|If this is your first visit, be sure to check out the FAQ by clicking the link above. You may have to register before you can post: click the register link above to proceed. To start viewing messages, select the forum that you want to visit from the selection below.|
||Thread Tools||Display Modes|
Full Analysis Of The First Flight Of Russia's 'Hunter' Unmanned Combat Air Vehicle [3/5] - A rear aspect shot of the S-70 that emerged in January 2019.png (1/1)
This is a significant achievement for the program, but serious questions remain
about the drone's design and exact capabilities.
Russia's Sukhoi S-70 Okhotnik-B, or Hunter-B, flying wing unmanned combat air
vehicle, or UCAV, flew for the first time recently and now the country's
Ministry of Defense has released video of the flight. Images of the drone had
first emerged on Russian social media in January.
The Russian Ministry of Defense officially announced the milestone last week,
though it did not provide any imagery. The S-70 flew for more than 20 minutes,
cruising at an altitude of around 1,970 feet on a route around an unspecified
air base, according to the official statement at the time. This first flight was
originally scheduled to occur sometime in the Spring, but was delayed for
It is not immediately clear where or when this test occurred. As of May 2019,
satellite imagery and official Russian government statements confirmed that at
least one Okhotnik-B was at 929th Chkalov State Flight-Test Center in Russia's
southwestern Astrakhan region. However, a separate report from AINonline in June
says that the first flight had occurred on May 25 at Sukhoi's Novosibirsk
Aircraft Production Association's (NAPO) plant in the region of the same name.
The video the Russian Ministry of Defense has now released, seen below, shows
the drone taxiing, taking off, flying around the base, and landing. The UCAV,
which is roughly in the same general size class as Northrop Grumman's X-47B, is
now carrying a bort number, Red 071, as well as the new paint scheme that was
previously visible in the satellite imagery from Chkalov. It remains unclear if
this means this is a refined design, or even an additional prototype, that is
separate from the one seen in the pictures that appeared in January.
The most immediate visual difference on the drone in the test flight video is
the addition of two flight data probes temporarily installed on the leading edge
of the wing, one on each side of the main air intake. This is not uncommon to
see during flight tests. A U.S. Air Force RQ-170 Sentinel stealth drone was
spotted flying an apparent test sortie from Vandenberg Air Force Base in
California in 2017 with a similar probe, something The War Zone was first to
The configuration of the undercarriage, as well as the air intakes and antennas
on top and underneath the fuselage, look largely unchanged from those that were
visible in the January 2019 pictures, which were reportedly taken during a
ground test at NAPO.
The drone's engine exhaust also remains entirely exposed. We still do not know
what type of engine the UCAV uses, but a variant of the Saturn AL-31F series
found on Sukhoi's Flanker fighter jet family remains a likely possibility. You
can read The War Zone's full analysis of the S-70 design based on what was
visible in January, assessments that remain largely unchanged, here.
The Russian Ministry of Defense now says that the primary missions for the S-70
will be intelligence, surveillance, and reconnaissance, using both
electro-optical and infrared sensors and signals intelligence systems, as well
as electronic warfare. However, its general size would allow it to accommodate
The Russians also continue to claim that the unmanned aircraft uses composite
structures and special stealth coatings to make it "practically invisible" to
radar, but the design as it stands now remains far from very stealthy. The most
obvious problem is the engine arrangement, which appears to have the inlet and
exhaust relatively in line, as well as no shrouding for the exhaust at all,
features that can only hurt the drone's low observable characteristics. The
various intakes and antennas dotting the fuselage only compound these issues,
although some are likely installed for testing purposes alone.
Steve Trimble, our friend and defense editor over at Aviation Week, also noted
how Hunter-B's wing design has a high similarity to that of the officially
retired, but still flying F-117 Nighthawk. The sweep of its wing is somewhat
similar to that of the F-117, but it's worth noting that the same general
wingtip configuration is used by the RQ-170 Sentinel, as well. It would be
remiss if we weren't to mention that the Skunk Works' flying-wing Sentinel spy
drone likely informed Russia's Hunter-B design in more ways than wingtip design
alone. The example that fell into Iranian hands was thought to have been at
least examined by Russian engineers. Where technologically possible and logical,
Moscow would have incorporated its secrets into their Hunter-B design and the
operating concepts that are derived from it, much of which lies beneath its
As The War Zone has previously noted, the high sweep of the drone's wing,
combined with its engine configuration, could potentially give the Okhotnik-B
higher performance, potentially allowing it to fly at transonic or even
supersonic speeds, if only during short sprints. A less stealthy, but higher
performance design that could keep up with manned fighter jets could turn the
S-70 into a viable "loyal wingman," especially for Russia's Su-57 advanced
combat jets. We've already seen evidence that there is some link between these
manned and unmanned developments at Sukhoi.
It seems likely that the Kremlin is still working on developing its exact
concepts of operation for the S-70, and how those might fit together with other
platforms, despite the comments on the drone's official expected mission sets,
too. With Russia's history of deferring, canceling, and then reviving advanced
combat aircraft programs, it is possible that the overall plans for Okhotnik-B
are not necessarily rigid.
Notably, the drones had previously offered a lower cost means to expand the
Russian Air Force's advanced air combat capabilities in lieu of the Su-57.
However, the Kremlin recently reversed its decision to put serial production of
those manned fighter jets on indefinite hold and now says it will buy as many as
76 of them in the coming years.
Now that the S-70 has begun flight testing we may begin to learn more about its
exact capabilities and just how the Kremlin plans to put them to use.
|Thread||Thread Starter||Forum||Replies||Last Post|
|Detailed New Photos Of Russia's 'Hunter' Unmanned Combat Air Vehicle Emerge: Our Analysis - russian Okhotnik.jpg ...||Miloch||Aviation Photos||0||January 25th 19 04:12 AM|
|Unmanned Vehicle University||Wayne Paul||Home Built||2||April 17th 12 11:07 PM|
|Unmanned Vehicle University||Guy Byars[_4_]||Soaring||0||April 10th 12 02:58 PM|
|X-45A unmanned combat air vehicle 060922-F-1234P-103.jpg||[email protected]||Aviation Photos||0||November 19th 06 09:27 PM|
|Joint Unmanned Combat Air Systems||buf3||Military Aviation||0||November 5th 03 10:31 AM|