Publications by Hans Liwång
Peer reviewed
Articles
[1]
Ekenstedt, M., Liwång, H. & Shepherd, C. (2024). From strategy to delivered capability, A value chain analysis for the Swedish Armed Forces. Journal of Open Innovation: Technology, Market, and Complexity, 10(1).
[2]
Liwång, H., Kindgren, J., Granholm, J. & Tärnholm, T. (2023). Analyzing naval fleet modelling with a tactics perspective : the case of implementation of autonomous vessels. International Journal of Maritime Engineering, 165(A3), A229-A238.
[3]
Liwång, H. (2023). Future National Energy Systems, Energy Security andComprehensive National Defence. Energies, 6(18).
[4]
Liwång, H., Andersson, K. E., Bang, M., Malmio, I. & Tärnholm, T. (2023). How can systemic perspectives on defence capability development be strengthened?. Defence Studies, 23(3), 399-420.
[5]
Ávila-Zúñiga-Nordfjeld, A., Dansarie, M., Liwång, H., Dalaklis, D. & Mejia, M. Q. (2023). Proposing a Mathematical Dynamic Model to Develop a National Maritime Security Assessment and Build a National Maritime Security Plan. Journal of Maritime Research, 20(3), 123-132.
[6]
Liwång, H. (2022). Defense development: The role of co-creation in filling the gap between policy-makers and technology development. Technology in society, 68, 1-10.
[7]
Tärnholm, T. & Liwång, H. (2022). Military autonomous underwater vehicles : An implementation perspective on legal and ethical aspects. Journal of Maritime Research, 9(3), 39-46.
[8]
Tärnholm, T. & Liwång, H. (2022). Military organisations and emerging technologies – How do unmanned systems find a role in future navies?. Journal of Military Studies, 11(1), 37-48.
[9]
Liwång, H. (2020). Safety management module to create social sustainability skills. International Journal of Sustainability in Higher Education, 21(4), 717-732.
[10]
Liwång, H. (2020). The interconnectedness between efforts to reduce the risk related to accidents and attacks - naval examples. Journal of Transportation Security, 13(3-4), 245-272.
[11]
Liwång, H. (2019). Exposure, vulnerability and recoverability in relation to a ship's intact stability. Ocean Engineering, 187.
[12]
Liwång, H. (2017). Piracy off West Africa from 2010 to 2014 : an analysis. WMU Journal of Maritime Affairs (JoMA), 16(3), 385-403.
[13]
Liwång, H. (2017). Risk communication within military decision-making : pedagogic considerations. Defense and Security Analysis, 33(1), 30-44.
[14]
Liwång, H. (2016). Conditions for a risk-based naval ship survivability approach : a study on fire risk analysis. Naval engineers journal (Print), 128(3), 87-101.
[15]
Bang, M. & Liwång, H. (2016). Influences on threat assessment in a military context. Defense and Security Analysis, 32(3), 264-277.
[16]
Liwång, H. & Jonsson, H. (2015). Comparison between different survivability measures on a generic frigate. International Journal of Maritime Engineering, 157, A125-A134.
[17]
Liwång, H., Sörenson, K. & Österman, C. (2015). Ship security challenges in high-risk areas : manageable or insurmountable?. WMU Journal of Maritime Affairs (JoMA), 14(2), 201-217.
[18]
Liwång, H. (2015). Survivability of an Ocean Patrol Vessel - Analysis approach and uncertainty treatment. Marine Structures, 43, 1-21.
[19]
Liwång, H., Ericson, M. & Bang, M. (2014). An examination of the implementation of risk based approaches in military operations. Journal of Military Studies, 5(2), 1-27.
[20]
Liwång, H., Ringsberg, J. W. & Norsell, M. (2013). Quantitative risk analysis : Ship security analysis for effective risk control options. Safety Science, 58, 98-112.
[21]
Liwång, H., Ringsberg, J. W. & Norsell, M. (2012). Probabilistic Risk Assessment for Integrating Survivability and Safety Measures on Naval Ships. International Journal of Maritime Engineering, 154, A21-A30.
Conference papers
[22]
Liwång, H., Rosén, A. (2018). A framework for investigating the potential for operational measures in relation to intact stability. In Proceedings of the 13th International conference on stability of ships and ocean vehicles (STAB 2018). (pp. 488-499). Kobe.
[23]
Liwång, H., Ringsberg, J. W. (2013). Ship security analysis : the effect of ship speed and effective lookout. In Proceedings of the ASME 32nd International Conference on Ocean, Offshore and Arctic Engineering (OMAE 2013). The American Society of Mechanical Engineers.
[24]
Liwång, H., Westin, J., Wikingsson, J., Norsell, M. (2010). Minimising Risk from Armed Attacks : The new naval ship code’s effects. Presented at International Society of Military Sciences Conference 2010 (ISMS 2010). The International Society of Military Sciences.
[25]
Liwång, H., Pejlert, L., Miller, S., Gustavsson, J.-E. (2001). Management of High Speed Machinery Signatures to Meet Stealth Requirement in the Royal Swedish Navy Visby Class Corvette (YS2000). In ASME Turbo Expo 2001: Power for Land, Sea, and Air. (pp. 2001-0214). The American Society of Mechanical Engineers.
Chapters in books
[26]
Malmio, I. & Liwång, H. (2023). Education for Sustainable Development. In Walter Leal Filho, Anabela Marisa Azul, Federica Doni, Amanda Lange Salvia (Ed.), Handbook of Sustainability Science in the Future: Policies, Technologies and Education by 2050 (pp. 1729-1749). Cham: Springer Nature.
[27]
Ávila-Zúñiga-Nordfjeld, A., Liwång, H. & Dalaklis, D. (2023). Implications of Technological Innovation and Respective Regulations to Strengthen Port and Maritime Security : An International Agenda to Reduce Illegal Drug Traffic and Countering Terrorism at Sea. In Tafsir Matin Johansson, Dimitrios Dalaklis, Jonatan Echebarria Fernández, Aspasia Pastra, and Mitchell Lennan (Ed.), Smart Ports and Robotic Systems (pp. 135-147). Cham: Springer.
[28]
Liwång, H., Westin, J., Wikingsson, J. & Norsell, M. (2011). Minimising Risk from Armed Attacks : The Effects of the Nato Naval Ship Code. In Stockholm Contributions in Military-Technology 2010 (pp. 65-81). Stockholm: Swedish Defence University.
Non-peer reviewed
Articles
[29]
Moxley, C., Biller, J., Giorgou, E., Koplow, D. & Liwång, H. (2024). Nuclear Weapons and International Law: The Renewed Imperative in Light of the Ukraine War. Panel tree: The role of risk analysis in the application of international law to nuclear weapons use. Georgetown journal of international law, 55.
[30]
Liwång, H. (2024). The possible use of nuclear weapons push the envelop of military risk management. Georgetown journal of international law.
[31]
Liwång, H. (2021). Teknik och materielsystem för marinens framtid. Tidskrift i sjöväsendet(3), 333-340.
[32]
Liwång, H. & Jonsson, H. (2016). Discussion : Comparison between different Survivability measures on a generic frigate. International Journal of Maritime Engineering, 158(A1), 77-78.
[33]
Elofsson, M., Johnsson, F., Forsman, B. & Liwång, H. (2016). Riskanalys för att fatta bättre beslut. Tidskrift i sjöväsendet, 2016(2), 130-141.
[34]
Liwång, H. (2015). Riskanalys inom fartygsskydd - en analysstrategi för bättre beslutsunderlag. Tidskrift i sjöväsendet, 2015(2), 151-168.
[35]
[36]
[37]
Liwång, H. (2003). Military technology education for the Swedish Armed Forces. Militärteknisk tidskrift, 2003(4), 6-10.
Books
[38]
Axberg, S., Andersson, K., Bang, M., Bruzelius, N., Bull, P., Eliasson, P., Ericson, M., Hagenbo, M., Hult, G., Jensen, E., Liwång, H., Löfgren, L., Norsell, M., Sivertun, Å., Svantesson, C.-G. & Vretblad, B. (2013). Lärobok i Militärteknik, vol. 9 : Teori och metod. Stockholm: Swedish Defence University.
[39]
Bruzelius, N., Bull, P., Bäck, L., Eklund, J., Heilert, K., Liwång, H., Stensson, P. & Svantesson, C.-G. (2010). Lärobok i Militärteknik, vol. 5 : Farkostteknik. Stockholm: Swedish Defence University.
[40]
Andersson, K., Artman, K., Astell, M., Axberg, S., Liwång, H., Lundberg, A., Norsell, M. & Tornérhielm, L. (2007). Lärobok i Militärteknik, vol. 1 : Grunder. Stockholm: Swedish Defence University.
Reports
[41]
Silfverskiöld, S., Liwång, H., Hult, G., Sivertun, Å., Bull, P., Sigholm, J. ... Sturesson, P. (2017). Technology Forecast 2017 - Military Utility of Future Technologies : A Report from Seminars at the Swedish Defence University’s (SEDU) Military-Technology Division. Stockholm: Swedish Defence University.
[42]
Liwång, H. (2016). En riskbaserad översyn av hur fartområden tillämpas för örlogsfartyg. Stockholm: Swedish Defence University.
[43]
Silfverskiöld, S., Liwång, H., Hult, G., Bull, P., Persson, B., Thunqvist, O. ... Sturesson, P. (2016). Technology Forecast 2016 : The Military Utility of Future Technologies : a Report from seminars at the Swedish Defence University’s Military-Technology Division. Stockholm: Swedish Defence University.
Other
[44]
[45]
Liwång, H. (2016). Att planera och genomföra utbildning i militärteknik. Stockholm: Swedish Defence University.
[46]
Liwång, H. (2015). Risk-based ship security analysis : a decision-support approach. Gothenburg: Chalmers University of Technology.
[47]
Liwång, H. (2012). Risk-based ship security analysis – an approach based on civilian and military methods. Gothenburg: Chalmers University of Technology.
[48]
Latest sync with DiVA:
2024-12-01 04:32:11