1/7 We can start with the graphs that depict the strikes on infantry and vehicles. The data is based on information gathered by @AndrewPerpetua and @giK1893 . As I write this thread, the current situation is very different from what I had expected. The current level of use of FPV drones from the Russian side has plummeted in all stats. Ukraine performed nearly the same number of strikes on infantry and vehicles in March, a week ahead of the month's end. This growth is swift, considering the initial numbers and the apparent difficulties observed in December. There is still a week of data to collect, and we will see in the weeks to come if Russia has a backlog of information to release, or if there are simply fewer drones in operation. We will deal with this specific topic at the end.

2/7 The latest data shows that Ukrainian forces have achieved remarkable results when it comes to striking enemy positions, managing to score more hits in less than a month. On the other hand, Russian forces seem to be struggling to keep up. Trenches remain the most hazardous place to be, as they account for a staggering 70.2% of all the strikes conducted so far.

3/7 It Is important to look at the graph below to understand the significance of the data collected. The bar chart displays a month-by-month comparison between Ukrainian and Russian FPV strikes. After a decline in December, which suggested a potential advantage for the Russian forces, a steady growth in Ukrainian strikes is visible. In March, there were 423 more Ukrainian strikes than Russian strikes. This indicates that the Ukrainians are committed to using drones, particularly FPV, to deter the Russian military.

FPV usage update 17-03-2024

Data from @AndrewPerpetua and @giK1893, and the support of @tochnyi members.

1/6

In this latest update on FPV drone usage, I have decided to enhance our understanding of the situation by introducing a couple of graphs. These visual aids will shed light on the monthly performance of each side and their efforts in targeting logistical assets.

As we are currently in the middle of the month, it’s noteworthy that Ukrainian forces have shown remarkable performance compared to the Russians. Surprisingly, the Russians are lagging behind in both metrics, particularly in strikes on infantry and vehicles.

This unexpected turn of events is particularly striking in the infantry category, where a significant parity has typically been observed between the two sides, barring exceptions like that of February 2024. If the current trend persists, it will become increasingly apparent that these discrepancies are likely attributed to Russian challenges in deploying an adequate number of drones.

2/6

Data on positions also shows a change, currently in favor of the Ukrainian forces. Looking back, it’s incredible to see such a shift, especially considering their relatively defensive posture. While the data is partial and subject to potential drastic changes, examining previous statistics reveals that this aligns with the overall trend. Trenches are the most frequently targeted positions, accounting for a staggering 70% of total strikes.

3/6

The total number of FPV drones deployed by Ukrainian forces stands at 9155, while Russia has deployed 6422 drones. This growing gap between the two sides indicates a clear shortage of drones, regardless of the underlying reasons. Efforts to validate the data as quadratic have yielded no signs of deviation. Additionally, partial results not factored into defeat are already consistent with past months, affirming the ongoing high level of drone utilization.

1/4 I believe it's a good time to give a quick update on FPV drone usage. Let's start with the progression and total numbers. As we know from my last update, February was one of the most intense months for FPV drone usage, and it's now confirmed that the growth is at least quadratic and shows no signs of stopping. As of March 9th, Ukrainians have already used 721 drones, and at this rate of growth, they will reach January's results in just a week.

In terms of overall usage, Russia is falling behind. There are different possibilities for why this is happening - lack of drones, lack of pilots, lack of dedicated ammunition - but I think a combination of the first two factors is the most likely. Overall, Russia doesn't have the staggering numbers claimed by its propaganda.

2/4 Ukraine currently holds a significant advantage in both infantry and vehicle categories. This is a result of recent failed attacks by Russian forces. Ukrainian troops have been effectively utilizing FPV drones as a defensive tool, which could potentially initiate a new era of mobile defence doctrine. I recently discussed the concept of area defence and its limitations in an article, which can be found at . It is encouraging to see the new leadership utilising more mobility in their defence strategy. However, only time will tell if this move proves to be successful.tochnyi.info/2024/03/trench…

3/4 The data presented in the graphs regarding attacks on defensive positions further confirms the previous analysis. It appears that trenches are the preferred target for attackers using FPV drones. Although there seems to be a marginal gain by the Ukrainian forces in this area, the current situation can change due to ground evolution of South Robotyne.

I know is not completely related but I think is time to give an update on the work done by several FPV manufacturer including @wilendhornets to which I cast my best wish with their fundraiser.

It is not new news that Ukrainian drone operators have been targeting mechanised infantry and vehicles, particularly those used for logistics. Over the past few weeks, there has been a significant increase in strikes on logistical vehicles. Overall, the trend is consistent, and it is apparent that the Russians are losing more assets than the Ukrainians. 1/5

@wilendhornets 2/5 In terms of strikes against positions we see as always an advantage of the Russians, but differently from the past months now, the gap is smaller. This is due to changes in tactics and adaptation, but also our improved tracking methods.

3/5 The attack on the infantry has been the real outlier. The results of the latest strikes that took place in the last week exceeded all expectations when compared to those of February 16, 2024. The increase in the number of successful strikes has been impressive. This can be attributed to the battle of Avdiivka, where the use of FPV drones has played a crucial role in delaying and containing the Russian advance.

Finally a long work has been published on drone warfare thanks to the data of @AndrewPerpetua and the help of @eDrotning , @wendy_dyers and the rest of our @tochnyi family. If you would like to read it in full ... lets start

As my previous article [1] and thread on X [2] highlighted, assessing the evolving impact of FPV drones is crucial to understanding their role in the dynamics of this war. A data-based approach allows us to both estimate the future evolution of this technology and establish a more accurate picture of the capabilities of the opposing forces. To obtain the most reliable data currently available, I have utilized a database created by @AndrewPerpetua. This database contains not only information on FPV drone strikes, but also on a range of other types of attacks as well as a variety of other data on the continuing Russian invasion of Ukraine. Andrew and his team spend a considerable amount of time verifying and geolocating each strike. Andrew also updates his losses chart with data from satellite imagery, consistently providing an unbiased and as precise a database as possible, underscoring his reputation within this field.

While it is true that the available data has likely not recorded every single strike that has taken place, this analysis will show that it certainly covers a significant portion of them. This data and the approach taken to its analysis aims to provide clarity from ambiguity, particularly from that generated by misinformation and disinformation. This enables us to establish a clearer understanding of the current situation and its continuing developments.

To illustrate the impact of the data collected by Andrew and the efforts made by myself to understand it, I provide an overview of the density contour map for drone usage by both sides. The red peaks in the ‘hot zones’ overlay the January 2023 frontline and serve as a testament to the value of the work done by Andrew and @Tochnyi.tochnyi.info/2024/01/update…

2/n We will begin by examining recent trends in FPV strikes on infantry, as illustrated in the first chart. Since my initial analysis, this situation has continued to evolve. Currently, the Russians lead in this area, having recently outpaced the Ukrainians in terms of numbers of strikes. From November 2023, the number of Russian strikes overtook Ukraine’s, at 564 to 495 respectively.  As of January 2024, with 8 days left in the month, they have thus far registered 655 strikes, 91 more than they did in December 2023 and more than Ukraine’s 533 strikes. This growing trend is alarming, indicative of an effective strategy to weaken the Ukrainian military by targeting its infantry at a time when Ukraine has reported a shortfall of manpower. As of today, the total count of FPV drone strikes stands at 1752 from Russia and 1779 from Ukraine, giving the Russians a lead of 47 strikes to date.

3/n In the previous article [1], I was not able to include an important chart about FPV strikes registered against defensive positions. Andrew has previously noted the concerning increase in FPV drone strikes by Russians against Ukrainian defensive positions; such as concrete bunkers, houses, treelines or trenches. As the chart below illustrates, the Russians are currently outperforming in this domain. Visual sources have recorded Russia’s use of FPV drones as demolition charges to destroy structures, causing the subsequent retreat of the defending force.

Recent criticism of Western-supplied equipment to Ukraine and the industries that produce it has characterised this equipment as “boutique”; i.e. a luxurious, over-engineered item with a lengthy manufacturing time. This narrative is also commonly found to promote the notion that inflated budgets and poor performances are inherent within manufacturing industries. Moreover, some critics have blamed Ukraine’s allies’ inadequacies in producing more ammunition and vehicles on these same manufacturing complexities.  Along with addressing this criticism, we will examine why many pieces of artillery have been removed from the battlefield for repair.

Barrels are an essential component in weapon systems, guiding the ammunition through a long narrow cylindrical tube. Barrels are divided into three sections from the breech face: the combustion chamber, bore, and the muzzle. The graphic below illustrates a typical gun barrel design, depicting components such as the breech, bore, and muzzle [1]. The figure also shows a cross-sectional view of a gun barrel that depicts the grooves on the inner surface of the bore.

The projectile's outer diameter is slightly smaller to the barrel's inner diameter. When the trigger is pulled, the propellant burns and produces a large volume of gas. High-pressure gas combines with mechanical force to increase the ammunition's kinetic energy, pushing it towards the bore and muzzle of the barrel. The conversion of chemical to mechanical energy creates high-pressure and high-temperature conditions inside the chamber, leading to erosion and wear of the material after every firing cycle. This results in plastic deformation followed by permanent barrel failure. 1/10

2/10 In the past, barrels were retired because the walls of the barrels themselves became thinned due to wear. This was caused by the continuous process of erosion which occurred during firing; an erosion process of both the chemical and the mechanical type [1-2-3].

Technological advancements in materials and coatings have, however, helped to inhibit or alleviate barrel erosion. Despite this, overall, four main routes of failure exist for any gun barrel: wear and erosion, fatigue, plastic bore deformation and gas leakage/burst (as illustrated in the image below for reference).

The last two on this list are classed as catastrophic failures. The first sees the barrel deform plastically to the point where its geometry is compromised and rendered unsafe to operate. This can be triggered by improper use, or combustion of the propellant charges causing an anomalous increase in chamber pressure. The second is the creation of a fracture across the barrel’s thickness which causes gases to be expelled during operation. This could lead to a more substantial failure if the material used for construction is too brittle.

3/10 As you can imagine, gun barrels operated using correct procedure and are subject to frequent inspection are unlikely to malfunction. However, wear and erosion are inevitable.

Two factors contribute to the erosion and wear process: temperature and the velocity of the shell.

Propellant gases force the projectile forward down the barrel, past the ‘shot-start force’ of the driving band. The projectile exits the muzzle at high velocity, while the gases expand and follow behind it. The firing cycle is then able to be repeated. The lifespan of a gun barrel can generally range from anything from 100 to 1000 rounds [3]. When a gun barrel fires a projectile, it follows a thermodynamic cycle similar to that of a single-stroke engine. The pressure gradients during the projectile's movement within the bore can be observed from the image below, which depicts the nature of such gradients at different locations.