The present invention relates to the display of targeting information to the pilot of an aircraft in flight, in particular to the display of information relating to the engagement of targets by air-to-surface weapons.
Conventional air-to-surface weapon delivery relies upon pre-planned flight conditions with a pre-determined weapon release point at an offset from the known and pre-defined target position. This is unnecessarily restrictive on the aircraft's freedom to alter its flight path in the light of changed circumstances. However, with the increases in computer power possible as processor technology has advanced, the need to comply with pre-planned flight conditions and approach paths has diminished; computers can now determine dynamic current flight conditions and utilize this information to continuously update the weapon release position. This ensures that the weapon is delivered on target, based on the computer's knowledge of the ballistic/airflow characteristics of the weapon.
With the development of precision and GPS-guided weaponry, the flexibility regarding where and when a weapon can be released has greatly increased. Aircraft carry more and a greater variety of different weapons, and the battlefield is becoming increasingly dynamic and volatile in nature and this increases the workload on the pilot, who needs to be able to assimilate all the various elements of targeting information and to take decisions not only on whether or not to engage a particular target but also as to the effects of the weapon's ability successfully to engage a given target in the light of past and future changes in flight path. There is a definite need for complex target engageability data to be displayed clearly to the pilot, in such a way as to be readily accessible and interpretable.
Accordingly, the present invention provides a method of displaying target engageability information to a pilot of an aircraft in flight, the method including calculating, according to instantaneous aircraft position and motion relative to at least one target to be engaged and to characteristics of a weapon, earliest and latest weapon release points between which the weapon is presently capable of engaging one or more targets of interest and generating display symbols indicating a weapon launch acceptable region and the instantaneous position of the aircraft relative thereto.
Such an arrangement provides real-time feedback to the pilot of the “degree of freedom” that exists with regard to the range to the target(s) of interest. The display, which is preferably a head up display (HUD), gives a clear indication to the pilot as to when, on the current flight path and at current flying conditions (e.g. speed), a weapon or weapons can be released and it/they will be capable of engaging the target(s) of interest. The position of the aircraft position indicator relative to the weapon launch acceptable region is a simple and easily assimilated display: if the aircraft position indicator lies within the bounds of the earliest and latest weapon release points then the pilot can see that the weapon, if released immediately, is capable of engaging the target. If the aircraft position indicator is outside the weapon launch acceptable region, either the aircraft is still approaching the target and the pilot must wait for the target to come into range before engaging the target, or the aircraft is heading away from the target and the weapon is incapable of engaging the target unless the aircraft changes its flight path back towards the target. Continuously generating a weapon launch acceptable region enables the extraction and manipulation of information so as to provide a real-time display which can be readily assimilated by the pilot in order to ease decision-making.
The method relies on knowledge of the weapon characteristics, such as its maximum and minimum ranges, turning circle, glide path, etc.
The method preferably further includes calculating, according to instantaneous aircraft direction of travel relative to at least one target to be engaged and to characteristics of a weapon, maximum lateral offset bearings such that if the aircraft flies within these bearings the weapon is capable of engaging the target of interest and generating display symbols indicating the maximum lateral offset and the instantaneous direction of travel of the aircraft relative thereto.
This provides real-time feedback of how far the aircraft is headed away from the heading to target position, with an indication as to whether or not, if the weapon were released with the aircraft on its present bearing and at its present range, it would be capable of engaging the target.
This maximum lateral offset allowance is intermixed with the weapon launch acceptable region as these are displayed in the pilot's field of view, preferably along perpendicular axes. The symbols may be displayed so as to represent the weapon launch acceptable region along the vertical axis, and the maximum lateral offset along the horizontal axis. The former is intuitively recognised by the pilot as being a plan view, with the aircraft's instantaneous direction of travel (being in the same vertical axis as the weapon launch acceptable region.) The latter is equally intuitive to the pilot, being recognised as representing the degree of freedom in relation to the maximum allowable heading away from the or each target from the pilot's visual perspective. A practical form of display is in the form of a rectangular box in the field of view of the pilot; the top and bottom horizontal edges of the box define the weapon launch acceptable region and the vertical edges define the instantaneous maximum lateral offset. The box may be aligned along a vertical axis centred in the pilot's field of view (and/or aligned with the front of the aircraft). The aircraft's instantaneous position and direction of travel relative to the box is indicated by a single symbol. To facilitate an attack, the symbol may be aligned such that it resides within this box. As the aircraft's position, direction of flight and flight conditions (e.g. altitude, airspeed) change, so does the location, size and shape of the box displayed, but provided the pilot can see that the aircraft position/direction of travel symbol lies within the box it will be readily apparent that at that moment the weapon is capable of engaging the target. Conversely, if the symbol is outside the box the pilot can readily see that the weapon is not presently capable of engaging the target, because the aircraft is too far away from/close to the target and/or the aircraft is bearing away from the target at too great an angle; thus the pilot can easily decide the appropriate action in order to engage the target: wait until the target is within range, change course, etc.
Weapon launch acceptable regions and maximum lateral offsets may be calculated for each of several targets simultaneously, with this information being amalgamated such that display symbols for each of these may be displayed simultaneously, in the manner established for a single target, in the pilot's field of view. The multiple weapon launch acceptable regions and maximum lateral offsets are amalgamated so as to generate a compound display symbol representing the regions and offsets common to at least two and preferably all of the targets, and symbols are generated representing the instantaneous aircraft position and bearing, and all of these symbols are displayed simultaneously. This provides the pilot with a display including a single compound box representing two or more targets having common instantaneous weapon launch acceptable regions and maximum lateral offsets and a single aircraft symbol. Whilst the aircraft symbol resides within the compound box the pilot can readily discern that all those targets contributing to the compound box are engageable, whereas targets whose weapon launch acceptable regions and for maximum lateral offsets do not overlap the compound box are not engageable. Likewise, if the aircraft symbol is outside the compound box, but is still within the weapon launch acceptable region and maximum lateral offset of a single target, the pilot can easily see that that target is currently engageable, but other targets are not engageable. This is discerned by reference to other specific symbols (discussed later). One of the targets displayed may be designated and displayed as the main target of interest, and the associated weapon launch acceptable region and maximum lateral offset symbols aligned within the pilot's field of view. In this way the workload on the pilot is eased, because it is readily discernible from the display and associated reference symbols whether or not the main target of interest is engageable or not, the associated symbology being displayed within the centre of the pilot's field of view. The other targets may not be as important, at that time, as the main target and therefore it is less significant that the symbology identifying these is not centred in the pilot's field of view.
In a second aspect, the invention provides a system including:
a central processing unit;
a memory coupled to the central processing unit and containing characteristics of at least one weapon for engaging a target and location data of at least one target;
aircraft position and motion sensors coupled to the central processing unit, and
a head up display computer signal generator coupled to the central processing unit, the central processing unit being configured for executing the steps of:
calculating instantaneous aircraft position and motion relative to at least one target to be engaged according to aircraft position and motion data from the sensors and target location data from the memory, relating the instantaneous aircraft position and motion to weapon characteristics data from the memory, calculating earliest and latest weapon release points between which the weapon is presently capable of engaging the target and generating output signals indicative thereof to the computer signal generator, the head up display being responsive to said signals to generate display symbols indicating a weapon launch acceptable region and the instantaneous position of the aircraft relative thereto.
In a third aspect, the invention provides a target engageability display symbology for an aircraft in flight to engage at least one target with a weapon carried by the aircraft, the symbology including a weapon acceptable launch region between which, at the instantaneous aircraft position and motion relative to the target, the weapon is presently capable of engaging a target of interest and an indication of the instantaneous position of the aircraft relative thereto.
a and 2b illustrate the depiction of the range degree of freedom symbology in accordance with the invention for head-up and head-down displays.
a and 4b illustrate the basis and detail of the head-up symbology depiction of the current and maximum allowable offset in accordance with the invention.
The present invention will now be described by way of example only and with reference to the accompanying drawings.
The present invention involves representing different “degrees of freedom” regarding where the aircraft can afford to be, prior to weapon release, if the weapon is to engage the target. This is inherently dependent on the manoeuvrability or flight characteristics of the weapon as well as on the position and flight conditions of the aircraft carrying the weapon.
As an aircraft approaches a target, the earliest possible weapon release point, at which the weapon is capable of engaging the target is dictated by the weapon's ability to prolong its flight path, such as by “pitching up” to induce a glide for as long as possible. The latest possible weapon release point is dictated by the weapon” ability to shorten its flight path. Between the earliest and latest possible weapon release points is a release range envelope, which is the “launch acceptable region”; whilst the aircraft is within this launch acceptable region, the weapon is capable of engaging the target.
The ability of the weapon to modify its flight path (away from the unguided ballistic path) is known and is modelled in software such that the launch acceptable region can be continuously generated and displayed in the cockpit.
Both the point of earliest possible weapon release (i.e. maximum range, Rmax) and the point of latest possible weapon release are displayed to the pilot along a vertical axis, which the pilot must interpret with a “plan view” mindset. The range display can be in the form of a Head Up Display (HUD) (represented in the vertical axis), or a head down display (often a multi-function head-down display, MHDD).
On the HUD, as shown in
While the aircraft is between these RMin and RMax ranges (referred to as being “in the basket”) there then exists a degree of freedom with respect to how far the aircraft is headed away from the heading to target position, whilst still being able to release and have the weapon successfully reach the target. This concept is illustrated in
In
Releasing with such a lateral offset would result in the weapon having to turn such that it curves back toward the target. The extent of weapon's ability to do this equates to the magnitude of this maximum allowable angle. In a very basic sense, the smaller the weapon's “turning circle”, the greater this angle allowance will be.
The maximum lateral angle allowance feedback is intermixed with the aforementioned range-based feedback on the HUD. It is represented in the HUD symbology suite's horizontal axis. The pilot must interpret this particular axis with an alternative “first person perspective” mindset.
In both the range and angular representations, the HUD aircraft symbol 8 is used as the aiming reference point. Therefore, ensuring the aircraft is flown such the aircraft symbol 8 resides in the box just prior to release, equates to achieving a successful weapon release condition.
This simple weapon aiming task is made possible due to the fact that the current range and angular allowance information is dynamically generated—it always reflects, and is reactive to, current flight conditions such as airspeed, altitude, and pitch. For example, the maximum range (Rmax) of a weapon increases the faster the launch aircraft is travelling.
This invention is fully compliant with supporting simultaneous attack of up to 4 separate ground targets, with up to seven weapons at a time. The attack takes place as a single event at a particular time/place, and each weapon released then guides to its assigned target.
This means that the degree of freedom displayed to the pilot for such an attack must constitute common ground, so that initiation of the overall attack whilst within these degrees of freedom (i.e. with the compound basket) will result in the weapon(s) assigned to all 4 targets all being capable of reaching their destinations. This is achieved by repeating the aforementioned calculations for each individual target, and then amalgamating this information in order to derive, and consequently display, the compound basket. This is illustrated in
Outside this compound basket, a subset of the full array of targets may be engageable at any given moment, dependent on which basket(s) the a/c symbol currently resides in. This constitutes a “partial attack”. Although these individual baskets are not displayed, instantaneous engageability of individual targets is reflected via separate symbology, referred to as the Ground Target List Repeater (GTLR).
To aid the pilot in the planning and execution of a complex simultaneous multiple-target attack, the GTLR provides a single point of reference for the following concisely-presented information:
In the
However, there is a problem with Target 97's planned assignment of 3 weapons: a weapon on the aircraft has become defective such that it is no longer useable. The planned assignment of 3 weapons can no longer be achieved, and hence only 2 weapons are actually assigned. The presence of the “D” against Target 97 indicates a problem, and identifies the nature of that problem (i.e. weapon is “D”egraded, hence less than the planned assignment is possible).
Once the attack has been initiated, the example depicts the GTLR midway through the attack. Target 95 has been engaged fully (i.e. its single assigned weapon has been released). Target 96, however, is partially attacked, as only one of the 2 weapons assigned to it has been released successfully. Target 98 has yet to have its single assigned weapon leave the aircraft. Target 97 is partially attacked (i.e. only 1 or 2 respective weapons have been released). However, it will remain partially attacked even when the overall attack event is complete, due to the fact that the planned assignment (i.e. 3 weapons) was never fulfilled. The maintained display of “D” alludes to this.
The GTLR performs distinct roles prior to, and during/after the attack event. It allows the fusion of a multitude of critical information, necessarily highly interpretable, such that situation awareness is maintained in preparation of, and throughout, complicated air-to-surface attacks.
In order to portray all the information described above to the pilot, it needs to first be calculated and subsequently displayed. This is all performed with the aircraft avionics system, as shown schematically in
Calculations are performed by the attack computer 12 and armament control computer 14, which then use the results to instruct the computer symbol generator 16 how/where/when to display each element of the designs symbology suite. This then ultimately manifests itself on the HUD 18 and head-down displays 20.
The how, what, where of the symbology suite is defined in top-level cockpit user documentation. For this cockpit behavior to be achieved, both the Attack Computer (AC) and the Computer Symbol Generator (CSG) require reciprocated sub-system design and software code. This results in a layered definition of the design as shown in
Number | Date | Country | Kind |
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0516998.2 | Aug 2005 | GB | national |
This application is a United States National Phase patent application of, and claims the benefit of, International Patent Application No. PCT/GB2006/050239 which was filed on Aug. 16, 2006, and which claims priority to British Patent Application No. 0516998.2, which was filed on Aug. 17, 2005, the disclosures of each of which are incorporated herein by reference.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/GB2006/050239 | 8/16/2006 | WO | 00 | 3/19/2009 |