From the British conception of air policing to the myriad of coalition air assets deployed as part Operation Inherent Resolve, counterinsurgents have enjoyed their ability to be the sole force in skies and the plethora of benefits that brings. Throughout late 20th and early 21st century, there have been rare instances where insurgents have tried to either contest this or at the very least exploit the air domain for their operations. These include the development and deployment of the ‘Air Tigers’ of the Liberation Tigers of Tamil and Eelam (LTTE) and the more recent use of small unmanned aerial vehicles (UAVs) and unmanned combat aerial vehicles (UCAVs) by a host of actors including ISIS and Hezbollah. LTTE’s attempts were largely ineffective, and ISIS’s small UAVs have been only deployed for tactical effects. Assumedly developing a counter to this ISIS threat will be part of the broader effort to deal with the UAV threat writ large. In Gaza, Hamas has developed something different and is going back in time technologically to exploit the hybrid space and launch an air campaign.
In late May 2018 Israeli security forces identified an explosive-laden UAV launched by one of the militant groups from the Gaza strip. In the same month, the Israeli Air Force (IAF) destroyed a Hamas base containing unmanned underwater vehicles. Both these capabilities while impressive represent an evolution of what combatants have already observed the world over. Militant groups increasingly have the capabilities to employ low-cost unmanned systems in a variety of domains. The interesting evolution out of Gaza strip is not the use of advanced technology by militant groups but a return to simple and cheap solutions.
Over the past month, militants in Gaza have launched numerous strikes using incendiary devices attached to kites and balloons. These devices come in several forms; some are kites released on to the wind current carrying flaming material and accelerant dangling from a rope. Others are helium balloons (or helium-filled condoms) with trailing flaming materials and accelerant. Although there are variations most of these carry metallic mesh pouches contacting burning oil-soaked rags or coal. These take advantage of the dry summer conditions in Southern Israel to spark fires out of proportion to the amount of accelerant. In addition to these, there are varieties with small impact based explosive devices attached and more recently explosive devices designed to litter the ground.
This is the past returning. During the Second World War, the Japanese military was unable to bomb the mainland US and turned to balloons with incendiary devices as an attempt at a solution. By 20 June 2018, 75 days of balloon and kite attacks had seen over 700 attacks which burned over 6,100 acres of primarily agricultural land causing millions of dollars of damage. For Israel damage to its agricultural sector presents a serious threat given the relatively small amount of arable and pasturable land.
The balloon and kite launched devices present significant challenges to the Israeli military (IDF). Due to their low signature, they are harder to detect than UCAVs. Unlike rockets and mortars, they do not follow a set trajectory making counter battery fire more difficult. They are cheap and therefore employing short-range air defence such as Iron Dome makes little sense. The helium-filled condoms which trail burning liquids or rags may only cost as much as the helium (condoms are distributed in Gaza by the Palestinian Authority and international NGOs) while Iron Dome costs near $100,000 per launch. Other forms of Counter Rocket Artillery and Mortar systems rely on a more prominent radar profile and are designed for point defence not protecting a whole broader.
The biggest challenge they pose may result from their place in the narrative domain. Often launched by teams including children, balloons and kites do not seem as threatening as other, more significant, more conventional types of attacks. Targeting those who launch them with lethal force would likely play poorly in the media and the international community overall. Unlike rockets and mortars, kites, and balloons – no matter the threat they may pose – are not often thought of within the panoply of tools of war. In this way, they are emblematic of an entire strategy – namely causing as much strategic threat as possible while remaining below the threshold of escalation. In his 1991 book The Transformation of War, Martin van Creveld identified the challenge this strategy poses to conventional state militaries stating: ‘Since fighting the weak is sordid by definition, over time the effect of such a struggle is to put the strong into an intolerable position.’ The kite and balloon attacks represent a new form of air power for insurgent groups which takes advantage of exactly this dynamic. As of now these attacks also provide a narrative victory to the militant groups allowing them to showcase in video and photo their ability to reach out and attack Israel. If the success of the balloon and kite attacks continues, we can safely assume they will spread. The more they are featured in regional media and militant media the more likely this is to happen.
So what options exist to counter this counter this new aerial threat? Thus far the IDF has looked to technological solutions deploying cheap commercial UAVs to bring down the kites and the balloons through physical contact. The Israeli public broadcaster Kan reported that this has had mixed results. The IDF has recently deployed a new system called Sky Spotter. The IDF employs this electro-optical system, to identify and provide an alert of incoming attacks mitigating the damage caused. Sky Spotter also serves to guide defenders to the incoming targets. There are plans to equip Sky Spotter with a laser system or to the ability to autonomously vector mini-UAVs. In the meantime, with an increase in the threat, some Israeli officials have suggested targeting those launching the attacks, and the IAF has begun firing warning strikes near those launching the attacks. As previously noted this tactic is rife with problems.
Another possible solution might be retaliating against targets and in doing so establishing deterrence. Although this might work in the unique operating environment of Gaza it is doubtful it would be as possible if another insurgency adopts this new use of air power globally. Just as lookouts may be more useful for identifying incoming attacks from balloons and kites than more high-tech radar, so too might defeating the threat requiring an examination of the past for inspiration. In the past, the best air defence consisted of layers of surface to air missiles (SAMs) and gun systems. These balloon and kite attacks exploit the intellectual and perhaps, even technical space, below the threshold for the employment of SAMs. Kites and balloons are vulnerable to gunfire and integrating rapid firing weapons aimed and operated by humans might provide a solution to this threat. Even this is not without problems as it potentially risks causing inadvertent casualties due to inaccuracy. Regardless, until a solution is found, it is likely insurgents will continue to exploit the air domain not only by developing drones but by evolving from drones to balloons.
Dr Jacob Stoil is an Assistant Professor of Military History at the US Army School of Advanced Military Studies where he serves as the author for the course ‘Anticipating the Future’. He is the Deputy Director of the Second World War Research Group for North America. Stoil holds a PhD from the University of Oxford, and an MA and BA from the Department of War Studies at King’s College London. He has research experience carrying out fieldwork in both Israel and the Horn of Africa. His most recent publications include ‘Command and Irregular Indigenous Combat Forces in the Middle East and Africa’ in the Marine Corps University Journal, and ‘Martial Race and Indigenous Forces’ in Rob Johnson (ed.), The British Indian Army: Virtue and Necessity (2014). Additionally, he has authored analysis of contemporary operations and policy for the Journal of Military Operations, War on the Rocks, and From Balloons to Drones. Most recently he published an article on the spread of vehicle ramming attacks through West Point’s Modern War Institute and has a forthcoming in Le Vingtième Siècle article on indigenous forces in Palestine Mandate.
Header Image: A missile from an Israeli Iron Dome, launched during the Operation Pillar of Defense to intercept a missile coming from the Gaza strip, c. 2012. (Source: Wikimedia)
Disclaimer: The views presented here do not represent those of any contributors employer, funder, or government body.
‘Drones’ are the air power topic de jour. Unfortunately, much of the discussion taking place in the media, and even in some academic circles, displays a lack of nuanced understanding of what is a complicated subject. The use of the term ‘drone’ to refer to platforms from the networked high-altitude long-endurance MQ-4 Triton to small tactical hand-held systems such as the Black Hornet conflates vastly different capabilities in the mind of the public. Similarly, the statement made in a recent article by a professor at the Swedish Defence University that remotely piloted aircraft (RPA) can ‘strike targets with greater precision to avoid collateral damage’ when compared with inhabited systems highlights that even academics in the field do not appreciate what distinguishes inhabited from uninhabited systems. With the subject often overly simplified and the claims at times unrealistic, it is little wonder that policymakers do not understand RPAs well enough to make informed and effective decisions about their acquisition, development, and employment. This is a problem.
A few academics and military professionals are working to clarify the reality of RPA. Michael P. Kreuzer’s 2017 book Drones and the Future of Air Warfare: The evolution of Remotely Piloted Aircraft is one such example. In a compact 218 pages, Kreuzer, a serving US Air Force officer with a PhD from Princeton, places RPAs in their organisational, operational, strategic, and technological context, enabling the reader to reframe their understanding of RPA away from the hype towards an appreciation grounded in facts and logic.
Kreuzer aims the book at:
[t]hose who are active or have an interest at the level of national policy, and for those who have an interest in understanding the macro-effects of RPAs in modern warfare to understand to what extent they can be used to achieve strategic objectives, and what are the true hazards of their use. (p.22)
On this, the book delivers.
The first step is to address the curious definitional problem contained within the book’s title: is it ‘drones’ or ‘remote piloted aircraft’? Kreuzer’s approach to defining the subject is simple yet effective. He states unequivocally that RPA is the preferred term; ‘drone’ when used appears in quotation marks. He then distinguishes between ‘tactical’ RPA and ‘networked’ RPA, with the distinguishing characteristic being the integration of the sensors and weapons of the latter into a global network. Network connectivity has enabled RPAs such as Reaper to conduct ‘strategic bombing against non-fixed targets such as individuals’ (p.7). This, Kreuzer asserts, has made a significant impact on the conduct of air warfare: ‘The network, rather than the platform itself, is key to this innovation’ (p.7)
Kreuzer makes clear that he does not consider RPAs to be revolutionary in isolation; they are an enabling capability for a broader ‘targeting revolution’. To support his claim, he disentangles the often-conflated concepts of technological revolution, major military innovation, and revolution in military affairs:
A technological revolution is marked by a major change in technology with widespread effects across all sectors of society, a major military innovation is a major change in the conduct of warfare that increases the efficiency with which capabilities are converted to power often stemming from the technological revolution, and a revolution in military affairs is a shift in the character of warfare fuelled by a transformation of military systems. (p.8)
The proliferation of drones is undoubtedly a technological revolution; commercial and civilian RPA applications are already affecting airspace management, privacy laws, and delivery services. RPAs are also increasing the efficiency of military operations for both state and non-state actors. ‘Drone strikes’ conducted by the Western countries in the Middle East and South Asia, and the use by ISIS of commercial drones in surveillance and attack roles evidences a shift in the way military operations are being conducted, the rise of the so-called ‘remote control warfare’. RPAs are not, however, causing the changes in the character of air warfare which Kreuzer refers to as the targeting revolution, they are only contributing to it. Kreuzer’s point here is subtle but well made.
Precision munitions and intelligence are given as the key enablers of the targeting revolution. Guided weapons provide the ability to strike targets precisely; the development of networks enables the processing, exploitation, and dissemination of information to know where the targets are. These are the foundations of Kreuzer’s targeting revolution. What RPAs have provided is persistence, allowing improvements in the timeliness of targeting information. The addition of precision munitions on networked RPAs has marked a culmination of an evolutionary process.
[t]he main revolutionary capabilities have come about when RPA serve as critical nodes in a broader system of warfare enabling networked intelligence collection, global communication, near real time processing, target development, decision support, and strike operations. (p.80)
Technology has played a significant role in driving this revolution, but Kreuzer also highlights the importance of doctrine and organisational factors in realising the benefits of RPAs. He looks at two separate but related organisational issues: the organisational challenges in developing an RPA capability, and the influence of organisational capacity on a state’s ability to develop an RPA capability.
According to Kreuzer, the ‘human challenges’ of RPA are:
[s]ome of the greatest faced by states and organisations seeking to employ such weapons and will be the greatest barrier to successful employment. (p.89)
Unfortunately, these challenges are rarely examined in any great depth. This book addresses this deficiency in the literature.
Integrating RPA operators within a culture and hierarchy that favours pilots of manned platforms are proving difficult. Kreuzer draws attention to the disparity in promotion rates for RPA pilots and the controversy surrounding the Distinguished Warfare Medal as examples of how the United States is struggling to integrate RPA systems into existing culture.
The problem faced here is that ensuring the right people are attracted to and employed in RPA operations will be a crucial determinant of their operational success. Similarly, the development of an emerging capability is dependent mainly upon the promotion of RPA operators into positions of influence and power within the organisation. Kreuzer quotes from Stephen Rosen’s 1991 work on innovation arguing that it occurs ‘only as fast as the rate at which young officers rise to the top’ (p.110). This is appropriate, and in this regard, this, and his subsequent discussion on the implications of the ‘tribes of airmen’ and existing organisational culture on the integration of RPAs into the USAF is as applicable to other air forces investigating the development of an RPA capability.
The capacity for militaries to adapt organisationally to the opportunities offered by RPAs will also determine the diffusion and proliferation of the capability. This is one of the most important points raised in the book. Drawing on Michael Horowitz’s adoption-capacity theory, Kreuzer predicts the rate of diffusion of RPA technology and the type RPA likely to be developed by states based on the state’s ‘financial intensity and organisational capacity available to implement major military innovations’ compared with their ‘perceived strategic imperative to develop innovation’ (p.157). His prediction is succinctly captured through an analogy with established air power capabilities: ‘it is easier to think of networked RPAs like strategic bombers (which few countries adopted) and tactical RPAs like attack helicopters, which are common worldwide’ (p.5). The organisational and financial costs of acquiring and maintaining networked RPAs creates high barriers to entry for this capability. Unless a state has compelling operational/strategic requirements or is willing to invest in a prestige capability, as some states have done with aircraft carriers, networked RPA proliferation will be limited to only a few states (p.184). Kreuzer’s logic is sound and well-argued; as with all predictions it may eventually prove to be wrong, but his matrix of probable RPA diffusion provides an excellent starting point for the discussion of RPA proliferation.
Overlaying questions of innovation and organisational adaptation is the contribution RPAs make to air warfare. Much has been written and discussed about the impact of RPAs on the conduct of military operations, but the majority of this discussion conflates platform with strategy. As Kreuzer puts it:
Too often, debates over RPAs ignore or write off counterfactual means of military intervention and criticise RPAs for traits that would be similarly exhibited by alternative means of conflict. In many cases, attacking the RPA becomes a substitute for attacking the underlying policy, which is an unnecessary distraction from the real debate which should be made. (Emphasis added) (p.21)
The question of RPAs impact on air power permeates all aspects of the book, which is not surprising given the book’s title; however, the way in which Kreuzer does this provides the book with utility beyond the narrow subject of RPA.
In discussing the importance of RPAs in the realisation of the targeting revolution, Kreuzer explores and analyses the strategic implications of targeted killings and signature strikes. His analysis goes beyond the use of armed RPAs and is just as applicable to the employment of manned platforms. Kreuzer highlights, quite correctly, that the developments of information age air warfare are challenging existing international legal treaties and norms, but to focus solely on RPAs is a distraction as these are issues of modern warfare generally which go beyond the question of having a human in the cockpit. The legality and ethics of these types of operation is a vexed issue, but the book’s treatment is balanced, considered, and informative.
Operationally, the employment of RPAs has already raised several questions relating to sovereignty, and the implications of airspace violations and the subsequent shoot-down of RPAs operating in sovereign or disputed airspace. Recent events in Israel have raised this issue in the public consciousness. Kreuzer’s examination of this topic looks beyond the usual case studies of US operations in Pakistan’s Federally Administered Tribal Areas (though these are also discussed) to include RPA operations in the Caucasus and the Middle East. The use of RPAs by Georgia, Azerbaijan, and Hiz’ballah, and their subsequent shoot-downs by the Russians, Armenians, and Israelis respectively, provided test cases for the international community to consider the legal and strategic ramifications of airspace violations by uninhabited systems. The shoot-down of relatively expensive RPAs followed by reprimands from the international community for airspace violations demonstrate that RPAs have not changed the existing norms of airspace sovereignty. This does raise the question of US operations in Pakistan, but this subject is also well covered by Kreuzer.
Finally, Kreuzer addresses one of the perennial problems for airmen which has been exacerbated by the development of RPA: people just don’t get air power.
For all the attention airpower receives in modern war, it remains one of the least understood systems of war for outside observers […] for the average reader with a basic interest in what airpower means the subject is abstract, complex, and often subject to detailed debates about tactics and airframes rather than broader strategic implications. (p.198)
The lesson for air power professionals, scholars, and advocates is clear: more needs to be done to improve the way that air power is explained and articulated to the public. Kreuzer’s book is an excellent example of how this can be done.
Drones and the Future of Air Warfare is a must read for anyone involved in the decision to acquire, develop, and/or employ RPAs as it lays the conceptual foundation which should inform any decision to invest in an RPA capability. It would be wrong, however, to view the book solely as a treatise on RPAs. By placing the subject within their broad operational and organisational context, Kreuzer also provides insightful and informative commentary on military innovation, organisational design, capability development, and air power strategy. Accordingly, Drones and the Future of Air Warfare can rightfully be considered an analysis of the current state and future evolution of air power. It will, therefore, make an excellent addition to any air power professional’s reading list.
Wing Commander Travis Hallen is an Air Combat Officer currently serving as Deputy Director – Air Power Development at the Royal Australian Air Force’s Air Power Development Centre. He is also a Sir Richard Williams Foundation Scholar. The opinions expressed are his alone and do not reflect those of the Royal Australian Air Force, the Australian Defence Force, the Australian Government, or the Williams Foundation. He can be found on Twitter at @Cold_War_MPA.
Header Image: The MQ-4C Triton unmanned aircraft system completes its first flight on 22 May 2013 from the Northrop Grumman manufacturing facility in Palmdale, California. The 80-minute flight successfully demonstrated control systems that allow Triton to operate autonomously. Triton is designed to fly surveillance missions up to 24-hours at altitudes of more than 10 miles, allowing coverage out to 2,000 nautical miles. The system’s advanced suite of sensors can detect and automatically classify different types of ships. (Source: Wikimedia)
By Wing Commander André Adamson and Colonel Matthew Snyder
Plan Jericho, published in 2015, outlined a strategy that would transform the Royal Australian Air Force (RAAF) into a fifth-generation air force by 2025 which, if delivered on schedule, would make it the world’s first. This transformation is not based on merely the possession of the next generation of aircraft technology including the F-35A, P-8 Poseidon, EA-18G Growler and E-7A Wedgetail, but on a reconceptualisation of the RAAF as an integrated, networked force. Significantly, this new operating concept is based on working in a highly collaborative manner with the Australian Army, Royal Australian Navy, industry, and allies – especially partners in the F-35 programme – to achieve the full potential of the new technologies, and to ensure that the networked force can work effectively with them.
The Australian plan has given many air forces pause for thought. That an air force comprising fewer than 15,000 regular personnel is seeking to transition to an entirely fifth-generation air force within the next decade to meet its strategic and security objectives demonstrates an undertaking to conduct future air operations in a conceptually different way. The commitment to a similar transformation among other F-35 partners is firmly underway – both the US Air Force (USAF) and Royal Air Force (RAF) have pledged to transition to fifth-generation air forces. In contrast, for air forces that are not committed to a fifth-generation programme, or the transformational concepts that underpin it, the time is rapidly approaching where a hard-nosed evaluation and decision will need to be made on where they want to be as an air force in the next 10-15 years. The choice is tactical, strategic, and political.
Since the inception of the Joint Strike Fighter (JSF) precursor of the F-35 in the mid-1990s, there has been a broad, often polarised, and inevitably highly charged debate surrounding the programme. Over the past decade, as the first prototypes took to the air, this debate focused on cost – perhaps unavoidably given that it is the most expensive military project in history. As the aircraft subsequently moved into its production phase, attention shifted to technical problems with engines, software, and its data fusion capabilities. More recently, however, supporters of the F-35, not least the international partners themselves, have highlighted successes that indicate that the programme may have now turned a corner. These successes include the declaration of initial operating capability (IOC) by the US Marine Corps and USAF, production rates steadily increasing, encouraging feedback from the increasing number of F-35 pilots, and an impressive performance in exercises.
Although these positive developments may not entirely amount to a ‘game changer’, they arguably represent significant steps forward in the delivery of the fifth-generation capability. It is, therefore, useful to frame the debate regarding a new template: that of a capability that is, if not yet fully validated, nonetheless in the process of being delivered to partners, tested in increasingly challenging scenarios, and moving towards full operational capability (FOC). This article analyses some of the stakes involved as this capability increasingly acts as a driver for fifth-generation transformation, and to consider some of the implications for air forces that have committed to fifth-generation programmes and, perhaps more significantly, for those that have not.
Defining Fifth Generation
Most people are now familiar with the term fifth-generation as the naming convention most often used when discussing this next generation of fighter aircraft. Although there is no specific or formal definition of what constitutes a fifth-generation fighter, it is routinely accepted that those aircraft that are designed and capable of operating in highly contested operational environments. To be able to do so it is accepted that the platforms must have not only low-observable features inherent in the design of the aircraft but also onboard radar and sensor features that include low-probability of intercept and low-probability of detection. They also must possess highly sophisticated self-protection and jamming systems combined with advanced avionics and powerful computers. This integration has allowed the evolution of a capability to fuse both onboard and off-board data without the involvement of the pilot. These aircraft are, therefore, able to feed real-time information autonomously into the joint operational network, significantly increasing the awareness and reducing the decision time of commanders. It is, therefore, essential to define a fifth-generation system not just as a fighter but as a system able to operate in a networked and integrated manner. Fifth-generation systems fundamentally revolve around powerful fusion capabilities which enable fusion of data to create a highly accurate picture of the battlespace independently of an operator.
These new systems present clear operational advantages over older platforms. In the ever-increasing high-threat environment characterised by modern integrated air-defence systems (IADS), fifth-generation platforms can operate where non-fifth-generation platforms cannot. Their ability to work cooperatively and talk with other platforms in the battlespace transforms even a limited number of assets into significant force multipliers and force enablers. Thus, the F-35 is not only an air asset; it is also a collection platform which can interact with, and provide data to, both ground and maritime forces. However, possession of such an advanced platform comes at a considerable price. It is complicated to take a non-stealth platform and make it stealthy. Therefore, not only does a country need to sign up to make a significant financial commitment to purchase a fifth-generation platform such as the F-35, but significant investment is required elsewhere, such as in new maintenance facilities and the robust data networks that are necessary to exploit its full capabilities. It is worth briefly reviewing the reasons for the decision to commit to the F-35 programme for those states that have joined.
The Partners and Why they Joined the F-35 Programme
Nine countries originally signed up as partners to the JSF programme, the precursor to the F-35: the US; the UK; Australia; Canada; Italy; The Netherlands; Norway; Turkey; and Denmark. Three others committed through Foreign Military Sales: Israel; Japan; and South Korea. As the most expensive military development and procurement plan in history, the F-35 has attracted a great deal of controversy since the development contract was signed in November 1996. From its conception, the JSF was to be an international co-development programme, a decision that was driven by several factors. All the partners were either NATO countries and/or close US allies, and there was, from the outset, a clear imperative for interoperability and interconnectivity in coalition-based air operations. The partners had been operating a range of different platforms of varying levels of capability, and the F-35 enabled them to operate the same aircraft with all the evident advantages that it brings regarding interoperability, training, logistics, among others. Furthermore, the partners were all involved, to varying degrees, in the design, building and testing of the aircraft. This was a unique element of the programme that helped maintain domestic hi-tech military industries. The UK, for example, was the only Tier 1 partner and is responsible for 15 percent of the aircraft, worth an estimated £30 billion over the lifetime of the programme sustaining 24,000 jobs. The European F-35 production facility in Cameri, Italy, is projected to bring $15.8 billion of economic benefit to the Italian economy.
The F-35 programme and the cooperative and industrial advantages it confers are, however, as described above, more than the next-generation platform conceived at the outset of the JSF programme. The F-35 represents a commitment by the partner air forces to exploiting a range of new, highly advanced capabilities that constitute a step change in the gathering, processing, and sharing of information, particularly in contested environments. Indeed, it is the recalibration of strategic and operational thinking that has been driven by the requirement to operate in those increasingly contested environments, and against near-peer adversaries, which has proved so persuasive in winning the argument for the fifth-generation partners. It has required a shift in thinking and a reconceptualisation of the conduct of air operations in the joint and combined environment through the significantly enhanced surveillance, command and control, and information sharing that fifth-generation capabilities provide. It also compels fifth-generation air forces to integrate and network with land and maritime forces in an unprecedented way – next-generation air forces will require next-generation joint forces.
The countries that committed to the F-35 programme did so over 15 years ago following the first flight of the prototype X-35B. As described above, motivations at the time were primarily centred on the requirement of those air forces to replace their legacy fleets, or to run those fleets alongside platforms that exploited the latest technological developments, including stealth. The potential of those technologies has evolved significantly over the subsequent years, often beyond the original expectations and understanding, and those air forces which are part of the programme are now beginning to take delivery of a capability that represents a genuine generational change. The geopolitical context has also evolved over that period and, following 15 years of assumed air superiority in Iraq and Afghanistan and the counterinsurgency operations that followed, the air forces that will be using the F-35 are discovering that they have a capability that is credible in contested environments. However, most of those air forces have equally begun to realise that having a fifth-generation aircraft does not merely equate to having a fifth-generation capability as defined above. Although the US Marine Corps declared IOC in 2015 and the USAF in August 2016, there are still significant challenges to be addressed, both technically and conceptually, before the declaration of a genuinely fifth-generation FOC. Furthermore, there are undoubtedly continuous and continuing problems in the development of the F-35 itself, as might be expected in a programme of such size and complexity and the programme is, by some order of magnitude, the costliest in the Department of Defense’s history.
Implications for F-35 Partners of Integrating Fourth- and Fifth-Generation Fighters
F-35 deliveries are now firmly underway with over 200 jets flying, most of the partners operating their aircraft and production rates scheduled to exceed 60 per year soon. This puts considerable pressure on those partner countries and Foreign Military Sales customers to prioritise the elements that will allow them to realise the full force-multiplier potential of the aircraft. This includes the enhanced data management, connectivity and bandwidth upgrades required to operationalise and fully exploit the capability that fifth-generation aircraft offers for information-centric warfare and cross-platform connectivity.
In this regard, the F-35 has a ‘forcing function’ for militaries looking to adopt a fifth-generation standard. Naval and ground forces stand to benefit significantly from the network-centric, cross-platform, multiple-shooter concept of operations of which the F-35 will form such a significant element. As Justin Bronk suggested, given the almost unlimited scope of connecting the F-35 to every system in the battlespace, joint force commands will be compelled to invest in the connectivity and bandwidth for the platforms that stand to provide the most significant increase in combat power and flexibility. This will drive the development of fifth-generation joint forces, a concept that has significant potential, particularly in contested environments. It also is a critical element of underpinning programmes such as Plan Jericho – the transformation to an integrated networked joint force that has combat power much more significant than the sum of its parts.
Whereas the RAAF is looking to upgrade its entire legacy fleet over the next decade, most of the F-35 partners, including the USAF, will need to run their legacy fleets alongside their fifth-generation platforms for some years beyond that. The RAF and Italian Air Force, for example, possess the highly capable Typhoon, a fourth-generation aircraft with high performance, an active scan radar, Link 16, and a comprehensive air-to-air and air-to-ground weapons suite. As Bronk pointed out, in such cases investment in the F-35 and Typhoon should not be seen as a binary choice as ‘each aircraft offer strengths to complement the other’s capabilities. The combination of F-35 and Typhoon can be far more potent than a force composed entirely of either type in many operational scenarios’.
As a US-led, but highly collaborative, programme, development of the F-35 has drawn the partners together. The sharing of technologies, concepts, tactics, training, maintenance, logistics, and procedures represent a significant opportunity for fifth-generation air forces. With the F-35 being operated by so many states there are also substantial prospects for tactical, technical, and conceptual innovation which will allow the aircraft to be highly ‘future-proof’ without compromising issues such as sovereignty, national defence industries or strategic autonomy. All these elements contribute to powerful forces drawing the F-35 partners into what might be described as a fifth-generation ‘club’. The level of international cooperation is unprecedented, with pilots training together at the F-35 multinational pilot training centre at Luke Air Force Base in Arizona, maintenance facilities being developed in Italy, Turkey, Norway and The Netherlands, and a global logistics supply chain. The result is a deepening of cooperation between the partner air forces, many of whom already possess a strong ability to do so through links forged over the years through NATO and operating in coalitions since the end of the Cold War.
Implications of Integrated Fourth- and Fifth-Generation Air Forces for Countries that are not F-35 Partners
Air forces that have not yet committed, or do not have current plans to transition to fifth-generation systems, will need to consider the operational and strategic implications of such decisions. Four areas should be considered considering future military operations: the ability to engage near-peer adversaries in a high-intensity environment; the military status and political parity with allied countries; the integration and collaboration capabilities with partner forces; and the potential limitation of the depth and breadth of defence technological innovation.
As previously discussed, fifth-generation systems are not merely about employing stealth attributes, but rather about harnessing the substantial advancements in processing ability and data fusion capabilities inherent in such systems. Tellingly, the aim is to create and operate a networked environment where the lines are seamless between sensors, shooters, and operators. As a result, air forces that do not possess these capabilities are likely to find themselves increasingly relegated to a supporting rather than a leading role in planning for, and executing, future contingency operations. Countries that are not able to contribute and operate effectively in high-threat environments will potentially find themselves not on an equal footing with their coalition partners, a position that may compromise their role in military operations and, increasingly, political decision-making. Except for Australia, all the original nine partner countries are NATO members, allowing the smaller air forces of the Alliance – such as Spain and Belgium – to mitigate the limitations of their continued reliance on fourth-generation assets by optimising the capabilities of the F-35 with their legacy platforms in a NATO context. For larger Western countries not in the F-35 programme – such as France and Germany – there will be pressure to prioritise the optimisation of their existing platforms with the capabilities of the F-35. France faces the challenge of preserving its much-valued strategic autonomy, continued global aspirations and protection of its defence industrial base in the context of fifth-generation transformation. In his evidence to French MPs last year the Chief of the French Air Force, General Lanata, warned that, in less than five years, the F-35 would become the standard for operating in the most demanding operational scenarios, and that it would bring to a head the decision as to whether an air force can engage in those scenarios in the future. In short, without fifth-generation aircraft, an air force risks being in a supporting role in a coalition air environment and will require a fifth-generation partner to provide mission success against a near-peer adversary.
Finally, the benefits of privileged access to the highest level of military technology enjoyed by the F-35 are substantial. The highly collaborative nature of the programme ensures that technology transfer occurs at an unprecedented scale and provides a wealth of opportunities for hi-tech defence industries across the partner countries. The fact that so many states will operate the F-35 will also boost the opportunities for innovation in disciplines such as engineering and avionics, as well as tactics and concepts. For air forces outside of the programme, technological advances can, of course, be pursued at the national level but they will not benefit from the exchange of ideas, concepts and innovation that are generated by this collaborative programme.
This article has articulated some of the critical implications for air forces committed to a fifth-generation programme centred on the F-35 and for those that have not. After a decade and a half of delays, setbacks, and bad press, the F-35 programme and the technological advancements linked to it are gathering momentum. The programme is driving the partner states not just to unprecedented levels of military cooperation and convergence but also developing the networked joint forces necessary to operate in an increasingly contested environment. For states that have chosen to not participate in the fifth-generation programme, the challenges will be tactical, strategic, and political.
At a tactical level, operators of legacy fleets will struggle to interoperate effectively with the F-35 and other fifth-generation assets and indeed may degrade the effectiveness of coalition operations centred on fifth-generation systems. Furthermore, they may well be restricted to operating only in semi-permissive environments with a low IADS threat. At a strategic level, air forces that do not operate fifth-generation platforms may face the challenge of not being considered on an equal footing with the F-35 partners who, within a decade, are likely to have developed means to fuse, process, distribute and exploit data that will out-pace anything that even updated legacy fleets can match. At a political level, the range of credible options available to a national executive in the context of a highly contested environment against a peer competitor risk being limited. There will, therefore, be an increasing onus on air forces not operating fifth-generation platforms to articulate a credible and conceptually coherent ‘offer’, what they can contribute to a fifth-generation-led coalition, for example, to justify their status at each level. This will be a point that will not be lost on many who look to avoid the risk of fourth-generation air forces being restricted to a supporting role in the air environment against a near-peer.
Furthermore, partners in fifth-generation system development are pushing the boundaries of collaborative networked systems and transforming military operations. The ‘forcing function’ – the incentives generated by the F-35 for further technological developments and integration – provides a potent impetus for change and innovation among the fifth-generation partners. Conversely, countries not actively involved in fifth-generation transformation are starting to face a capability gap that will only continue to widen over the next decade. Other means – political, financial, or industrial – will be needed to drive the change necessary to mitigate the divergence or offset its effects. Set against these challenges, these air forces might argue that their national security priorities over the next 10-15 years are perfectly well met by remaining outside the F-35 programme and the fifth-generation capabilities of which it is a core element. An approach such as this relies on updating fourth-generation assets in the short term and developing other solutions either nationally or in collaboration with other partners for deployment beyond the 2035 timeframe. They might also credibly contend that legacy assets are inherently less vulnerable to disruption of the networks on which fifth-generation platforms rely and that the significant costs associated with the programme could be more effectively apportioned elsewhere to meet those national priorities.
The arguments presented in this article suggest, however, that the implications of this approach in the longer-term are potentially severe and that there will be, eventually, a cost regarding capability, operational effectiveness, technological superiority, and status. Writing in 1989, William Lind et al. wrote that ‘whoever is first to recognize, understand, and implement a generational change can gain a decisive advantage. Conversely, a nation that is slow to adapt to generational change opens itself to catastrophic defeat.’ Although he was writing in the context of the end of the Cold War, Lind’s observation remains apposite and is at the core of the conceptual leap being undertaken by Australia, the US, the UK and the other F-35 partners. These are increasingly clear strategic choices that will have implications for all air forces, and they will soon discover whether the price will have been worth paying.
Wing Commander André Adamson is an officer in the RAF and was until recently liaison officer for the Plans Bureau with the French Air Staff in Paris. Colonel Matthew Snyder is an officer in the USAF and strategic partnership exchange officer for the Plans Bureau with the French Air Staff in Paris. The views and opinions expressed in this article are those of the authors and do not represent the official position of their respective organisations.
Header Image: An F-35 Lightning II departs RAAF Base Amberley for the Avalon Air Show, c. 2017. (Source: Australian Department of Defence)
 The RAF has decided to refer to a ‘next generation’ air force in its recently published strategy to emphasise the concept of integration and to reduce the risk of the strategy being seen to be platform based. See RAF, Royal Air Force Strategy: Delivering a World-Class Air Force, (London: Royal Air Force, 2017).
 By way of comparison, the estimated cost of the US Navy’s first four new Gerald R Ford-class nuclear-powered aircraft carriers will cost approximately $50 billion and the costs for modernising all three components of US nuclear forces will cost approximately $350 billion over the next decade. See, Congressional Budget Office, ‘Projected Costs of U.S. Nuclear Forces, 2017 to 2026,’ February 2017.
 Justin Bronk, ‘Maximum Value from the F-35: Harnessing Transformational Fifth-Generation Capabilities for the UK Military,’ RUSI Whitehall Reports, 1-16 (February 2016), p. viii.
 Franck Delétraz, ‘Le cri d’alerte du général Lanata,’ Présent, 8 August 2017.
 William S. Lind, Colonel Keith Nightengale (USA), Captain John F. Schmitt (USMC), Colonel Joseph W. Sutton (USA), and Lieutenant Colonel Gary I. Wilson (USMCR), ‘The Changing Face of War: Into the Fourth Generation,’ Marine Corps Gazette, (October 1989), p. 22.
Phillip S. Meilinger, Limiting Risk in America’s Wars: Airpower, Asymmetrics, and a New Strategic Paradigm. Annapolis: MD, Naval Institute Press, 2017. Illustrations, Notes, Bibliography, Hbk. xx + 277 pp.
The US possesses the pre-eminent military force in the world today. The record of the US in conflict since the Second World War does not, however, reflect this capability pre-eminence. In a recent online article, Harlan Ullman noted that:
President John F. Kennedy tartly observed that there is no school for presidents [but] there needs to be a way to bring knowledge and understanding to bear on presidents’ decisions.
Ullman’s concern is that President’s, and those that advise them, are ill prepared for determining political strategy in the context of using military force.
It would not be inappropriate to suggest that Phillip S. Meilinger’s new book is one way of addressing this knowledge deficit. In simple terms, this is a book about US strategy, or rather re-thinking US strategy in the context of protecting national interests subject to the usual pressures of representative democracy. Pressures that require amongst other things maintenance of public support, which is increasingly sensitive to the costs of war in both people and money. As such Meilinger advocates for a reorientation of US military policy to focus on its asymmetric strengths in areas such as air and naval power, special forces (SOF), increasingly pervasive intelligence, surveillance and reconnaissance (ISR) and intelligence analysis, against enemy vulnerabilities, and at the same time limit the States exposure to the risk of ‘casualties and cost’. While a simple concept, it is a shift away from current US strategic policy that follows Clausewitzian notions of using conventional ground forces against enemy strengths.
Meilinger starts by reminding us of the main problem to be addressed – designing military strategy to achieve political goals with the highest chance of decisive military victory but at the least cost. Railing against the Clausewitzian model of seeking decisive victory by attacking an enemy’s strength head-on, and its attendant higher cost and risk of failure, Meilinger reviews the work of several renowned strategists including Basil Liddell Hart, J.F.C. Fuller, Antoine Jomini and Sun Tzu to identify an alternative strategic direction. The common thread he draws from such strategists is of using an asymmetric advantage to strike at an enemy’s weakness while protecting your own. He draws upon the example of indirect second-front operations that he defines as:
[g]rand strategic flanking manoeuvres involving a major military force that strikes the enemy unexpectedly somewhere other than the main theatre of action (the source of the enemy’s strength) and is directed to achieving clear political objectives. (p.31)
Within the concept of second-fronts, Meilinger sees a basis to provide the US with an asymmetric advantage over enemies, with the promise of limiting the America’s exposure to casualties and cost.
Meilinger then examines both successful and unsuccessful historical incidences of second-fronts from the Peloponnesian war through to the Second World War to determine whether they are conceptually relevant today. This examination identifies that the reasons for opening a second-front exist today. These reasons are to avoid enemy strongpoints, increased morale, gaining an economic advantage, splitting an alliance, denying or gaining access to resources, the base for further operations, taking advantage of a unique strength. Importantly, the contemporary need for states to limit risk and preserve resources makes the most fundamental reason for adopting second-fronts. Also, the use and creation of asymmetry against an enemy by avoiding their strengths and attacking their vulnerabilities to limit risk and cost are of significant relevance to the American public. Similarly, those factors prominent in success or failure of second-fronts such as valid strategy, competent planning, competent leadership, accurate and timely intelligence, friendly or neutralised local population, secure lines of communication, maritime and air superiority, are also still current.
While many of these factors are commonly addressed, Meilinger raises a couple of issues that are perhaps core to the application of an appropriate alternative strategy to the achievement of desired political objectives. Success requires both sound policy and strategy, the setting of which requires the military leadership to provide appropriate advice and guidance to the government. Political objectives must be achievable through an aligned strategy that military planners design to maximise the chance of success while simultaneously minimising risk and costs. As such strategy and the forces to implement it should not be adversely affected by service culture or other factors incongruent with the development of optimal outcomes. Should the government not accept appropriate advice, but instead adopts policy or strategy that inappropriately increases the risk to lives and/or of failure then the military leadership should have the moral courage to seek to positively influence political decision-making or be prepared to resign.
Meilinger highlights the asymmetric advantage provided to the US by its air power capabilities that most, if not all, nations would struggle to contain. Through its reach, speed, ubiquity, flexibility and lethal precision it provides the US direct access to all the strengths and vulnerabilities (centres of gravity) of an enemy, allowing it the ability to undertake direct or indirect attack against them, with drastically reduced risk to its forces and civilians, and a significantly reduced footprint. Concerns over its reputation (psychological, graphic violence, and morality of distance) and risk shifting to civilians, arguably are offset using precision weapons, targeting tools and detailed planning resulting in reduced risk to civilians. In other words, Meilinger claims it is ‘the US asymmetric advantage that limits [US] risk.’ (p. 190)
Since the Second World War, wars have generally been fought with limited means to achieve limited objectives, whether due to avoiding nuclear peers, concerns with maintaining public support, legal restrictions, media, geography, culture or concerns over managing scarce resources. Meilinger’s review of post-Second World War wars undertaken by the US from Korea to Iraq highlights a somewhat chequered record of success premised on US strategy of employing massive conventional ground forces. While air power was used during these wars, it was either used poorly, or when used successfully, the maintenance of an overall Clausewitzian conventional ground force strategy ultimately led to strategic failure.
Meilinger notes that perhaps another model should have been used; one presaged by historical second-front operations that used unique strategies and tactics to solve equally unique problems, with the goal of achieving measurable political results at minimal risk. As such Meilinger suggests that the US should ‘use [its] asymmetric strengths against enemy weaknesses while screening their own vulnerabilities’. In addition to air power, existing asymmetric strengths include SOF and ubiquitous ISR. Combining these three capabilities with ‘determined’ indigenous forces provide a force structure that provides an asymmetric advantage against conventional and unconventional enemy forces, and which when compared to conventional ground force options offers an opportunity for measurable results while saving lives and money.
There is, however, a paradox in Limiting Risk in America’s Wars that is hard to reconcile. The engaging, forthright simplicity of the book is achieved by avoiding overly complex analysis and justification of strategic concepts and their technical detail. Consequently, what makes the book easy to read and understand, also makes it appear shallow in specific areas. While the knowledge of the author is unquestionable, and the notes provide an extra depth of information, there are times when the reader is left to accept the statements of the author as fact, rather than follow an articulated analysis resulting in verifiable deductions or inductions.
For instance, a critical position taken by the author is that the US should adopt the asymmetric advantage provided by the ‘combination of air power, SOF, indigenous forces, and ISR.’ (p. 194) There is a succinct analysis of the air power capability resulting in a deduction that air power provides an asymmetric advantage, but there is no such deductive analysis of the asymmetric advantage of SOF and ISR and only a limited prescription for indigenous troops. While there seems to be a dearth of material on the anti-Clausewitzian aspects of these elements, examples exist. The work of retired General Robert Scales, for instance, on mobile land forces in replication of air power capability would seem to offer the prospect of more detailed analysis of corresponding ground force elements, to aid in fleshing out the elements of Meilinger’s overall strategy. The lack of detailed insight into each of the non-air power elements, by consequence results in the absence of explanation or analysis into how the four nominated forces fit together to deliver an overall asymmetric advantage in contemporary conflict. Admittedly, a core thread of the book is about raising the importance of air power in the overall force composition and strategy mix, but the failure to address the other elements and their combination can lead to questions, which undermines the overall premise of the book and could have been quickly addressed.
One such example is the a priori claim that the use of conventional forces increases the risk of casualties (civilians and own forces) – whether from the dangers of ground combat or the application of air power in support of troops in conflict. If you replace conventional forces with indigenous troops, the same risks still seem to exist. In fact, the risk may increase if the indigenous troops are not as professional or well-equipped as the conventional forces they are replacing. The logical conclusion that can be drawn thus appears to be that the only benefit that exists is a movement of risk from US forces (as no conventional troops are committed) to the indigenous forces and civilians.
Meilinger tellingly notes that if:
US leaders determine that our vital interests be indeed at stake and US involvement is essential the case studies reveal timeless truths regarding the most effective and efficient methods of achieving success at low risk. (p. 205)
Conceptually, after reading this book, it is hard to disagree with this statement. There is something powerful in the simple argument that strategy, and force composition, should be built around the use of asymmetrical advantages against enemy vulnerabilities to reduce risk and cost. However, by attempting to advance this concept one step further and identify, without full supporting analysis, a specific contemporary US strategy with a focus on air power and the other elements of SOF, ISR and indigenous ground forces, it strikes me that Meilinger not only comes to a logically weakened position. As such, Meilinger, unfortunately, misses the opportunity to articulate a more robust and appropriate strategy for the conduct of warfare generally.
Wing Commander Alec Tattersall has been a permanent member of the Royal Australian Air Force (RAAF) since 1996. He is a graduate of the University of Tasmania (Bcom & LLB), the University of Melbourne (Grad. Dip. Military Law), the Australian National University (GDLP and LLM), and is currently undertaking postgraduate research into the philosophical aspects of autonomous weapon systems at the University of New South Wales. His recent postings include; Headquarters Joint Operations Command, Air Force Headquarters, the Directorate of Operations and Security Law, and the Air Power Development Centre. Threaded through these postings are a number of operational deployments to the Middle East and domestically for counter-terrorism. He is the currently seconded to Special Counsel in the Australian Signals Directorate and is the Defence Legal representative to the 2017/18 meetings of the United Nations Group of Governmental Experts on Lethal Autonomous Weapon Systems. The opinions expressed are his alone and do not reflect those of the RAAF, the Australian Defence Force, or the Australian Government.
Header Image: An MQ-9 Reaper equipped with an extended range modification sits on the ramp on Kandahar Airfield, Afghanistan before a sortie on 6 December 2015. (Source: US Department of Defense Images)
Editorial Note: This weekend, 12 May, the North American Aerospace Defense Command (NORAD), the Bi-National defense command between the United States and Canada (and yes, the same organization that tracks Santa every Christmas Eve) is celebrating its 60th Anniversary. As such, we here at From Balloons to Drones wanted to share a portion of the history of this unique organization. The following comes to you from the NORAD History Office and our Assistant Editor Dr Brian Laslie, who is also a historian at NORAD.
With the beginning of the Cold War, American defence experts and political leaders began planning and implementing a defensive air shield, which they believed was necessary to defend against a possible attack by long-range, manned Soviet bombers. By the time of its creation in 1947, as a separate service, it was widely acknowledged the Air Force would be the centre point of this defensive effort. Under the auspices of the Air Defense Command (ADC), first created in 1948, and reconstituted in 1951 at Ent Air Force Base (AFB), Colorado, subordinate US Air Force (USAF) commands were given responsibility to protect the various regions of the United States. By 1954, as concerns about Soviet capabilities became graver, a multi-service unified command was created, involving US Navy, US Army, and USAF units – the Continental Air Defense Command (CONAD). USAF leaders, most notably Generals Benjamin Chidlaw and Earle Partridge, guided the planning and programs during the mid-1950s. The USAF provided the interceptor aircraft and planned the upgrades needed over the years. The USAF also developed and operated the extensive early warning radar sites and systems which acted as ‘tripwire’ against air attack. The advance warning systems and communication requirements to provide the alert time needed, as well as command and control of forces, became primarily a USAF contribution, a trend which continued as the nation’s aerospace defence matured.
As USAF leaders developed plans and proposed warning system programs, they became convinced of the logical need for extended cooperation with America’s continental neighbour, Canada. US-Canada defence relationships extended back to the Second World War when the two nation’s leaders formally agreed on military cooperation as early as 1940 with the Ogdensburg Declaration. These ties were renewed in the late 1940s with further sharing of defence plans in light of increasing Soviet military capabilities and a growing trend of unstable international events, such as the emergence of a divided Europe and the Korean War.
Defence agreements between Canada and the United States in the early 1950s centred on the building of radar networks across the territory of Canada – the Mid- Canada Line (also known as the McGill Fence), the Pinetree Line, and the famous Dew Line. This cooperation led to a natural extension of talks regarding the possible integration and execution of air defence plans. The Royal Canadian Air Force (RCAF) and USAF exchanged liaison officers and met at critical conferences to discuss the potential of a shared air defence organisation. By 1957, the details had been worked out, and the top defence officials in each nation approved the formation of the NORAD, which was stood up on 12 September at Ent AFB, in Colorado Springs, Colorado, home of the US CONAD and its subordinates, including USAF ADC. General Earl Partridge, USAF, who was both the ADC and CONAD Commander, also became commander of NORAD, and the senior Canadian RCAF official, Air Marshal Roy Slemon, who had been the critical Canadian delegate in most of the cooperation talks, became deputy commander, NORAD. Nine months after the operational establishment of the command, on 12 May 1958, the two nations announced they had formalised the cooperative air defence arrangements as a government-to-government bilateral defence agreement that became known as the NORAD Agreement. The NORAD Agreement and its associated terms of reference provided the political connections which would make possible the longevity of the Canadian-US aerospace defence relationship into the future years. The NORAD Agreement, with its requirement for periodic review, ensured flexibility to adapt to a changing defence environment as would be evident by the events that would soon face the fledgeling command.
Within one year of its establishment, NORAD began the process of adapting its missions and functions to ‘a new and more dangerous threat.’ During the 1960s and 1970s, the USSR focused on creating intercontinental and sea-launched ballistic missiles and developed an anti-satellite capability. The northern radar-warning networks could, as one observer expressed it, ‘not only [be] outflanked but literally jumped over.’ In response, the USAF built a space-surveillance and missile-warning system to provide worldwide space detection and tracking and to classify activity and objects in space. When these systems became operational during the early 1960s, they came under the control of the NORAD.
In NORAD’s 60-year history, perhaps the most notable symbol of the command has been the Cheyenne Mountain Operations Center (CMOC), often referred to as simply ‘Cheyenne Mountain.’ This vast bunker complex, which became fully operational in 1966, sat more than 1,500 feet underground and consisted of 15 buildings, which comprised the central collection and coordination facility for NORAD’s global-sensor systems.
Throughout the 1970s, the ballistic missile threat caused policymakers to reassess the effectiveness of the air defence system. This meant the potential demise of the arguments for enhanced traditional air defence and moved NORAD to focus on such challenges as an improved warning of missile and space attack, defence against the ICBM, and more significant protection and survival of command, control and communication networks and centres. This resulted in a reduction of the USAF interceptor forces and closure of various portions of the radar network. Modernization of air defence forces became a hard argument. Because of changes in US strategic policy, which had come to accept the concept of mutual vulnerability to ICBM attack, the need to spend about $1 billion a year on air defence was challenged. In 1974, Secretary of Defense James Schlesinger stated the primary mission of air defence was to ensure the sovereignty of airspace during peacetime. There followed further reductions in the size and capability of the air defence system. By the late 1970s, the remaining components – some 300 interceptors, 100 radars and eight control centres – had become obsolescent and uneconomical to operate.
Over the years, the evolving threat caused NORAD to expand its mission to include tactical warning and assessment of possible air, missile, or space attacks on North America. The 1975 NORAD Agreement acknowledged these extensions of the command’s mission. Consequently, the 1981 NORAD Agreement changed the command’s name from the North American ‘Air’ Defense Command to the North American ‘Aerospace’ Defense Command.
The 1980s brought essential improvements for the aerospace defence mission. Again, NORAD demonstrated adaptability to meet these changes. In 1979, the US Congress ordered the USAF to create an air defense master plan (ADMP). The ADMP, modified and upgraded, became the US administration’s outline for air defence modernisation and the foundation for NORAD cost-sharing discussions between Canada and the United States. The modernization accords signed in 1985 called for the replacement of the DEW Line radar system with an improved arctic radar line called the North Warning System (NWS); the deployment of Over-the-Horizon Backscatter radar; greater use of USAF Airborne Warning and Control System (AWACS) aircraft; and the assignment of newer USAF aircraft, specifically F-15s, F-16s, and CF-18s, to NORAD.
The late 1980s witnessed another expansion of the NORAD mission. On 29 September 1988, President Ronald Reagan signed legislation that involved the US Department of Defense, and specifically NORAD, in the campaign against drug trafficking. The command’s role in this mission was to detect and track aircraft transporting drugs and then report them to law enforcement.
On 11 September 2001, terrorists hijacked four passenger airliners, two of which obliterated the World Trade Center, in New York City, while another shattered part of the Pentagon. One of the four aircraft crashed in Pennsylvania before hitting its target, apparently either the US Capitol or the White House. The event made it clear that attacks on the homeland would not necessarily come only from across the poles and oceans which buffered the North American continent.
In the immediate aftermath of the 9/11 attacks, NORAD began Operation NOBLE EAGLE. The purpose of this still-ongoing air patrol mission was to defend the United States against terrorist aggression originating from either within or outside the nation’s air borders. NOBLE EAGLE missions were executed primarily by the USAF First Air Force, a NORAD unit under the command of the Continental NORAD Region (CONR), located at Tyndall AFB, in Florida. By June 2006, NORAD had responded to more than 2,100 potential airborne threats in the continental United States, Canada, and Alaska, as well as flying more than 42,000 sorties with the support of USAF AWACS and air-to-air refuelling aircraft.
NOBLE EAGLE’s response has become institutionalised into daily plans and NORAD exercises through which the command ensures its capability to respond rapidly to airborne threats. USAF units of NORAD have also assumed the mission of the integrated air defence of the National Capital Region, providing ongoing protection for Washington, D.C. Also, as required, NORAD forces have played a critical role in air defence support for National Special Security Events, such as air protection for the NASA shuttle launches, G8 summit meetings, and even Superbowl football events.
In recognition of the changing threat environment of the post-9/11 world, the United States Department of Defense stood up, in October 2002, US Northern Command (USNORTHCOM) as a joint service command to execute the mission of homeland defense across all domains. With NORAD already executing the air defense mission of North America, it was a logical step to co-locate the headquarters of NORAD and USNORTHCOM in Colorado Springs, Colorado, and to retain a dual-hatted commander relationship between NORAD and the new US joint command.
As NORAD looked to the future, past threats re-emerged. In 2014, Russian long-range aviation and maritime activity reached levels not seen since the Cold War: more sorties, supported by more tankers, and more sophisticated linkages between air and maritime intelligence collection than ever before. This activity underscored an aggressive Russian military enjoying new prosperity, proficiency, and ever improving capabilities that had NORAD focused on the Russian Bear once more. NORAD’s three operational regions in Alaska, Canada, and the Continental United States, routinely responded to incursions by Russian long-range aviation aircraft entering the North American Air Defense Identification Zone (ADIZ) or the Canadian Air Defense Identification Zone (CADIZ).
As NORAD celebrates its 60th this weekend, we here at From Balloons to Drones send a very ‘Happy Anniversary’ to both America and Canada and to the Command itself for providing 60 plus years of aerospace warning, control, and defense to the Homeland. We know that you have the watch!
Dr Brian Laslie is a US Air Force Historian and currently the Deputy Command Historian at North American Aerospace Defense Command (NORAD) and United States Northern Command (USNORTHCOM). A 2001 graduate of The Citadel and a historian of air power studies, he received his Masters’ from Auburn University Montgomery in 2006 and his PhD from Kansas State University in 2013. He is the author of Architect of Air Power: General Laurence S. Kuter and the Birth of the US Air Force (2017) and The Air Force Way of War (2015). The latter book was selected for the Chief of Staff of the Air Force’s 2016 professional reading list and the 2017 RAF Chief of the Air Staff’s reading list. He can be found on Twitter at @BrianLaslie.
Header Image: A USAF F-22 Raptor of the 3rd Wing escorts a Russian Air Force Tu-95 Bear bomber near Nunivak Island, c. 2007. This was the first intercept of a Bear bomber for an F-22, which was alerted out of Joint Base Elmendorf-Richardson’s Combat Alert Center. (Source: US Department of Defense Images)
The introduction to the recent #highintensitywar series run by From Balloons to Dronesand The Central Blue suggested that the character of military conflict is changing due to the increased possibility of high-intensity war, which, in turn, will present significant challenges to Western militaries. While the series introduction suggested that post-Cold War conflicts presented few challenges for air forces seeking to maintain control of the air the increasing likelihood of a high-intensity war may well change that scenario. In such a case, not only will the ability to achieve air dominance be challenging but also, if that is not achieved then the ability to perform the full spectrum of air power roles and using all capabilities available may be restricted too. Such a situation may prove especially difficult for small air forces which often lack specific capabilities in the first place.
This article focuses predominantly on small European air forces with Poland and Sweden as case studies. It discusses the situation in which these two air forces find themselves after the end of the Cold War and the changes they have undergone. In doing so, this article also briefly introduces some of the general trends and challenges that took place during the post-Cold War years in Europe such as decreasing defence budgets and the downsizing of armed forces. The article identifies principal areas where small European air forces suffer from capability shortcomings and then moves on to discuss the role of multinational cooperation as a means to make up for these gaps.
What is a Small Air Force?
When speaking of a small air force, one could think of it looking at its actual size, its number of the aircraft and its number of personnel. However, this article defines a small air force according to its capabilities. This follows the definition provided by Sanu Kainikara who recognised four categories of air forces; the US Air Force, large air forces, small air forces and niche air forces. These differ from each other regarding the scope of their capabilities, their ability to pursue operations independently as well as the presence of an indigenous industry supporting the air force’s needs at the national level. According to this classification, small air forces can perform the four fundamental roles of air power; control of the air, intelligence, surveillance and reconnaissance (ISR), attack and air mobility. On the other hand, small air forces do not have the resources necessary to undertake such roles to a considerable extent and over a prolonged period. Therefore, small air forces would not be able to conduct independent large air operations. However, they are often the desired ally that can efficiently work within a coalition.
Both the Polish and Swedish Air Forces (AF) comfortably fit into the category of a small air force. They have necessary resources to perform the full spectrum of capabilities within the already mentioned air power roles. However, their resources are insufficient, sometimes falling to single numbers of an aircraft of specific types. That makes them unable to perform independent large-scale military operations. Finally, both countries have some industrial capacity to support national air power capabilities, such as PZL Mielec and PZL Świdnik, now part of respectively Sikorsky Aircraft Corporation and Leonardo-Finmeccanica’s Helicopter Division in Poland, or Saab in Sweden.
European Air Power after 1991
In the post-Cold War years European air forces and militaries, in general, underwent certain transformations. Primarily, military expenditure by European states has dropped noticeably. In Poland, defence expenditure has decreased from 2.6% of the GDP in 1990 to 2.0% in 2016 while in Sweden it has dropped from 2.6% to 1.0% in the same period. In line with decreasing defence budgets was the gradual downsizing of air forces and the armed forces in general. For example, in Poland, the number of active personnel has dropped from 86,200 men in 1990 to 16,600 in 2015. At the same time, the number of officers serving in the Swedish AF fell from 8,000 to 3,300. Moreover, it was not only manpower that dropped in numbers but also available equipment. The Polish AF reduced from 800 aircraft in 1990 to 300 in 1998 with the target of 100 to be reached in 2002. A similar process also took place in the Swedish AF, but, in this case, it was initiated as early as the 1960s when the number of combat aircraft started to drop from 800 and reached 400 in the 1990s.
The above situation led to specific organisational and structural changes within both the Polish and Swedish AFs. In case of the Polish AF, these transformations started at the very top when the Air Force (Wojska Lotnicze) and the Country Air Defence Force (Wojska Obrony Powietrznej Kraju) merged to form the Air Force and the Counter-Air Defence Forces (Wojska Lotnicze i Obrony Powietrznej). In 2004, the latter formation was finally re-named as the Polish Air Force (Siły Powietrzne). Also, the building blocks of the Polish AF was changed by replacing two of its existing squadrons with regiments. Similar re-organisation took place within the Swedish AF when out of its 12 Wings, and the main air bases, only four remained operational while the other eight were closed.
The transformation of the two air forces also involved modernisation of their already reduced fleets. In Sweden, that process focused on three areas. First, the Swedish AF replaced its AJ/JA-37 Viggen aircraft with JAS-39 Gripen. Second, it introduced more advanced types of munitions and then finally it has sought to upgrade its command, control, communications, and intelligence system. For Poland, the air force modernisation was challenging because the overwhelming majority of the country’s aircraft was built either in the Soviet Union or under licence from them. In the post-Cold War years, these aircraft delivered little modern combat capability. As such, in the process of modernisation, the Polish AF replaced its MiG-21 and MiG-23 fighters with 22 MiG-29s bought from Germany in 2003 and 48 F-16s delivered in years 2006–2008 from the US. They also acquired 17 CASA C-295M transportation aircraft. Finally, on the 1 January 2016, Poland opened the twelfth unmanned aerial vehicle (UAV) base that was the first of its kind in the country.
Limitations of European Air Power
Despite all the organisational and structural transformations, and fleet modernisation that has taken place over the last 30 years, the Polish and Swedish AFs remain small air forces and, as such, somewhat limited in their capabilities. Principally, their fleets are relatively small; the Polish AF possesses 283 aircraft in total while the Swedish AF numbers 231 airframes including the inventory of the Armed Forces Helicopter Wing. However, the Polish and Swedish AFs are also limited in areas that are representative of the significant shortcomings of European air power in general, namely air transport (AT), ISR and air-to-air refuelling (AAR). Significant gaps in these three areas were identified as early as the conflicts in Bosnia and Kosovo in the 1990s. However, these capability gaps have become even more evident after the involvement of European air forces in operations over Libya in 2011. Operations over Libya revealed not only the low capacity of European air forces in the areas of AT, ISR, and AAR resources but also their heavy reliance on the US for those capabilities.
Both Poland and Sweden continue to experience significant shortcomings in these three areas. For example, the Polish AF has only 45 transport aircraft while for Sweden that number drops to barely eight. The differences are even more significant when it comes to ISR and AAR. In case of AAR, the Swedish AF has one tanker aircraft. Poland, on the other hand, does not possess any aircraft of that type. However, in 2014, together with Norway and the Netherlands, Poland decided to acquire a fleet of Airbus A330 multi-role tanker transports. The situation is similar in the realm of ISR. Sweden has five ISR aircraft while the Polish have none.
Examples of Multinational Cooperation Initiatives
Multinational cooperation is one way to make up for such shortcomings in small air forces where resources are limited. It is also the cost-effective option. This cooperation takes different forms, from pooling and sharing resources to training programmes but they are always collective initiatives. As such, these initiatives require participating states to be willing to share the costs of running the project in areas such as the acquisition and maintenance of platforms. As a result, multinational cooperation can significantly reduce the financial burden that would be placed on a small air force if it were to develop such capabilities from scratch. Such pooling and sharing of capabilities also present a viable interim solution in the case where a country is already working towards developing a particular capability that has not yet become fully operational. An example of such an initiative is Poland’s involvement in the Alliance Ground Surveillance (AGS) programme whereby 15 NATO members are acquiring a system consisting of five RQ-4 Global Hawk UAVs and advanced radar systems, which altogether will allow for providing persistent surveillance from high-altitudes. This initiative presented a viable interim solution for Poland which does not possess any air surveillance capability. While Poland is currently developing a UAV fleet which could provide that capability, until it becomes fully operational, AGS can fill that gap. Poland had been a member of the AGS programme until 1 April 2009 when the country withdrew due to financial reasons. Poland later re-joined the programme in April 2014. Another way to make up for the lack of national ISR capability is participation in the NATO Airborne Early Warning (NAEW) system. The initiative started in 1982 and, as such, is one of the oldest and the most successful cooperative initiatives in NATO and Europe. Poland joined NAEW in 2006.
An exciting initiative addressing both the lack of AT and AAR capability, but pursued outside of NATO and EU frameworks, is the Air Transport, Air-to-Air Refuelling, and other Exchange of Services (ATARES) programme developed by the Movement Coordination Centre Europe (MCCE). This project promotes the exchange of services – AAR for AT calculated using Equivalent Flying Hour (EFH). For example, Poland does not have an AAR capability. Therefore, Poland uses ATARES to give aircrews an opportunity to train on those particular platforms and, in return, offers AT capabilities. Interestingly that capability does not have to be provided to that particular country from which AAR was used in the first place. The agreed number of EFH need only to be returned to the initiative and therefore may be used by any one of its members. Sweden offers its AAR services within ATARES even though there is only one tanker in the Swedish AF. For example, in 2017, MCCE provided refuelling support during the Arctic Challenge Exercise, and that support involved the Swedish aircraft.
Other examples of multinational initiatives addressing limitations in national AT capabilities are the Strategic Airlift Interim Solution (SALIS), and the Strategic Airlift Capability (SAC) started in 2005 and 2008 respectively. These are pooling and sharing projects whereby participating states maintain a certain number of aircraft and use these according to their needs. For example, SALIS was created to transport heavy cargo and Poland used the programme to transport helicopters and armoured vehicles to Afghanistan. SAC was designed to support the participating states in their defence or logistical needs at the national and international level. It operates through the Heavy Airlift Wing (HAW) located in Papa Air Base in Hungary. The Polish AF used SAC’s C-17s to transport the bodies of the victims of the Presidential Tupolev crash in Smolensk in April 2010. Sweden, on the other hand, used SAC for a very different purpose – to deliver cargo from Karlsborg Air Base to Mazar-e-Sharif in Afghanistan in September 2009. This was HAW’s first mission done in support of ISAF. Swedish and Polish officers were also among the crew members during the first HAW mission performed in support of ISAF but without any Americans on board.
Of course, none of the members in initiatives such as these has unlimited access to all the available resources. The share they get is usually proportional to their involvement. For example, the annual total of flying hours available under SAC is 3,165, which is divided among the 12-member nations. Both Poland and Sweden have entirely different shares equalling, respectively, 4.7% and 17.6%. That gives 148.8 flying hours to be used by the Polish AF and 550.7 by the Swedish.
This article has discussed some of the challenges confronting small air forces and whether multinational initiatives can increase their capabilities with specific reference to the Polish and Swedish AFs. The answer is yes. First, the examples discussed show that these projects are successful tools in building and strengthening capabilities such as AT, ISR and AAR. For small air forces, multinational cooperation gives an opportunity to develop these three areas to the extent that could not be afforded otherwise, or that would incur much higher costs.
Second, it is not only the pooled and shared fleets that the participating air forces can benefit from, but also training. The aircrews delegated to take part in any multinational initiatives return home with the experience they would often not have had a chance to develop otherwise. Here, it is also worth mentioning, that, along with pooling and sharing arrangements there are also programmes designed specifically for training purposes. These programmes present an excellent opportunity for air forces, especially the small ones, to exercise together towards capabilities that, in their home country are not available at all, or that are available but on an insufficient scale. Examples of such initiatives are the European Air Transport Training (EATT), and the European Advanced Airlift Tactics Training Course (EAATTC) started in 2012 and 2014 under the umbrella of the European Air Transport Fleet programme. The Polish AF has participated in both training initiatives in 2016 and 2017 while in 2015 it held observer status in EATT. Sweden also took part in EATT in 2013 and 2015 and was an observer nation in 2014. Another prominent example of a training arrangement involving the Swedish AF is the Cross-Border Training programme established in 2009. This project brings together Sweden, Norway and Finland and enables their air forces to use each other’s airspace to train together on a weekly basis.
Third, involvement at the multinational level in different forms of cooperation – pooling and sharing arrangements, expeditionary missions, air policing, and exercises, gives credibility to small air forces. The more often they work together with other nations, the more they will be perceived as a valuable and reliable potential partner. At the same time, such involvement requires certain work to be done, for example, making sure that one’s air force and its procedures, equipment, personnel’s knowledge, and abilities, are interoperable with potential partners in a coalition. This may incur additional costs, which may be challenging for small air forces.
Finally, while they appear very appealing, it must be remembered that multinational initiatives are not the panacea for capability gaps. For example, in many cases, a country only receives in return what is proportional to one’s contribution. Therefore, the multinational projects allow for the new capabilities to be built but on a limited scale and according to one’s financial input. As a result, collective capability development should not replace national ones. All European air forces, including the small ones, still need to develop their national capabilities. Multinational, collective arrangements may complement them, but they should never replace them altogether.
Maria Ewa Burczynska is a PhD candidate in the School of Politics and International Relations at the University of Nottingham where she is affiliated with the Centre for Conflict, Security and Terrorism. Her primary area of interest is European air forces and their participation in multinational operations and initiatives. She is also interested in the subject of disaster management as another dimension of national security.
Since the end of the Cold War, the West’s militaries have been engaged in a series of protracted and persistent low-intensity counterinsurgency campaigns. For air forces, this has broadly meant involvement in campaigns where there have been few serious challenges to control of the air and air dominance was assumed. However, as we move further into the twenty-first century, that scenario is likely to change with the likelihood of peer-on-peer high-intensity conflict increasing. In such conflicts, air dominance will have to be fought for, and maintained, to utilise the full spectrum of capabilities afforded by the exploitation of the air domain.
The Central Blue and From Balloons to Drones seeks to commission a series of articles that examine critical themes related to the challenge of preparing modern air forces for the possibility of high-intensity conflict as they transform into 5th generation forces. As well as informing broader discussions on the future of conflict, these articles will provide the intellectual underpinnings for a Williams Foundation seminar on the subject of the requirement of high-intensity conflict to be held in Canberra, Australia in March 2018.
The editors seek contributions that provide a variety of perspectives on the following key themes:
Strategy and Theory | Future Roles | Emerging Threats | Air Force Culture
Force Structure | Technology and Capabilities | Ethical and Moral Challenges
Doctrinal Trends | Education | Training
Articles can range from historical discussions of the above themes through to contemporary perspectives. Perspectives can also come from a number of related disciplines including history, strategic studies, international relations, law, and ethics.
Articles framed around one of the above themes should be c. 2,000 words. Submissions should be submitted in Word format and emailed to the addresses below with ‘SUBMISSION – HIGH-INTENSITY WARFARE’ in the subject line. Also, please include a 50-100-word biography with your submission. Please be careful to explain any jargon. Publication will be entirely at the discretion of the editors. These articles will appear on the websites of The Central Blue and From Balloons to Drones simultaneously. We will be publishing articles from the middle of February 2018 onwards.
Keen to write but need some guidance? Email us, and we can link you up with a mentor-editor who can assist you before formal submission.
With eyes pinned on Europe´s eastern frontier, it has never been more critical to have the means to reduce tensions between key NATO allies and Russia. Are there ways to help lessen costs that come with such an undertaking?
According to reports, Russian aerial platforms increasingly violate the airspace of its western neighbours, which is generating considerable unease. While NATO is responding routinely by intercepting the invading aeroplanes and increasing the presence of its combat troops on its eastern flank (four battalions stretching from Poland to the Baltic), a question has arisen over whether or not it is possible to beef up defences in Eastern Europe, while de-escalating tensions. Russian officials consistently say that NATO was responsible for openly displaying its anti-Russian intentions by deploying forces in Poland and the Baltic States.
However, NATO’s recent creation of a new Atlantic command and logistics command, with additional reports showing that since the end of the Cold War the alliance has never actually prepared for the deployment of combat troops on its eastern flank, is thus an implicit admission that NATO is not in a position to deploy large-scale forces the way Russia can. In particular, Russia is paying close attention to the defence of its airspace and has made plans to increase its air defence capabilities, to prevent violations. Meanwhile, NATO lacks both combat aircraft and short-range air defences. According to a report issued by the RAND Corporation, If Mr Putin opts to launch a land grab against the Baltic States, his forces could occupy at least two Baltic capitals within 60 hours.
Although the utmost effort should be taken to de-escalate and resolve the current crisis, preparations are necessary to maintain a state of deterrence against Russia, while also reassuring ‘front-line’ members, i.e. Poland, Estonia, Latvia and Lithuania. Deploying squadrons of UAVs (unmanned aerial vehicles) provide several key benefits: They offer credible ISTAR (information, surveillance, target acquisition, and reconnaissance) and strike capabilities, which help maintain a level of deterrence, but will not pose a threat or spark offensive actions by the Russians.
Drawing upon a study that examined among other things, the rapid expansion of Israeli Air Force (IAF) squadrons in response to unforeseen needs following the outbreak of the Second Intifada, a committed effort by NATO to amass six to eight armed UAV squadrons (each with 20-24 platforms) over a period of two years should be both feasible and more cost-effective than deploying conventional forces. The recent difficulties in mobilising and deploying a mere 4,500 troops to NATO’s eastern flank indicates that the alliance has a shortage of both combat troops and political capital to enhance recruitment among member states.
In contrast, turning to unmanned, increasingly autonomous platforms as the first line of defence could not only (at least in the first instance) rely on existing infrastructure (e.g. air force bases, communication infrastructure etc.) but would also sit better with electorates reluctant to send troops to allies in Eastern Europe. Politically, member states probably would be far more willing to finance the acquisition and maintenance of UAVs squadrons by local teams. This would also help solve the issue of mobilisation as was demonstrated with NATO’s brigades. UAVs can help realistically build deterrence and even if there are failures, or even if half of the squadrons are destroyed, no lives, i.e. aircrews, would be lost.
Relations between Russia and the West are in a poor state, and tensions continue to escalate. Those member states who oppose the increased deployment of combat troops and the build-up of more offensive capabilities (e.g. tanks or jet fighters), could be more receptive to opting for cheaper solutions, which negates the need to deploy military personnel. The fact remains that Europe needs better deterrence in the face of Russian aggression. Therefore investing in unmanned autonomous systems, would go some way in providing, the security and surveillance that will be crucial in the years to come.
Emily Boulter is a writer based in Switzerland. She is the creator of the current affairs blog ‘From Brussels to Beirut.’ From 2010 to 2014 she worked as an assistant to the Vice-chair of the Foreign Affairs Committee in the European Parliament. She is a frequent contributor to Global Risk Insights.
In the most recent work to focus exclusively on air power combat operations, Colonel John Andreas Olsen of the Royal Norwegian Air Force and a visiting professor at the Swedish Defence University in Stockholm, presents a thoroughly researched, persuasive, and insightful work on the study of air power that ranges from large-scale state-on-state actions to the more abundant (some might say most likely) asymmetric fights of the late Twentieth and early Twenty-First Century. Olsen’s name should be more than familiar to anyone with a passing interest in the history of air power. He is the author/editor of numerous works including John Warden and the Renaissance of American Air Power, A History of Air Warfare, Airpower Reborn, Air Commanders, European Air Power, and Global Air Power. Aside from his prolific output, Olsen also has the ability to bring together the most respected names in air power studies to provide chapters in his edited works. The same is true for his latest book, Airpower Applied: U.S., NATO, and Israeli Combat Experience. The purpose of the book, as the title suggests, is to provide a valuation of the American, NATO, and Israeli combat experience from World War II to present campaigns. It is broken into five chapters that cover a total of twenty-nine separate air campaigns or operations. Olsen’s thesis is that ‘knowledge of operational history helps political leaders and military professionals to make better-informed decisions about the use of force.’ Thus, this work is not about ‘lessons learned’ as much as it is a learning tool used to provoke thought and create questions amongst professionals.
Richard Hallion provides the first chapter on ‘America as a Military Aerospace Nation: From Pearl Harbor to Desert Storm.’ Hallion admits that much of America’s advancement during the Cold War was owed to ‘emulation and innovation [rather] than to invention.’ That being said, American air power has moved to the forefront of technology, invention, innovation, and execution in the post-Vietnam era leading up to the dramatic successes of air power during the First Gulf War. Before this Hallion covers many previous aerial campaigns, whose success and failures led to the triumph of Operation DESERT STORM: The Second World War, the Berlin Airlift, Korea, Vietnam, ELDORADO CANYON and JUST CAUSE. Hallion’s contribution here is the best single chapter on the history of American air power from the Second World War to DESERT STORM. However, he, unfortunately, omits any discussion of the failings of Operation EAGLE CLAW, missing an opportunity to discuss the genesis of true air power jointness; this might be forgiven considering that most consider EAGLE CLAW a Special Forces operation with little to do with actual air power. Hallion also misses the mark on his discussion about the use of the F-117 in its combat debut during the operation in Panama. Hallion states ‘The F-117 strike at Rio Hato […] succeeded in stunning the PDF [Panamanian Defense Forces] defenders.’ This, however, is disputed by the Joint History Office’s report on operation JUST CAUSE which stated that ‘[D]espite radio broadcasts and the use of F-117As and other weapons to stun and intimidate them, most PDF units fought harder than expected before surrendering or fleeing.’
Hallion’s belief in the efficacy of air power is apparent when he states that ‘In the gulf it took one bomb or one missile’ to destroy a target (p. 93). This is an oversimplification and poses a danger to those who would believe it. This view of air power as scalpel needs to be tempered. Bombs and missiles miss and many targets in Iraq had to be repeatedly attacked. There is an oft-repeated axiom that they are called missiles and not hittles for a reason. That being said, Hallion’s chapter represents a concise and persuasive argument detailing just why America has become the eminent air power nation in the Twentieth and Twenty-First Centuries and transitions nicely into the next chapter on air power since DESERT STORM.
Benjamin Lambeth provides the second chapter on ‘American and NATO Airpower Applied: From Deny Flight to Inherent Resolve.’ Lambeth demonstrates that air power in ALLIED FORCE was a ‘textbook illustration of airpower in action not to “win a war” but rather to achieve a discrete and important campaign goal short of full-fledged war’ (p. 133). However, when looked at through Hallion’s view of ROLLING THUNDER as a ‘naïve intent,’ there arises an internal inconsistency in the application of air power to achieve limited ends, something that all scholars of air power still struggle to contend with (p. 53). It seems that when air power is used for a limited goal and ‘works,’ air power scholars tend to use it as a good example and when it is used towards a limited end and fails, i.e. ROLLING THUNDER, we use that as an example of why air power should not be used towards limited ends.
Lambeth goes one bridge too far in his admittedly unfinished assessment, of the role of air power in attacking ISIS in Operation INHERENT RESOLVE. Readers in 2017 have something Lambeth did not have when he penned his chapter in 2014/2015, namely three more years of data, which seem to finally indicate that the tide against ISIS has turned and that coalition air power with the support of Iraqi and other forces on the ground have driven ISIS out of the sanctuary cities of Raqqa, Sirte, and Mosul. These campaigns, as part of the most precise air campaign in history, and while limiting civilian casualties, took time. Ironically, nearly precisely the amount of time called for by government officials in 2014 that Lambeth decried in his chapter.
The book shifts its focus here away from the NATO and American experience to two chapters on Israeli Air Force (IAF) combat operations. First, Alan Stephens writes ‘Modeling Airpower: The Arab-Israeli Wars of the Twentieth Century’ detailing the First Arab-Israeli War to the First Lebanon War in 1982. Stephens provides balance by indicating upfront that these conflicts were not only about survival for the country of Israel but the displaced Palestinians as well. Focusing more on the air power side of the conflict, Stephens asks upfront, ‘Why were the Israelis so good and the Arabs so bad?’ The answer soon becomes clear, ‘airpower is very expensive’ (p. 274). Israel exploited an ‘educated workforce, rigorous standards, advanced technology and […] exemplary training’ (p. 276). Arab air forces did not, as history, economics, and culture hindered them.
Raphael Rudnik’s and Ephraim Segoli’s next chapter, ‘The Israeli Air Force and Asymmetric Conflicts, 1982-2014,’ looks at the myriad of smaller conflicts Israel has fought since 1982. The chapter also provides linkages to conflicts Lambeth discussed, thus linking the American, NATO, and Israeli conflicts into an overarching air power learning environment. In other words, those who execute air power struggle with the same problems. Namely, as Rudnik and Segoli stated when discussing Israeli air strikes against Hezbollah, ‘[T]he large gap between its [the IAF] improved assault capabilities and its ability to identify viable targets’ in conflicts where an expressed desire of governments is minimising civilian casualties against increasingly urban enemies (p. 294). This highlights the difficulties faced by the IAF and the USAF, namely the need to prepare for ‘traditional’ air force missions versus the asymmetric conflicts of the 21st Century.
Colonel John Warden provides a final chapter that looks at ‘The Airpower Profession.’ From a certain point of view, Warden still seems to be litigating his arguments from the First Gulf War by focusing not on fielded forces, but rather on parallel warfare against the five rings, which can also be found in his work, The Air Campaign. Warden also decries the ‘cult of jointness’ (p. 343) and believes that ‘surface officers have far less motivation to concern themselves with direct strategic effects than do air professionals’ (p. 346). Warden’s real value is added when he describes the many areas needed to be understood truly by air power professionals, but more importantly, the attendant ability to articulate the importance of air power. So, what does the education of an air power professional look like? Warden casts a wide net of topics worthy of study including classical and modern military history and strategy but also includes more nuanced fields including economics, secular and religious philosophy, fiction, marketing, and advertising.
Any disagreements this author might have over omissions or discrepancies with this work are relatively minor to the overall importance and continued relevance of this well-written, eloquently argued, and nuanced study of air power operations. If one aspect of air power becomes clear, it is that the U.S., NATO, and Israel have proven their ability in large-scale state-on-state conflict, but the ability to use air power in the asymmetric fight is still being argued, some might say conceived. What is needed is more discussion and a better understanding by those in the military and national security communities on the merits and limits of air power operations in what will only become a more contested environment in the future. From the integration of unmanned aerial vehicles to peer-on-peer conflict, aerial operations will only increase, and a deep understanding of what air power can and cannot provide can only be accomplished through continued works like Airpower Applied.
Dr Brian Laslie is an Air Force Historian and currently the Deputy Command Historian at North American Aerospace Defense Command (NORAD) and United States Northern Command (USNORTHCOM). A 2001 graduate of The Citadel and a historian of air power studies, he received his Masters’ from Auburn University Montgomery in 2006 and his PhD from Kansas State University in 2013. His first book The Air Force Way of War (2015) was selected for the Chief of Staff of the Air Force’s 2016 professional reading list. He lives in Colorado Springs. He can be found on Twitter at @BrianLaslie.
Header Image: A two-ship of Israeli Air Force F-16s from Ramon Air Base, Israel, head out to the Nevada Test and Training Range, July 17 during Red Flag Exercise 09-4, c. 2009. (Source: Wikimedia)
 Ronald H. Cole, Operation Just Cause: The Planning and Execution of Joint Operations in Panama, February 1988-January 1990 (Joint History Office, Office of the Chairman of the Joint Chiefs of Staff: Washington, D.C., 1995), p. 41
On September 26, 2017, modernised Tupolev Tu-95MS bombers of the Russian Aerospace Forces (VKS) Long-Range Aviation Command executed another strike with Kh-101 air-launched cruise missiles (ALCMs) against targets in Syria. According to Russia’s Defense Ministry, the missiles targeted ISIS and Jabhat al-Nusra ‘command posts, hardware and manpower concentration areas as well as ammunition depot.’ As with previous Russian ALCM strikes during the conflict, the heavily publicised September 2017 strike was intended to serve yet another reminder to the United States and NATO (as well as to other potential adversaries) of the Russian Aerospace Forces’ growing long-range precision-strike capabilities.
Designed by MKB Raduga, the Kh-101 is an advanced conventionally-armed cruise missile with low observable characteristics. The missile has a reported operational range of 4,500km (2,800 miles), and features a guidance package that includes an inertial navigation system (INS), a terrain contour matching (TERCOM) system, a digital scene-matching area correlation (DSMAC) system, and a GPS/GLONASS receiver. Compared with the older, conventionally-armed Kh-555 ALCM, the Kh-101 features significantly improved accuracy and a larger payload, making it suitable for use against hardened targets. Drone footage of Kh-101 strikes from Syria, including the September 2017 strike, appears to attest to the missile’s high-accuracy (though the impact of only several missiles is shown).
Russian bombers first utilised Kh-101s in combat on 17 November 2015, when Tu-160 bombers delivered the new cruise missiles against targets in Syria. The strike, which also included Tu-95MS bombers armed with older Kh-555 ALCMs, marked the combat debut of both the Kh-555 and Kh-101 as well as the Tu-160 and Tu-95MS. Exactly one year later, on November 17, 2016, modernised Tu-95MS bombers executed their first strike with Kh-101 cruise missiles. Before the integration of the Kh-555 and Kh-101 on the Tu-95MS and the Tu-160, and their subsequent employment in Syria, the two bombers were utilised solely for the nuclear deterrence role and did not participate in conventional conflicts.
The only Russian bomber currently in service with the Long-Range Aviation Command to have seen combat before Syria is the Tu-22M3, which flew sorties in the Soviet-Afghan War, the First Chechen War and, more recently, the 2008 Five Day War with Georgia. In all three conflicts, the Tu-22M3 was used exclusively for delivering unguided (or ‘dumb’) bombs – a mission which it continues to fulfil in Syria. Given that bombers delivering unguided munitions are likely to find themselves within range of enemy fighter aircraft and surface-to-air missiles (SAMs), such an approach is only viable for low-intensity conflicts in which the adversary lacks credible air defences. Even then, multiple sorties against a single target may be required, and excessive collateral damage may be caused due to the poor accuracy of unguided bombs. Russia witnessed the difficulty of operating its bombers in a contested airspace first hand in August 2008, when one of its Tu-22M3s was shot down by a Georgian SAM during a strike sortie against a Georgian military base.
The introduction of the Kh-555 and Kh-101, therefore, represents a crucial new capability for Russia’s Long-Range Aviation Command, one which allows it to partially compensate for the lack of a long-range very low observable platform. Unlike the USAF, which operates the B-2A stealth bomber, the VKS does not currently field a long-range very low observable platform capable of penetrating modern integrated air defence systems (IADS) and won’t be fielding one until at least the end of the next decade. Hence, to avoid being targeted by adversary fighter aircraft and ground-based air defences in the event of a conflict, Russian bombers will need to launch long-range conventionally-armed ALCMs from stand-off ranges. This is particularly true for the cumbersome turboprop-powered Tu-95MS – the backbone of Russia’s Long-Range Aviation Command, – which, unlike the Tu-160 and Tu-22M3, is not capable of operating at supersonic speeds.
In this regard, the integration of the Kh-101 on the Tu-95MS dramatically expands the legacy bomber’s conventional strike capability, which until recently, was limited to dropping unguided bombs, transforming it into a formidable long-range precision-strike platform capable of accurately engaging hardened targets in heavily defended areas. At present, Russia is also outfitting its Tu-95MS bombers with SVP systems (developed by ZAO Gefest i T), which will enable Russian bomber crews to retarget their missiles before launch. This will further enhance mission flexibility, allowing modernised Tu-95MS bombers to strike not only fixed but also relocatable targets. The ability of the Kh-101 to cover very large distances also reduces the Tu-95MS (and Tu-160’s) need to rely on in-flight refuelling for long distance missions. This, as several analysts have noted, makes the Kh-101 a particularly valuable asset given Russia’s relatively small fleet of aerial-refuelling tankers and limited overseas basing options. A modernised Tu-95MS can carry up to eight Kh-101 ALCMs on four externally-mounted two-station pylons, while a Tu-160 can carry up to 12 such missiles on two internally-mounted six-station rotary launchers.
Considering that neither ISIS, nor the other factions with whom Russia is presently engaged in active combat with field capable air defenses, the Long-Range Aviation Command’s use of modernized Tu-95MS and Tu-160 bombers with Kh-101 ALCMs in Syria stems from Moscow’s desire to test both the reliability of its new air-launched weapon and its carrier platforms as well as the proficiency of Russian bomber crews under real combat conditions. As with the occasional use of conventionally-armed Kalibr sea-launched cruise missiles (SLCMs) in the Syrian conflict, the employment of Kh-101s is likewise intended to convey a strong signal to Russia’s potential adversaries and reflects Moscow’s desire to place greater emphasis on conventional deterrence. The need to expand precision-strike capabilities and increase reliance on conventional weapons for deterrence has been highlighted in Russia’s 2014 Military Doctrine and has been voiced by Russian military officials. As Russian Defense Minister, Sergei Shoigu, noted in February 2017, though:
[t]he development of strategic nuclear forces remains an absolute priority for us […] the role of nuclear weapons in deterring a potential aggressor will decrease first of all due to development of high-precision weapons.’
For the United States and NATO, Russia’s growing emphasis on conventional long-range precision-strike weapons such as the Kh-101 represents an increasingly pressing need to bolster missile defences.
Guy Plopsky holds an MA in International Affairs and Strategic Studies from Tamkang University, Taiwan. He specialises in air power, Russian military affairs and Asia-Pacific security. You can follow him on Twitter.
Header Image: A Russian Tupolev Tu-160 ‘Blackjack’ in flight over Russia. (Source: Wikimedia)
 For a description, see: Russian Ministry of Defense, ‘Нанесение авиаударов Ту-95МС крылатыми ракетами Х-101 по объектам ИГИЛ в Сирии [Tu-95MS Airstrikes with Kh-101 Cruise Missiles Against ISIS Objects in Syria],’ YouTube video, 3:01. Posted September 2017. https://www.youtube.com/watch?v=NaI0QuvgKJA.
 ‘Министр обороны России генерал армии Сергей Шойгу провел военно-техническую конференцию [Russian Defense Minister Army General Sergei Shoigu held a Military-technical Conference],’ Russian Ministry of Defense, October 6, 2016
 Piotr Butowski, ‘All missiles great and small: Russia seeks out every niche,’ Jane’s International Defense Review, October 2014, pp. 48-9.
 For example, see the video footage from September 2017 strike in fn1.
 David Cenciotti, ‘Russian MoD Video Shows Tu-160, Tu-95 and Tu-22 Bombers (with Su-27 Escort) Bomb ISIS in Syria,’ The Aviationist, November 17, 2015.
 ‘РФ впервые применила в Сирии новые ракетоносцы Ту-95МСМ с крылатыми ракетами Х-101 [Russian Federation Employed new Tu-95MSM Missile Carrier with Kh-101 Missiles in Syria for the First Time],’ TASS, November 17, 2016.
 For example, see: Russian Ministry of Defense, ‘Боевой вылет дальних бомбардировщиков Ту-22М3 с территории РФ по объектам террористов в Сирии [Combat Sortie of Long-range Tu-22M3 Bombers from the Territory of the Russian Federation Against Terrorist Targets in Syria],’ YouTube video, 2:10. Posted January 25, 2016. https://www.youtube.com/watch?v=55ni9KbpSv4.
 Anton Lavrov, ‘Russian Air Losses in the Five-Day War Against Georgia,’ in Ruslan Pskov (ed.), The Tanks of August (Moscow: Center for Analysis of Strategies and Technologies, 2010), p. 100.
 ‘PAK DA: Russian Defense Ministry Reveals When New Bomber Will Fly,’ Sputnik, April 27, 2017.
 Dave Majumdar, ‘One of Russia’s Most Deadly Bombers Now Has a Scary New Capability,’ The National Interest, July 5, 2017.
 For example, see: James Bosbotinis, ‘Russian Long-Range Aviation and Conventional Strategic Strike,’ Defense IQ, March 5, 2015.