Bibliography
- Abaimov, Stanislov and Paul Ingram, Hacking UK Trident: A Growing Threat (London: British American Security Information Council 2017).
- Annati, Massimo, ‘Unmanned Naval Systems: Surface/Subsurface Vehicles: New Capabilities and Missions’, Military Technology 37/8 (2013), 25–26, 24–28.
- Benbow, Tim, The Magic Bullet? Understanding the Revolution in Military Affairs (London: Brassey’s 2004).
- Borchert, Heiko, Tim Kraemer, and Daniel Mahon, ‘Waiting for Disruption! Undersea Autonomy and the Challenging Nature of Naval Innovation’, RSIS Working Paper No. 302, 2 Feb. 2017.
- Bower, Joseph L. and Clayton M. Christensen, ‘Disruptive Technologies: Catching the Wave’, Harvard Business Review 73/1 (1995), 43–53.
- Brixey-Williams, Sebastian, ‘Prospects for Game-Changers in Detection Technology’, in Rory Medcalf, Katherine Mansted, Stephan Frühling, and James Goldrick (eds.), The Future of the Undersea Deterrent: A Global Survey (Canberra: Australian National University 2020), 80–83.
- C4ADS, Above Us Only Stars: Exposing GPS Spoofing in Russia and Syria (Washington DC: C4ADS 2019).
- Cheung, Tai Ming, Thomas G. Mahnken, and Andrew L. Ross, ‘Assessing the State of Understanding of Defense Innovation’, STIC Research Briefs Series 10 (2018), 3–4.
- CSBA, Taking Back the Seas: Transforming the U.S. Surface Fleet for Decision-Centric Warfare (Washington D.C.: CSBA 2019).
- Dalsjö, Robert, Christofer Berglund, and Michael Jonsson, Bursting the Bubble? Russian A2/AD in the Baltic Sea Region: Capabilities, Countermeasures, and Implications (Stockholm: FOI 2019).
- Dombrowski, Peter J., Eugene Gholz, and Andrew L. Ross, ‘Military Transformation and the Defense Industry after Next: The Defense Industrial Implication of Network-Centric Warfare’, Naval War College Newport Papers 18, 2003.
- Freedman, Lawrence, The Future of War: A History (London: Penguin 2017).
- Friedman, Norman, ‘Strategic Submarines and Strategic Stability: Looking Towards the 2030s’, in Rory Medcalf, Katherine Mansted, Stephan Frühling, and James Goldrick (eds.), The Future of the Undersea Deterrent: A Global Survey (Canberra: Australian National University 2020), 69–79.
- Frühling, Stephan and Guillaume Lasconjarias, ‘NATO, A2/AD and the Kaliningrad Challenge’, Survival 58/2 (2016), 95–116. doi:10.1080/00396338.2016.1161906.
- Gates, Jonathan, ‘Is the SSBN Deterrent Vulnerable to Autonomous Drones?’, The RUSI Journal 161/6 (December 2016), 28–35. doi:10.1080/03071847.2016.1265834.
- Grove, Eric, ‘The Battleship Is Dead: Long Live the Battleship. HMS Dreadnought and the Limits of Technological Innovation’, The Mariner’s Mirror 93/4 (2007), 415–27. doi:10.1080/00253359.2007.10657038.
- Hammes, T.X., ‘Expeditionary Operations in the Fourth Industrial Revolution’, MCU Journal 8/1 ( Spring 2017), 82–107. doi:10.21140/mcuj.2017080105.
- Hammes, T. X., ‘‘Defending Europe: How Converging Technology Strengthens Small Powers’, Scandinavian Journal of Military Studies 2/1 (2019), 20–29. doi:10.31374/sjms.24.
- Heginbotham, Eric et al, The U.S. - China Military Scorecard: Forces, Geography, and the Evolving Balance of Power 1996-2017 (Santa Monica: RAND 2015).
- Heinrich, Lange et al., To the Seas Again: Maritime Defence and Deterrence in the Baltic Region (Tallinn: ICDS 2019).
- Jannson, Nils-Ove, ‘The Baltic: A Sea of Contention’, Naval War College Review 41/3 (1988), 47–61.
- Karlatiras, Stavros, ‘The Changing Nature of Naval Conflicts in Confined and Shallow Waters (CSW)’, in Joachim Krause and Sebastian Bruns (eds.), Routledge Handbook of Naval Strategy and Security (London: Routledge 2016), 166–76.
- Khanna, Monty, ‘Get Ready for the Next RMA at Sea’, USNI Proceedings 146/1 (January 2020). https://www.usni.org/magazines/proceedings/2020/january/get-ready-next-rma-sea
- Kramer, Franklin D. and Magnus Nordenman, ‘A Maritime Framework for the Baltic Sea Region’, Issue Brief Scowcroft Center for Strategy and Security (March 2016).
- Kulve, Haico te and Wim A. Smit, ‘Novel Naval Technologies: Sustaining or Disrupting Naval Doctrine’, Technological Forecasting & Social Change 77/7 (2010), 999–1013. doi:10.1016/j.techfore.2010.03.005.
- Lautenschläger, Karl, ‘Technology and the Evolution of Naval Warfare’, International Security 8/2 (1983), 3–51. doi:10.2307/2538594.
- Layton, Peter, Prototype Warfare, Innovation and the Fourth Industrial Age (Canberra: Air Power Development Centre 2018).
- Lin, Jeffrey and P.W. Singer, ‘The Great Underwater Wall of Robots: Chinese Exhibit Shows off Sea Drones’, Popular Science (22 June 2016). https://www.popsci.com/great-underwater-wall-robots-chinese-exhibit-shows-off-sea-drones/
- Lindsay, Jon R., ‘Surviving the Quantum Cryptocalypse’, Strategic Studies Quarterly 14/2 (2020), 49–73.
- Lodovisi, Chiara, Pierpaolo Loreti, Lorenzo Bracciale, and Silvello Betti, ‘Performance Analysis of Hybrid-Optical-Acoustic AUV Swarms for Marine Monitoring’, Future Internet 10/7 (2018), 65. doi:10.3390/fi10070065.
- Martin, Bradley et. al, Advancing Autonomous Systems: An Analysis of Current and Future Technology for Unmanned Maritime Vehicles (Santa Monica: RAND Corporation 2019).
- Metrick, Andrew and Kathleen H. Hicks, Contested Seas: Maritime Domain Awareness in Northern Europe (Washington D.C.: CSIS 2018).
- Murphy, Martin, Frank G. Hoffman, and Gary Schaub Jr., Hybrid Maritime Warfare and the Baltic Sea Region (Copenhagen: Centre for Military Studies 2016), 9.
- Murphy, Martin and Gary Schaub Jr., ‘Sea of Peace” or Sea of War – Russian Maritime Hybrid Warfare in the Baltic Sea’, Naval War College Review 71/2, article 9 (2018), 122–148.
- Nielsen, Anders Puck, ‘Sømilitær Vurdering Af Ruslands Østersøflåde Og De Militære Implikationer for Danmark’, Scandinavian Journal of Military Studies 2/1 (2019), 148–64. doi:10.31374/sjms.27.
- O’Hanlon, Michael, Forecasting Change in Military Technology, 2020-2040 (Washington D.C.: Brookings Institution 2018).
- Pierce, Terry, Warfighting and Disruptive Technologies: Disguising Innovation (OXON: Routledge 2004).
- Raska, Michael, ‘Strategic Competition for Emerging Military Technologies: Comparing Paths and Patterns’, Prism 8/3 (2019), 64–81.
- Rowden, Thomas A. ’Sea Control First’, Proceedings 143/1/1367, 2017. https://www.usni.org/magazines/proceedings/2017/january/commentary-sea-control-first
- Rubel, Robert C., ‘Talking about Sea Control’, Naval War College Review 63/4 (2010), 38–47.
- Saalman, Lora, Prompt Global Strike: China and the Spear (Honolulu: Daniel K. Inouye Asia-Pacific Center for Security Studies 2014).
- Schwab, Klaus, The Fourth Industrial Revolution (London: Penguin 2017).
- Small, Pete, ‘Navy Unmanned Systems: An Overview’, Undersea Warfare 67 ( Spring 2019), 6–9.
- Till, Geoffrey, Seapower: A Guide for the Twenty-First Century 2nd ed. (OXON: Routledge 2009).
- Vego, Milan, Naval Strategy and Operations in Narrow Seas 2nd Edition (Oxon: Frank Cass 2003).
- Vego, Milan, Modern Strategy and Sea Control (Oxon: Routledge 2016).
- Vego, Milan, ‘The Navy Must Not Neglect ‘Defensive’ Warfighting’, Proceedings, 145/7/1397, 2019. https://www.usni.org/magazines/proceedings/2019/july/navy-must-not-neglect-defensive-warfighting
- Wang, Jun, 王俊, et al., ‘‘海底观测网水下环境实时监控系统设计与实现’ [Design and Realization of Underwater Environment Real-time Monitoring System for Ocean Observatory Network]’, 浙江大学学报 (工学版) Journal of Zhejiang University [Engineering Science] 50/2 (Feb. 2016), 193–200.
- Yuwen, Ningbo, 宇文静波 and Liwen Tang 唐立文, ‘美国“快速全球打击”计划探讨与启示 [Discussion and Inspirations About Prompt Global Strike of the US]’, 装备指挥技术学院学报 [Journal of the Academy of Equipment Command & Technology] 22/3 (June 2011), 58–61.