Böcker
Böcker, bokrecensioner och kapitel i böcker
[1]
B. Djordjevic et al.,
"Framework for Rail Level Crossings Digital Twin Development,"
i Transport Transitions : Advancing Sustainable and Inclusive Mobility, : Springer Nature, 2026, s. 822-827.
[2]
I. Martinac et al.,
"Preface,"
i Energy Informatics : First Nordic Energy Informatics Academy Conference, EIA Nordic 2025, Stockholm, Sweden, August 20–22, 2025, Proceedings, Part I, Ivo Martinac; Bo Nørregaard Jørgensen; Zheng Grace Ma; Rúnar Unnþórsson; Chiara Bordin red., : Springer Science and Business Media Deutschland GmbH, 2026, s. v-vi.
[3]
I. Martinac et al.,
"Preface,"
i Energy Informatics : First Nordic Energy Informatics Academy Conference, EIA Nordic 2025, Stockholm, Sweden, August 20–22, 2025, Proceedings, Part II, Ivo Martinac, Bo Nørregaard Jørgensen, Zheng Grace Ma, Rúnar Unnþórsson, Chiara Bordin red., : Springer Science and Business Media Deutschland GmbH, 2026, s. v-vi.
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C. S. Martín et al.,
"Data for Shifting to Rail Freight Transport : A Review of Free Online Tools,"
i Lecture Notes in Mobility, McNally; C.; Carroll; P.; Martinez-Pastor; B.; Ghosh; B.; Efthymiou; M.; Valantasis-Kanellos; N. red., : Springer Nature, 2025, s. 460-466.
[5]
T. A. Pham et al.,
"Partial factor methods for rock tunnel design : Fundamental principles and assumptions,"
i Tunnelling into a Sustainable Future – Methods and Technologies, Fredrik Johansson, Anders Ansell, Daniel Johansson, Johan Funehag, Jenny Norrman red., : Informa UK Limited, 2025, s. 1729-1736.
[6]
E. Jenelius et al.,
"Teknikutveckling,"
i GrundBULT : Utgångspunkter för forskning om beredskapshänsyn i transportsystem, Pär Eriksson red., : FOI - Totalförsvarets forskningsinstitut, 2025, s. 123-144.
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A. Alyaseen et al.,
"From waste to resource : Incorporating foundry sand in SCC for sustainable construction solutions,"
i Alternative Cementitious Materials for Self-Compacting Concrete : Woodhead Publishing Series in Civil and Structural Engineering, : Elsevier BV, 2024, s. 205-224.
[8]
S. Vosoughian och R. Balieu,
"Quantifying damage evolution in asphalt materials: An experimental investigation,"
i Bituminous Mixtures and Pavements VIII, : Informa UK Limited, 2024, s. 321-327.
[9]
J. C. Pais et al.,
"Crumb Rubber Modified Binders,"
i RILEM State-of-the-Art Reports, : Springer Nature, 2023, s. 37-67.
[10]
D. S. Ásgrímsson et al.,
"Bayesian Deep Learning for Vibration-Based Bridge Damage Detection,"
i Structural Integrity, : Springer Nature, 2022, s. 27-43.
[11]
K. Gudmundsson, G. Digregorio och J. Cui,
"Customized data capture for BIM: Using APIs and visual programming,"
i Research Anthology on BIM and Digital Twins in Smart Cities, : IGI Global, 2022, s. 189-207.
[12]
A. C. Neves, I. González Silva och R. Karoumi,
"Development and Validation of a Data-Based SHM Method for Railway Bridges,"
i Structural Health Monitoring Based on Data Science Techniques, : Springer Nature, 2022, s. 95-116.
[13]
E. Jenelius,
"Impact on Public Transport,"
i Transport and Pandemic Experiences, Maria Attard and Corrinne Mulley red., Bingley : Emerald Group Publishing Limited, 2022, s. 287-302.
[14]
S. Tell et al.,
"Improved dynamic resilience of railway bridges using external dampers,"
i Rail Infrastructure Resilience: A Best-Practices Handbook, : Elsevier BV, 2022, s. 409-423.
[15]
E. Jenelius,
"Rail transport resilience to demand shocks and COVID-19,"
i Rail Infrastructure Resilience : A Best-Practices Handbook, Rui Calçada and Sakdirat Kaewunruen red., 1. uppl. : Elsevier, 2022, s. 65-79.
[16]
W. Liu,
"Ventilation system design : numerical method,"
i Handbook of Ventilation Technology for the Built Environment: Design, Control and Testing, : Institution of Engineering and Technology (IET), 2022, s. 281-306.
[17]
O. Skoglund,
An Introduction to Fatigue of Civil Engineering Structures.
Stockholm, Sweden : KTH Royal Institute of Technology, 2021.
[18]
A. Andersson,
"Full-Scale Forced Vibration Tests of a Railway Bridge,"
i Mechanisms and Machine Science 97, : Springer Nature, 2021, s. 224-232.
[19]
A. Ansell et al.,
"Kap 14 - Hållfasthet,"
i Betonghandbok Material – Del II, Stockholm : AB Svensk Byggtjänst, 2021, s. 27-188.
[20]
J. Silfwerbrand,
"Kap 15 - Vidhäftning,"
i Betonghandbok Material – Del II, Stockholm : AB Svensk Byggtjänst, 2021, s. 189-210.
[21]
J. Silfwerbrand et al.,
"Kap 21 - Speciella egenskaper,"
i Betonghandbok Material – Del II, Stockholm : AB Svensk Byggtjänst, 2021, s. 511-570.
[22]
E. Dolk,
"Kap 29 - Nötningsmotstånd,"
i Betonghandbok Material – Del II, Stockholm : AB Svensk Byggtjänst, 2021, s. 863-884.
[23]
J. Silfwerbrand,
"Kap 31 - Fiberbetong,"
i Betonghandbok Material – Del II, Stockholm : AB Svensk Byggtjänst, 2021, s. 919-944.
[24]
M. Döse,
Reducing Radon Gas Emissions in Concrete.
Stockholm : KTH Royal Institute of Technology, 2021.
[25]
E. Jenelius och L.-G. Mattsson,
"Resilience of transport systems,"
i International Encyclopedia of Transportation, Roger Vickerman red., 1. uppl. : Elsevier, 2021, s. 258-267.
[26]
F. Chen,
"Inductive power transfer technology for road transport electrification,"
i Eco-efficient Pavement Construction Materials, : Elsevier Inc., 2020, s. 383-399.
[27]
A. Zhivov et al.,
"Principles of air and contaminant movement inside and around buildings,"
i Industrial Ventilation Design Guidebook : Volume 1 Fundamentals, 2. uppl. : Elsevier BV, 2020, s. 245-370.
[28]
R. Allahvirdizadeh, R. Davoodi och Z. Golshan,
"Traditional energy saving techniques and geothermal heating and cooling systems,"
i Design of Energy-Efficient Buildings, : Nova Science Publishers, Inc., 2020, s. 95-130.
[29]
R. F. Abenoza et al.,
"User experiences and perceptions of women-only transport services in Mexico,"
i Gendering Smart Mobilities, : Taylor and Francis, 2020, s. 188-209.
[30]
R. Lahdelma et al.,
"Optimization and Multicriteria Evaluation of District Heat Production and Storage,"
i Multiple Criteria Decision Making, : Springer Nature, 2019, s. 371-396.
[31]
G. Tebaldi et al.,
"Advanced measurement systems for crack characterization,"
i Mechanisms of Cracking and Debonding in Asphalt and Composite Pavements, : Springer, 2018, s. 155-227.
[32]
J. Silfwerbrand,
"Kap 1 - Betong, betongbyggande och betongbyggnad,"
i Betonghandbok Material – Del I, Stockholm : AB Svensk Byggtjänst, 2017, s. 13.
[33]
B. Lagerblad och H.-E. Gram,
"Kap 3 - Ballast,"
i Betonghandbok Material – Del I, Stockholm : AB Svensk Byggtjänst, 2017, s. 19.
[34]
B. Lagerblad,
"Kap 4 - Blandningsvatten,"
i Betonghandbok Material – Del I, Stockholm : AB Svensk Byggtjänst, 2017, s. 4.
[35]
O. Cats,
"Real-time operations management decision support systems a conceptual framework,"
i Modelling Intelligent Multi-Modal Transit Systems, : CRC Press, 2017, s. 108-129.
[36]
A. Varveri, J. Zhu och N. Kringos,
"Moisture damage in asphaltic mixtures,"
i Advances in Asphalt Materials : Road and Pavement Construction, Shin-Che Huang and Hervé Di Benedetto red., 1. uppl. : Woodhead Publishing Limited, 2015, s. 303-344.
[37]
S. Li och M. Östling,
"Silicone-Based Soft Electronics,"
i Concise Encyclopedia of High Performance Silicones, : Wiley, 2014, s. 273-292.
[38]
A. Falk,
"Cross-laminated timber: Driving forces and innovation,"
i Structures and Architecture: New concepts, applications and challenges, : CRC Press, 2013, s. 511-518.
[39]
H. Piber, M. Partl och C. Raab,
"Interlaboratory tests on pavement performance prediction and evaluation-rutting,"
i RILEM State-of-the-Art Reports, : Springer Netherlands, 2013, s. 257-302.
[40]
M. Partl och E. Chailleux,
"Introduction,"
i RILEM State-of-the-Art Reports, : Springer Netherlands, 2013, s. 1-14.
[41]
F. Canestrari et al.,
"Mechanical testing of interlayer bonding in asphalt pavements,"
i Advances in Interlaboratory Testing and Evaluation of Bituminous Materials, : Springer Netherlands, 2013, s. 303-360.
[42]
M. Enckell et al.,
"New and Emerging Technologies in Structural Health Monitoring,"
i Handbook of Measurement in Science and Engineering : Volume 1, Myer Kutz red., Hoboken, New Jersey : Wiley, 2013, s. 3-78.
[43]
N. Bergman, R. Ignat och S. Larsson,
"Serviceability limit state design of lime-cement columns-a reliability-based design approach,"
i Geotechnical Safety and Risk IV, : CRC Press, 2013, s. 417-422.
[44]
C. M. Clemons et al.,
"Chapter 13 : Wood/nonwood thermoplastic composites,"
i Handbook of wood chemistry and wood composites, second edition, Rowell Roger M. red., 2. uppl. Boca Racon, FL : CRC Press, 2012, s. 473-508.
[45]
J. Bröchner,
"Feedback from facilities management to design and construction - systems issues,"
i The Organization and Management of Construction: : Managing construction information, David Langford, Arkady Retik red., : CRC Press, 2012, s. 238-246.
[46]
S. Kilkis,
"Green Cities and Compound Metrics Using Exergy Analysis,"
i Encyclopedia of Energy Engineering and Technology, Sohail Anwar red., : Taylor & Francis, 2012.
[47]
A. Wörman,
"Hydrological Statistics for Regulating Hydropower,"
i Hydropower, Hossein Samadi-Boroujeni red., : IN-TECH, 2012.
[48]
J. Wiberg, R. Karoumi och C. Pacoste,
"Optimized model updating of a railway bridge for increased accuracy in moving load simulations,"
i Infrastructure Design, Signalling and Security in Railway, : InTech, 2012, s. 203-224.
[49]
B. Dargahi,
"Reservoir sedimentation,"
i Encyclopedia of Earth Sciences Series, : Springer Netherlands, 2012, s. 628-649.
[50]
M. Granroth,
BIM - ByggnadsInformationsModellering : Orientering i modern arbetsmetod.
1. uppl. Stockholm : Godoymedia, 2011.