Uprooted Palestinians are at the heart of the conflict in the M.E Palestinians uprooted by force of arms. Yet faced immense difficulties have survived, kept alive their history and culture, passed keys of family homes in occupied Palestine from one generation to the next.
Several sources in the past several days have analyzed the Iranian missile strikes on US forces at the Ayn Al Asad Airbase which took place more than two weeks ago on the 8th of January 2020 as a retaliation for the US assassination of the Iranian general Qassem Sulaimani. The reports have focused on several topics and methods ranging from satellite image interpretation, videos of missile launches and incoming missile strikes to analysis of on-site photos of (unexploded) Iranian missiles in and around the targeted airbases in Iraq.
In this analysis we will look closer at the satellite imagery to give us more insight on what happened at the Ayn Al Asad Airbase and to help us answer some questions like what kind of missiles did the Iranians use, what kind of targets did the Iranians aim for (or destroy) and what kind of information can we derive in terms of accuracy of the Iranian missiles.
It is clear, even prior to conducting any analysis, that the Iranian missiles obviously targeted individual structures with a high rate of accuracy. In this analysis we look at accuracy in terms of how far the missiles landed from their targets. Since the Iranians did not make public the targets they wanted to hit or destroy, we will have to assume that the individual missiles were targeting the actual structures they destroyed or the nearest structures to their impact locations. Another possibility is that the Iranians deliberately struck areas near or outside some of the targets. We will consider both scenarios.
A term often used in precision guided munitions (artillery shells, smart-bombs, missiles, etc.) is the circular error probability (CEP). This is when a circle is drawn around 50 % of the targets that land on a single aim point. This value is not derived from actual warfare statistics but from weapons testing or claims from the weapons manufacturer. Also important to note is that the CEP accuracy is tested by firing the same type of missile many times at a single target instead of directing the same type of missile at multiple independent targets. We will attempt to derive our own statistics from the small sample size of missile strikes at the airbase. This analysis is also a follow up on the very interesting article posted by The Saker which also assessed the initial satellite images made available online of the Ayn Al Asad Airbase strikes, see here https://thesaker.is/the-anglozionist-empire-vs-iran-a-discussion-of-the-recent-events/ .
As geospatial experts with experience in aerial and satellite image interpretation, our eyes are trained, through formal training, education and on the job experience, to look for patterns, colors and contrasts among many other techniques to describe and interpret what we are actually looking at. We also apply image classification techniques and manipulate remotely sensed data (orthophotos, multi-spectral, hyper-spectral, thermal, LiDAR, Radar, etc.) to capture more information in order to help us further interpret the situation. Most of us are specialized in a certain field within the spatial related sciences like forestry, energy, transport, geology, archeology or urban planning. I must mention that since I am not a trained expert in the intelligence or military field like several of my colleagues in this branch, there could be short comings in my analysis and in the used terminology. Having said that, I have been regularly interpreting military related imagery on and off in my free time in the past several years.
Introduction to Ayn Al Asad Airbase
The US occupation forces between 2003 and 2005 changed the name of the airbase from its original 1980s name of Qadisiyah Airbase to the name of Ayn Al Asad, which in Arabic literally either means “Eye of the Lion” or in this case “Lion spring” due to the hydrological spring which is now located within the perimeter of the airbase. This spring feeds the Wadi al Asadi stream valley located in the northern part of the air base and flows eastwards into the Euphrates River as one of its tributaries. The main part of the base originally had a perimeter length of 21 km, not including other secondary or auxiliary bases located in the surrounding areas. The perimeter was expanded by the Americans to 34 km (Figure 1), giving the base a total area size of approximately 63 km2 and making it the largest military base in Iraq by area size. For comparison, this is almost twice the size of the New York City metropolitan area.
The base consists of two major runways (a third runway is unpaved), several taxiways, a variety of different facilities and buildings for personnel, equipment, communications, including sports and leisure centers with theaters and swimming pools. The base further has soft and hardened aircraft shelters (hangars). The trapezoidal shaped hardened aircraft hangers were built by Yugoslavian companies across many bases in Iraq in the 80s and are nicknamed “Yugos” by the Iraqis. The two hardened runways have a length of approximately 3,990 m. This is almost 1 km shorter than Iraq’s longest aircraft runway of 4,800 m located at Erbil airport, which is also one of the longest in the world. For further historical and general information on the Ayn Al Asad Airbase, see the following websites here ( https://en.wikipedia.org/wiki/Al_Asad_Airbase ), here ( https://www.globalsecurity.org/military/world/iraq/al-asad.htm ) and here ( https://www.airforce-technology.com/projects/al-asad-airbase-iraq/ ).
Reports indicate that around 15 to 16 missiles were fired from multiple locations inside Iran, with at least 10 missiles fired from bases in the Kermanshah area. If this is indeed the case and assuming a straight line flight path, the missiles could have traveled a distance of approximately 425 km from Kermanshah until reaching the Ayn Al Asad Airbase (Figure 2).
Figure 2 Distance between Kermanshah and the Ayn Al Assad Airbase (Sources: National Geographic, Esri, Garmin, HERE, UNEP-WCMC, USGS, NASA, ESA, METI, NRCAN, GEBCO, NOAA, INCREMENT P, DigitalGlobe, Earthstar Geographics, CNES/Airbus DS, GeoEye, USDA FSA, USGS, Aerogrid, IGN, IGP, and the GIS User Community)
Airbase missile strike overview
In recent days, analysts have identified a total of nine separate missile impact strikes within the Ayn Al Assad Airbase perimeter. This does not exclude the possibility of other missile impact sites within the base’s perimeter which have not been identified or published online. Figure 3 shows the location of the nine impact sites which we will look at in more detail. Seven strikes (number 1 to 7) are found at the facilities located just above the northern taxiway and runway, which according to the imagery, houses a variety of drones and aircraft, including V-22 Ospreys, MQ-1 Predator drones, UH-60 Black Hawks and even (K)C-130 Hercules aircraft for transport and refueling. Another missile impact (number 8) is located on the taxiway between the two paved runways and impact number 9 is found on a taxiway in the southeastern complex of hardened aircraft hangars.
Figure 3 Satellite imagery of the Ayn Al Asad Airbase showing the nine missile strike locations where Iranian missiles landed. (Sources: Planet Labs Inc.)
Site number 1 and 2
Strikes number 1 and 2 are approximately 110 m apart. Crater impact nr. 1 is 28 m away from the destroyed soft non reinforced target (possibly a tent structure). Nr. 1 has a small circular blast followed by a secondary semi-circle pattern. The secondary pattern towards the west also gives away the eastern incoming missile direction. Impact nr. 1 is peculiar since it is not a direct hit, but landed 28 m next to the nearest structure. The question is if the Iranians intentionally targeted this point or is it an accuracy issue (off by 28 m) ? We can consider both scenarios for now and later discuss which is more likely when we compare other missile impact locations.
Strike nr. 2 has a similar sized crater and blast pattern as nr. 1 (approx. 27 to 28 m). So it is highly possible that both strikes were conducted using the same missile, with strike nr. 2 having a more obvious blast circle due to it landing exactly in the middle of a series of built soft structures (possible tents). From the measurements we can conclude that strike nr. 2 is more or less dead center on the 5 soft like tent structures and there is no substantial accuracy error.
Site number 3
Site nr. 3 contains two soft structures (possible tents). The missile’s crater and circular blast pattern is located almost in the center of the left building. We estimated that if this building was deliberately targeted, the error is no more than 3 m. For comparison, this is the average accuracy of a handheld GNSS (GPS) device or a current smartphone, which is very impressive for a warhead landing at more than 2000 km/h (terminal velocity).
Site number 4 and 5
Sites 4 and 5 are two building (soft structures) next to one-another each hit with what seems to be similar type of missiles with primary blast radius of 8 to 9 m and secondary circles of around 20 to 22 m. If we assume that the middle of buildings were targeted, we find accuracy errors of 6 and 14 m for site 4 and 5, respectively. Again, we do not know if the Iranians deliberately targeted a certain part of the structures.
Site number 6
Strike 6 is located on the left side of a long metal roof soft structure, similar to a steel open warehouse. The left half of the building shows a primary blast circle of approximately 17 m in radius, with an overall damage radius of approximately 25 m. If we assume that the center of the building was the actual target, then we find an error of 51 m. Again, the question is whether the left side of this building was deliberately struck instead of the central part. We speculate that it is likely that the Iranians intentionally targeted the western side of the building, having prior knowledge the blast radius of their missiles and the importance of the western side of the building.
Site number 7
Strike number 7 is the most easterly impact site and is found near the end of the northern runway. The impact is located almost exactly in the middle of four soft aircraft shelters. The post-strike image (taken a few hours after the event) shows V-22 Ospreys and MQ-1 predator drones parked just south of the shelters. The first circular blast pattern has a 15 m radius. The incoming direction of the missile caused the complete destruction of the adjacent shelter just left of the impact point, while the shelter to the right was lightly damaged. If we assume the Iranians were targeting the middle point of the second shelter (taken from left to right) than the accuracy error would be about 18 m. However, it is highly likely that the four soft shelters were targeted as a single unit. If that is the case, then the missile was only 7 m off (accuracy error) from the middle point.
Site number 8
If we assume that the Iranians are not randomly lobbing missiles inside the airbase with CEP errors of 100 to 500 m as some of the so called “think tank” experts presume (or have previously presumed in recent years), then we can assume that site nr. 8 was targeting the taxiway located between the two paved runways as previously shown in Figure 3. In the images below we can see an impact crater hitting the side of the taxiway. The impact is 23 m from the center of the taxiway pavement and we use this distance as a measure of accuracy. A clear circular blast pattern is visible and a directional blast cone indicates the incoming missile direction.
Site number 9
Strike nr. 9 is the second strike on a taxiway and is the most southern impact site situated in a hardened hangar complex. The impact crater is located almost exactly on one of the corner points of a paved T-junction. If the Iranians purposely targeted this exact point, then the accuracy error could possibly be no more than 2 meters. However, if the target was the actual center of the T-junction, then the error is approximately 11 m. Like in site nr. 8, we see a circular blast with a cone like fan shaped pattern giving the incoming missile direction.
Assessment and conclusions
There are different ways to assess the accuracy of these strikes based on the fact that we do not have the exact coordinates the Iranians wanted (intended) to target. It is not very realistic to assume that the Iranians were perfectly able to target the exact coordinates they intended to hit with perfect accuracy. There is however uncertainty in whether the Iranians intentionally missed some of their targets. We say “some” because our observations clearly show a pattern of very accurate strikes on individually targeted buildings/structures. So we have two most likely scenarios:
The Iranians intentionally targeted and destroyed some targets. Accuracy errors occurred causing some missiles to miss the exact center point of their targets, with other targets being completely missed.
The Iranians intentionally destroyed some targets and intentionally missed some others.
I personally believe that the Iranians had no reason to destroy entire series of tents and soft sheltered facilities, causing many injuries according to reports that have come out in recent days, while intentionally missing the taxiways. This would make the first scenario the most likely event.
The table below shows the estimated range in accuracy for each of the 9 strike locations based on our observations and interpretation. The green numbers are the most likely errors in meters, while red numbers indicating the less likely errors based on our assumptions of what the Iranians intended to target. We find an average missile target accuracy of 11 m that is based on what we assume are the most likely intended targets (or in other words the most likely scenario). The statistical spread of this small sample size (of only 9 strikes) is 8.5 m. So the lower and upper limits of the accuracy, based on the standard deviation, is estimated to range between 2.5 and 19.5 m. The median value, which is somewhat comparable to the CEP, is 7 m. This means that half of the strikes landed within 7 m. Finally, the average blast (damage) circle is estimated at 21 m.
So let’s visualize these numbers and assume (a big assumption by the way) that these numbers can be used in circles. The figure below shows a MQ-1 predator drone theoretically being targeted. The yellow line indicates the 11 m mean accuracy value. This is where missiles will land on average. The red line gives the 7 m median value where 50 % of the strikes are found inside this circle. The subsequent figure also includes examples of blast circle (average radius of 21 m) locations in respect to the target.
Assuming our estimation of the intended targets and measurements are realistic, an Iranian missile accuracy ranging on average between 2.5 and 19.5 m is very impressive to say the least and indicates the use of advanced terminal guidance technology (guiding a missile in its terminal phase). Reports have suggested that the Fateh-313 tactical short range ballistic missile (SRBM) was used in the Ayn Al Asad Airbase attack, with other reports suggesting that the Qiam 1 was also used in the attack, including on Erbil Airport. The Fateh-313 is an upgraded Fateh-110, with an increased missile range up to 500 km. Terminally guidance technologies could possibly have been combined, including inertial guidance systems (INS), GPS and possibly electro-optical guidance. Since I am not a military or weapons expert, and my knowledge on sensors is limited to remote sensing for image acquisition, I will leave this part of the assessment to experts like the Saker and his colleagues. I have to say that guiding projectiles traveling at three times the speed of sound within a few meters of their target is pretty amazing if not mind boggling. After all, it is not called “rocket science” for nothing!
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