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Chapter 29
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The Importance of Ballistic Missile Defense
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Assistant Secretary of the Army Paul J. Hoeper
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<BR>
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<FONT COLOR="#000000" FACE="Palatino" SIZE="7">T</FONT>he Gulf War was a watershed event for us. We learned valuable lessons
 about the way we fight and the weapons we use. We realized that airplane
 superiority is not the same as air superiority. In the Gulf War, for the
 first time, we achieved air dominance. We liked it and we want to maintain
 it. That is why our Theater Missile Defense (TMD) program is so important&#151;the
 threat is here and now, and this program is designed to maintain air dominance.
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Over the last decade, a new world has emerged. Countries with a missile
 capability are now seeking to improve and extend it. Countries without
 a missile capability are seeking to purchase or develop the relevant technology.
 There is now the potential for the kind of devastation that results from
 combining weapons of mass destruction&#151;chemical, biological, nuclear, and
 radiological weapons&#151;with the missiles that can deliver them.
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<B></B><B>THE CHALLENGE</B>
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How do we counter these threats? The most obvious approach is to take out
 the launch sites; the best defense is a good offense. Still, ballistic
 missile launch sites and launchers have proven difficult, if not impossible,
 to find. During World War II, not a single V-2 launcher was found. Likewise,
 during Desert Storm, although we had air dominance and massive surveillance
 assets focused on the problem, we did not find a single SCUD TEL (Transporter
 Erector Launcher). In the future, cruise missile launchers will prove even
 more difficult to find than the ballistic missile TELs.
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Given the difficulties in preventing missile launches, our defense must
 be based on intercepting missiles in flight. The Secretary of Defense is
 looking to the army to lead the development of ground-based interceptors.&nbsp;Our
 Patriot is well known as the world&#146;s emergency system for TBMs. But even
 with the PATRIOT PAC-2 that we used during the Gulf War, an adversary can
 exploit the long ranges and flexible employment options of missiles to
 overmatch any single defensive system. The greatest challenge to providing
 a Theater Missile Defense is the development of <I>affordable</I> systems that
 can work together to counter missiles. We are meeting this challenge by
 focusing our efforts in three major areas: a &#147;tiered&#148; approach to missile
 defense, technology integration, and joint and multinational interoperability.
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<B></B><B></B><B>A TWO-TIER DEFENSE</B>
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Although difficult to locate before an attack, once launched, a ballistic
 missile can be tracked and engaged. In order to maximize the number of
 engagement opportunities, we are designing our missile defenses to operate
 in a two-tiered defense. Upper-tier systems, such as the Theater High Altitude
 Area Defense System (THAAD), engage at altitudes of 40 to 100 kilometers
 (the upper endo-atmospheric region) and higher (the exo-atmospheric region).
 Lower-tier systems, such as the PATRIOT PAC-3 and the future Medium Extended
 Air Defense System (MEADS), engage below 25 kilometers. It is the interoperability
 between upper and lower-tier systems that is essential. PATRIOT defends
 the rear areas, MEADS will defend the maneuver forces, and THAAD will defend
 against missile attacks throughout a region. In theater missile defense,
 the systems work together and form a cooperative, layered defense.
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<B></B><B></B><B>TECHNOLOGY INTEGRATION</B>
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No single technology or system can effectively counter the entire missile
 threat. The technologies that comprise our &#147;family of systems&#148; must be
 able to work in concert to provide engagement opportunities in all phases
 of a TBM flight profile. While THAAD will engage TBMs at an altitude of
 100 kilometers, it is critical that our systems also support engagements
 lower in the atmosphere, because 75 percent of today&#146;s threat inventory
 have low trajectories that inhibit exo-atmospheric engagements.
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New technologies, such as &#147;hit to kill,&#148; must be integrated with sensors,
 missiles, and battle-management components to form an effective missile
 defense system; such technology integration across systems that are currently
 in development is very important. Packaging the wide variety of technologies
 from a diverse set of sources into a single missile defense system is a
 major challenge, as evidenced in our experience developing the PATRIOT
 PAC-3 and THAAD systems. We are making great progress, but it has come
 at great expense and is taking longer than we expected.
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However, the ground components: radar; battle-management command, control,
 and communications (BMC3); and launcher have come along very well and are
 performing as we hoped. In its flight test in early June, THAAD had a successful
 &#147;hit to kill&#148; high-endo-atmospheric target engagement. Although this is
 a significant achievement on its own merit, when combined with the previous
 PAC-3 success the army can state with confidence that we can provide a
 highly effective &#147;two-tier&#148; Theater Missile Defense. Not only can the equipment
 perform, but the soldiers for both systems have been trained and are ready
 to meet our Theater Missile Defense challenges.
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Now, I mentioned &#147;hit to kill.&#148; Let me take a moment to tell you why that
 technology is so important. We will be faced with weapons of mass destruction&#151;chemical,
 biological, and even nuclear. These weapons will be delivered by missiles
 of enormous speed. The only way to effectively counter these threats is
 by actually hitting them with an interceptor. We must have sufficient energy
 at the point of impact to dismember sub-munitions and open canisters containing
 these deadly agents. And we must accomplish this at altitudes high enough
 so that these agents will dissipate before reaching the ground.
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While our system integration challenges are tough, intercepting a missile
 with a missile&#151;reliably&#151;is achievable. We will succeed because we now have
 the technology to build very fast and very small processors and missiles
 that are extremely agile. The combination of fast signal processing and
 missile agility gives us the ability to achieve &#147;hit to kill&#148; accuracy.
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<B></B><B></B><B>MULTINATIONAL INTEROPERABILITY</B>
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Multinational interoperability is certainly of global importance, but it
 is also a global responsibility. Over the last four decades, the United
 States has invested tens of billions of dollars in the development and
 production of missile defense systems. We have another $26.2 billion programmed
 over the next six years, but we can&#146;t do it by ourselves! The threat is
 too far ranging and the technical challenges too persistent. We need to
 work with all of our allies.
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That is why I am such a strong advocate of MEADS. &nbsp;Germany, Italy, and the
 United States are solidly committed to developing and fielding this critical
 system, which is being developed to support coalition war fighting. MEADS
 is our premier multinational co-development program with Germany and Italy.
 It will give us the capability to get to a theater with far smaller airlift
 requirements and then enable us to keep up with and defend our maneuver
 forces from virtually everything that flies. It will be able to engage
 TBMs, larger-caliber rockets, cruise missiles, and rotary and fixed-wing
 aircraft. The lessons learned from the PATRIOT PAC-3 and THAAD programs
 will be applied to MEADS, the next generation in our effective missile
 defense programs.
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MEADS will become a key component of the German and Italian air and missile
 defense capability. It will give both those nations the capability to defend
 their homelands and to defend NATO forces deployed anywhere in the region.&nbsp;I
 am committed to procuring and manning this system when it is developed.
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I believe, though, that more nations must be actively involved in cooperative
 missile defense efforts such as MEADS. For example, we are working with
 the Israelis to develop the Arrow TMD system. This system will defend Israel.
 It is also allowing us to begin working on interoperability between the
 Arrow and U.S. TMD systems so that they can be interoperable in a single
 combined defense. Arrow has had several successful flight tests and will
 begin its deployment later in 1999.
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<B></B><B></B><B>CONCLUDING REMARKS</B>
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Given all this developmental work, our PATRIOT is still the only fielded,
 combat-tested system capable of defending against these missile threats.
 THAAD is progressing rapidly, but we must all work together to provide
 our nations with an effective defense against the growing threat. As the
 ancient parable taught, &#147;Individually we can be broken but bound together
 no one is strong enough to break us.&#148; Cooperation is our key to success.
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In order to continue our domination of airspace, and as the missile threat
 grows, we will need land-based systems, located with the assets, soldiers,
 and citizens they protect. These land-based systems&#151;the final protective
 fires&#151;are the army&#146;s shield against air and missile threats. This shield,
 if effective, may deter the terrible weapons that are emerging around the
 world.
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