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<HR SIZE="2"><P ALIGN="CENTER"><FONT COLOR="#1f1a17" SIZE="7" FACE="Palatino">
Chapter 19<FONT COLOR="#1f1a17" FACE="TIMES" SIZE="4"></FONT>
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<P ALIGN="CENTER"><FONT COLOR="#1f1a17" SIZE="5" FACE="Palatino">
U.S. National Missile Defense: <BR>
Setting the Record Straight
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<P ALIGN="CENTER"><FONT COLOR="#1f1a17" SIZE="3" FACE="Palatino">
Dr. J. David Martin<BR>
Deputy for Strategic Relations, U.S. Ballistic Missile Defense Organization
</FONT></P>
<P ALIGN="CENTER"><FONT COLOR="#1f1a17" SIZE="3" FACE="Palatino">
<B>SEVEN FACTS ABOUT THE NMD PROGRAM</B>
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
<FONT COLOR="#000000" FACE="Palatino" SIZE="7">S</FONT>ince the U.S. National Missile Defense program, or NMD, has frequently
 been the target of criticism in the United States and abroad, many misconceptions
 have grown up around it that have taken on a life of their own. I would
 like to discuss these misconceptions and talk about the facts as we see
 them from the point of view of the organization responsible for developing
 the National Missile Defense system.
</FONT></P>
<P ALIGN="CENTER"><FONT COLOR="#1f1a17" SIZE="3" FACE="Palatino">
<B>The United States Needs National Missile Defense </B><I><B></B></I>
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<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
For the latter half of the 20th century, the United States relied on its
 strategic nuclear deterrent to dissuade the Soviet Union from using its
 long-range bomber and missile forces against targets on U.S. territory.
 But now the game has changed. Given the several countries that could do
 us and our allies harm, and given the views of our potential adversaries
 concerning the use of weapons of mass destruction, we can no longer rely
 solely on our nuclear deterrent.
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
In February of 2000, in his testimony before Congress, the director of
 the CIA announced that &#147;over the next 15 years, our cities will face ballistic
 missile threats from a variety of actors.&#148; He specifically pointed to North
 Korea&#146;s ability to test its Taepo Dong II missile <I>this year</I>, a missile
 that may be capable of delivering a nuclear payload to the United States.
 Over 20 countries now have ballistic missiles of theater range, and there
 are signs that technology for longer-range missiles is spreading. Also,
 some two dozen countries have, or are capable of developing, weapons of
 mass destruction. We may have to deal with suitcase or truck bombs in the
 future, but the plain fact is that our potential adversaries continue to
 invest their limited resources in ballistic missiles and weapons of mass
 destruction. And today, we have no capability to defend against <I>that</I> threat.
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
These concerns led the Congress, in the National Missile Defense Act of
 1999, to the conclusion that &#147;the policy of the United States [is] to deploy
 as soon as is technologically possible an effective National Missile Defense
 system capable of defending the territory of the United States against
 limited ballistic missile attack. &#133;&#148; President Clinton subsequently signed
 this legislation into law.
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
In spite of these facts, some critics assert that a missile attack on the
 United States is highly unlikely and that an NMD system is unnecessary.
 They see the overwhelming power of our strategic forces as a deterrent.
 This point of view, I believe, has validity to a point, though in today&#146;s
 world it may be short-sighted and not consistent with our security environment.
 Our present and future security, therefore, hinges on our ability to not
 only deter but defeat these possible limited missile threats if they are
 ever used.
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
If Saddam Hussein had had longer-range missiles in the 1991 Gulf War, one
 wonders whether he would have threatened to use them or would actually
 have used them against the capitals of our coalition partners in Europe
 to persuade them not to join the coalition. One also wonders if he would
 have used them against the United States in order to prevent U.S. actions
 to support our Middle East allies or liberate Kuwait. It is clear he was
 very willing to use them against Israel and Saudi Arabia. Defenses are
 not just about providing basic protection. They are also&#151;just as importantly&#151;about
 helping preserve our freedom of action and removing a hostile state&#146;s capability
 to coerce U.S. foreign policy or shape national security decisions.
</FONT></P>
<P ALIGN="CENTER"><FONT COLOR="#1f1a17" SIZE="3" FACE="Palatino">
<B></B><B>The NMD System Is Technologically Feasible </B><I><B></B></I>
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
Two central technological problems confront us. The first is the discrimination
 problem&#151;can we find the warhead? The second is the so-called hit-a-bullet-with-a-bullet
 problem&#151;once we find the warhead, can we hit it? Historically, solutions
 to both these problems have eluded us, especially against a massive raid
 involving hundreds of incoming warheads and countermeasures&#151;decoys, radar
 chaff, and debris. Up to now, these countermeasures could overwhelm our
 capacity to sort out the armed objects from the rest, mainly because the
 technical immaturity of our sensors has not allowed us to see sharply or
 reliably the objects in a target cluster.
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
During the past decade, we have made significant advances in our sensor
 and discrimination technologies. These advances include new high-resolution
 radars, digital radars with sophisticated electronic counter-countermeasures,
 and infrared seekers. Steady improvements in computer processing power,
 which has been doubling every 18 months for the last 30 years, has also
 helped us to develop an interceptor that flies out quickly, processes the
 sensor data faster and with greater accuracy, and destroys the warhead.
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
We also have shown that we can do hit-to-kill, which creates enough kinetic
 energy through the high-speed collision of two masses to obliterate the
 target. It is important to understand that we do not need nuclear weapons
 to kill warheads in flight, as we once thought we did.
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
Can we hit another object in space, something like a five-foot ice cream
 cone, at closing speeds greater than 7 to 8 km per second? Yes, we can.
 In October of &#145;99, we demonstrated the ability of the kill vehicle to travel
 thousands of miles to a very specific location in space&#151;one ultimately
 defined by centimeters and microseconds&#151;discriminate among several objects,
 identify the right target, divert toward it, and collide with it. This
 success speaks for itself. We are now testing the concept of hit-to-kill
 rigorously. In 1999, our flight tests went a long way to convincing me
 that we had the right kill vehicle designs. We had six successful intercepts
 using hit-to-kill technology, one in our NMD program and five more in our
 theater ballistic missile defense programs.
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
Do we still have work to do? Yes, we do. But I am increasingly optimistic
 that we will not have to revisit the basic science and designs associated
 with hit-to-kill.
</FONT></P>
<P ALIGN="CENTER"><FONT COLOR="#1f1a17" SIZE="3" FACE="Palatino">
<B></B><B>Newly Armed States Cannot Easily Defeat Any <BR>
Defense System with Countermeasures
</B>
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
The critics of NMD tend to magnify the capabilities of states such as North
 Korea, Iran, and Iraq. But just because such states can build missiles
 does not mean they can or will develop <I>sophisticated</I> countermeasures. And
 even if they do demonstrate a capability to build them, it is not automatically
 true that they will be able to use them effectively. These countries can
 invent on a blackboard almost any kind of countermeasure. But can they
 be certain that they can make it work effectively? To be confident that
 they can, these states will have to test their missiles. And the limited
 amount of ballistic missile and countermeasure testing done by our adversaries
 amplifies the uncertainties that they must be facing concerning using their
 weapons successfully.
</FONT></P>
<P ALIGN="CENTER"><FONT COLOR="#1f1a17" SIZE="3" FACE="Palatino">
<B></B><B>The NMD System Provides No Space-based Interceptors and No Protective &#147;Shield&#148;
 against a Massive Ballistic Missile Attack against U.S. Territory</B> <I><B></B></I>
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
The threat we must counter today is very different from the old Cold War
 threat involving thousands of warheads. The U.S. NMD system that we will
 deploy in 2005, if directed, is tailored to counter a very limited threat
 of a few or a few tens of warheads and simple countermeasures. It is not
 a large-in-scale, &#147;thick&#148; defense system (or even the basis for such a
 defense), as some have suggested.
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
The initial NMD capability we are planning for 2005 will consist of 20
 ground-based interceptors. But because we expect some states to develop
 a capability to launch more missiles in that time frame, we plan to expand
 our system by 2007 with 80 more interceptors, for a total of 100.
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
We still have major challenges as we try to meet our deadline of 2005.
 Our greatest challenge with this system is to make sure all NMD elements
 work together as an integrated whole. The technological and managerial
 complexity of what we are trying to accomplish is on par with some of our
 country&#146;s highly challenging programs from the past, such as the Apollo
 program, the initial program to deploy our first ICBM forces, and the space
 shuttle program.
</FONT></P>
<P ALIGN="CENTER"><FONT COLOR="#1f1a17" SIZE="3" FACE="Palatino">
<B>The Summer of 2000&#146;s Deployment Readiness Review Is Not a Decision <BR>
Whether
 to Deploy an NMD System</B><B></B>
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
The decision will follow the Deployment Readiness Review (DRR). The decision
 to proceed with deploying missile defenses lies squarely with the President.
 But before the President can formulate an informed answer<A HREF="_FN_1.htm"><FONT COLOR="#1f1a17" FACE="Palatino" SIZE="1"><SUP>2</SUP></FONT><FONT COLOR="#1f1a17" FACE="Palatino" SIZE="2"></A> to the question
 of whether to deploy, he must have before him some critical pieces of information
 concerning four primary criteria: the threat, the technological readiness
 of the system, the cost of that system, and our national security and arms
 control objectives. The DRR is actually an ongoing internal evaluation
 by the Secretary of Defense that focuses only on two of the criteria&#151;technological
 readiness and the cost of the system.</FONT>
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
As part of the DRR process, we will examine the NMD system&#146;s design to
 see if we have adequately demonstrated that the elements not only work
 well individually, but that they also work well together. There are key
 performance parameters we have to meet, one of the most important of which
 is the ability of the system to protect all 50 states by the projected
 date of 2005. We are immersing ourselves in very detailed evaluations ranging
 from software development to construction specifications for this highly
 complex system. Again, the decision allowing us to proceed towards deployment
 lies with the President. If our current schedule holds and our progress
 continues, the President will be ready to discuss it later in the summer
 of 2000. One of our goals in the material development community is to make
 sure that the Secretary of Defense and the President have the best data
 possible regarding whether or not we are technologically ready to proceed.
</FONT></P>
<P ALIGN="CENTER"><FONT COLOR="#1f1a17" SIZE="3" FACE="Palatino">
<B></B><B>The United States Should Not Delay Its Deployment Readiness Decision</B><I><B></B></I>
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
We are frequently asked why the DRR has been scheduled for this summer.
 The answer is that the threat is emerging faster than we thought it would
 just five years ago. Just look at the plethora of testing of new medium-
 and intermediate-range systems in the last two years. It is essential that
 we protect an option for a presidential decision to deploy a system as
 soon as possible.
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
If the President decides that we need an operational capability by 2005,
 and you examine all the things we need to do to meet that commitment, the
 starting date for constructing the system&#146;s radar must be early in the
 process. If this radar is to be built in Alaska, which we expect, work
 must begin in the spring of 2001 because of the lengthy construction process
 and the short construction season. If work is to begin roughly a year from
 now, we have to sign construction contracts this fall. If we wait another
 year to begin building that radar, we will not have the initial system
 up and running by 2005.
</FONT></P>
<P ALIGN="CENTER"><FONT COLOR="#1f1a17" SIZE="3" FACE="Palatino">
<B></B><B>We Have Enough Test Data to Make a Deployment Decision and We Are <BR>
Doing
 Adequate Testing</B><I><B></B></I>
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
An important part of understanding this fact is understanding the way we
 have developed and acquired weapon systems in the past, and how we have
 changed our approach to meet an urgent schedule. The standard approach
 to weapon-system acquisition has been simply too risk averse to allow us
 to develop new system concepts rapidly, especially when the threat drives
 the urgency for development. With average cycle times for major acquisition
 programs over the past decades averaging eight to nine years&#151;and that is
 eight to nine years from the time the decision is made to build&#151;it is clear
 that the traditional way of doing business in defense procurement will
 not handle many of our future demands.
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
There is only one reason why the NMD program is on a compressed, high-risk
 schedule to deploy a system by 2005&#151;the threat. And because we are moving
 on such a fast track, the program we are executing is high risk, which
 means that a significant setback in any one element can delay the entire
 program. Taking such risks is inconsistent with today&#146;s acquisition culture.
 For this reason, we are being accused by some of rushing, or of pushing
 a system forward that, once fielded, will not be operationally effective.
 Such accusations fail to take into account certain realities.
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
High risk does not mean reckless. There is a difference between rushing
 and moving as fast as is prudent. We have every incentive to get a capability
 into the field as quickly as possible. We <I>also</I> have every incentive to
 get it right.
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
A prudent testing program, therefore, will first address the basics of
 the system. We will do a lot of testing of components on the ground and
 a lot of system testing in sophisticated end-to-end simulations. We have
 scheduled four flight tests to get two demonstrations of hit-to-kill. The
 first was successful. The second was partially successful. The third is
 planned for early July of 2000. Some suggest that we are not testing the
 NMD system against realistic targets. But they ignore our decades-long
 practice for testing other complex systems, such as new aircraft. The first
 test planned for each new aircraft has always been a high-speed taxi test.
 After all, there is an understandable interest in making sure the basic
 mechanics, avionics, and computers work as they should before taking the
 far more risky step of lifting off the ground. This is the evolutionary
 testing approach we must use with all highly complex machines&#151;we do not
 test to the maximum every component of the system the first few times we
 test.
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
A point to remember here is that we have been asked to develop an NMD system
 to meet the threat that is expected&#151;that is, a limited threat comprising
 simple countermeasures. This is the threat we expect in 2005. We have not
 yet been asked to deploy a system capable of handling dozens of warheads
 with sophisticated countermeasures. Our test program is planned accordingly.
 This is not ignoring the problem. We believe that we understand countermeasures
 and counter-countermeasures; we have been working in this area for more
 than 30 years. Our test program will take a prudent path and progressively
 include more sophisticated countermeasures in the target complex.
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
There are some who are proposing that, in order to reduce our risks, we
 wait until we get the results of &#147;real-world&#148; tests against real-world
 countermeasures before we make our decision to deploy. In other words,
 delay the decision to proceed with deployment to sometime in the middle
 of the coming decade before we begin the multiyear process of constructing
 the system. A decision to delay on these grounds, of course, will not allow
 us to achieve initial operational capability until well after the 2005
 date. This risk-averse acquisition approach is not one that is tailored
 very well to our current national security requirements. It ignores the
 one factor that is driving us to consider a decision to proceed this year&#151;the
 threat. As I said earlier, North Korea is capable of testing its Taepo
 Dong II missile at any time. So the more relevant question is, Can the
 United States afford to wait?
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
Our flight test that was held in January of 2000, when we missed the target
 warhead, has received a great deal of attention. But that test was a failure
 only in part, because hitting the warhead was only one of our objectives.
 In the context of testing, it was a successful developmental test that
 proved we could integrate far-flung and separate major elements and make
 them work together as one system. The interception phase of the NMD mission
 is clearly the most visible phase and key to our success. Yet we must not
 lose sight of the fact that the successful integration of the highly interdependent
 system elements is no less critical. The integration and support aspects
 of our testing events are transparent to most people, but I assure you
 that we could not do the job without them.
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
In the final six seconds of the January 2000 test, we had a malfunction
 in our interceptor sensor system that prevented the missile from colliding
 with the target. We have since taken the necessary corrective actions,
 both on the equipment and in our processes, to mitigate against a recurrence.
 But we should remember that the one thing that failed in January&#146;s test
 worked in October of &#145;99. So at this point, we have no reason to conclude
 that the overall design of the NMD system is flawed.
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
By the time of the DRR this summer, we will have tested some 45% to 50%
 of the functionality of the system and almost 90% of the elements. We will
 also have gained enough data to make a solid judgment regarding technical
 feasibility of the system to support a decision by the President.
</FONT></P>
<P ALIGN="CENTER"><FONT COLOR="#1f1a17" SIZE="3" FACE="Palatino">
<B>CONCLUDING REMARKS</B>
</FONT></P>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
I do not want to leave you with the impression that we have solved all
 our problems. We have not. Yet we are confident that we are doing the right
 things. I would like to leave you with these three thoughts:
</FONT></P>
<UL>
<LI><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
First, we believe the threat is real, and that it is growing.
</FONT></LI>
<LI><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
<FONT COLOR="#1f1a17" FACE="TIMES" SIZE="4"></FONT><FONT COLOR="#1f1a17" FACE="Palatino" SIZE="2">Second, technological advances are now making a limited missile defense
 of the United States possible&#151;we <I>can</I> hit a bullet with a bullet.</FONT>
</FONT></LI>
<LI><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
Third, the debate over the U.S. NMD program is an important national security
 discussion because it points out how different today&#146;s security concerns
 are from those we faced two decades ago.
</FONT></LI>
</UL>
<P ALIGN="LEFT"><FONT COLOR="#1f1a17" SIZE="2" FACE="Palatino">
I hope my remarks have helped to set the record straight on NMD. As we
 move forward, and as the United States and our Alliance partners continue
 our dialogue on this subject, it is important to keep misconceptions about
 the U.S. NMD program from clouding our discussions. We come at this issue
 from a wide range of backgrounds and perspectives, so I am thankful for
 the opportunity to speak to you about our program.
</FONT></P>
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