Manjgu wrote:Karan N...there is a great difference between sure shot and high probability ( from even a english point of view) !!
For all practical purposes a high Pk of the order of 99%+ is a sure shot. We can engage in semantics -"english point of view"..etc but its moot.
I dont deny the advent of BVR engagements/missiles with sophisticated electronics with a high kill probability etc
These are
not BVR missiles. These are Close Combat missiles with high G overload (far more than any pilot can make), and IIR seekers, which have no countermeasures at present. Read the links again. You are not getting what is being debated.
.. but the way u r arguing, even I can say if I am on 6 o clock of a enemy plane and its within X yards ahead of me, then with guns also its a sure shot kill. I understand within a certain envelope the BVR missiles have a very high kill probability just as the guns have high kill probability within a certain envelope.
A guns kill is dependent on pilot skill and airframe performance. Not the case here, since its missile capability which is dominant.
And again, these are NOT BVR missiles though some like ASRAAM approach that at the edge of their envelope.
hen the gun were predominant, the planes came closer to fight as both sides understood the limitation of guns in terms of range , accuracy etc...with the advent of BVR missiles planes will try to fight knowing the range, accuracy limitations etc of missiles. in my view nothing much has changed...previously the air combat was at closer distance..now combat will be at larger distances. Tactics, pilot training, electronic protection suites etc will still be as important as they were in past ( minus the electronics suites). it will be instructive to research how many so called BVR missiles have been fired and how many kills scored as suggested by shiv.
Again, you are off an a tangent. We are NOT speaking of BVR missiles here, and [n]nor was my original post[/b].
But CCM with IIR seekers which as of today, are literally impossible to guard against within their NEZ, especially when cued by
HOBS capable helmet sights.
Once you are in WVR, in a maneuvering fight, you
cannot predict where the shot will come from until and unless you have trained against that particular threat & even so, there are no guarantees.
Especially if you have not trained against each and every fighter with differing HMS and missile combos, since the helmet sight can cue a missile anywhere from within the pilot field of view (as versus the Sura/R73E HOBs combo) & the missile is able to overload any G's you can theoretically pull, and your flares are unreliable.
BVR missile seekers with RF seekers have limitations since countermeasures have been found & deployed. IIR seeker equipped
close combat missiles are yet to be countered.
BVR missiles, for the most part (except the Mica) are dependent on RF seekers. RF seekers do have countermeasures (especially DRFM equipped self protection jammers) hence their Pk is suspect since the cat & mouse.
Even there, their employment is becoming more and more advanced & sudden, reducing the ability of the pilots to react or deploy countermeasures.
Can you predict this by seeing where the aircraft nose is pointing or the pilot is looking?
http://www.defesanet.com.br/rafale/noti ... fference-/
During our assessments, we performed BVR and WVR engagements with the Mirage 2000 C RDI (analyzed in more detail in Part 3 of this test), where we had the opportunity to confirm the combination of the sensibility of SPECTRA EW with the all-aspect launching and target acquisition of MICA IR. This allowed us to designate the target from any source (EM / IR / Laser Threat Detection - Electromagnetic Threat Detection / Infrared / Laser), when the security bubble around the Rafale was invad-ed, and to execute the missile launch “over the shoulder.” Over the shoulder means that a MICA can be fired at a target located at position six o’clock (behind the aircraft) without changing flight direction.
From 2007
http://www.ar15.com/archive/topic.html?b=1&f=5&t=598598
A French Air Force Dassault Rafale F2 has conducted an operational test firing of MBDA's Mica air-to-air missile, demonstrating an ability to engage airborne targets in a mode that may be unprecedented.
The missile was fired in an 'over-the-shoulder' manoeuvre to hit a target at beyond visual range, using targeting information datalinked to the launch aircraft by a second Rafale.
This combination of a thrust-vectored, active-radar missile, fired successfully at a rear hemisphere target by a datalinked 'blind' aircraft, is almost certainly the first such test to merge so many specific elements.
This Mica test was the 11th in a 12-shot series of Evaluation Technico-Opérationnelle/Operational Technical Test (ETO) firings conducted by the French Air Force as part of its tactics development work for the Rafale F2. The 12th and final test took place on 29 June, but no further details of the trials have been released. ETO 11 was the most complex of the ETO firings up to that point and the first time that the Mica/Rafale combination had been tested to such extremes.
The test involved two Rafale F2s operated by the Centre d'Experiences Aeriennes Militaires (CEAM): the French Air Force test centre. A C 22 target drone was positioned at a distance behind a Mica-armed Rafale (Rafale 1), acting as a surrogate threat aircraft. Rafale 1 had no radar contact with the drone. A second Rafale (Raffle 2) was manoeuvring in co-ordination with Rafale 1 which was at its two o'clock, maintaining situational awareness with a combination of its RBE2 radar and Link 16 datalink.
Operating some tens of kilometres from Rafale 1, Rafale 2 detected and tracked the C 22 with its radar and datalinked the target's position to Rafale 1. Rafale 1 then used that data to align the inertial navigation system on one of its active-radar Mica EM missiles and launched the weapon. Neither Rafale 1 nor its missile had a lock on the C 22 target before launch. The Mica used its thrust-vectored motor to perform a 180 degree over-the-shoulder turn and fly out directly behind Rafale 1. The Mica then entered the defined target area 'box' and began searching for the C 22 with its own seeker. The drone, carrying simulated missiles, was engaged and destroyed at a range "considerably greater than any short-range missile such as the [Rafael] Python 4 or [Vympel] R-73 that could have threatened Rafale 1", according to MBDA.
The Mica EM and Mica IR variants are already qualified on the Mirage 2000-5 and Rafale. This latest ETO test programme was to prove expanded engagement modes for the Rafale F2, with both Mica types, in French Air Force service. That work is now complete. The Rafale F2 has been declared fully operational at EC 1/7 'Provence' based at Saint-Dizier, where the aircraft maintain a quick reaction alert. Weapons development work is now shifting to the next F3 standard for Rafale capability.
Note, Python-4. The Israelis then developed Python-5 with full sphere engagement capabilities.
As regards BVR kills etc, most of the data is with AMRAAM A/B & AIM-7 & AA-10, most of which is irrelevant to the Meteors & AN/APG-63v2/Captor-M/RBE-2/N0-11Ms of today.
So what is the solution?
You'll have to start putting in automated protocols in aircraft flight control systems for missile evasion with sensors to detect and counter. But no such items currently exist for IIR seekers.
Automated sensors to detect & cue these measures - MAWS on every fighter.
Specific manouevers, deployment of countermeasures & constantly refine them.
And train against opponents with those capabilities.
Even then, if you are in a Python-V, ASRAAM, Aim-9X NEZ, the chances of "escape" at present - are very limited.
Why?
Helmet mounted sights now make shots across the pilot field of view possible.
Advanced datalinks (most of whose actual deployment is classified - see above to get what was possible 9 years back) allow for initial cues beyond frontal view
Missiles with very high G overload and end game maneuver capabilities capable of full 360 degree engagement profiles
IIR seekers - which have no proven countermeasures at present.
Combination of above adds upto a large NEZ, which is literally NEZ.
At least with BVR, the combination of range (ie time) & RF seekers gives you the ability to disengage or jam. Here, you are in the knife box, stay and die. Or fire & leave, which is what more and more pilots will practice for as these systems proliferate.
So far only the F-35 (and perhaps the T-50) have shown any significant attempt to counter these systems.
