Publikationer av Hans Liwång
Refereegranskade
Artiklar
[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.
Konferensbidrag
[22]
Liwång, H., Rosén, A. (2018). A framework for investigating the potential for operational measures in relation to intact stability. I Proceedings of the 13th International conference on stability of ships and ocean vehicles (STAB 2018). (s. 488-499). Kobe.
[23]
Liwång, H., Ringsberg, J. W. (2013). Ship security analysis : the effect of ship speed and effective lookout. I 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. Presenterad vid 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). I ASME Turbo Expo 2001: Power for Land, Sea, and Air. (s. 2001-0214). The American Society of Mechanical Engineers.
Kapitel i böcker
[26]
Malmio, I. & Liwång, H. (2023). Education for Sustainable Development. I Walter Leal Filho, Anabela Marisa Azul, Federica Doni, Amanda Lange Salvia (Red.), Handbook of Sustainability Science in the Future: Policies, Technologies and Education by 2050 (s. 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. I Tafsir Matin Johansson, Dimitrios Dalaklis, Jonatan Echebarria Fernández, Aspasia Pastra, and Mitchell Lennan (Red.), Smart Ports and Robotic Systems (s. 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. I Stockholm Contributions in Military-Technology 2010 (s. 65-81). Stockholm: Swedish Defence University.
Icke refereegranskade
Artiklar
[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.
Böcker
[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.
Rapporter
[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.
Övriga
[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]
Senaste synkning med DiVA:
2024-04-24 01:02:01