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DanielR

Nov 20, 2023 • 17 tweets • 7 min read • Read on X

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1. #Russian volunteers reported testing thermal cameras and night-vision cameras on their #drones. These cameras are very effective in the long & cool winter nights. What is the difference between night-vision and thermal cameras?

t.me/FPV_vyZOV/415

2. The drone has a single video transmitter and can only show video from one #camera at a time. An electronic switch is used to select which camera’s video is transmitted. This provides simple multi-spectral capability.
t.me/FPV_vyZOV/377

3a. It is important not to confuse night vision image intensifiers with night-vision cameras. Image intensifiers are analog devices that produce a distinctive green or blue-green image. There is no reason to use one of these on a FPV drone.
t.me/usinfantryman1…

3b. Here, an image intensifier is used to produce a distinctive blue-green image of the night sky. Likely, a phone camera was placed against the eyepiece.

4. Most cameras use a CMOS sensor (shown here) to capture images. These sensors can be inexpensive and have good performance. Importantly, all CMOS sensors are sensitive to near-infrared light and could, in principle, be used for night vision.

5. However, most cameras also have an internal filter that blocks infrared light. Shown here is a lens from a webcam. There is a filter mounted on the end closest to the CMOS sensor.

6. Without the filter, images would look strange. This is best illustrated with a security camera that has a night-vision mode where the infrared filter moves out of the way. Note how trees and lawn appear too bright when there is no filter.

7. A common way to increase the low-light performance of a camera is to use a large, fast lens like the one shown here. This lens has a large diameter, short focal length and is a very fast f/0.95. Astronomers & photographers routinely use these lenses.

8. A very big and fast lens can capture a very nice image of the night sky. But lenses meant for full-size cameras are expensive and much too heavy for a small FPV drone. Regardless, expect a camera meant for low light use to a have a larger lens.

9. There are CMOS night-vision cameras for drones. The example shown here uses (as expected) a very fast f/1.0 lens. These cameras are low cost and have good low-light performance. These are not thermal cameras but rely on ambient light, e.g., moonlight.

10. Thermal cameras often use sensors based on Vanadium Oxide (Vox) and have exquisite sensitivity to infrared radiation. These usually have a lower pixel count than CMOS ones. Germanium lenses are used because glass won’t transmit infrared radiation.

11. People emit infrared radiation because they are warm. The plot shows the amount of radiation emitted versus wavelength. Thermal cameras are very sensitive to radiation in the 7 µm to 14 µm range and will easily see a person even in complete darkness.

12. The advantage of thermal cameras is that they detect the infrared radiation emitted by people, vehicles and buildings. Thus, they work extremely well in complete darkness.
t.me/zedigital/3703

13. Thermal cameras are available for small drones. A big disadvantage is their cost, e.g., 20 times the price of a night vision camera. A thermal camera can more than double the cost of a small FPV drone. (Note the distinctive reflective lens.)

https://twitter.com/FPVDronesUa/status/1725384760313135451

14. Night vision and thermal cameras greatly enhance the capabilities of small drones and are in very high demand in Ukraine. For example, the folks at @FPVDronesUa discuss installing these cameras on the drones they provide.

https://twitter.com/FPVDronesUa/status/1725384760313135451

15. Coupled with extra hardware, e.g., a FPGA, these cameras could provide a way for a drone to home-in on a target. This is not AI, it’s just image processing and programming. A semi-autonomous kamikaze would be straightforward and a bomber a bit harder.
t.me/serhii_flash/1…

16. Night vision cameras & thermal camera are powerful technologies. Expect to see more developments in how these are being used in Ukraine.

If you enjoyed this thread please read my previous posts.

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More from @DanielR33187703

DanielR

@DanielR33187703

Feb 16

1. Part 3 of Making Money from a War visits an office with a fantastic view. The Chinese company, Skywalker posted a number of videos including one from a fancy office building. A close look produces questions.

2. Skywalker posted a video showing how to attach a bomb release to a pricey (€13500) DJI Matrice 300 drone. It holds two rounds under the drone with a control module mounted on the top of the drone. There is also an excellent view from the office windows.

3. One question is, where is this office? The shadows suggest this view is towards the west. There is a straight road close to a water front and a group of very tall buildings is seen in the distance. A large, low building is at the bottom of the photo.

Read 16 tweets

DanielR

@DanielR33187703

Feb 13

1. Part 1 of this series looked at a video posted by the Chinese company Skywalker Technology. The video pointed to a company called DSTech UAS. Part 1 showed their factory and offices.

2. Now that the company with three names (DSI Drone System Innos, DSTech UAS, Dongshengtai Technology) has been introduced, let’s look at what they are up to. They make their own fixed-wing drones starting with moulds.

3. Making these drones involves a lot of hand work: notice the lack of powered equipment. Here, vacuum bags are used to press the material into the mould. This company uses both fibreglass and carbon fibre for its drones.

Read 15 tweets

DanielR

@DanielR33187703

Feb 12

A number of companies have been making money from the war in Ukraine. This is a series of threads that look at various videos posted by two companies who supply equipment related to drones. The goal is to obtain a better idea of what is happening.

1. The Chinese company Skywalker Technology sells kits for controlling drones using fibre optics. Shown here is a quadrotor with a spool holding a few km of optical fibre. The fibre leads to a base station so control signals can be sent to the drone and video sent back.

2. In April 2024 Skywalker posted a video showing a heavy drone carrying mortar shells over what appears to be an abandoned building site beside an orchard and greenhouses. There are logos for Skywalker and a company called Drone System Innos (DSI). Who is DSI?

Read 21 tweets

DanielR

@DanielR33187703

Dec 10, 2024

1. A good defense against a drone is another drone. Both Ukraine and russia are developing net launchers that tangle an enemy drone’s propellers. Shown here is a russian-designed net launcher made largely from 3D-printed components. These are carried by a drone.

2. When triggered, four springs eject four weights that are attached to the net. The net simply hangs below this launcher. The release is a ring that slides upwards when moved by a servo.

3. This gives a better view of the release mechanism. The release is a ring that prevents the 4 weights from being ejected by the springs. This ring is connected to the servo via a link. The servo can then pull the release ring upwards along the cylindrical body of the launcher.

Read 7 tweets

DanielR

@DanielR33187703

Dec 6, 2024

1. There was a pleasant and interesting surprise today when Ukraine announced a new drone missile called Peklo (Hell). It will take a while to analyse this weapon but there are a number of intriguing design elements.

2. This photo gives a good idea of its size. Range is reported as over 700 km so this drone must hold a very large fuel tank. The size of the warhead will likely depend on the required range. Speed is reported as over 700 km/h (435 mph).

3. The most obvious detail is the engine is mounted on top of the drone. This engine is similar to the PBS TJ40 but could be customised for this drone. The external engine greatly simplifies the design and also allows a different make or model of engine to be used.

Read 8 tweets

DanielR

@DanielR33187703

Dec 5, 2024

1. A curious Ukrainian drone that crashed in September, 2024 was widely reported in russian media. Although various folks claimed this wreckage showed the remains of a jet engine, things did not look right.

2. Here is a closer view of this object. The trouble is that most jet engines used in drones do not look like this. If not an engine, what is this? The following photographs will (partially) explain what this is.

3. This is a rare photo showing an intact example of this jet-powered drone. Wing span is roughly 3 m (10 feet). The airframe is made from carbon fibre. The overall design is really intriguing.

Read 18 tweets

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