) An acoustic emission slope displacement rate sensor – case studies. 9th Int. Symp. on Field Measurements in Geomechanics. Sydney, Australia. 

Dixon N, Smith A, Flint JA, Khanna R, Clark B and Andjelkovic M (2018) An acoustic emission landslide early warning system for communities in low-income and middle-income countries. Landslides. DOI: 10.1007/s10346-018-0977-1. 

Heather-Smith H, Smith A, Dixon N and Flint JA (2018) Monitoring buried infrastructure deformation using acoustic emission. 9th European Workshop on Structural Health Monitoring, Manchester UK, 10-13 July 2018. 

Kavanagh J (1997) The use of acoustic emission to monitor the deformation of a soil body. PhD Thesis, The Nottingham Trent University, UK.

Kousteni A (2002) Investigation of Acoustic Emission Waveguide Systems for Detecting Slope Instability. PhD Thesis, Department of Civil and Structural Engineering, The Nottingham Trent University, UK.

Smethurst JA, Smith A, Uhlemann S, Wooff C, Chambers J, Hughes P, Lenart S, Springman SM, Lofroth H and Hughes D (2017) Current and future role of instrumentation and monitoring in the performance of transport infrastructure slopes. Quarterly Journal of Engineering Geology and Hydrogeology.

Smith A and Dixon N (2014) Acoustic emission monitoring of active waveguides to quantify slope stability. 13th BGA Young Geotechnical Engineers’ Symposium. University of Manchester. 

Smith A, Dixon N, Meldrum P, Haslam E and Chambers J (2014a) Acoustic emission monitoring of a soil slope: Comparisons with continuous deformation measurements. Géotechnique Letters 4 (4), 255-261. Awarded the Institution of Civil Engineers Thomas Telford Premium (Prize for Best Paper in Journal). 

Smith A, Dixon N, Meldrum P and Haslam E (2014b) Inclinometer casings retrofitted with acoustic real-time monitoring systems. Ground Engineering Magazine, October Issue. 

Smith A, Dixon N, Berg N, Take A and Proudfoot D (2014c) Listening for Landslides: Method, Measurements and the Peace River Case Study. Geohazards 6. Ontario, 1-10. 

Smith A (2015) Quantification of slope deformation behaviour using acoustic emission monitoring. PhD Thesis, School of Civil and Building Engineering, Loughborough University, UK.

Smith A and Dixon N (2015) Quantification of landslide velocity from active waveguide-generated acoustic emission. Canadian Geotechnical Journal 52 (4), 413-425. 

Smith A, Dixon N, Codeglia D and Fowmes G (2016) An acoustic emission slope displacement rate sensor: Comparisons with established instrumentation. Geotechnical Instrumentation News (John Dunnicliff’s Magazine). December Issue. 

Smith A, Dixon N and Fowmes G (2017a) Early detection of first-time slope failures using acoustic emission measurements: large-scale physical modelling. Géotechnique. 10.1680/geot./15-P-200. 

Smith A, Dixon N and Fowmes G (2017b) Monitoring buried pipe deformation using acoustic emission: quantification of attenuation. International Journal of Geotechnical Engineering. doi: 10.1080/19386362.2016.1227581. 

Smith A, Dixon N, Moore R and Meldrum P (2017c) Photographic feature: Acoustic emission monitoring of coastal slopes in NE England, UK. Quarterly Journal of Engineering Geology and Hydrogeology. 

Smith A and Dixon N (2019a) Acoustic emission behaviour of dense sands. Géotechnique. 

Smith A and Dixon N (2019b) Acoustic emission generated by glass beads in compression and shearing. Granular Matter, 21 (4), 92. 

Smith A, Moore ID and Dixon N (2019a) Acoustic emission sensing of pipe-soil interaction: Full-scale pipelines subjected to differential ground movements. Journal of Geotechnical and Geoenvironmental Engineering, 10.1061/(ASCE)GT.1943-5606.0002185. 

Smith A, Heather-Smith H, Dixon N, Flint JA and Pennie D (2019b) Acoustic emission generated by granular soil-steel structure interaction. Géotechnique Letters.

Smith A, Moore ID and Dixon N (2019c) Acoustic emission sensing of pipe-soil interaction: Development of an early warning system for buried pipe deformation. IN: DeJong, M.J., Schooling, J.M. and Viggiani, G.M.B. (eds). International Conference on Smart Infrastructure and Construction 2019 (ICSIC): Driving data-informed decision-making, Cambridge, UK, 8-10 July 2019, pp.463-468. 

Smith A, Biller T, Heather-Smith H, Dixon N and Flint JA (2019d) Acoustic emission monitoring in geotechnical element tests. IN: Proceedings of the XVII European Conference on Soil Mechanics and Geotechnical Engineering (ECSMGE 2019), Reykjavik, Iceland, 1-7 September 2019. 

Spriggs MP (2005) Quantification of acoustic emission from soils for predicting landslide failure. PhD Thesis, Department of Civil and Building Engineering, Loughborough University, UK.

Uhlemann S, Smith A, Chambers J, Dixon N, Meldrum P, Dijkstra T, Haslam E, Merritt A and Gunn D (2016a) Assessment of ground-based monitoring techniques applied to landslide investigations. Geomorphology 253 (1), 438-451. 

Uhlemann S, Chambers J, Wilkinson P, Maurer H, Meldrum P, Gunn D, Smith A and Dijkstra T (2016b) Long-term 4D geoelectrical imaging of moisture dynamics in an active landslide. AGU Fall Meeting, San Francisco.