Publikationer av Johan Spross
Refereegranskade
Artiklar
[1]
I. Samuelsson, J. Spross och S. Larsson, "Integrating life-cycle environmental impact and costs into geotechnical design," Proceedings of the Institution of Civil Engineers : Engineering Sustainability, vol. 177, s. 19-30, 2024.
[2]
M. Mohammadi och J. Spross, "Models to Analyze Risk in Time and Cost Estimation of Tunneling Projects," Geotechnical and Geological Engineering, vol. 42, no. 2, s. 1445-1457, 2024.
[3]
M. Mohammadi och J. Spross, "Probabilistic time estimation of tunnels constructed with multiple headings," Tunnelling and Underground Space Technology, vol. 153, 2024.
[4]
D. R. Damasceno, J. Spross och F. Johansson, "Reliability-based design tool for gas storage in lined rock caverns," Georisk : Assessment and Management of Risk for Engineered Systems and Geohazards, vol. 18, s. 410-422, 2024.
[5]
D. R. Damasceno, J. Spross och F. Johansson, "Effect of rock joints on lined rock caverns subjected to high internal gas pressure," Journal of Rock Mechanics and Geotechnical Engineering, vol. 15, no. 7, s. 1625-1635, 2023.
[6]
J. Lidmar et al., "Estimation of small failure probabilities using the Accelerated Weight Histogram method," Probabilistic Engineering Mechanics, vol. 74, 2023.
[7]
J. Spross, T. Gasch och F. Johansson, "Implementation of reliability-based thresholds to excavation of shotcrete-supported rock tunnels," Georisk : Assessment and Management of Risk for Engineered Systems and Geohazards, vol. 17, no. 2, s. 361-375, 2023.
[8]
M. Tidlund, J. Spross och S. Larsson, "Observational method as risk management tool : the Hvalfjörður tunnel project, Iceland," Georisk : Assessment and Management of Risk for Engineered Systems and Geohazards, vol. 17, no. 2, s. 346-360, 2023.
[9]
E. Bismut et al., "Optimal adaptive decision rules in geotechnical construction considering uncertainty," Geotechnique, 2023.
[10]
M. Mohammadi, J. Spross och H. Stille, "Probabilistic Time Estimation of Tunneling Projects : The Uri Headrace Tunnel," Rock Mechanics and Rock Engineering, vol. 56, no. 1, s. 703-717, 2023.
[11]
H. Walter et al., "Rock engineering design in tomorrow's geotechnical toolbox : Eurocode 7 – General Rules (EN 1997-1:2024)," Geomechanics and Tunneling, vol. 16, no. 5, s. 491-509, 2023.
[12]
J. P. Harrison et al., "Rock engineering design in tomorrow's geotechnical toolbox : Perspectives on the evolution to the 2035 third generation of Eurocode," Geomechanics and Tunneling, vol. 16, no. 5, s. 560-572, 2023.
[13]
D. R. Damasceno, J. Spross och F. Johansson, "Rock mass response for lined rock caverns subjected to high internal gas pressure," Journal of Rock Mechanics and Geotechnical Engineering, vol. 15, no. 1, s. 119-129, 2023.
[14]
C. Wersäll, K. R. Massarsch och J. Spross, "Heavy vibratory plate compaction of silty sand: A field study," Soils and Foundations, vol. 62, no. 5, s. 101208, 2022.
[15]
J. Spross et al., "Risk management procedure to understand and interpret the geotechnical context," Georisk : Assessment and Management of Risk for Engineered Systems and Geohazards, vol. 16, no. 2, s. 235-250, 2022.
[16]
J. Spross och S. Larsson, "Probabilistic observational method for design of surcharges on vertical drains," Geotechnique, vol. 71, no. 3, s. 226-238, 2021.
[17]
J. Spross, N. Bergman och S. Larsson, "Reliability-based verification of serviceability limit states of dry deep mixing columns," Journal of Geotechnical and Geoenvironmental Engineering, vol. 147, no. 3, 2021.
[18]
W. Bjureland et al., "Influence of spatially varying thickness on load-bearing capacity of shotcrete," Tunnelling and Underground Space Technology, vol. 98, 2020.
[19]
J. Spross et al., "Principles of risk‑based rock engineering design," Rock Mechanics and Rock Engineering, vol. 53, s. 1129-1143, 2020.
[20]
J. Spross, "Principles of structured risk management in rock engineering," Rakenteiden Mekaniikka, no. 4, s. 329-341, 2020.
[21]
A. Prästings, J. Spross och S. Larsson, "Characteristic values of geotechnical parameters in Eurocode 7," Proceedings of the Institution of Civil Engeneers : Geotechnical Engineering, vol. 172, no. 4, s. 301-311, 2019.
[22]
A. Abbaszadeh Shahri et al., "Landslide susceptibility hazard map in southwest Sweden using artificial neural network," Catena (Cremlingen. Print), vol. 183, 2019.
[23]
W. Bjureland et al., "Probability distributions of shotcrete parameters for reliability-based analyses of rock tunnel support," Tunnelling and Underground Space Technology, vol. 87, s. 15-26, 2019.
[24]
J. Spross och T. Gasch, "Reliability-based alarm thresholds for structures analysed with the finite element method," Structural Safety, vol. 76, s. 174-183, 2019.
[25]
J. Spross et al., "On the Need for a Risk-Based Framework in Eurocode 7 to Facilitate Design of Underground Openings in Rock," Rock Mechanics and Rock Engineering, vol. 51, no. 8, s. 2427-2431, 2018.
[26]
J. Spross, L. Olsson och H. Stille, "The Swedish Geotechnical Society's methodology for risk management : a tool for engineers in their everyday work," Georisk : Assessment and Management of Risk for Engineered Systems and Geohazards, vol. 12, no. 3, s. 183-189, 2018.
[27]
W. Bjureland et al., "Challenges in applying fixed partial factors to rock engineering design," Geotechnical Special Publication, no. 283, s. 384-393, 2017.
[28]
A. Prästings et al., "Erratum: : Implementing the Extended Multivariate Approach in Design with Partial Factors for a Retaining Wall in Clay" by Anders Prästings, Johan Spross, Rasmus Müller, Stefan Larsson, William Bjureland, and Fredrik Johansson (ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems, Part A: Civil Engineering (1983) (257–277) DOI; 10.1061/AJRUA6.0000918)," ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems, Part A: Civil Engineering, vol. 6, no. 2, 2017.
[29]
A. Prästings et al., "Implementing the Extended Multivariate Approach in Design with Partial Factors for a Retaining Wall in Clay," ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems, Part A: Civil Engineering, vol. 3, no. 4, 2017.
[30]
W. Bjureland et al., "Reliability aspects of rock tunnel design with the observational method," International Journal of Rock Mechanics And Mining Sciences, vol. 98, s. 102-110, 2017.
[31]
J. Spross och F. Johansson, "When is the observational method in geotechnical engineering favourable?," Structural Safety, vol. 66, s. 17-26, 2017.
[32]
A. Krounis et al., "Influence of cohesive strength in probabilstic sliding stability re-assessment of concrete dams," Journal of Geotechnical and Geoenvironmental Engineering, vol. 143, no. 2, 2016.
[33]
R. Müller, S. Larsson och J. Spross, "Multivariate stability assessment during staged construction," Canadian geotechnical journal (Print), vol. 53, no. 4, s. 603-618, 2016.
[34]
J. Spross et al., "Using observational method to manage safety aspects of remedial grouting of concrete dam foundations," Geotechnical and Geological Engineering, vol. 34, no. 5, s. 1613-1630, 2016.
[35]
R. Müller, S. Larsson och J. Spross, "Extended multivariate approach for uncertainty reduction in the assessment of undrained shear strength in clays," Canadian geotechnical journal (Print), vol. 51, no. 3, s. 231-245, 2014.
[36]
J. Spross och S. Larsson, "On the observational method for groundwater control in the Northern Link tunnel project, Stockholm, Sweden," Bulletin of Engineering Geology and the Environment, vol. 73, no. 2, s. 401-408, 2014.
[37]
J. Spross, F. Johansson och S. Larsson, "On the use of pore pressure measurements in safety reassessments of concrete dams founded on rock," Georisk : Assessment and Management of Risk for Engineered Systems and Geohazards, vol. 8, no. 2, s. 117-128, 2013.
Konferensbidrag
[38]
J. Spross, J. Grasmick och I. Papaioannou, "Toward probabilistic ground models for time and cost estimation of tunnel projects," i Proceedings of the 7th International Conference on Geotechnical and Geophysical Site Characterization, 2024, s. 1801-1806.
[39]
I. Samuelsson, J. Spross och S. Larsson, "Assessment of climate impact and costs comparing two railway embankment fill methods," i Proceedings The Fifth International Conference on New Developments in Soil Mechanics and Geotechnical Engineering, 2023, s. 181-189.
[40]
D. Cotoarbă et al., "Data-driven uncertainty reduction in geotechnical engineering : Optimal preloading of a road embankment," i 14th International Conference on Applications of Statistics and Probability in Civil Engineering (ICASP14), 2023.
[41]
J. Spross och J. Lidmar, "Dirichlet Distribution for Tunnel Construction Class Proportions in Probabilistic Time and Cost Estimations," i GEO-RISK 2023 : DEVELOPMENTS IN RELIABILITY, RISK, AND RESILIENCE, 2023, s. 111-120.
[42]
C. Cannizzaro et al., "Effect of Uncertainty in Design Decisions for Driven Piles in Soil with High Boulder Content," i GEO-RISK 2023 : ADVANCES IN MODELING UNCERTAINTY AND VARIABILITY, 2023, s. 268-276.
[43]
C. Cannizzaro et al., "Limitations Of The Current Approach For Assessmentof Pile Drivability In Soil With High Boulder Content," i GRUNDLÄGGNINGSDAGEN 2023, 2023, s. 137-145.
[44]
C. Edelbro, J. Hellberg och J. Spross, "Mining Applications for Probabilistic Design," i GEO-RISK 2023 : DEVELOPMENTS IN RELIABILITY, RISK, AND RESILIENCE, 2023, s. 93-101.
[45]
M. Mohammadi och J. Spross, "Modeling uncertainty of activity duration in probabilistic time estimation of tunneling projects," i Proceedings 15th ISRM Congress 2023 & 72nd Geomechanics Colloquium, 2023, s. 403-408.
[46]
M. Mohammadi och J. Spross, "RISK MODEL FOR UNDERSTANDING UNCERTAINTY IN TIME AND COST ESTIMATION IN TUNNELING PHASES," i Underground construction Prague 2023, 29-05-2023 - 31-05-2023, 2023.
[47]
J. Lidmar, J. Spross och J. Leander, "Accelerated Weight Histogram Method for Rare Event Simulations," i Proceedings of the 13th International Conference on Structural Safety and Reliability (ICOSSAR 2021-2022), Shanghai, 2022, s. 0501-0507.
[48]
G. Franzén et al., "National implementation commission for Eurocode 7 for joint development of geotechnical engineering practice," i Proceedings of 20th International Conference on Soil Mechanics and Geotechnical Engineering, 2022, s. 4759-4764.
[49]
J. Spross, S. Hintze och S. Larsson, "Optimization of LCC for soil improvement using Bayesian statistical decision theory," i Proceedings of the 8th International Symposium on Reliability Engineering and Risk Management, 2022, s. 392-397.
[50]
J. Spross, "Risk management of cost overrun and delay in underground excavation in rock," i Proceedings of the 8th International Symposium for Geotechnical Safety and Risk, 2022, s. 99-108.
[51]
I. Samuelsson, S. Larsson och J. Spross, "Life cycle assessment and life cycle cost analysis for geotechnical engineering: review and research gaps," i IOP Conference Series: Earth and Environmental Science, 2021.
[52]
A. Beijer Lundberg, E. Alderlieste och J. Spross, "Risk management and risk acceptance regarding the stability of slopes: Case study," i 18th Nordic Geotechnical Meeting, 18-19 January 2021, Helsinki, Finland, 2021.
[53]
J. Spross, N. Bergman och S. Larsson, "Toward reliability based serviceability limit state verification of dry deep mixing columns," i Proceedings of the DFI Deep Mixing Conference 2021 - An online conference, 2021, s. 174-183.
[54]
D. R. Damasceno, J. Spross och F. Johansson, "Reliability-based design methodology for lined rock cavern depth using the response surface method," i ISRM International Symposium - EUROCK 2020, 2020.
[55]
D. R. Damasceno et al., "Efficiency of subset simulation in the design of lined rock caverns for storage of hydrogen gas," i Proceedings of the 13th International Conference on Applications of Statistics and Probability in Civil Engineering, 2019.
[56]
J. Spross, A. Prästings och S. Larsson, "Probabilistic evaluation of settlement monitoring with the observational method during construction of embankments on clay," i Proceedings of the 7th International Symposium on Geotechnical Safety and Risk (ISGSR 2019) : State-of-the-Practice in Geotechnical Safety and Risk, 2019.
[57]
F. Johansson et al., "Some recent developments in reliability based slidingstability assessments for concrete dams," i 26th International Congress on Large Dams, 2018, 2018, s. 1277-1294.
[58]
W. Bjureland et al., "Some aspect of reliability-based design for tunnels using observational method (EC7)," i EUROCK 2015 & 64th Geomechanics Colloquium, 2015.
[59]
J. Spross et al., "Would risk management have helped? – A case study," i Geotechnical safety and risk V, 2015.
[60]
J. Spross et al., "Towards an improved observational method," i Rock Engineering and Rock Mechanics : Structures in and on Rock Masses - Proceedings of EUROCK 2014, ISRM European Regional Symposium, 2014, s. 1435-1440.
[61]
J. Spross, F. Johansson och S. Larsson, "Reducing uplift pressure uncertainty with measurements under concrete dams," i Proceedings ICOLD 2013 International Symposium, 2013, s. 2551-2560.
Icke refereegranskade
Artiklar
[62]
J. Spross, "Uncertainty, Modeling, and Decision Making in Geotechnics," Structural Safety, vol. 109, 2024.
[63]
[64]
L. Olsson, J. Spross och O. Båtelsson, "Nytt verktyg hjälper till att strukturera riskerna," Bygg och Teknik, vol. 115, no. 1, s. 34-39, 2023.
[65]
M. Tidlund, J. Spross och S. Larsson, "Riskhantering med observationsmetoden : Praktiska rekommendationer," Bygg och Teknik, vol. 114, no. 1, s. 38-42, 2022.
[66]
L. Olsson, J. Spross och O. Båtelsson, "Behöver riskhantering verkligen vara så krångligt?," Bygg och Teknik, vol. 113, no. 1, s. 36-39, 2021.
[67]
M. Mohammadi och J. Spross, "Mot rättvisare riskdelning i tunnelprojekt," Bygg och Teknik, vol. 113, no. 1, s. 32-35, 2021.
[68]
[69]
A. Abbaszadeh Shahri et al., "Kartering av skredbenägenhet medartificiell intelligens," Bygg och Teknik, no. 1, 2018.
[70]
S. Larsson, J. Spross och W. Bjureland, "Obefintlig tillsyn utarmar geoteknisk kompetens hos husbyggare," Bygg och Teknik, no. 1, s. 61-63, 2017.
[71]
J. Spross et al., "Geotekniska risker kan hanteras bättre," Bygg och Teknik, vol. 108, no. 1, s. 63-66, 2016.
[72]
S. Larsson et al., "Tar husbyggare geoteknisk säkerhet på allvar?," Samhällsbyggaren, no. 3, s. 30-31, 2016.
[73]
S. Larsson et al., "Geotekniker och bergmekaniker ska lära för livet : men hur ska det gå till?," Bygg och Teknik, no. 1, s. 70-72, 2014.
[74]
J. Spross, F. Johansson och S. Larsson, "Tillståndsbedömning av betongdammar grundlagda på berg med observationsmetoden," Bygg och Teknik, no. 1, s. 83-87, 2013.
Konferensbidrag
[75]
J. Spross och H. Stille, "Geotekniska bedömningsgrunder (GBR) : Ett verktyg för tydligare riskdelning i kontrakt," i Bergteknikdagen 2023, 2023.
[76]
C. Edelbro et al., "Implementering av 2:a generationens Eurokod inom bergbyggande," i Bergdagarna 2022, 2022.
[77]
W. Bjureland et al., "Dimensionering av sprutbetongförstärkning för lösa block med sannolikhetsbaserade metoder," i Bergdagarna 2020, 2020.
[78]
J. Spross, T. Gasch och F. Johansson, "Observationsmetoden i ett sannolikhetsbaserat ramverk – utmaningar och möjligheter," i Bergdagarna 2020,, 17-18 mars, 2020.
[79]
J. Spross och S. Larsson, "Sannolikhetsbaserad dimensionering av överlast med observationsmetoden," i Grundläggningsdagen 2020, 2020.
[80]
L. Olsson et al., "Framtidens riskhantering – nu med systemförståelse," i Grundläggningsdagen 2019, 2019, s. 45-56.
[81]
J. Spross et al., "Hur ska bergbyggande kunna inkluderas i Eurokod 7 : How to include rock engineering in Eurocode 7," i Proceedings Bergdagarna 2019, 2019.
[82]
A. Abbaszadeh Shahri et al., "Storskalig kartering av skredbenägenhet i västra Götaland med artificiell intelligens," i Grundläggningsdagen 2018, 2018, s. 107-113.
[83]
S. Larsson et al., "Tar byggherrar geotekniska risker på allvar?," i Grundläggningsdagen 2017, 2017, s. 31-42.
[84]
J. Spross, "Vilken roll har observationsmetoden i framtidens bergbyggande?," i Bergmekanikdagen 2017, 2017, s. 71-80.
[85]
J. Spross, F. Johansson och S. Larsson, "Observationsmetoden – hur svårt kan det vara?," i Grundläggningsdagen 2015, 2015, s. 249-258.
[86]
J. Spross, H. Lizka och S. Larsson, "Observationsmetodens tillämpning på inläckande grundvatten i bergtunnlar – Fallstudie: Norra länken i Stockholm," i Bergmekanikdag 2012 - Föredrag, 2012, s. 89-100.
Avhandlingar
[87]
J. Spross, "Toward a reliability framework for the observational method," Doktorsavhandling Stockholm : Kungliga Tekniska högskolan, TRITA-JOB PHD, 1023, 2016.
[88]
J. Spross, "A Critical Review of the Observational Method," Licentiatavhandling Stockholm : KTH Royal Institute of Technology, TRITA-JOB. LIC, 2024, 2014.
Rapporter
[89]
J. Spross, "Beslutsteori i geotekniken : Förstudie," Stockholm : KTH Royal Institute of Technology, TRITA-ABE-RPT, 2317, 2023.
[90]
J. Spross och H. Stille, "Hantering av ekonomiska risker i undermarksprojekt : Geotekniska bedömningsgrunder för riskdelning," Stockholm : Stiftelsen Bergteknisk forskning, BeFo rapport, 227A, 2022.
[91]
J. Spross, T. Gasch och F. Johansson, "Praktisk användning av observationsmetoden i ett sannolikhetsbaserat ramverk : Rekommendationer och beräkningsexempel.," Stockholm : Stiftelsen Bergteknisk forskning, BeFo rapport, 205, 2022.
[92]
J. Spross et al., "Toward risk-based life cycle assessments in geotechnical design," Stockholm : KTH Royal Institute of Technology, TRITA-ABE-RPT, 2222, 2022.
[93]
Z.-J. Cao et al., "State-of-the-art review of inherent variability and uncertainty in geotechnical properties and models : Chapter 6: Determining characteristic values of geotechnical parameters and resistance: an overview," International Society for Soil Mechanics and Geotechnical Engineering, 2021.
[94]
J. Spross et al., "Utredning av riskbaserade principer inom bergdimensionering : Så bör en standard vara uppbyggd," Stockholm, 2019.
[95]
F. Johansson et al., "Investigation of research needs regarding the storage of hydrogen gas in lined rock caverns : Prestudy for Work Package 2.3 in HYBRIT Research Program 1," Stockholm : KTH Royal Institute of Technology, TRITA-ABE-RPT, 182, 2018.
[96]
F. Johansson, W. Bjureland och J. Spross, "Application of Reliability-based Design Methods to Underground Excavation in Rock," , BeFo Rapport, 155, 2016.
[97]
J. Spross et al., "Hantering av geotekniska risker i byggprojekt : Ett praktiskt tillämpningsexempel," SBUF, Svenska Byggbranchens utvecklingsfond, SBUF rapport, 13009, 2015.
[98]
F. Johansson, J. Spross och L. Fransson, "Dammsäkerhet - Islast mot dammkonstruktioner : Sammanställning av kunskapsläget samt förslag till forskning och utveckling," Stockholm : Elforsk AB, Elforsk rapport, 13:56, 2013.
Övriga
[99]
M. Mohammadi et al., "Modelling construction performance variability for probabilistic time estimation of tunneling projects," (Manuskript).
[100]
M. Mohammadi, J. Spross och H. Stille, "Comparison of probabilistic methods for time and cost estimation of tunneling projects," (Manuskript).
[101]
W. Bjureland et al., "Influence from spatially varying thickness on shotcrete’s load-bearing capacity," (Manuskript).
[102]
M. Tidlund, J. Spross och S. Larsson, "Observational Method as Risk Management Tool: the Hvalfjörður Tunnel Project, Iceland," (Manuskript).
[103]
M. Mohammadi, J. Spross och H. Stille, "Probabilistic time estimation of tunneling projects: The Uri headrace tunnel," (Manuskript).
[104]
M. Mohammadi och J. Spross, "Probabilistic time estimation of underground structures constructed with multiple headings," (Manuskript).
[105]
W. Bjureland et al., "Reliability-based design principles of shotcrete support for tunnels in hard rock," (Manuskript).
[106]
W. Bjureland, F. Johansson och J. Spross, "Spatial Variability of Shotcrete Thickness in Design of Rock Tunnel Support," (Manuskript).
Senaste synkning med DiVA:
2024-11-17 00:45:53