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		<title>Navigating the AI and Nuclear Nexus</title>
		<link>https://globalsecurityreview.com/navigating-the-ai-and-nuclear-nexus/</link>
					<comments>https://globalsecurityreview.com/navigating-the-ai-and-nuclear-nexus/#respond</comments>
		
		<dc:creator><![CDATA[Muhammad Shahzad Akram]]></dc:creator>
		<pubDate>Mon, 01 Jun 2026 12:12:47 +0000</pubDate>
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		<guid isPermaLink="false">https://globalsecurityreview.com/?p=32727</guid>

					<description><![CDATA[<p>Published: June 1, 2026 As the world gears up for the 2026 Nuclear Non-Proliferation Treaty (NPT) Review Conference, a new and multifaceted factor is complicating the global strategic calculus: Artificial Intelligence (AI). The “nuclear-AI nexus” has evolved from a niche technical interest to a prominent feature in global security discussions, with implications for every aspect [&#8230;]</p>
<p><a href="https://globalsecurityreview.com/navigating-the-ai-and-nuclear-nexus/">Navigating the AI and Nuclear Nexus</a> was originally published on <a href="https://globalsecurityreview.com">Global Security Review</a>.</p>
]]></description>
										<content:encoded><![CDATA[<p><em>Published: June 1, 2026</em></p>
<p>As the world gears up for the 2026 Nuclear Non-Proliferation Treaty (NPT) Review Conference, a new and multifaceted factor is complicating the global strategic calculus: Artificial Intelligence (AI). The “<a href="http://www.nuclear-abolition.com/language/the-impact-of-artificial-intelligence-in-nuclear-decision-making/">nuclear-AI nexus</a>” has evolved from a niche technical interest to a prominent feature in global security discussions, with implications for every aspect of the NPT’s three pillars: non-proliferation, disarmament, and peaceful uses of nuclear energy. However, as experts recently cautioned at the “<a href="https://wise-materials.org/external/from-algorithms-to-atoms-machine-learning-meets-materials-science-2-2-3/">Atoms for Algorithms</a>” webinar, we need to cut through the speculative “AI hype” to ensure this technology remains a means for peace, not an avenue for unintentional escalation.</p>
<p>To regulate the nuclear-AI connection, we first need to understand the technology. As a United Nations Institute for Disarmament Research researcher, <a href="https://www.youtube.com/watch?v=6MuwZJ48cic">Dr. Yasmina Fina</a> suggests, AI is not a monolithic entity, but a “construct” and a “system of systems,” made up of code, software, data, hardware, and sensors. It is a system used to fulfill certain functions, not a threat capable of usurping human decision-making. The risk is the “<a href="https://thebulletin.org/2025/12/lessons-from-the-uns-first-resolution-on-ai-in-nuclear-command-and-control/">speed and scale</a>” of AI, which can have myriad implications for performance and strategy. Moreover, Fina warns that comparing <a href="https://www.youtube.com/watch?v=6MuwZJ48cic">nuclear governance to AI governance</a> is unhelpful because the technologies are not the same; nuclear materials are limited and tangible, whereas AI is ubiquitous and digital.</p>
<p>In the context of non-proliferation, AI is touted as a game-changing <a href="https://thebulletin.org/2025/12/lessons-from-the-uns-first-resolution-on-ai-in-nuclear-command-and-control/">verification tool</a>. The International Atomic Energy Agency (IAEA) could potentially use “AI agents,” semi-autonomous machines capable of processing large <a href="https://thebulletin.org/2025/12/lessons-from-the-uns-first-resolution-on-ai-in-nuclear-command-and-control/">data streams and satellite images </a>to verify the accuracy of declarations by states at a pace humans cannot match. However, <a href="https://medium.com/@ian-j-stewart/generative-ai-and-weapons-of-mass-destruction-will-ai-lead-to-proliferation-c4476580bbc6">Dr. Ian Stewart</a>, Executive Director of the CNS Washington, states that AI will not help states develop nuclear weapons they could not otherwise build, for two physical reasons: AI cannot “magic up” <a href="http://www.nuclear-abolition.com/language/the-impact-of-artificial-intelligence-in-nuclear-decision-making/">fissile material</a>, and there is no evidence that large language models can transfer the “tacit knowledge” necessary for weaponization.</p>
<p>When it comes to AI and nuclear weapons, political concerns are high. States have been reluctant to allow the IAEA to use open-source data or “black box” algorithms. Should an AI detect an event, the absence of “explainability” or how the machine arrived at its decision could lead to a crisis of <a href="https://medium.com/@ian-j-stewart/generative-ai-and-weapons-of-mass-destruction-will-ai-lead-to-proliferation-c4476580bbc6">political legitimacy</a> for the safeguards system.</p>
<p>The most fraught part of the nexus is disarmament. We are now seeing a “<a href="https://www.sipri.org/publications/2025/sipri-insights-peace-and-security/advancing-governance-nexus-artificial-intelligence-and-nuclear-weapons">race to adopt</a>” AI in military strategies due to the perceived speed advantage it offers. AI can speed up threat identification and data integration, potentially freeing up more time for decision-making (or, on the other hand, reducing decision-making cycles to the point that humans are simply rubber-stamping decisions).</p>
<p>Aliche Sultini, senior research lead at the Rhode Island School of Design, explains that AI systems create new <a href="https://thebulletin.org/2025/12/lessons-from-the-uns-first-resolution-on-ai-in-nuclear-command-and-control/">levels of uncertainty</a>. If a state cannot grasp how an adversary’s AI operates in its decision-making, it might fall into worst-case scenarios, reinforcing alert postures that prevent disarmament. To <a href="https://thebulletin.org/2025/12/lessons-from-the-uns-first-resolution-on-ai-in-nuclear-command-and-control/">support disarmament</a>, AI must be used to enhance technical verification and confidence, not to shorten the path to war. Possibly the most disruptive aspect of this interaction is the NPT’s third pillar: peaceful nuclear energy applications. According to <a href="https://docs.un.org/en/NPT/CONF.2026/PC.II/INF/7">Mr. Shota Kamishima</a> of the IAEA, an “affinity” is emerging between nuclear power and AI. We are now moving into a world where energy-hungry AI data centers need the clean, scalable, and reliable power offered by nuclear power, and where nuclear generation and maintenance are improved through AI.</p>
<p>This alliance is especially important for the rollout of <a href="https://docs.un.org/en/NPT/CONF.2026/PC.II/INF/7">Small Modular Reactors</a> (SMRs), for which AI-optimized construction schedules and supply chains are critical. By enhancing predictability and avoiding cost overruns, a major issue for nuclear construction, AI could make nuclear projects more “bankable” and thus more attractive for the global shift towards clean energy. Despite technological progress, the experts agree: human responsibility is essential. Whether it is a safeguards inspector at the International Atomic Energy Agency (IAEA) or a human commander in a nuclear-armed nation, humans are the “<a href="https://docs.un.org/en/NPT/CONF.2026/PC.II/INF/7">last line of defence</a>”.</p>
<p>“Black box” systems are incompatible with a strong safety culture. <a href="https://unidir.org/event/the-nuclear-ai-nexus-implications-for-the-three-pillars-of-the-non-proliferation-treaty-review-conference/">Governance policies</a> must ensure that AI is implemented with transparency, traceability, and “explainability”. We must also be alert to the potential for AI to be employed by “agents” to monitor sites, which could result in disinformation and the distortion of threat perception through “<a href="https://unidir.org/event/the-nuclear-ai-nexus-implications-for-the-three-pillars-of-the-non-proliferation-treaty-review-conference/">anomaly detections</a>.” As the 2026 Review Conference draws near, policymakers’ mission should be to “denoise.” <a href="https://unidir.org/event/the-nuclear-ai-nexus-implications-for-the-three-pillars-of-the-non-proliferation-treaty-review-conference/">Nuclear policy decisions</a> must not be based on science fiction or fear of competition. Rather, we should prioritize “lower stakes” opportunities where AI can help us now, such as employing AI agents to navigate the overwhelming output of the NPT process — making it searchable and highlighting inconsistencies in delegation positions.</p>
<p>The relationship between nuclear and AI is not a bug to be fixed with more software, but a circumstance to be managed by the international community. By prioritizing evidence-based policy and law, human-in-the-loop systems, and the common ground of the peaceful <a href="http://www.nuclear-abolition.com/language/the-impact-of-artificial-intelligence-in-nuclear-decision-making/">“Atoms for Algorithms”</a> alliance, we can ensure that the digital revolution supports, rather than undermines, the global nuclear order. In the end, the fate of the NPT will not be determined by algorithms, but by human intelligence.</p>
<p><em>Muhammad Shahzad Akram is a Research Officer at the Centre for International Strategic Studies, AJK. He holds an MPhil in International Relations from Quaid-i-Azam University, Islamabad. He is an alumnus of the Near East South Asia (NESA) Centre for Strategic Studies, National Defence University (NDU), and Washington, DC. His expertise includes cyber warfare and strategy, arms control, and disarmament. Views expressed in this article are the author&#8217;s own. </em></p>
<p><a href="http://globalsecurityreview.com/wp-content/uploads/2026/06/Navigating-the-AI-and-Nuclear-Nexus.pdf"><img decoding="async" class="alignnone wp-image-32606" src="http://globalsecurityreview.com/wp-content/uploads/2026/04/2026-Download-Button26.png" alt="" width="216" height="60" srcset="https://globalsecurityreview.com/wp-content/uploads/2026/04/2026-Download-Button26.png 450w, https://globalsecurityreview.com/wp-content/uploads/2026/04/2026-Download-Button26-300x83.png 300w" sizes="(max-width: 216px) 100vw, 216px" /></a></p>
<p><a href="https://globalsecurityreview.com/navigating-the-ai-and-nuclear-nexus/">Navigating the AI and Nuclear Nexus</a> was originally published on <a href="https://globalsecurityreview.com">Global Security Review</a>.</p>
]]></content:encoded>
					
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		<title>A Second Look at the Critiques and Narratives Against Golden Dome for America</title>
		<link>https://globalsecurityreview.com/a-second-look-at-the-critiques-and-narratives-against-golden-dome-for-america/</link>
					<comments>https://globalsecurityreview.com/a-second-look-at-the-critiques-and-narratives-against-golden-dome-for-america/#comments</comments>
		
		<dc:creator><![CDATA[Christopher Stone]]></dc:creator>
		<pubDate>Tue, 08 Jul 2025 12:11:21 +0000</pubDate>
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		<guid isPermaLink="false">https://globalsecurityreview.com/?p=31136</guid>

					<description><![CDATA[<p>President Donald Trump’s Golden Dome for America is criticized for being provocative, de-stabilizing, opening Pandora’s box, and the so-called militarization of space. Yet these narratives are not new. The same was said of President Ronald Reagan’s Strategic Defense Initiative (SDI). Commentators in the press and the intelligentsia compare Golden Dome with SDI. Now, as in [&#8230;]</p>
<p><a href="https://globalsecurityreview.com/a-second-look-at-the-critiques-and-narratives-against-golden-dome-for-america/">A Second Look at the Critiques and Narratives Against Golden Dome for America</a> was originally published on <a href="https://globalsecurityreview.com">Global Security Review</a>.</p>
]]></description>
										<content:encoded><![CDATA[<p>President Donald Trump’s Golden Dome for America is criticized for being provocative, de-stabilizing, opening Pandora’s box, and the so-called <a href="https://www.reuters.com/business/aerospace-defense/trumps-golden-dome-plan-could-launch-new-era-weapons-space-2025-05-22/">militarization of space</a>. Yet these narratives are not new. The same was said of President Ronald Reagan’s Strategic Defense Initiative (SDI). Commentators in the press and the intelligentsia compare Golden Dome with SDI. Now, as in the 1980s, these claims lack context and are misleading. There are several reasons why.</p>
<p><em>First</em>, SDI was not an actual defense initiative as much as it was a response to the Soviet Union’s rapidly growing strategic nuclear offensive forces and their own anti-satellite space forces. As William Van Cleave <a href="https://archive.org/details/fortressussrsovi0000vanc/mode/2up">wrote</a> in his 1986 report,</p>
<p>The Soviet Union has long been developing a multifaceted ballistic missile defense and, in fact, has already begun deploying such a defense. The Soviets have also began exploiting space for military purposes nearly two decades ago. They have already deployed anti-satellite (ASAT) space weapons. The overriding threat to American security today—that is, a rapid growth in offensive nuclear and conventional weapons systems—has come about precisely because the Soviet Union has been racing to build a weapons system, while the United States has not.</p>
<p>The same can be said of China today and is true of Golden Dome.</p>
<p>While there are plenty of Chinese, Russian, and Western arms control advocates criticizing Golden Dome as weaponization of space and an imbalance of forces, they all fail to note that Golden Dome is a response to the current imbalance of nuclear and space forces that advantages China and Russia. The utility of nuclear weapons, coupled with the advancement of hypersonic and space-to-ground attack options in the hands of the nation’s enemies grew in recent years.</p>
<p>The Chinese are in the midst of a breakout in the size and capability of their nuclear forces. Both <a href="https://www.defensenews.com/pentagon/2024/10/24/china-leading-rapid-expansion-of-nuclear-arsenal-pentagon-says/#:~:text=Austin%20raised%20the%20nuclear%20issue,advanced%20plays%20with%20better%20players.">China</a> and Russia are engaging in a similar effort with their space attack forces. Both deployed ASAT and other space weapons systems that not only threaten American critical space infrastructure, but the homeland itself. As such, Golden Dome is a response to the already de-stabilizing activities of the Chinese and Russians. They, not the United States, are actively building weapons systems, especially in space.</p>
<p><em>Second</em>, the narrative that SDI was a weapons development program is false. President Reagan’s speech directing SDI called it a research or “study” program. The 1985 <em>Report to Congress on the Strategic Defense Initiative</em> said that “it should be stressed that SDI is a research program that seeks to provide the technical knowledge required to support a decision on whether to develop and later deploy advanced defensive systems. It is not a program to deploy those weapons.”</p>
<p>President Trump understands this by his comments that while Reagan pursued SDI, “[he] didn’t have the technology.” However, Golden Dome is, in fact, a weapons deployment program. As his directive in the <a href="https://www.whitehouse.gov/presidential-actions/2025/01/the-iron-dome-for-america/">executive order</a> states, “The United States will provide for the common defense of its citizens and the nation by deploying and maintaining a next-generation missile defense shield…[including] the development and deployment of proliferated space-based interceptors capable of boost-phase intercept,” among other sensors, trackers, and other weapons capable of defeating various threats from hypersonic, ballistic, and cruise missiles. While SDI was a study for a future decision to deploy space-based missile defenses, Golden Dome is the decision to deploy before Trump leaves office.</p>
<p><em>Finally</em>, another <a href="https://thehill.com/policy/defense/5315220-trumps-golden-dome-timeline-prompts-head-scratching/">false narrative</a> in the anti–Golden Dome commentaries is that the system will be full of “untested technology.” This is not the case. If anyone looks at the systems listed in the executive order from January 2025, one will see that several of the sensors and layers are already in the current programs of record, many of which have already started deployment in orbit.</p>
<p>While <a href="https://breakingdefense.com/2025/03/space-based-capabilities-are-critical-to-enabling-a-missile-shield-for-america/">some of the systems</a>, such as the space-based interceptor, are not deployed yet, the technology for intercepting such missiles is in various forms of testing and/or use—for decades. Just because SDI had grand visions of lasers bouncing off mirrors or large chemical lasers in space, does not mean that Golden Dome’s space-based interceptors must be based on those concepts. Current anti-ballistic missile tech gained considerable ground over the past four decades and is ready for deployment sooner than later.</p>
<p>Vulnerability is not an option. Protecting Americans and the homeland from space and missile attack is a strategic imperative that must not fail. Congress must ignore the false narratives of the late 20th century. The threat is real, the technology is real. It is time to field Golden Dome for America.</p>
<p><em>Christopher Stone is Senior Fellow for Space Deterrence at the National Institute for Deterrence Studies in Washington, DC. He is the former Special Assistant to the Deputy Assistant Secretary of Defense for Space Policy. The views and positions are those of the author and do not </em><em>reflect the positions and opinions of the Department of Defense or the author’s employer.</em></p>
<p><a href="http://globalsecurityreview.com/wp-content/uploads/2025/07/Golden-Dome-False-Narrative-.pdf"><img decoding="async" class="alignnone wp-image-29852" src="http://globalsecurityreview.com/wp-content/uploads/2025/01/2025-Download-Button-1.png" alt="" width="299" height="83" srcset="https://globalsecurityreview.com/wp-content/uploads/2025/01/2025-Download-Button-1.png 450w, https://globalsecurityreview.com/wp-content/uploads/2025/01/2025-Download-Button-1-300x83.png 300w" sizes="(max-width: 299px) 100vw, 299px" /></a></p>
<p><a href="https://globalsecurityreview.com/a-second-look-at-the-critiques-and-narratives-against-golden-dome-for-america/">A Second Look at the Critiques and Narratives Against Golden Dome for America</a> was originally published on <a href="https://globalsecurityreview.com">Global Security Review</a>.</p>
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		<title>Extending the Golden Dome: AUKUS Pillar 2</title>
		<link>https://globalsecurityreview.com/extending-the-golden-dome-aukus-pillar-2/</link>
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		<dc:creator><![CDATA[Natalie Treloar]]></dc:creator>
		<pubDate>Mon, 30 Jun 2025 10:39:04 +0000</pubDate>
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		<category><![CDATA[hypersonic glide weapons]]></category>
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		<category><![CDATA[information sharing]]></category>
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		<category><![CDATA[sensors]]></category>
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					<description><![CDATA[<p>As the United States attempts to better understand the requirements of President Trump’s Golden Dome program, pillar two of the AUKUS agreement has the potential to help solve the “integration problem at massive scale” and provide the needed architecture for collective defense. This initiative would also prevent AUKUS pillar two from “failing in its mission” [&#8230;]</p>
<p><a href="https://globalsecurityreview.com/extending-the-golden-dome-aukus-pillar-2/">Extending the Golden Dome: AUKUS Pillar 2</a> was originally published on <a href="https://globalsecurityreview.com">Global Security Review</a>.</p>
]]></description>
										<content:encoded><![CDATA[<p>As the United States attempts to better understand the requirements of President Trump’s Golden Dome program, pillar two of the AUKUS agreement has the potential to help solve the “<a href="https://www.csis.org/events/americas-golden-dome-explained">integration problem at massive scale</a>” and provide the needed architecture for collective defense. This initiative would also prevent AUKUS pillar two from “<a href="https://warontherocks.com/2025/06/aukus-pillar-ii-is-failing-in-its-mission-it-needs-its-own-optimal-pathway/">failing in its mission</a>” by enabling the prioritization of advanced technologies at the <a href="https://www.foreignaffairs.com/podcasts/why-america-shouldnt-underestimate-chinese-power">scale</a> required to achieve Golden Dome missile defense.</p>
<p>Golden Dome is focused on specific <a href="https://www.dia.mil/Portals/110/Documents/News/golden_dome.pdf">missile threats to the American homeland</a>. AUKUS pillar two is designed to reduce the <a href="https://ad-aspi.s3.ap-southeast-2.amazonaws.com/2023-06/PB69-CriticalTechTracker-AUKUS%20relevant%20technologies%20top%2010%20country%20snapshot.pdf">significant lead</a> China has in dual-use emerging technologies. An “extended” Golden Dome approach that produces strong and resilient allies may provide greater strategic deterrence than an America alone approach.</p>
<p>As stronger allies contribute more to collective defense through <a href="https://www.csis.org/analysis/shared-threats-indo-pacific-alliances-and-burden-sharing-todays-geopolitical-environment">burden sharing</a>, this can reduce the financial and military burden on the United States. Capable allies can deter aggression and manage local conflicts, promoting <a href="https://www.csis.org/analysis/burden-sharing-responsibility-sharing">regional stability</a> without constant American intervention.</p>
<p>If allies are seen as weak and easily overrun, it may undermine the <a href="https://researchportalplus.anu.edu.au/en/publications/alliances-and-nuclear-risk-strengthening-us-extended-deterrence">credibility of alliances and security guarantees</a>, thereby emboldening adversaries. Strong allies often bring <a href="https://carnegieindia.org/research/2024/09/innovative-alliance-us-australian-defense-science-and-technology-cooperation-for-a-dangerous-decade?lang=en">advanced technologies</a> and capabilities that enhance joint operations through interoperability and innovation.</p>
<p>Defeating fractional orbital bombardment system (FOBS), intercontinental ballistic missiles (ICBM), submarine-launched ballistic missiles (SLBM), hypersonic glide weapons, and land-attack cruise missile threats is the <a href="https://www.dia.mil/Portals/110/Documents/News/golden_dome.pdf">focus</a> of Golden Dome, which “<a href="https://www.geopoliticalmonitor.com/golden-dome-strategic-impacts-of-an-untouchable-united-states/">proposes</a> a multilayered defense network capable of intercepting threats during the boost, <a href="https://www.heritage.org/military-strength/assessment-us-military-power/missile-defense">midcourse, and terminal stages</a> of missile flight.” Some analysts argue that it is easiest to target these threats in the <a href="https://www.youtube.com/watch?v=MOVMSRxbyl4">boost/ascent phase</a>.</p>
<p>Targeting the <a href="https://www.inss.org.il/publication/interception/#:~:text=A%20COIL%20system%20(Chemical%20Oxygen,benefits%20of%20using%20a%20Zeppelin.">boost</a> phase can either occur from allied territory, targeting North Korean missiles from South Korea, or the homeland. The boost phase can also be <a href="https://www.youtube.com/watch?v=MOVMSRxbyl4">targeted from space</a>. However, targeting from space is not without its own unique set of challenges. Either way, it will not be solved by America without its allies.</p>
<p>Arguably, five-eyes countries (Australia, Canada, New Zealand, United Kingdom, and United States) are already entangled in American <a href="https://www.congress.gov/crs_external_products/IF/PDF/IF11697/IF11697.6.pdf">nuclear command, control, and communications (NC3)</a>. Furthermore, the US operates in coordination with other military forces as part of broader coalition operations. Hence, extending Golden Dome to allies is not only possible, but can further leverage the AUKUS pillar two effort. Moreover, a missile defense system consists of <a href="https://missilethreat.csis.org/sensors-command-control/">sensors, interceptors, and command-and-control systems</a> that work together to detect, track, and intercept incoming missiles.</p>
<p>These necessary components exist in AUKUS pillar two working groups like the cyber capabilities, artificial intelligence (AI) and autonomy, quantum technologies, undersea capabilities, hypersonics and counter-hypersonics, electronic warfare capabilities, innovation and information sharing, and the deep-space advanced radar capability program (DARC).</p>
<p>AUKUS pillar two leadership should prioritize the development of technologies and supporting systems for an effective extended Golden Dome architecture. America is unlikely to solve the problem in isolation by building a “<a href="https://www.geopoliticalmonitor.com/golden-dome-strategic-impacts-of-an-untouchable-united-states/">tightly integrated system of low Earth orbit (LEO) satellites, terrestrial radar stations, directed-energy platforms, and kinetic interceptors</a>” that senses, decides, and neutralizes incoming missiles. The linkages and opportunities for the prioritization of advanced technology development for missile defense can be found in the following summaries.</p>
<p>Cyber capabilities encompass both offensive and defensive operations for missile defense. Offensive cyber tools are used to deter adversaries and disrupt their operations through tactics such as cyber-reconnaissance, communication isolation, targeted strikes, and network intrusions. Defensively, military forces can prioritize robust network protection, active threat disruption, and seamless coordination across units to safeguard critical systems. Cyber operations can enhance intelligence gathering, command and control, and information warfare to shape public perception and the broader information environment. As conflict evolves, training personnel in cyber tactics and integrating machine learning for threat detection and analysis can maintain strategic advantage.</p>
<p>AI and autonomy can transform missile defense and military operations by enhancing efficiency, precision, and decision-making. Autonomous weapon systems are used for reconnaissance, surveillance, and combat missions. AI-driven wargaming platforms simulate real-world combat scenarios to help strategists test tactics and improve readiness. In command and control, AI supports real-time data processing and analysis. AI optimizes logistics by improving resource allocation, supply-chain management, and transportation.</p>
<p>In intelligence and surveillance, AI analyzes vast datasets to detect patterns and identify threats. Additionally, AI monitors threats and predicts future events. Human-machine teaming allows AI systems to collaborate with human operators, combining strengths and minimizing errors.</p>
<p>Quantum technologies transform missile defenses through enhanced security, operational efficiency, and advanced training. In cybersecurity, quantum-resistant cryptography is being developed to protect against the threat quantum computers pose to traditional encryption. Quantum key distribution offers highly secure communication by transmitting encryption keys through quantum channels, making interception nearly impossible.</p>
<p>In military operations, quantum algorithms can optimize logistics, supply chains, and battlefield strategies by analyzing complex data in real time. Quantum computing could process data in real time, enabling missile defense systems to rapidly analyze incoming threats, allowing for quicker decision-making and more effective interception. Additionally, quantum computing could enable highly accurate simulations of complex systems like nuclear reactions and weapon designs.</p>
<p>Undersea capabilities encompass a wide range of offensive and defensive functions that contribute to missile defense. Offensively, submarines and other undersea platforms can strike surface vessels, submarines, and land-based targets. They are also instrumental in inserting special forces into hostile territory for reconnaissance or sabotage missions. Undersea vehicles play a key role in mine warfare, either by laying mines or clearing minefields. On the defensive side, these platforms are vital for anti-submarine warfare, enabling the detection and neutralization of enemy submarines. They also support surveillance and reconnaissance efforts, gathering intelligence on enemy naval movements. Undersea systems help protect vital infrastructure such as pipelines and communication cables and help ensure safe navigation.</p>
<p>Hypersonic weapons and counter-hypersonic systems are vital to missile defense operations. Hypersonic glide weapons and hypersonic cruise missiles are designed to strike targets with exceptional speed, maneuverability, and precision while evading traditional defenses. Counter-hypersonic capabilities include advanced sensors and tracking systems like radar and satellite imaging to detect and monitor hypersonic weapons. Hypersonic interceptors aim to neutralize threats mid-flight, while high-power lasers and microwave weapons can disrupt their guidance systems. Effective command-and-control systems are essential for coordinating these defenses, and soft-kill measures such as cyberattacks offer additional means to interfere with hypersonic weapons.</p>
<p>Electronic warfare is fundamental for gaining military advantages in cross-domain missile defense. Electronic attack includes jamming enemy communications, radar, and navigation systems. It also includes spoofing—sending false signals to enemy forces. Electromagnetic or directed-energy weapons disable or destroy enemy assets. Electronic protection ensures secure communication through encryption and satellite links and employs electronic countermeasures (ECM) to defend against attack. Electronic counter-countermeasures are used to overcome enemy ECM and maintain operational effectiveness. Electronic support can be focused on gathering intelligence through signals interception, using sensors for surveillance and target acquisition, and detecting threats in the electromagnetic spectrum.</p>
<p><em>            In short, under the auspices of AUKUS pillar two, Australia and the United Kingdom can contribute to Golden Dome in ways that many may not be thinking about. As longtime allies with a shared culture, history, and values, working together on Golden Dome just makes sense. </em></p>
<p><em>Natalie Treloar is a Senior Analyst at the National Institute for Deterrence Studies (NIDS), a Non-Resident Fellow at the Indo-Pacific Studies Center (IPSC), the Australian Company Director of Alpha-India Consultancy, and a cohost of the NIDS Deterrence Down Under Podcast.</em></p>
<p><a href="http://globalsecurityreview.com/wp-content/uploads/2025/06/Extending-the-Golden-Dome-AUKUS-Pillar-2-and-the-Architecture-of-Collective-Defense.pdf"><img decoding="async" class="alignnone wp-image-29852" src="http://globalsecurityreview.com/wp-content/uploads/2025/01/2025-Download-Button-1.png" alt="" width="173" height="48" srcset="https://globalsecurityreview.com/wp-content/uploads/2025/01/2025-Download-Button-1.png 450w, https://globalsecurityreview.com/wp-content/uploads/2025/01/2025-Download-Button-1-300x83.png 300w" sizes="(max-width: 173px) 100vw, 173px" /></a></p>
<p><a href="https://globalsecurityreview.com/extending-the-golden-dome-aukus-pillar-2/">Extending the Golden Dome: AUKUS Pillar 2</a> was originally published on <a href="https://globalsecurityreview.com">Global Security Review</a>.</p>
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		<title>Proposing Maritime Confidence-Building Measures between India and Pakistan</title>
		<link>https://globalsecurityreview.com/proposing-maritime-confidence-building-measures-between-india-and-pakistan/</link>
					<comments>https://globalsecurityreview.com/proposing-maritime-confidence-building-measures-between-india-and-pakistan/#respond</comments>
		
		<dc:creator><![CDATA[Rizwana Abbasi&nbsp;&&nbsp;Maryyum Masood]]></dc:creator>
		<pubDate>Tue, 19 Nov 2024 13:05:55 +0000</pubDate>
				<category><![CDATA[Allies & Extended Deterrence]]></category>
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		<guid isPermaLink="false">https://globalsecurityreview.com/?p=29393</guid>

					<description><![CDATA[<p>There are escalating tensions between India and Pakistan in the Indian Ocean region (IOR), which underscores the need for maritime confidence-building measures (CBM) and risk-reduction strategies to avoid any probability of future conflict. Power projection by the United States, China, and India is visible in the Indian Ocean region (IOR) as they seek to assert [&#8230;]</p>
<p><a href="https://globalsecurityreview.com/proposing-maritime-confidence-building-measures-between-india-and-pakistan/">Proposing Maritime Confidence-Building Measures between India and Pakistan</a> was originally published on <a href="https://globalsecurityreview.com">Global Security Review</a>.</p>
]]></description>
										<content:encoded><![CDATA[<p>There are escalating tensions between India and Pakistan in the Indian Ocean region (IOR), which underscores the need for maritime confidence-building measures (CBM) and risk-reduction strategies to avoid any probability of future conflict. Power projection by the United States, China, and India is visible in the Indian Ocean region (IOR) as they seek to assert control over sea lines of communications (SLOC), navigate vital trade routes, and regulate energy transportation networks and natural resources, including fisheries, oil, and gas.</p>
<p>These states are modernizing their naval deterrence capabilities, thus weaponizing the waters of the IOR. The growing competition between US-led alliances, China and India, as well as India and Pakistan intensified, particularly with US support for India to counter China’s influence in the IOR.</p>
<p>Pakistan views these developments as a security threat, as they challenge its maritime mobility and increase the risk of entanglement between Indian and Pakistani forces at sea. The escalating tensions between India and Pakistan underscore the need for maritime confidence-building measures (CBM) and risk-reduction strategies to avoid conflict. What are the evolving dynamics between India and Pakistan in the IOR and how can maritime CBMs be realized and institutionalized to prevent prospects for any dangers?</p>
<p><strong>Maritime Entanglement in the IOR</strong></p>
<p>Maritime entanglement refers to the complex and potentially dangerous situations where naval forces from different states, often adversaries, come into proximity or engage in activities that can lead to unintended confrontations, miscalculations, or escalations. The IOR is a center point for states’ contestation where forces of India and Pakistan can interface anytime.</p>
<p>India is modernizing its naval capabilities to assert its regional dominance through advanced technologies such as <a href="https://www.thehindu.com/news/national/commissioning-of-indias-second-nuclear-submarine-ins-arighat/article68579761.ece"><em>Arihant</em>-class nuclear-powered ballistic missile submarines</a>, aircraft carriers, uncrewed systems, and sensors, thereby expanding its naval presence.</p>
<p>India has also approved the purchase of MQ-9B high-altitude, long-endurance drones, which will enhance the intelligence, surveillance, and reconnaissance (ISR) capabilities of its armed forces in the IOR.</p>
<p>India is also inclined to procure high endurance unmanned underwater vehicles (UUV) to further enhance its ISR, anti-submarine warfare (ASW), and <a href="https://forceindia.net/feature-report/mean-machines/">mine-counter measures (MCM)</a>. India is using China’s looming threat as leverage to procure <a href="https://www.ussc.edu.au/engaging-with-reality-in-the-indian-ocean">26 Rafale-M fighters to serve as the new carrier, Vikrant’s, air wing, and three additional Kalvari-class submarines</a>.</p>
<p>Pakistan, in turn, is also improving its deterrence survivability. Pakistan’s capability is mainly based on conventional platforms with heavy reliance on cruise missiles. Its sea-based force consists of nuclear-armed sea-launched cruise missiles, deployed on <em>Agosta</em>-class submarines or on-surface ships.</p>
<p>India’s acquisition of autonomous underwater vehicles (AUV) adds new complexities to Indian Ocean security. These stealthy, autonomous systems enhance India’s naval capabilities in surveillance and anti-submarine warfare and increase the risk of unintended encounters with other countries’ forces, especially Pakistan, as the autonomous nature of AUVs makes them less predictable and harder to monitor.</p>
<p>Furthermore, a cyberattack on surveillance or intelligence systems can create monitoring “blind spots,” leading to potential misinterpretations of naval activities. If one country’s radar is disabled, it might incorrectly assess the other’s movements, prompting a more aggressive stance. This risk escalates if command and control communications are also affected, as either side could misinterpret a blackout as a threat, potentially deploying additional naval assets and leading to unintended confrontations.</p>
<p>The presence of a nuclear-powered ballistic missile submarine near another state’s naval assets might be perceived as a prelude to an act of aggression, especially during times of heightened tensions. A stark example of this occurred during the <a href="https://www.deccanherald.com/opinion/post-balakot-navy-on-the-prowl-722932.html">2019 Pulwama-Balakot</a> crisis between India and Pakistan. In the milieu of the Pulwama crisis, the Indian Navy declared that its carrier battle group, including the Indian nuclear-powered ballistic missile submarine, the INS Arihant, was on a deterrence patrol, which was “<a href="https://www.jstage.jst.go.jp/article/asiajapan/4/0/4_55/_pdf">swiftly shifted from exercise to operational disposition</a>” amid the crisis.</p>
<p>After the crisis, Pakistan reportedly detected an Indian submarine, suspected of being armed with nuclear weapons, within its maritime zone. The lack of transparency surrounding nuclear-powered ballistic missile submarine movements makes it difficult for states to distinguish between routine operations and potential threats, increasing the risk of miscalculation.</p>
<p>This is particularly noteworthy in the IOR where numerous states assert their interests in strategically significant areas as well as crucial chokepoints for trade routes, namely the Strait of Hormuz and the Strait of Malacca. Thus, misinterpretation of naval maneuvers, especially involving nuclear-armed submarines, heightens the risk of maritime entanglement between India and Pakistan, which will create challenges for all the players involved and disrupt the SLOCs and transportation. These developments demand the opening of effective CBMs between India and Pakistan to prevent any risks in the maritime domain.<strong> </strong></p>
<p><strong>Proposed Confidence-Building Measures </strong></p>
<p>In the context of India and Pakistan, several CBMs are applicable. First, establishing a mutual notification and data-sharing mechanism on cybersecurity threats between India and Pakistan is essential, given the growing reliance on digital systems for naval and maritime operations. This mechanism would help reduce misunderstandings and prevent the misattribution of cyber incidents to state actors.</p>
<p>Second, an agreement on prior notifications of naval activities such as naval exercises or critical movements of submarines is needed. This will enhance transparency and trust by ensuring that routine movements, such as those involving nuclear submarines, are not misinterpreted as hostile actions.</p>
<p>Third, an agreement on managing incidents at sea can also be formalized by setting up clear protocols for their behavior during unintended or unexpected encounters at sea. This would help both countries to turn dangerous eventualities into normal situations. The two states can create standardized rules of engagement for naval forces operating nearby and develop crisis-management protocols to handle maritime incidents.</p>
<p>Fourth, another risk-reduction initiative could be a submarine rescue agreement, enabling cooperation in case of climate-prone or any natural crisis-led accidents involving rescuing crew and sunk submarines, and sheltering the survivors on board.</p>
<p>Fifth, the ballistic missile submarine (SSBN) deployment notification and safety protocol CBM proposes that India notify Pakistan, via a neutral third party or direct hotline, about routine SSBN deployments near Pakistan’s exclusive economic zone (EEZ) in the Arabian Sea. It includes communication protocols to prevent accidental encounters from escalating, with India providing limited, non-sensitive information on SSBN timing and location near shared maritime boundaries.</p>
<p>Sixth, an agreement on the non-deployment of AUVs between India and Pakistan is essential to mitigate risks associated with autonomous systems in sensitive maritime areas. Establishing no-deployment zones, particularly near nuclear sites, disputed areas, and key naval bases, would reduce the chances of misinterpretation and accidental confrontations, offering a safety buffer in shared waters.</p>
<p>Seventh, India and Pakistan could establish a code of conduct (CoC) for the Arabian Sea to manage maritime interactions, reduce confrontation risks, and promote peaceful sea use amid regional tensions. Modeled after the South China Sea CoC. This CBM would provide a framework of rules for behavior in contested areas, particularly near disputed zones like Sir Creek and along shared maritime boundaries.</p>
<p>Eighth, direct bilateral maritime cooperation and conflict resolution between India and Pakistan would ideally be the most effective approach. Given the current state of relations between the two countries, this option remains politically challenging.</p>
<p>Therefore, a more feasible path to promote bilateral trust would come through multilateral forums. For example, the Indian Ocean Rim Association can be a valuable avenue to which both nations are already members. This forum provides a platform for indirect cooperation on shared maritime issues such as security, trade, and disaster-related risk management.</p>
<p>Expanding their collaboration within this multilateral forum, particularly on non-sensitive issues like anti-piracy efforts and environmental protection, could help build trust between them. As multilateral engagement deepens, it could serve as a steppingstone toward more focused and issue-specific dialogues between India and Pakistan at a bilateral level.</p>
<p>Implementation of the above agreements would provide a structured approach to promote a more secure and stable maritime environment in the IOR preventing miscommunication or misunderstandings and ensuring safety during maritime operations, contributing to greater stability in the IOR.</p>
<p><em>Rizwana Abbasi is an associate professor of security studies at the National University of Modern Languages, Islamabad, a non-resident fellow of the Center for International Strategic Studies (CISS), Islamabad, and a visiting fellow at the Central European University of Austria.  </em></p>
<p><em>Maryyum Masood is a Research Officer and Associate Editor at CISS and an M. Phil Scholar in the Department of Strategic Studies at the National Defense University, Islamabad.</em></p>
<p><a href="http://globalsecurityreview.com/wp-content/uploads/2024/11/Maritime-CBMs-between-India-Pakistan.pdf"><img loading="lazy" decoding="async" class="alignnone wp-image-28926 size-medium" src="http://globalsecurityreview.com/wp-content/uploads/2024/09/Download-This-Publication-300x83.png" alt="" width="300" height="83" srcset="https://globalsecurityreview.com/wp-content/uploads/2024/09/Download-This-Publication-300x83.png 300w, https://globalsecurityreview.com/wp-content/uploads/2024/09/Download-This-Publication.png 450w" sizes="(max-width: 300px) 100vw, 300px" /></a></p>
<p><a href="https://globalsecurityreview.com/proposing-maritime-confidence-building-measures-between-india-and-pakistan/">Proposing Maritime Confidence-Building Measures between India and Pakistan</a> was originally published on <a href="https://globalsecurityreview.com">Global Security Review</a>.</p>
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