Some relevant publications:

Henry L, Wadsworth J, Hansen B, Hartman K (2018): Erosion and ponding of Thunder Horse deepwater turbidites by mass transport complexes in Mississippi Canyon based on image log sedimentology. Marine and Petroleum Geology, 97 (November 2018), p. 639-658.

Veselovsky (Eriksfiord) & Stueland (OMV Norge) (2016) High-resolution interpretation of depositional environments based on the integration of borehole images and cores. Wisting discovery, PL537, Barents Sea, Norway. NPF Arctic exploration conference, Tromso, 31.5-2.6.2016.

Ruehlicke B (2013): Get to know Eigenvectors in Hall, M (2013): 52 Things You Should Know About Geology, p. 30

Hetzel R, Zwingmann H, Mulch A, Gessner K, Akal C, Hampel A, Giungor T, Petschick R, Mikes T, Wedin F (2013). Spatiotemporal evolution of brittle normal faulting and fluid infiltration in detachment fault systems - a case study from the Menderes Massif, western Turkey. Tectonics, 32: 364-376.

Folkestad A, Veselovsky Z, Roberts P (2012): Utilising borehole image logs to interpret delta to estuarine system: A case study of the subsurface Lower Jurassic Cook Formation in the Norwegian northern North Sea. Marine and Petroleum Geology, 29 (2012), p. 255-275.

Hansen B, Buczak J (2010). Making Interpretable Images from Image Logs, in M. Poeppelreiter, ed. Dipmeter and Borehole Image Log Technology: AAPG Memoir 92, p.51-66.

Hansen B, Ruehlicke B and Vahle C (2009): New method for quick stress inversion and stability prediction. SPE/AAPG/SEG workshop, Pore Pressure Prediction, Monitoring, and Wellbore Stability, San Antonio.

Folkestad A, Roberts P, Veselovsky Z (2009): Sheltered Tidal Deltas Within an Active Fault-Block Setting - A Case Study of the Cook Formation (Pliensbachian-Toarcian) in the Northern North Sea (Norway) Based on Cores, Borehole Images and Logs for Sedimentological Interpretation. AAPG Annual Meeting 2009, Denver, Colorado.

Mikes T, Baldi-Beke M, Kazmer M, Dunkl I, von Eynatten H. (2008). Calcareous nannofossil age constraints on Miocene flysch sedimentation in the Outer Dinarides. In: Siegesmund et al. (Eds.) Tectonic Aspects of the Alpine-Carpathian-Dinaride System. Geological Society, London, Special Publications, 298: 335-363.

Veselovsky Z, Bechstaedt T, Zuehlke R (2008): Structural, reverse-basin and forward stratigraphic modelling of the Southern Cantabrian Basin, northwest Spain. In: de Boer et al. (Eds.) Analogue and numerical modelling of sedimentary systems: from understanding to prediction. Spec. Publ. Int. Assoc. Sedimentol. 40, 65-96.

Moeller, U., Culpan; R., Schleicher, M., Fontana, R.L., Phipps,A (2006): From Source to Sink - A Depositional Model for Upper Slope Canyons in the Lower tertiary - Campos Basin, Brazil.- AAPG Int. Conf. 2006, Perth (Australia).

Galarraga M, Hansen B (2005): SPE 95060-PP. Detailed 3D Seismic Interpretation using HFI sesimic Data, Fault Throw, and Stress Analysis for Fault reactivation in the Cogollo Group, Lower Cretaceous, Urdaneta West Field, Maracaibo Basin.

Ottesen CG, Heerde W, Weihe T (2005). Tectono-stratigraphic evolution and controls on volcanics in Early Cretaceous in Hamaimat area, Libya. Paper Z99 EAGE Madrid.

Galarraga M, Hansen B (2005). Detailed 3D seismic interpretation using HFI seismic data, fault throw, and stress analysis for fault reactivation in the Cogollo Group, Lower Cretaceous, Urdaneta West Field, Maracaibo Basin. IX Lacpec, SPE 95060.

Poppelreiter M, Balzarini MA, Hansen B, Nelson R (2005). Realizing complex carbonate facies, diagenetic and fracture properties with standard reservoir modelling software. In: The future of geological modeling in hydrocarbon development. Geol.Soc.Spec.Publ. 309.

Poppelreiter M, Balzarini M, de Sousa P, Engel S, Galarraga M, Hansen B, Marquez X, Morell J, Nelson R, Rodriquez F (2005). Structural control onsweet spot distribution in a carbonate reservoir: Concepts and 3D Models (Cogollo Group, Lower Cretaceous, Venezuela). AAPG Bulletin, v.89,no.12(December 2005), pp.1651-1676.

Veselovsky Z (2004): Integrated numerical modelling of a polyhistory basin, Southern Cantabrian Basin (Palaeozoic, NW-Spain), Gaea heidelbergensis 13, 225p.

Hansen B, Weihe T (2004). The Control of Geomechanics on Reservoir Properties of the Upper Sarir Sandstone Fm., Nakhla Oil Field, Hameimat Trough, East Sirt Basin, Libya. Symposium on the Geology of East Libya.

Weihe T, Porebski S, Dellepiane S (2004). Depositional architecture of the Upper Sarir Sandstone Formation (Lower Cretaceous) in the Nakhla and Tuama oil fields, Hameimat Trough, East Sirt Basin, Libya. Symposium on the Geology of East Libya.

Moeller, U., Eisenach, P., Karg, H., Klarner, S., Fischer, K., Van Boom, R., Schleicher, M., Schulz, U., & Tscherny, R (2004): Basin Modelling, a valuable Exploration tool - An Example from Brazils Campos Basin.- AAPG Int. Conf. 2004, Cancun (Mexico).

Veselovsky Z, Bechstaedt T, Zuehlke R (2003): Combination of Structural Balancing, Reverse Basin and Forward Stratigraphic Modelling: New Methods Applied to Old Rocks (Southern Cantabrian Mountains, Spain). AAPG Annual Meeting, 12, A176.

Veselovsky Z, Bechstaedt T, Zuehlke R (2003): Sequence Stratigraphic Simulation in a Highly Tectonized Foreland-Basin (Cantabrian Zone, NW Spain). NGF, Abstracts and Proceedings of the Geological Society of Norway, 1, p. 97.

Schleicher, M & Thiede, P (2003): Evaluation of Petrel vs RMS in a case study, Giant Urengoy Gas Field, Siberia, Russia.- 2nd Roxar German User Conference, February 2003, Kassel (Germany).

Veselovsky Z, Bechstaedt T, Zuehlke R (2002): Quantitative Beckenanalyse auf der Basis kombinierter 2D-Rueckwaerts- und Vorwaertsmodellierungen (Bernesga Tal, Kantabrisches Gebirge, NW-Spanien. Schriftenreihe der DGG, 17, 209-210.

Schleicher,M., Koester,J., Kulke,H. & Weil,W (1998): Reservoir and source rock characterization of the lower Paleozoic interval in the Peribaltic Syneclise in northern Poland.- J. Petrol. Geol., 21/1, p. 33-56, Beaconsfield (US).

Lawrence,D.A. & Schleicher,M (1996): Syn-sedimentary deformation fabrics from dipmeter and borehole images; Implications for depositional evolution of the Hod and Tor formation in the Valhall field.- Chalk Geoscience Workshop 1996, Stavanger (Norway).