It was risky to break cover to fire the weapon when it might take five or even 10 shots to get the burst

Thursday, December 5th, 2024

Logan Nye was an Army journalist and paratrooper in the 82nd Airborne Division, where he got to see the experimental XM-25 grenade-launcher in action:

I was a young public affairs sergeant assigned to an airborne brigade combat team, and we had one Stryker battalion attached to us that got the XM25 Counter Defilade Target Engagement (CDTE) System, commonly known as the “Punisher.” It was similar to the SSRS, but it carried a smaller round at 25mm or .98-caliber, closer to the Bolter. When it worked, it really worked: Shooters used a laser to gauge distance to a target, told the weapon how much farther the target was behind the cover, then fired. The round flew past the cover, detonated at the specified distance and generally ruined people’s days.

But it was expensive; each round cost $1,000 and was expected to drop to $35 or so in full production. And the system frequently failed. I photographed a sergeant major firing it in a “familiarization shoot” and something like eight rounds failed in a row. A military police soldier and I slowly counted the shots as I took photos, marking each time that another two weeks of our pay had gone downrange and failed to explode.

It was worse on patrols, where troops couldn’t count on the weapon in tough fights. It was risky to break cover to fire the weapon when it might take five or even 10 shots to get the burst. They obviously tried, but the troops in contact reports would come across the brigade chat system, saying that they’d expended 10 or 20 rounds for zero enemy casualties. It’s no wonder the Army eventually abandoned the CDTE effort in 2018.

The new SSRS looks less complicated:

Key to the Barrett SSRS’s design is its user-friendly, assault-rifle-based structure. The weapon features a butt stock at the rear, an [sic] five rounds ammunition magazine in the center, and a barrel length of 305mm. The grenade launcher is compact and versatile with an overall length of 861mm and weighing just 6.3kg. It can fire various ammunition, including airburst rounds, giving soldiers a crucial advantage on the battlefield.

Barrett SSRS

A big, heavy, unreliable weapon has multiple strikes against it, but a small, light, reliable version might hit the sweet spot, where its small projectile can be launched at high enough velocity for accurate more-or-less direct fire, but the payload is big enough to kill nearby gunmen with a not-quite-direct hit.

I feel like Geoffrey Boothroyd, compelled to write to Ian Fleming about Bond’s choice in firearms

Wednesday, November 20th, 2024

Fourth Protocol Audiobook by Frederick ForsythWhen I recently listened to the audiobook of Frederick Forsyth’s The Fourth Protocol — primarily out of curiosity about the fictitious Manifesto for the British Revolution — I couldn’t help but notice that the Soviet operator in Britain, when finally cornered, reached for his Sako target pistol, which was set up to use the largest of the three calibers it could chamber.

What calibers were those? Certainly .22 Long Rifle has been the standard for international competition for a long, long time, so what other calibers would it be built for?

Between 1976 and 1988, Sako produced an autoloading match pistol, the “.22-32″, then “.22-32 New Model”, then “Triace”, three versions of the same handgun, slightly modified. It was chambered for .22 Short, .22 Long Rifle and .32 Smith & Wesson Wadcutter, with conversions (barrels, slides and magazines) for each caliber. It is suitable for ISSF (then “UIT”) sport pistol events (Rapid Fire Pistol, Standard Pistol, 25m Pistol, and Centerfire Pistol events).

The .32 is popular in Centerfire Pistol competition, which is not an Olympic event.

.22 Short is the original metallic cartridge, and it has its uses:

The .22 Short was popularly used in shooting galleries at fairs and arcades; several rifle makers produced “gallery” models for .22 Short exclusively. Due to its low recoil and good inherent accuracy, the .22 Short was used for the Olympic 25 meter rapid fire pistol event until 2004, and they were allowed in the shooting part of modern pentathlon competitions before they switched to air pistols.

So the bad guy relied on a huge, hard-to-conceal, crazy-looking, .32-caliber, low-capacity pistol?

I feel like Geoffrey Boothroyd, compelled to write to Ian Fleming about Bond’s choice in firearms.

The next Pearl Harbor attack will most likely involve long-range precision fires

Thursday, October 24th, 2024

Next War by John AntalJohn Antal opens Next War with a look at the failure of imagination that left America vulnerable to Imperial Japan’s surprise attack and the imaginative planning that went into it — as well as some imaginative planning that did not:

With his usual thoroughness, Genda reported the highest dive-bombing hit rates in the past seven months of practice, by the Japanese Navy’s best carrier pilots, is only 40 percent.

[…]

“There is more than one path to get to the top of the mountain,” Yamamoto replies.

[…]

“The only reason a warrior is alive is to fight, and the only reason a warrior fights is to win. Here, the path of life and death, victory and defeat, is clear.”

[…]

“It will take only six days to adjust the aircraft and we can do this while we are underway. With this new means, we will destroy the four American aircraft carriers, eight battleships, two heavy cruisers and the six light cruisers in the first wave. Conventional attacks will focus on attacking enemy airfields and destroying American planes on the ground. The second wave will target the dockyards and oil facilities. The third wave will involve conventional bombing and will hit any remaining targets.”

[…]

“We will lose 80 of our 353 aircraft through direct strikes,” Genda replies. “Ten percent more if the enemy antiaircraft and their pursuit planes are alert … but I believe we will achieve surprise, so I estimate our losses at 107 aircraft.”

[…]

“Yes, it is the only way to annihilate our enemy with one swift blow. It is a hard choice, I know, but these strikes will be like a Divine Wind that will blow the Americans from the Pacific.”

[…]

“Put your new plan into motion. We will hit the Americans and destroy their power in the Pacific with one strike of the sword. We will use your 80 kamikaze aircraft to change the face of war.”

[…]

The Japanese would only resort to kamikaze attacks in 1944, when their strategic military situation was dire, as they grasped for any means to strike back and delay the inevitable tide of defeat.

[…]

But what if Yamamoto’s forces had conducted the kamikaze strike strategy at Pearl Harbor in 1941, when the US Navy was much smaller and unprepared for such a ferocious assault? What if the Japanese had realized they had to play their one roll of the dice differently?

[…]

The next Pearl Harbor attack will most likely involve long-range precision fires: missiles, unmanned combat aerial vehicles, and loitering munitions.

Is a $20,000 FPV a viable weapon?

Wednesday, October 23rd, 2024

The Bolt-M from Anduril is, David Hambling explains, a high-end American take on the hordes of FPV kamikaze drones deployed by Ukraine and Russia:

In Ukraine, such drones are often assembled at kitchen tables from commercial components from China. Though unsophisticated, they are efficient engines of destruction, and at around $500 apiece are destroying tanks, artillery, trucks and foxholes at a high rate.

[…]

While FPV operators need sharp reflexes and weeks of training and practice, Bolt-M removes the need for a skilled operator with a point-and-click interface to select the target. An AI pilot does all the work. (You could argue whether it even counts as FPV). Once locked on, Bolt-M will continue automatically to the target even if communications are lost, giving it a high degree of immunity to electronic warfare.

[…]

An Anduril spokesman told Breaking Defense that “In round numbers, typical Bolt configurations are in the low tens of thousands of dollars,” depending on the exact payload and configuration.

Is a $20,000 FPV a viable weapon?

[…]

Ukrainian journal Defence Express was quick to criticize the Bolt-M, stating that, like other American designs, it fails to incorporate the key lesson of FPV warfare “they are, first of all, cheap and produced at scale.” Instead they suggest the design might be adapted into a reusable, AI-enabled light bomber for conditions of intense jamming.

These controllers are inherently familiar to the next generation of potential warfighters before they ever even sign up to serve

Wednesday, October 9th, 2024

American troops will direct future war machines with familiar controllers:

Over the past several years, the US Defense Department has been gradually integrating what appear to be variants of the Freedom of Movement Control Unit (FMCU) handsets as the primary control units for a variety of advanced weapons systems, according to publicly available imagery published to the department’s Defense Visual Information Distribution System media hub.

Freedom of Movement Control Unit (FMCU)

Produced since 2008 by Measurement Systems Inc. (MSI), a subsidiary of British defense contractor Ultra that specializes in human-machine interfaces, the FMCU offers a similar form factor to the standard Xbox or PlayStation controller but with a ruggedized design intended to safeguard its sensitive electronics against whatever hostile environs American service members may find themselves in. A longtime developer of joysticks used on various US naval systems and aircraft, MSI has served as a subcontractor to major defense “primes” like General Atomics, Boeing, Lockheed Martin, and BAE Systems to provide the handheld control units for “various aircraft and vehicle programs,” according to information compiled by federal contracting software GovTribe.

[…]

The endlessly customizable FMCU isn’t totally new technology: According to Ultra, the system has been in use since at least 2010 to operate the now-sundowned Navy’s MQ-8 Fire Scout unmanned autonomous helicopter and the Ground Based Operational Surveillance System (GBOSS) that the Army and Marine Corps have both employed throughout the global war on terror. But the recent proliferation of the handset across sophisticated new weapon platforms reflects a growing trend in the US military towards controls that aren’t just uniquely tactile or ergonomic in their operation, but inherently familiar to the next generation of potential warfighters before they ever even sign up to serve.

The next war may be fought by airplanes with no men in them at all

Sunday, October 6th, 2024

Area 51 by Annie JacobsenThe use of drones in warfare has its origins in World War II, Annie Jacobsen explains (in Area 51):

Joseph Kennedy Jr., President Kennedy’s older brother, died in a secret U.S. Navy drone operation against the Germans. The covert mission, dubbed Operation Aphrodite, targeted a highly fortified Nazi missile site inside Germany. The plan was for the older Kennedy to pilot a modified B-24 bomber from England and over the English Channel while his crew armed 22,000 pounds of explosives piled high in the cargo hold. Once the explosives were wired, the crew and pilot needed to quickly bail out. Flying not far away, a mother ship would begin remotely controlling the unmanned aircraft as soon as the crew bailed out. Inside the bomber’s nose cone were two cameras that would help guide the drone into its Nazi target.

The explosive being used was called Torpex, a relatively new and extremely volatile chemical compound. Just moments before Joseph Kennedy Jr. and his crew bailed out, the Torpex caught fire, and the aircraft exploded midair, killing everyone on board. The Navy ended its drone program, but the idea of a pilotless aircraft caught the eye of general of the Army Henry “Hap” Arnold. On Victory over Japan Day, General Arnold made a bold assertion. “The next war may be fought by airplanes with no men in them at all,” he said. He was off by four wars, but otherwise he was right.

David Hambling covered the same incident in Swarm Troopers.

Well before World War 2, Jacobsen notes, a few visionaries saw the potential of drones:

Nikola Tesla mastered wireless communication in 1893, years before any of his fellow scientists were even considering such a thing. At the Electrical Exhibition in Madison Square Garden in 1898, Tesla gave a demonstration in which he directed a four-foot-long steel boat using radio remote control. Audiences were flabbergasted. Tesla’s pilotless boat seemed to many to be more a magic act than the scientific breakthrough it was. Ever a visionary, Tesla also foresaw a military application for his invention. “I called an official in Washington with a view of offering him the information to the government and he burst out laughing upon telling him what I had accomplished,” Tesla wrote. This made unfortunate sense—the military was still using horses for transport at the time. Tesla’s friend writer Mark Twain also envisioned a military future in remote control and offered to act as Tesla’s agent in peddling the “destructive terror which you have been inventing.” Twain suggested the Germans might be good clients, considering that, at the time, they were the most scientifically advanced country in the world. In the end, no government bought Tesla’s invention or paid for his patents. The great inventor died penniless in a New York hotel room in 1943, and by then, the Germans had developed remote control on their own and were wreaking havoc on ground forces across Europe. The Germans’ first war robot was a remote-controlled minitank called Goliath, and it was about the size of a bobsled. Goliath carried 132 pounds of explosives, which the Nazis drove into enemy bunkers and tanks using remote control. Eight thousand Goliaths were built and used in battle by the Germans, mostly on the Eastern Front, where Russian soldiers outnumbered German soldiers nearly three to one. With no soldiers to spare, the Germans needed to keep the ones they had out of harm’s way.

In America, the Army Air Forces developed its first official drone wing after the war, for use during Operation Crossroads at Bikini Atoll in 1946. There, drones were sent through the mushroom cloud, their operators flying them by remote control from an airborne mother ship called Marmalade flying nearby. To collect radioactive samples, the drones had been equipped with air-collection bags and boxlike filter-paper holders. Controlling the drones in such conditions was difficult. Inside the mushroom cloud, one drone, code-named Fox, was blasted “sixty feet higher than its flight path,” according to declassified memos about the drone wing’s performance there. Fox’s “bomb doors warped, all the cushions inside the aircraft burst and its inspection plates and escape hatch blew off.” Remarkably, the drone pilot maintained control from several miles away. Had he witnessed such a thing, Nikola Tesla might have smiled.

During the second set of atomic tests, called Operation Sandstone, in April of 1948, the drones were again used in a job deemed too dangerous for airmen. During an eighteen-kiloton atomic blast called Zebra, however, a manned aircraft accidentally flew through a mushroom cloud, and after this, the Air Force made the decision that because the pilot and crew inside the aircraft had “suffered no ill effects,” pilots should be flying atomic-sampling missions, not drones.

Again, Hambling goes over some of the same history.

The combat UGV might be the modern equivalent of the war elephant in classical armies

Friday, September 20th, 2024

The combat UGV might be the modern equivalent of the war elephant in classical armies, David Hambling notes, a strange, terrifying presence which causes enemies to flee even though it has limited military effectiveness:

A fighting robot is inherently scary. Robot dogs with weapons will be even worse, even if they are clumsier and less capable than human footsoldiers. An opponent that feels no pain or fear, and who is immune to gunfire, is not like one made of flesh and blood.

But the UGV may be much more than an effective psychological weapon. Unlike aerial drones, the UGV can threaten an enemy position. Driving up and parking a remote-controlled machinegun turret next to them means the enemy have to either destroy the UGV or retreat. This makes it something quite new, an uncrewed weapon able to take ground, and potentially to hold that ground.

At a cost of around $16,000 per unit — as much as six artillery rounds, or a tenth of a Javelin missile — the Ukrainian Lyut UGV is, he explains, entirely expendable.

Our existing arsenals of precision-guided munitions would be exhausted in a matter of days in a high-end fight

Thursday, September 12th, 2024

Anduril has unveiled its Barracuda family of cruise missiles — or “air-breathing, software-defined expendable Autonomous Air Vehicles (AAVs)” — that are optimized for “affordable, hyper-scale production”:

The United States and our allies and partners do not have enough missiles to credibly deter conflict with a near-peer adversary. Our existing arsenals of precision-guided munitions would be exhausted in a matter of days in a high-end fight. The problem extends beyond inventory alone, however: existing cruise missiles are defined by limited production capacity, nonexistent on-call surge capacity, and minimal upgradeability when technology and mission needs inevitably change. That is because existing missile designs are highly complex, require thousands of unique tools to produce, demand highly-specialized labor and materials, and are built on the backs of tenuous, brittle, and defense-specific supply chains. We need an order of magnitude more weapons, and we need them to be more producible, intelligent, upgradeable, and flexible.

The Barracuda family of AAVs is designed to rebuild America’s arsenal of air-breathing precision-guided munitions and air vehicles. Barracuda features advanced autonomous behaviors and other software-defined capabilities, and it is available in configurations offering 500+ nautical miles of range, 100+ pounds of payload capacity, 5 Gs of maneuverability, and more than 120 minutes of loitering time. The vehicle’s fast speeds, high maneuverability, and extended ranges are made possible by Barracuda’s turbojets, air-breathing engines that take in air to combust their fuel. The result is a highly intelligent, low-cost weapon system that is capable of direct, stand-in, or stand-off strike missions in line with existing requirements but rapidly adaptable to future mission needs due to its high degree of modularity and upgradeability.

Barracuda-100M, Barracuda-250M, and Barracuda-500M are the most producible cruise missiles on the market today. A single Barracuda takes 50 percent less time to produce, requires 95 percent fewer tools, and 50 percent fewer parts than competing solutions on the market today. As a result, the Barracuda family of AAVs is 30 percent cheaper on average than other solutions, enabling affordable mass and cost-effective, large-scale employment.

[…]

Barracuda can be produced by the broad commercial automotive and consumer electronics workforce, rather than relying exclusively on the much smaller, over-stretched, highly-specialized, defense-specific manufacturing labor pool required to produce existing solutions.

Every Barracuda variant is made up of a handful of common subsystems to ensure that the missiles can be rapidly optimized based on changing mission needs. New subsystems can be rapidly swapped into live production lines when threats evolve and new technologies emerge, providing warfighters with the agility required to adapt at mission speed. And unlike existing solutions that leverage brittle, defense-specific supply chains, Barracuda’s subsystems are made up of commercially derived and widely-available components that provide supply chain resiliency, redundancy, and surge capacity.

Combat vehicles don’t survive long in battle, so why build them to last?

Wednesday, September 4th, 2024

How to Make War by James Dunnigan In How to Make War, Jim Dunnigan notes that the Soviets cleverly economized in a way that had unexpected consequences:

Tank crews using Russian training methods are at a considerable disadvantage because they typically use their vehicles very little in training. Russian vehicles are built inexpensively and wear out quickly. The Russians have observed that combat vehicles don’t survive long in battle, so why build them to last? In peacetime, the crews train with crude simulators and spend less time in their vehicles than Western crews. In addition, Western armies have more effective crew simulators and training equipment. As the performance of U.S. tank crews in the Gulf War demonstrated, these differences in training levels were very evident on the battlefield.

He goes on to make another related point:

Tanks cannot move long distances without running into serious maintenance problems. Long movements require careful planning. If you run tanks too hard, most of them will break down. There have been many tank campaigns since 1939 where most of the losses have come from mechanical failure, not enemy action. Such losses can be reduced considerably by checking the route you plan to send tanks over and making provisions for regular maintenance. Tanks are simply not built to move more than a few hundred kilometers without stopping for maintenance. Weighing 40 to 70 tons and moving on tracks, they are designed for speeds of up to 60 kilometers an hour but not for long periods. Russian tanks break down, on average, every 250 kilometers. Western vehicles last about 300 kilometers.

FPV drones generally require a radio link to the operator

Tuesday, August 20th, 2024

Russia is striking back against the Kursk offensive with new drones guided by fiber optics which are immune to radio jamming:

FPV drones generally require a radio link to the operator. This transmits a video signal from the drone, and command signals to the drone on another channel. Loss of either signal usually means an instant crash.

This is why we have seen a profusion of trench jammers, suitcase jammers and vehicle -mounted jammers on the front lines, blasting out radio noise on selected frequencies. If effective they create a bubble of protection reaching out fifty or a hundred yards. This will generally keep FPVs away, although skilled FPV operators approach at a steep angle so their drone gets through on sheer momentum.

Drones keep changing their operating frequencies and jammers keep being updated to stop them in an unending cat-and-mouse game. This is why it takes a blitz like the one in Kursk, with a prolonged period of preparation to identify all the frequencies in use and the concentration enough jammers to block everything in a given area to strop all drones for a time.

Drones can also lose their link for other reasons. The radio link essentially requires over line of sight. This is fine when the drone is well above ground, but as soon as it dips low, communication starts to break up. Flying relays help, but FPVs have to dive low during the final attack, and there is almost always interference in the video signal in the last second which impair the view at the critical moment.

If you’ve watched a few FPV drone videos, you’ve seen the static right before impact. (They’re analog feeds, typically.)

When I first learned about TOW missiles — “Tube-launched, Optically tracked, Wire-guided” — I was incredulous that a missile spooled out a wire along the way, a three kilometer-long wire. The design goes back a ways:

Late in World War II, the German Army began experimenting with modified versions of the Ruhrstahl X-4 wire-guided missile. Originally developed for the Luftwaffe as an anti-bomber weapon, by changing the warhead to one using a high-explosive anti-tank (HEAT) design, the new X-7 version made an effective anti-armor weapon with a range of hundreds of metres. This would greatly improve the effectiveness of infantry anti-tank operations, which at that time were generally based on smaller weapons like the Panzerfaust and Panzerschreck, limited in the best case to ranges on the order of 150 metres (490 ft). X-7 was never fully developed before the war ended.

These newer FPV drones spool out fiber-optic cable, which carries a high-resolution video signal:

On August 12th videos on social media showed what were claimed to be attacks Ukrainian BTR-4 reconnaissance vehicles in Giri with fiber-optic FPV drones. While this is impossible to confirm, the video show an unusual lack of interference.

[…]

The company Skywalker Technology is now offering fiber-optic drone controllers on the open market. The company website gives a contact address in Singapore, although ClashReport describe them as Chinese.

Skywalker sell a number of drones with military applications including one armed with rockets and another kamikaze type, plus devices to convert consumer quadcopters into bombers. Their latest offering is a fiber-optic guidance set to replace radio control. As with previous designs, it comes with a considerable weight penalty; a 5 km/ 3 miles cable reel weighs about two and a half pounds. Maximum range is six miles, HIGHCAT offers twice that.

As with other FPV components which are commonly sourced from Far Eastern suppliers, this opens up an instant supply of new technology to both parties in the Ukraine conflict. Whereas previously military technology went through a process of evaluation, specification, testing, approval and acquisition taking years, independent drone makers can now buy off the shelf and ship drones to the front in weeks.

The most commonly raised objections – snagging on obstacles, the cable breaking, leaving a trail back to the operator – do not appear to be real issues, but fiber-optic control does have downsides as previously discussed and is unlikely replace radio control entirely. This type will be effective in situations of intense jamming though and might be used in the first wave of an attack.

Only to reemerge from his defrocking by Big Tech as a vengeance-seeking icon of counterelite Americana

Wednesday, August 14th, 2024

Palmer Luckey sounds like a fictional character:

Luckey is the owner of the world’s largest video game collection, which he keeps buried 200 feet underground in a decommissioned U.S. Air Force nuclear missile base — which is the kind of thing a man can afford to buy when he single-handedly turns virtual reality from the laughingstock of the technology industry into a multi-billion-dollar enterprise by inventing the Oculus Rift in a camper trailer parked in the driveway of his parents’ duplex in Long Beach, California, where at 19 years old he lived alone and survived on frozen burritos and Mucho Mango AriZona tea.

[…]

After selling Oculus to Facebook for $2.7 billion and then getting fired by Mark Zuckerberg for making a $10,000 donation to a pro-Trump troll group dedicated to “shitposting in real life,” Luckey tried his hand at building a nonprofit private prison chain that only gets paid when ex-prisoners stay out of prison. After he decided that would require too much lobbying work, he attempted to solve the obesity epidemic by making food out of petroleum products centrifuged out of the sewer system — a perfectly delicious and low-calorie idea, he maintains, which he only ditched because of the “marketing nightmare” of persuading people to eat remanufactured sewage. In the end, he decided instead to found Anduril Industries, a defense technology startup that makes lethal autonomous weapons systems. It is now valued at $14 billion.

[…]

In his spare time, when he is not providing U.S. Customs and Border Patrol with AI-powered long-range sensors, or Volodymyr Zelenskyy with drones to attack high-value Russian targets, or winning first place in the Texas Renaissance Festival’s costume contest with historically meticulous renderings of Henry VIII and Anne Boleyn sewn and stitched by his wife, Nicole—who’s been at his side for 16 of his 31 years on earth — Luckey recently built a bypass for his peripheral nervous system to experiment with giving himself superhuman reflexes; vestibular implants to pipe sounds into his skull so that instead of having to call him and wait for him to pick up, Anduril employees could just pick up a designated Palmer Phone and talk straight into his head; and a virtual reality headset that — by tying three explosive charges to a narrow-band photosensor that can detect when the screen flashes red at a specific frequency (i.e., GAME OVER) — kills you in real life when you die in a video game.

[…]

Before the recent preference cascade enabling high-profile tech moguls to violate the taboo against supporting Donald Trump, there was first the lonely figure of Palmer Luckey, the homeschooled, Jules Verne-obsessed, amateur scientist with no money, whose faith in the power of technology was so strong that he worked jobs sweeping ship yards, scrubbing decks, fixing engines, repairing phones, and training to sing as a gondolier for tourists, all in order to spend his nights in a gutted 19-foot camper trailer trying to manufacture dream worlds out of breadboards and lens equipment and accelerometers and magnetometers and a soldering iron — which he did, bringing virtual reality to the masses, burning a hole in his retina with a laser, and losing it all to Zuckerberg over a meme, only to reemerge from his defrocking by Big Tech as a vengeance-seeking icon of counterelite Americana, the aspiring rebuilder of the arsenal of democracy, the black mullet-, chin beard-, Hawaiian shirt-, cargo short-, sandal-clad possible savior of America.

Only ten percent of these truck-mounted guns have been destroyed

Thursday, August 8th, 2024

The fighting in Ukraine has made it clear that the French concept of mounting 155mm guns on trucks, so they can rapidly fire a few rounds, then move to avoid return (counterbattery) fire, is effective:

So far, only ten percent of these truck-mounted guns have been destroyed in Ukraine compared to a third of the conventional 155mm guns carried in an armored, tracked vehicle. The getaway speed of the truck-mounted systems made the difference and other countries are taking note.

(Hat tip to Coolbert. RIP.)

The Ukrainian Ministry of Defense has not always been efficient in providing the best equipment

Thursday, August 1st, 2024

Swarm Troopers by David HamblingNear the end of his 2015 book Swarm Troopers, David Hambling notes that “there has been conflict in the east of Ukraine since 2014”:

Militias in Russian-speaking eastern Ukraine, apparently with covert backing from Russia, have been fighting against government forces. The Ukrainian Ministry of Defense has not always been efficient in providing the best equipment; critics say that the procurement process is managed badly and undermined by corruption. Ukrainian forces needed drones for reconnaissance and surveillance on the front line. When they could not get them through official channels, they took procurement into their own hands.

The Aerorozvidka project and the People’s Project are both devoted to making up the Ukrainian drone shortfall. Using private money — and in the case of the People’s Project, crowdfunding — they have adapted commercial drones for battlefield operations. At the larger end of the scale, the PD-1 “People’s Drone” is a fixed-wing craft with a ten-foot wingspan and a pusher propeller. Many of the other drones are simply commercial models like the DJI Phantom supplied by supporters in the US.

[…]

The Ukrainians fit their drones with improved communications, as their opponents have access to effective Russian jammers and have jammed both drone communications and GPS navigation signals. They have also learned to be careful about placement of communication antennas when controlling the drones, and the need for controllers to keep moving. On two occasions, their drone operators have been hit by mortar fire when the Russians pinpointed them by their radio signals.

The Ukrainian drones can find and track the enemy and direct artillery fire in real time. Aerorozvidka even claims to be working on drones armed with homemade missiles.

Any Western soldier who has to expose themselves to enemy fire during reconnaissance may well wonder why they do not have access to the same small drones as the Ukrainians.

Agency U-2s flew five thousand feet higher than their heavier Air Force U-2 counterparts

Tuesday, July 30th, 2024

Area 51 by Annie JacobsenBud Wheelon had been hand-picked by President Kennedy’s science advisers, Annie Jacobsen explains (in Area 51), to oversee all overhead reconnaissance projects for the CIA: satellites, U-2 operations, and the Oxcart spy plane:

As Wheelon read dozens of intelligence reports, one rose up like a red flag. “One thing you have to worry about with anyone informing against a person or a state is fabrication,” Wheelon explains. “There were a lot of Cubans in Miami [at the time] whose sugar plantations had been taken away from them by Castro and they wanted action taken. But there was one report that caught my eye. The informant said that he’d seen very long trailers, big trucks, led by jeeps with Soviet security people inside. As these trucks made their way through certain villages, Cubans were directing traffic so the long trailers could get by. In South America, often on the street corners, you will find post-office boxes. They are not squat boxes with a level opening like you find in the States. Instead, they are more of a traditional letterbox attached at the top of a long pole. The informant witnessed one of these very long trailer trucks coming up to an intersection and not being able to make the curb. There was a letterbox blocking the way. Some of the Soviet security people got out of the truck. They grabbed an acetylene torch from the back and cut the letterbox right down. They didn’t waste any time or give it a second thought. When I read that, I thought, Whoever reported this is no fabricator. This is not a detail you could make up. Whatever was in those trailers was too important to let a letterbox stand in the way.”

Wheelon believed there were missiles inside the trailers. Missiles with nuclear warheads. Unknown to Wheelon at the time, his new boss, CIA director John McCone, also believed this was true. Except McCone wasn’t around Washington, DC; he was in Paris, on his honeymoon. This left Wheelon in charge of more than was usual for a newcomer to the CIA. Concerned by the intelligence report, Wheelon asked to meet with the head of the board of the National Intelligence Council, Sherman Kent. “I went to him and I said, ‘Sherm, I am new around here so you should discount a lot of what I say. I am not a professional intelligence person, but it looks to me like the evidence is overwhelming that they have missiles down there.’” Sherman Kent thanked Wheelon for his advice but explained that the board was going to present President Kennedy with the opposite conclusion — that there were no Soviet missiles in Cuba.

[…]

On the afternoon of August 29, 1962, a U-2 spy plane flying over Cuba spotted eight surface-to-air missile sites in the western part of Cuba, the same SA-2 missile systems that had shot down Gary Powers two years before. The following week, three more missile sites were discovered on the island, as well as a Soviet MiG-21 parked on the Santa Clara airfield nearby. For two months, the Agency had been analyzing reports that said between 4,000 and 6,000 individuals from the Soviet bloc had arrived in Cuba, including 1,700 Soviet military technicians. Cuban citizens were being kept from entering port areas where the Soviet-bloc ships were unloading unusually large crates, ones big enough to “contain airplane fuselage or missile components.” The implications were threefold: that Russia was building up the Cuban armed forces, that they were establishing multiple missile sites, and that they were establishing electronic jamming facilities against Cape Canaveral in Florida as well as other important U.S. installations. The director of the CIA, John McCone, had already told the president’s military advisers that he believed the Soviets were laying a deadly trap involving nuclear missiles. But there was no hard evidence of the missiles themselves, the military argued, and their position on that fact was firm. (The Pentagon did not doubt that the Soviets wanted to put nuclear missiles on Cuba; officials just didn’t think they’d accomplished that yet.) McCone left for his honeymoon in Paris.

[…]

In the following month, September, bad weather got in the way of good photographic intelligence. Day after day it rained over Cuba or the island was shrouded in heavy cloud cover. Finally, on September 29, a CIA U-2 mission over the Isle of Pines and the Bay of Pigs revealed yet another previously unknown missile site. President Kennedy’s top advisers were convened.

[…]

But on October 5 and 7, the CIA got presidential approval to run two additional missions of its own. The resultant news was hard to ignore: there were now a total of nineteen surface-to-air missile sites on the island of Cuba, meaning there was something very important that the Soviets were intent on defending there. The Pentagon held firm. There was still no hard data revealing actual missiles, McNamara and Rusk said. Making matters even more complicated, JFK’s Air Force chief of staff, General Curtis LeMay, was pushing for preemptive strikes against Cuba. It was a volatile and incredibly dangerous situation. If the CIA was correct and there already were nuclear missiles in Cuba, then LeMay’s so-called preemptive strikes would actually initiate a nuclear war, not prevent one.

[…]

Ledford had just graduated from the Industrial College of the Armed Forces and was looking forward to moving out west when his old World War II commander General LeMay encouraged him to take the new CIA liaison job. LeMay had known Ledford since the war in the Pacific when Ledford flew under his command. A former Olympic diver, Ledford was tall, charismatic, and handsome. According to Wheelon, “He was someone whose charisma was contagious. Ledford was impossible not to like to be around.”

There was, of course, the legendary story of Ledford’s plane crash, involving heroics in the Pacific theater during World War II. As a captain in the Air Force, Ledford was making a bombing run over Kyushu Island, Japan, when he was attacked by Japanese airplanes, his airplane and his own body hit with fire. Ledford’s flight engineer, Master Sergeant Harry C. Miller, was hit in the head. The medic on board treated Miller and tried to treat Ledford with opiates, who declined so he could keep his head clear. With the aircraft crashing, Ledford and the medic opened a parachute, cut the shroud lines, and attached the chute to the unconscious flight engineer. They dropped the man through the nose of the wheel well; Captain Ledford followed, delaying opening his own parachute so he could be next to Sergeant Miller when he landed. Miller would be unconscious when he hit the earth, and without Ledford’s help he would likely have broken his back. The medic, not far behind, later recounted how amazing it was that Ledford’s daring and dangerous plan had actually worked.

[…]

The first thing General Ledford did was present the CIA and the Air Force with a shoot-down analysis, detailing the odds for losing a U-2 on another overflight. The chances were one in six, Ledford said. He pushed for the U-2 mission, arguing that it was better to know now if there really were nuclear missiles in Cuba than to wish you knew later on, when it could be too late. Once these cold hard facts were on the table, the heart of the debate became clear. The point of contention was not whether or not to fly the mission. Rather, it was who would fly the mission — the Air Force or the CIA. As it turned out, each organization wanted the job. President Kennedy felt the mission needed to involve a pilot wearing a blue U.S. Air Force pilot suit. Kennedy felt that if a CIA spy plane were to get shot down over Cuba, there would be too much baggage attached to the event, that it would rekindle hostilities over the Gary Powers shoot-down. But General Ledford knew what the president did not: that the CIA had higher-quality U-2 airplanes, ones far less likely to end up getting shot down. Agency U-2s flew five thousand feet higher than their heavier Air Force U-2 counterparts, which were weighed down by additional reconnaissance gear. The CIA airplanes also had better electronic countermeasure packages, meaning they had more sophisticated means of jamming SA-2 missiles coming at them. So Ledford performed diplomatic wizardry by convincing the CIA to actually loan the Air Force its prized U-2 airplanes. With the fate of the free world at stake, the CIA and the Air Force agreed to work together to solve the crisis.

On October 14, an Air Force pilot flying a CIA U-2 brought home film footage of Cuba that the White House needed to see. Photographs showing nuclear missiles supplied by the Soviet Union and set up on missile stands in Cuba. Those eight canisters of film brought back by the CIA’s U-2 set in motion the Cuban missile crisis, bringing the world closer than it had ever come to all-out nuclear war.

GPS jamming looks more like a weapon for a swarm attacking an urban target rather than as a way of stopping a swarm

Thursday, July 25th, 2024

Swarm Troopers by David HamblingEver since radios have been used in warfare, David Hambling explains (in Swarm Troopers), there have been efforts to interfere with them:

Britain’s Royal Navy experimented with broadcasting signals to interfere with enemy communication as far back as 1902, just five years after the first radios were installed on ships. By WWI, the use of radio was more sophisticated, and so were countermeasures. The German Zeppelins used fixes from radio stations to navigate; so on the night of 19 October 1917, the French switched radio broadcasts from the Eiffel Tower to another station to send the airships off course. When the Germans started using their own transmitters for navigation, the Allies drowned these out with louder transmissions on the same wavelength, possibly the first attempt to deliberately jam radio reception.

[…]

The first radio-guided weapon to see action was the German FS-1400 or Fritz-X developed in WWII. This was a three-thousand-pound glide bomb designed to attack heavily armored battleships and cruisers. It was a simple bomb fitted with small fins worked by radio control. A flare on the tail of the bomb allowed the bomb aimer to follow its progress and adjust its course with simple up-down, left-right corrections.

[…]

The Allies captured Fritz-X missiles and control equipment, and had developed effective countermeasures within a matter of months.

The British Type 650 Transmitter, and jammers from the US Naval Research Laboratory and Harvard’s Radio Research Laboratory, nullified the Fritz-X. The jammer steered the bomb as far over in one direction as possible, overriding the operator’s commands. From being a guaranteed hit, it became a guaranteed miss. The Germans dropped the idea of radio guidance, and the next version of the Fritz-X was guided via a wire spooling out of the back of the missile.

[…]

At its simplest, jamming may simply mean broadcasting noise in the frequency band that the receiver is operating in. This sort of brute force jamming is rare in military circles, where communications tend to hop from one frequency to another at rapid intervals, and it is difficult to jam the entire spectrum with enough power. Smart jammers detect and analyze an opponent’s communications and can selectively jam only in the ranges where needed. Jammers are also likely to be directional, rather than blasting out noise in all directions.

In the Iraq and Afghan conflicts, tactical jamming took on a new urgency. Insurgents had started triggering bombs using cheap cell phones. Special countermeasures were fielded to block the signals; the Pentagon spent some $17 billion on electronic countermeasures with some fifty thousand jamming units being issued. These included portable Warlock Green units for foot soldiers, which are credited with saving many lives.

[…]

It is notable that the 2014 Black Dart exercise included an EA-18 Growler, the most modern electronic warfare aircraft in the Air Force’s inventory, equipped with a range of powerful jammers. When the radio signal to a drone is jammed, it is usually programmed to return to the last point where it could communicate or simply return to base.

[…]

There is a growing interest in free-space optical communications, sometimes described as “like broadband over optical fiber, but without the fiber.” The laser signal is beamed through the air to the receiver. This method only works over line of sight (obviously enough) and, because of atmospheric effects, the range tends to be limited to a mile or so. It can carry as much data as a broadband fiber optic cable and would be ideal for a swarm of drones forming a mesh network. Because it does not rely on radio waves, optical communication cannot be jammed or hacked into.

In a more low-tech version of optical communication, researchers at the Postgraduate Naval Center in Monterey have looked at communicating via QR codes as a form of “digital semaphore.”

[…]

The team found that QR codes could be read from over five hundred feet away. A swarm could pass messages between members to coordinate its actions.

[…]

An artillery shell is out of control as soon as it leaves the barrel, as is a heat-seeking missile when it leaves the rails. Some missiles, designed to target air defense radar, already pick their own targets. The distinction between controlled and uncontrolled is subtler than you might expect.

[…]

If blocking communications does not work, we can try another weak point, navigation. A human pilot has many ways of finding their way around, but most drones only have GPS. The power of the Global Positioning System’s signal has been compared to a car headlight over ten thousand miles away, making it an easy signal to jam.

However, anti-jamming measures are getting better. Raytheon has developed a sophisticated anti-jam device for GPS called Landshield built around a controlled pattern reception antenna. This has an array of receiving elements that combine to cancel out the jamming from any given direction. When a jamming signal is detected, the array automatically nulls it out. It is like looking through a cardboard tube so you can see a faint light in the distance without being dazzled by lights nearby.

Raytheon’s previous generation of anti-jam GPS was the Advanced Digital Antenna Platform, which weighed about ten pounds and was the size of a telephone directory. The new Landshield fits on a silicon chip and may be integrated with military GPS devices, from portable units used by individual soldiers to the GPS-guided Paveway bomb and, of course, drones.

[…]

On Monday, 22 January 2007, an electronic warfare exercise being carried out in San Diego harbor accidentally jammed GPS signals across the city. Disruption started almost immediately. The emergency paging system at a hospital stopped functioning. The automated harbor traffic management system stopped working, threatening to throw the port into chaos. Air traffic control at San Diego airport reported problems with their system for tracking incoming aircraft. Some bank ATMs reportedly stopped giving out money.

The reason for this disruption is that many modern systems use the precision time signal from GPS satellites. In some cell phone networks the signal is used to give each mast a unique identity; if it is lost, the mast drops off the network. GPS timing signals time-stamp financial transactions to prevent fraud, and this may be why the cash machines stopped working. Power utilities use the GPS time signal to keep alternating current from different power plants in phase across the grid. If this is lost, then attempts to switch power supplies to channel power to where it is needed become inefficient as the out-of-phase currents clash. This may ultimately produce blackouts.

GPS jamming looks more like a weapon for a swarm attacking an urban target rather than as a way of stopping a swarm.

This vulnerability is one reason why alternatives to GPS are a hot topic. One such is the system developed by Australian company Locata. This uses a network of ground-based ‘pseudo-satellites’ which give a more accurate fix and would require vastly more powerful jammers to block.

[…]

You can already navigate urban areas without GPS thanks to Wi-Fi. Each Wi-Fi hotspot has its own fingerprint, including a Service Set ID and Media Access Control address, and transmits them continuously. Service providers including Google and Navizon map out the location of each node; by identifying those closest to you, you can pinpoint your location within less than a hundred feet.

Other researchers are navigating using “signals of opportunity,” including not only Wi-Fi but cell phone signals, radio and television transmitters, and other sources of radio waves. These may not be as accurate as GPS, but they can be used indoors as well as out, and cannot be stopped except by jamming absolutely everything.

[…]

Tomahawk cruise missiles were originally equipped with terrain-matching radar to compare the scenery with an electronic landscape map to determine their location. The difference now is that every smartphone has the storage and processing power to scan the scenery and find out where it is.