SIGINT Galore!

USA 136 (Trumpet 3), a TRUMPET in HEO. 28 Nov 2016
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The evening of 28 November was very clear - no moon and an extremely transparent sky, with temperatures around zero.

I used it to target several objects in GEO and HEO. Due to the favourable sky I could use exposure times twice as long as usual.

All the classified objects imaged were Signals Intelligence (SIGINT) satellites, i.e. eavesdropping satellites. The image above shows you one of the TRUMPET satellites, USA 136 (1997-068A), crossing through Andromeda. This is an object in a 63 degree inclined HEO orbit. The satellite was coming down from apogee at that moment and at an altitude of ~31 500 km.

Below is another object in HEO, USA 184 (2006-027A). This too is a SIGINT satellite, part of the TRUMPET-Follow On program (aka Advanced TRUMPET. It also serves as a SBIRS platform.

USA 184, a TRUMPET-FO in HEO, 28 Nov 2016
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This object was near apogee at this moment, at an altitude of 39 000 km over the Faroër Islands, which is why it looks stellar in this 20-second exposure. The star field is in Cassiopeia.

Both these objects hadn't been observed by our network for a while, hence they were somewhat off their predictions (1.5 degrees in position in the case of USA 136; and 1 degree off position in the case of USA 184).

I also briefly imaged a part of the geosynchronous belt, much lower in the sky. The targetted GEO objects were SIGINT satellites too: both Mercury 1 and Mercury 2 (1994-054A and 1996-026A), The Advanced ORION satellites Mentor 4 and Mentor 6 (2009-001A and 2012-034A) and the NEMESIS satellite PAN (2009-047A).

PAN and Mentor 4 (both shown below) have a story attached to them and were the subject of my recent article in The Space Review, which you can read here.

PAN (USA 207), a NEMESIS in GEO, 28 Nov 2016
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Mentor 4 (USA 202), an Advanced ORION in GEO, 28 Nov 2016
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Observing Geostationary Satellites from Leiden and Arizona

While the focus was on LEO and HEO satellites earlier in October, I primarily targetted Geostationary satellites last week. Both from my own locality with my own equipment, as well as by means of a "remote" telescope in Arizona.

The two images below were taken from Leiden (the Netherlands) in the early evening of October 23, using my own equipment (Canon EOS 450D + Carl Zeiss Jena Sonnar MC 2.8/180mm).

They show the enigmatic, frequently re-locating PAN satellite (09-047A: see Dwayne Day's article here) and the SIGINT (eavesdropping) Mentor 4 (USA 202) satellite (09-001A), as well as a few commercial geostationary telecom objects: Hellas-sat 2 (03-020A), Thuraya 2 (03-026A) and Paksat 1R (11-042A).

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As can be seen, PAN and Hellas-sat 2 are a very close pair now, so close that I am not actually 100% sure which one is which (the westernmost one or rightmost one is likely PAN). As can be seen in comparison to this post from May, it has relocated again, from 45.0 to 38.9 E - it did so in July, when I was on hollidays.

Somewhat earlier the same week, when the sky in Leiden was overcast, I took refuge by hiring a "remote" telescope again. This time not the 61-cm of SSON, but the 37-cm Cassegrain of Winer Observatory (MPC 857) in Sonoita, Arizona, USA. While a smaller instrument, this telescope has a larger FOV which is good if the satellite is a bit off from predictions, and allows te satellite to be captured on more than one image when a 3-image run is done. Also, it is cheaper to rent.

Targets were two "usual suspects": the enigmatic Prowler (90-097E: see story and links in my previous post here) on October 17 and 21 and the SBIRS-GEO 1 (11-019A) on October 21:

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Note: because the telescope follows the stars, the satellites become trailed, unlike the images shot from Leiden which are from a stationary tripod (hence the stars trail, but the satellites not).

A few non-geostationary satellites were tracked the past two weeks as well. They include the STSS Demo 1 & 2 (09-052 A & B) and the USA 89 r/b (92-086C) on October 22, and the HEO ELINT & SBIRS platform USA 184 (06-027A) on October 15.

PAN, and the NOSS 3-5 duo

Monday evening was a nice clear evening with a very transparent sky.

I observed the NOSS 3-5 duo (11-014 A & B), which was captured in a very fine image with a stray nearby, the rocket from the Kosmos 1697 launch (85-097B). De double parallel trail above is the NOSS duo, the single trail under an angle is the Russian rocket (bright star near trails is Deneb):

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I also took opportunity of the transparent sky to target some geostationary objects low in the southeast. Targets were PAN (09-047A) and Mentor 4 (09-001A):

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Libya jamming Thuraya 2

In an effort to prevent dissemination of information, Khadaffi's forces in Libya are now jamming several communication satellites that serve Libya, including Thuraya, Reuters reports. (see also a press release by the Thuraya company here)

The Thuraya satellite being jammed is Thuraya 2 (2003-026A), a geosynchronous satellite located at 44 degrees East, over East Africa:

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I have imaged this satellite several times, as it's position is close to that of USA 202/Mentor 4 (09-001A). Thuraya 2 is the upper of the two objects in below image, which I shot at 8 December 2010 using the Carl Zeiss Jena Sonnar MC 2.8/180mm:

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I wonder whether the jamming is not only aimed at Thuraya 2, but perhaps also at the nearby Mentor. The latter is a SIGINT satellite, and jamming it would hamper US intelligence gathering on what is currently going on within Libya (and northern Africa and the Arabian peninsula in general). It is not clear to me however whether the jamming is "local" on the Thuraya downlink over Libya, or actively aimed (in an "uplink" sense) at the satellite.

Libya was accused of jamming Thuraya 2 earlier in 2006 (see here and here).

Satellites near the Pleiades

Yesterday evening (Saturday 29 January) some satellites seemed to be in love with the Pleiades. In a somewhat hazy sky, I observed Lacrosse 3 (97-064A) cruising near the Pleiades and Hyades in twilight, and half an hour later watched the NOSS 3-4 duo (07-027 A & C) cruise right through the Pleiades.

Below are the resulting images. The top image of the NOSS duo cruising through the Pleiades (movement is from top to bottom, with 07-027A leading) was made using the Canon EF 100/2.8 Macro USM lens: the images of Lacrosse 3 were made using the EF 50/2.5 Macro lens.

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The FIA Radar 1 (10-046A) was imaged as well. Unlike a few nights ago, it did not flare.

The previous night had a better quality sky, so I targetted a few geostationary satellites low above the horizon. Classified geostationary targets imaged were PAN (09-047A), Mentor 2 (98-029A), Mentor 4/USA 202 (09-001A) and the Milstar 5 r/b (02-001B). A number of commercial geostationary satellites were captured as well.

Below image, taken with the Carl Zeiss Jena Sonnar MC 2.8/180mm, shows PAN with the nearby commercial geostationary Yamal 202 (03-053A).

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The image below, taken with the EF 2.5/50mm Macro, shows Mentor 2, with the stars of Orion's belt and Orion's nebula M42 at left:

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I also accidentally captured a mag. +2.5 sporadic meteor in one of the images taken with the Carl Zeiss 180 mm (FOV only 5 x 7 degrees!):

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The FIA Radar, USA 179 (SDS 3-3) and more

On the 5th, 9th, 10th and on the 16th of January, the skies shortly cleared in the evening and I observed the FIA 1 Radar (10-046A) making some nice passes through the winter sky. On the 16th it was a particularly close race with clouds coming in (the last image in the series has clouds in the image frame).

Below are two images: one from the 10th showing the FIA 1 Radar passing close to the Pleiades; the other showing it passing through the alpha Persei association on Jan 16th.

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I also observed the Molniya orbit satellite USA 179 (SDS 3-3) on the 16th, which was close to the alpha Persei association too. As it was too faint for the 50mm lens, I used the Carl Zeiss Jena 180mm lens for it (brightest star in image is alpha Persei):

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Other objects observed include PAN (09-047A) on the 9th of January. It is still in the fixed position at 49.0 E where it is since December 24 (see earlier post here). That same evening, Mentor 4 (USA 202), Mentor 2 and the Milstar 5 r/b were observed as well. A flashing H2A rocket, 06-059A, was captured as a stray. On the 5th of January, the IGS R2 r/b was captured in twilight, being very fast and very bright.

Recovering SDS 3-3 (USA 179) and following the UNKNOWN 101208 geosat

Our amateur network had lost track recently of the HEO satellite SDS 3-3 (USA 179, 2004-034A), so it had to be recovered. Radio doppler shift data by an amateur remaining anonymous provided enough information to Ted Molczan to issue a search orbit for visual or camera recovery.

Last evening started clear, and I quickly recovered it very close to Ted's predicted search orbit position. It was about 0.3 degrees off from the latter, so a very neat result! See the image below, the first in a series I shot yesterday with the Carl Zeiss Jena Sonnar MC 2.8/180mm:

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After imaging another HEO too, the ELINT USA 184 (2006-027A), clouds came in. The situation turned very dynamic, with the sky going from clear to clouded to clear in a matter of minutes.

I wanted to see if I could image the 'mystery geostationary satellite' which I discovered on 8 December again, a satellite that has now been temporarily designated as Unknown 101208. With my initial December 8 observations and Greg Robert's December 9 & 10 observations, Mike could fit a reasonably good orbit:

Unknown 101208
1 99991U          10344.69054052 0.00000000  00000-0  00000-0 0    03
2 99991   0.0670  10.3484 0003000 147.2004 212.7996  1.00405600    05

The object is drifting eastward at a rate of about 0.5 degrees/day and is now well east of the Turksat 2A & 3A duo (it was west of them when I discovered it on the 8th). It's identity still remains a mystery. Early ideas about it being a DSCS relocating, can now be dismissed.

Under very dynamic conditions, I managed to take advantage of a clearing that lasted literally only minutes (!) to capture it again last evening, along with a few others in the same image. The latter objects were the Milstar 6 r/b (2003-012B) and Mentor 4 (USA 202, 2009-001A), and in addition the non-classified geostationaries Turksat 2A & 3A, Thuraya 2 and Express AM-1.

While the image quality was bad (quite fogged images), the object clearly showed up. Below is one of the images, showing the mystery satellite with the Turksat duo. Compare to the December 8th picture here, when the mystery satellite was still west of the Turksats:

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Again Terra SAR-X and TanDEM-X, and a rich batch of

Yesterday evening was a very dynamic evening, where conditions changed from clear to clouded to clear in matters of minutes.

Besides the unexpected recovery of a lost classified geostationary, I also observed a number of other geostationary satellites, and another fine flare of the close duo TerraSAR-X and TanDEM-X (for an earlier observation, see here). They flared to mag. -1 at about 17:18:20 UTC, yielding the image below:

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Movement is from left to right, with TerraSAR-X leading. The distance between the two objects was 3' (arcminutes).

Among the geostationary satellites imaged, were the classified objects PAN (2009-097A) and the Mentor's USA 202 (Mentor 4, 2009-001A) and Mentor 2 (98-029A). In addition, the commercial geosats Express AM-1 (2004-043A), Hellas-sat 2 (2003-020A), Paksat-1 (96-006A, close to PAN) and Thuraya 2 (2003-026A, close to USA 202). This in addition to the recovery of DSCS 3-11 (2000-001A) and the closeby commercial geosats Turksat 2A (2001_002A) and Turksat 3A (2008-030B) .

Below two images show the couple Mentor 4 (USA 202) and Thuraya 2 imaged with the Carl Zeiss Jena Sonnar MC 2.8/180mm; and Mentor 2 imaged with the Canon EF 2.5/50 Macro.

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PAN and other geostationary satellites in a frosty winter sky

Last Sunday evening, the pass of the Terra SAR X and Tandem X close duo posted earlier here and a pass of Lacrosse 4 shortly after that, were not the only observations I made. Somewhat later that night, I targetted several geostationary satellites, using both the Canon EF 2.5/50 mm Macro lens and the Carl Zeiss Jena Sonnar MC 2.8/180 mm lens (the latter for the first time on geostationary objects).

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The image above, taken with the EF 2.5/50mm lens, shows two geostationary objects close to the Orion nebula.

One is the classified object USA 202/Mentor 4 (2009-001A), a big SIGINT geostationary satellite with a brightness of about mag. +8. It has featured on this observing blog earlier. The other one, Galaxy 8 (1997-078A), is a commercial communications satellite and was captured serendipitously in the same image while it was brightly but briefly flashing. It is not visible in an image taken 30 seconds later (and only faintly visible in an image taken 3.5 minutes earlier).

I also imaged the mysterious classified geostationary PAN (2009-047A) for the first time, using the new Carl Zeiss Jena Sonnar MC 2.8/180 mm lens. Below image shows it together with the nearby commercial geostationary satellites Paksat 1 (1996-006A) and Hellas-sat 2 (2003-020A).

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PAN is a very mysterious object, the mysteries surrounding the 2009 launch being discussed at length by Dwayne Day in his Space Review article here. The mystery was (and is), that no Agency (neither NRO, USAF, US Navy nor CIA) claimed responsibility for the launch. Owner and role are hence unknown. There was much speculation about the possible role of the spacecraft, and the meaning of the acronym PAN. The latter got at least one "solution" when the launch patch (below) appeared, suggesting PAN stood for "Palladium At Night". Whatever that may mean.



The same images that contained PAN, Paksat and Hellas-sat 2 also contained the very faint trail of a Breeze-M tank (2009-050C) and two more geostationary satellites: Eutelsat W4 and Eutelsat W7 (2000-028A and 2009-065A). This all in an image only a few degrees wide!

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Last but not least, the classified geostationary communicatiosn satellite Milstar 5 (2002-001A) was imaged. In the same image(s), two other, commercial geostationary satellites were visible: Galaxy 11 (1999-071A) and Inmarsat 4-F2 (2005-044A). A rich haul of geostationary objects, obtained at mildly frosty temperatures of -2.5 C!

Again the FIA Radar 1 (NROL-41)

Last night was frosty and very, very clear. In the evening, I took pictures of the KH-12 USA 129 (96-072A), the HEO SDS 3-4 USA 179 (04-034A) and the geostationary ELINT USA 202/Mentor 4 (09-001A), low over the southeastern horizon. At the time of observation, it was some 4 degrees south of Jupiter.

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I took a quick shot at Jupiter too with the Carl Zeiss Sonnar MC 2.8/180, to capture the moons of Jupiter. Here is the image, at 100% pixel resolution:

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In the early morning, at 5:18 am local time, I watched and photographed a very fine pass of the FIA Radar 1 (10-046A) again. It attained a maximum brightness of +3.5 while crossing through Cassiopeia. Below is an image, showing the 'W' of Cassiopeia and the FIA Radar 1 trail (movement is from top to bottom).

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Progress-M 04M, MSX, and Mentor 2

A long spell of very warm, sunny weather is resulting in several clear nights. Since my last observations reported here (those of June 2nd), I have been able to observe on June 3, 13, 14, 16, 17, 22, 24, 26 and 29. Objects include Progress-M 04M, Mentor 2, Mentor 4 (USA 202), USA 161, USA 32, USA 184, MSX, Milstar 5, the NOSS 3-1 duo, and the STSS Demo-1. This does not include a number of non-classified strays also captured.

USA 161 (01-044A) slowly flared to -1 at 23:58:59 UTC (24 Jun).

Below are a few pictures. First: UARS captured as a stray, flaring, on June 16th:

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Progress-M 04M on 26 and 29 June:

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Geostationary USA 202 (Mentor 4), in the trees low in the sky (altitude about 17.5 degrees):

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Mentor 2 (geostationary), MSX and a stray (HJ-1A, a Chinese Earth Observation Satellite)

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USA 202 and other geostationaries, and a stroboscopic show by USA 81

I am awfully behind with reporting on my observations.

In deep twilight on June 2nd, I observed USA 81 (92-023A) briefly attaining easy naked eye magnitudes in Bootes, and firing off a rapid series of flashes. The trails on both images covering this episode of bright stroboscopic behaviour partly run off the image, as I re-aimed in (too much of) a hurry. I still have to analyse the flash period. But it was impressive to see:

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Apart from two Lacrosses, I also targetted the geostationary satellite Milstar 5 (02-001A) again. below image shows it together with the commercial geosats Galaxy 11 and Intelsat 802:

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I also imaged another classified geostationary satellite, USA 202 (09-001A), and ELINT satellite (probably a Mentor/Advanced Orion). I had not realised it was so bright, so initially I thought the faint object on below image was USA 202 and the brighter one the commercial geosat Thuraya 2. However, the brighter object is USA 202, as it turns out (hence, the questionmarks still in below image can be removed). The satellite is at an altitude of only 17.5 degrees in the south-southeast for mu location.

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