Posts Tagged ‘Weaponization of space’

The loudest movie never made

Monday, June 30th, 2008

One of the things that’s weird for a first-time author is to have people you’ve never even MET saying stuff about your book. Some throw rocks. Some throw roses. But every once in a while someone says something so totally on-point you feel like that they’ve read your mind. And understood exactly what you were trying to do.

Such a man is Dave Hutchinson, one of the illustrious editors of the Strange Pleasures anthologies (which are well worth checking out). On his blog, Dave writes that “if [THE MIRRORED HEAVENS] was a film it would be the loudest ever made, and it would make the most kinetic of Michael Bay’s movies look like Merchant-Ivory productions.” Be still my beating heart . . . nor does he stop there, going on to commend the book as having “a body-count that makes Neal Asher’s bloodiest book (and I’m an Asher fan) look like an average Saturday night out in Newcastle.”

Which is the single best soundbite yet.

He #$# rules.

Of course, he then accuses me of all sorts of serious stuff too:

While this is thick-ear stuff dialed up to eleven, Williams is also asking pertinent questions about memory, espionage, loyalty, the use of weapons, possibly even what it means to be human. The prose is…unsettling. Choppy. Terse. Stripped-down. A little unusual in places. The dialogue is off-kilter and occasionally very funny. The geopolitical background is nicely thought-out. There’s a point where several rugs are pulled out from under the reader which I didn’t see coming. It is enormously fucking complicated, and I lost track of who was screwing whom, and I’m going to have to read it again to get it straight in my head, which will not be a trial.  I finished The Mirrored Heavens and came out blinking into the sunlight slightly stunned. I found myself comparing it to Neal’s stuff, but really this is a different kind of horse. I can see this not being to everyone’s taste, but I liked it a lot.

And I can die now. My life is complete. If any artsy girls with dyed red hair are out there wearing powered armor, feel free to come on over and zap me.

Space-Centric Warfare, Part Three: The Moon and the Libration Points

Tuesday, June 24th, 2008

Further out in space, the Americans held a considerable advantage: until the Zurich Treaty, they enjoyed a monopoly on the Earth’s only natural satellite. They also controlled L2 (the libration point behind the Moon), L1 (situated just in front of the Moon), as well as L5, at sixty degrees angle to the Moon. The Eurasians, by contrast, only controlled a single libration point, that of L4 (by virtue of the Russians having placed a “research station” there shortly after Olenkov came to power), and—in the wake of Zurich—a quarter of the Moon (though by 2110, the extent to which they had consolidated their foothold here was open to question).

Yet the actual significance of such dispositions was open to debate. Certainly the Americans had aggressively deployed resources to the Moon. Furthermore, in the years preceding Zurich, the hindmost libration point figured increasingly in their plans as the site of a reserve fleet that could cover their Lunar assets. But some prominent figures in the U.S. military (none of them in SpaceCom, it should be noted) argued that the Moon was a dangerous diversion. They pointed out that, since it took even the fastest spacecraft two days to cross from the Earth into the Moon’s orbit, any attention devoted to Earth Beyond was by definition a waste of resources. Even the utility of the Moon as a directed-energy weapons platform seemed problematic to such strategists: why put them there when you could simply deploy them closer to Earth?

This private stance aligned with the Eurasians’ public one. For, denied most of the key points in the Cislunar regions, Russia and China instead concentrated their efforts on areas closer to home—or so they claimed. While the ongoing war of words between the two superpowers lies beyond the scope of this inquiry, it is worth noting that the Eurasian rhetoric made much of the American near-monopoly on the Moon and nearby points. Even after Zurich, the press in Moscow and Beijing accused the United States of seeking to conquer the Solar System, or—with perhaps less hyperbole—of harnessing the resources of the Moon in order to dominate the Earth.

Yet, such rhetoric aside, there was much evidence to believe that, in reality, the Eurasian military viewed Cislunar space as crucial. And not just because of the resource issue. Helium-3 and off-Earth minerals were important, yes—but the really critical thing about Cislunar space was that it represented the high ground in the invisible topography of the Earth-Moon system. The amount of energy required to get material to the Cislunar was far greater than the amount of energy required to get material to Earth from the Cislunar. And the policy of Olenkov in this regard—to build up L4 as one of the greatest fortresses of all time—was thus matched by his successors: even post-Zurich, they studded their own slice of the Moon with bases. Yet what kind of combat might transpire on the Lunar surface—or among the libration points—remained unclear.

NEXT: NAVAL WARFARE

A Theory of Space-Centric Warfare: Part Two (Earth Orbits)

Tuesday, June 17th, 2008

(For Part One of this essay, click here.)

Of all orbits, the geostationary are the most valuable, with the rest of the geosynchronous orbits running a close second. Across the 21st century, they had thus become quite crowded. For obvious reasons, they were particularly ideal for surveillance; accordingly, each superpower placed numerous satellites above the homeland of the other. Satellites deployed into “the geo” had other uses as well; they could serve as weapons-platforms against those in other orbits, and played an important role in communications networks.

Yet geo orbits presented planners with a complication that gradually became evident as the number of vehicles overhead increased in tandem with rising international tension set in motion by the Second Cold War. For such satellites were especially vulnerable to the ever-present possibility that an apparently harmless communications satellite would be utilized as a space-mine. A single nuclear blast could thus damage or disrupt adjacent enemy assets, provided the aggressive power was willing to trade off the loss of his own in the vicinity. (And, while less dramatic than nukes, a point-blank strike with space-to-space missiles or a KE kill vehicle was also an option.)

Nor was this problem limited to one of deception, since it was inevitable that both powers would place overt weapons above each other’s homelands. While this could be accepted as inevitable in the continually shifting satellite configurations that characterized the lower orbits, it was quite clear that a plethora of Eurasian and U.S. weapons permanently parked adjacent to each other in the most strategic orbit of all was inherently destabilizing. The most serious pre-Zurich incident between the superpowers—that of the Mauritian stand-off—thus paradoxically resulted in decreased tensions, once each side had moved to neutralize all potentially hostile geosynchronous/geostationary satellites above its own territory. But, with the polarization of geosynchronous “territory”, the ability of each side to defend its geosynchronous position in depth—and the premium placed on a side’s ability to penetrate the other’s—became critically important.

At the time of Marshal Olenkov’s death, the poster-child of this development was the PanAsian command-satellite Roaming Tundra. A colossus hardened against both EMP blast and directed energy weapons, itself bristling with firepower, this craft was believed by U.S. intelligence to house key space-based Eurasian battle management computers, as well as a cadre of Russian and Chinese commanders. A whole grid of defense networks surrounded it, including directed-energy platforms, hunter-killer satellites and minefields of tiny micro-satellites. The U.S. geo featured a similar arrangement, centered upon three smaller stations.

But when it came to the lower orbits, matters were far more ambiguous. Planners experienced considerable difficulty formulating a set of general principles that might address how combat was likely to unfold across these regions. And with good reason. A myriad different orbital levels and inclinations (including those that led across the poles) meant that thousands of satellites were continually changing position relative to each other. Of course, the position of any one satellite was entirely predictable—unless one of them fired motors to change its orbit.

Such motors were rarely ignited, however. Not only were the precise maneuvering capabilities of any given battle-sat a closely guarded secret but, also, a maneuver for any purpose other than the correction of orbital decay tended to make everyone nervous. And (needless to say) everyone was nervous enough already, for sweeping above their heads was a dizzying array of military hardware: full-scale SkyMechs, smaller directed energy platforms, mirror satellites to reflect both space-based and ground-based lasers toward their target, kinetic energy kill vehicles, manned space-stations of every size and description, and devices that added to the general tension by virtue of their purpose being not entirely clear. It seemed likely that conflict here would be as chaotic as the disposition of forces; studying the issue, generals exhaled deeply and braced themselves for the mother of all free-for-alls.

NEXT: THE MOON AND THE LIBRATION POINTS