I agree that an autonomous weapons launch at targets near a planet is NOT an automatic EE violation. It's not an EE until there's mass civilian casualties outside a valid military target. You just have to worry about the potential risk of accidently causing such a violation.tlb wrote:You originally said "And finally, fifth, an autonomous attack would be a clear EE violation."; which is a clear, unequivocal statement that you are now trying to back away from. For the sake of argument I will concede that the odds of an EE violation increase sharply if the target seeking on the missiles is dumb.
The Silver Bullets DO count, as they are clearly autonomous missiles that found their targets after a long search and only hit targets as far as we know. The fact that an EE violation was planned to be simultaneous with the Hasta attacks is irrelevant, since that was unrelated to the destruction of the Mycroft stations.
At Galton a missile attack was recognized due to the bow wave at a "significant" fraction of light-speed; so the pods at Oyster Bay must have been slower than that. You are being imprecise since the attacking weapons for Oyster Bay were all "missiles"; the difference is that some had laser heads and wedge drives activated when in attack range of the shipyards, while the others had graser heads and spider drives.
It is also imprecise to say the attacking weapons at Oyster Bay had "last-minute targetting" information, because I expect they were several minutes away; more than enough time to experience the glitches that you worry about for what were essentially autonomous weapons at that point. Basically any missile is autonomous once it is no longer in communication with a controller; but I concede that if the time lapse involved is not more than some small number of seconds, then we should agree that is irrelevant.
I would go further and say that the highest chance of an EE violation is an 'normal' MDM on a course generally towards the planet targeting warships or forts.
It'll be flying at very high velocity, so difficult to quickly change its vector;
it'll be fixating trying to resolve its target;
and it'll be subject to a lot of jamming, decoys, and other ECM making it even harder for its limited sensors to figure out what's actually in front of it.
A Silver Bullet, being based on a quite stealthy recon drone body would be able to sidestep most of those risks even if autonomously attacking ships or forts in planetary orbit.
To remain stealthy it's not going to be screaming in at a sizable fraction of the speed of light - so it's got more time to be sure of its targets.
Being a physically larger chassis means that it's got room for the larger more capable sensor suite of the recon drone it was designed from -- so less likely to be fooled by ECM and decoys; especially given the extra closing time to discriminate between real and fake targets.
Being stealthier it's unlikely that it'll be facing jammers, ECM, and decoys the whole way it -- so its view of planetary orbit should be a lot less confusing in the first place than an MDM.
And all that before we talk about whether it's got more computing power (and thus capable of running more sophisticated code) that the MDM.
So a Silver Bullet seems pretty unlikely to accidently slam itself into a planet.
Apollo in autonomous mode is somewhere in the middle. It's not as stealthy as a Silver Bullet (that'd be the RMN's Mistletoe armed recon drone), and the individual missiles and ACMs aren't as large as a Silver Bullet and therefore can't have as large (and so presumably can't have as senstive) sensors as the Silver Bullet. And they do tend to come screaming in at high fractions of C, and into the face of jamming, ECM, and decoys.
However the ACM control missiles do have very power computers running very sophisticated programming and should be able to keep track of no-fly trajectories and keep all their missiles out of them. And they do a sensor fusion trick where each ACM gets the sensor feeds of all 8 of its Mk23s which gives it a very large virtual sensor area - dozens of km in diameter - far larger than any single drone, or even ship, could mount. The small individual sizes of the sensors does limit how much each can pick up, but merging the takes together gives a much better picture than each one had alone. And then the ACMs talk to each other and further share information on what they see and which targets they're picking. So despite screaming in into the face of jammers, ECM, decoys, and the like, an Apollo launch also seems quite unlikely to cause an inadvertent EE violation.