I never really bothered with such matters, but now I do. I have
points cards which I use in supermarkets and pharmacies.
It does make a difference: in a few weeks, I have managed
to gather enough points on one to take $12 off a bill from one
card. Another gives me .50, 1.00 or more off common products I buy
all the time. It takes a bit of an effort, at first, but then it is automatic.
Where savings are available just needs one to check-in with the
computer before heading out. Thus, all this is made possible
by computerization.
Was reading this morning that the government was upset with certain
brands because they were trying to pass on the costs of such programs
back to their suppliers. HAS TO COME FROM SOMEWHERE...
* * *
The Guardian, showing the technology-driven stalemate in Ukraine:
* * *
You
How does a military drone 'know' it has spotted a tank
Copilot
Military drones, equipped with advanced sensors and technology, have several methods to detect and identify tanks on the battlefield. Let’s explore some of these techniques:
Visual Recognition:
Drones are equipped with high-resolution cameras and optical sensors. When flying over an area, they capture images and video footage.
These visuals are then analyzed by onboard or remote operators. Machine learning algorithms can help identify tank-like shapes, patterns, and movement.
If the drone detects an object that matches the characteristics of a tank (such as size, shape, and tracks), it alerts the operator.
Infrared and Thermal Imaging:
Tanks emit heat due to their engines, electronics, and crew. Military drones often have infrared and thermal sensors.
These sensors detect temperature differences. A tank’s warm engine or exhaust stands out against the cooler surroundings.
When the drone identifies a heat signature consistent with a tank, it signals the operator.
Radar and LIDAR:
Some drones use radar or LIDAR (Light Detection and Ranging) technology.
Radar sends out radio waves and measures their reflections. It can detect large metal objects like tanks.
LIDAR uses lasers to create detailed 3D maps. It can identify tank-like shapes based on their dimensions.
Communication Interception:
Drones intercept radio communications between tanks or ground forces.
If a tank crew communicates over unencrypted channels, the drone can pick up their conversations.
This indirect method helps confirm the presence of tanks.
Behavioral Analysis:
Drones observe movement patterns and behaviors.
Tanks move differently from other vehicles. Their tracks leave distinct marks on the ground.
By analyzing these patterns, drones can infer the presence of tanks.
Collaboration with Other Sensors:
Drones often work in conjunction with other military assets.
Ground-based radar stations, satellites, and intelligence agencies provide additional information.
Combining data from multiple sources enhances the drone’s ability to detect tanks.
Remember that drones are just one part of a larger military system. They relay information to human operators who make critical decisions based on the data received. The synergy between drones, ground forces, and other assets ensures effective battlefield awareness1.
How does a military drone 'know' it has spotted a tank
Military drones, equipped with advanced sensors and technology, have several methods to detect and identify tanks on the battlefield. Let’s explore some of these techniques:
Visual Recognition:
- Drones are equipped with high-resolution cameras and optical sensors. When flying over an area, they capture images and video footage.
- These visuals are then analyzed by onboard or remote operators. Machine learning algorithms can help identify tank-like shapes, patterns, and movement.
- If the drone detects an object that matches the characteristics of a tank (such as size, shape, and tracks), it alerts the operator.
Infrared and Thermal Imaging:
- Tanks emit heat due to their engines, electronics, and crew. Military drones often have infrared and thermal sensors.
- These sensors detect temperature differences. A tank’s warm engine or exhaust stands out against the cooler surroundings.
- When the drone identifies a heat signature consistent with a tank, it signals the operator.
Radar and LIDAR:
- Some drones use radar or LIDAR (Light Detection and Ranging) technology.
- Radar sends out radio waves and measures their reflections. It can detect large metal objects like tanks.
- LIDAR uses lasers to create detailed 3D maps. It can identify tank-like shapes based on their dimensions.
Communication Interception:
- Drones intercept radio communications between tanks or ground forces.
- If a tank crew communicates over unencrypted channels, the drone can pick up their conversations.
- This indirect method helps confirm the presence of tanks.
Behavioral Analysis:
- Drones observe movement patterns and behaviors.
- Tanks move differently from other vehicles. Their tracks leave distinct marks on the ground.
- By analyzing these patterns, drones can infer the presence of tanks.
Collaboration with Other Sensors:
- Drones often work in conjunction with other military assets.
- Ground-based radar stations, satellites, and intelligence agencies provide additional information.
- Combining data from multiple sources enhances the drone’s ability to detect tanks.
Military drones, equipped with advanced sensors and technology, have several methods to detect and identify tanks on the battlefield. Let’s explore some of these techniques:
Visual Recognition:
- Drones are equipped with high-resolution cameras and optical sensors. When flying over an area, they capture images and video footage.
- These visuals are then analyzed by onboard or remote operators. Machine learning algorithms can help identify tank-like shapes, patterns, and movement.
- If the drone detects an object that matches the characteristics of a tank (such as size, shape, and tracks), it alerts the operator.
Infrared and Thermal Imaging:
- Tanks emit heat due to their engines, electronics, and crew. Military drones often have infrared and thermal sensors.
- These sensors detect temperature differences. A tank’s warm engine or exhaust stands out against the cooler surroundings.
- When the drone identifies a heat signature consistent with a tank, it signals the operator.
Radar and LIDAR:
- Some drones use radar or LIDAR (Light Detection and Ranging) technology.
- Radar sends out radio waves and measures their reflections. It can detect large metal objects like tanks.
- LIDAR uses lasers to create detailed 3D maps. It can identify tank-like shapes based on their dimensions.
Communication Interception:
- Drones intercept radio communications between tanks or ground forces.
- If a tank crew communicates over unencrypted channels, the drone can pick up their conversations.
- This indirect method helps confirm the presence of tanks.
Behavioral Analysis:
- Drones observe movement patterns and behaviors.
- Tanks move differently from other vehicles. Their tracks leave distinct marks on the ground.
- By analyzing these patterns, drones can infer the presence of tanks.
Collaboration with Other Sensors:
- Drones often work in conjunction with other military assets.
- Ground-based radar stations, satellites, and intelligence agencies provide additional information.
- Combining data from multiple sources enhances the drone’s ability to detect tanks.
Military drones, equipped with advanced sensors and technology, have several methods to detect and identify tanks on the battlefield. Let’s explore some of these techniques:
Visual Recognition:
- Drones are equipped with high-resolution cameras and optical sensors. When flying over an area, they capture images and video footage.
- These visuals are then analyzed by onboard or remote operators. Machine learning algorithms can help identify tank-like shapes, patterns, and movement.
- If the drone detects an object that matches the characteristics of a tank (such as size, shape, and tracks), it alerts the operator.
Infrared and Thermal Imaging:
- Tanks emit heat due to their engines, electronics, and crew. Military drones often have infrared and thermal sensors.
- These sensors detect temperature differences. A tank’s warm engine or exhaust stands out against the cooler surroundings.
- When the drone identifies a heat signature consistent with a tank, it signals the operator.
Radar and LIDAR:
- Some drones use radar or LIDAR (Light Detection and Ranging) technology.
- Radar sends out radio waves and measures their reflections. It can detect large metal objects like tanks.
- LIDAR uses lasers to create detailed 3D maps. It can identify tank-like shapes based on their dimensions.
Communication Interception:
- Drones intercept radio communications between tanks or ground forces.
- If a tank crew communicates over unencrypted channels, the drone can pick up their conversations.
- This indirect method helps confirm the presence of tanks.
Behavioral Analysis:
- Drones observe movement patterns and behaviors.
- Tanks move differently from other vehicles. Their tracks leave distinct marks on the ground.
- By analyzing these patterns, drones can infer the presence of tanks.
Collaboration with Other Sensors:
- Drones often work in conjunction with other military assets.
- Ground-based radar stations, satellites, and intelligence agencies provide additional information.
- Combining data from multiple sources enhances the drone’s ability to detect tanks.
Remember that drones are just one part of a larger military system. They relay information to human operators who make critical decisions based on the data received. The synergy between drones, ground forces, and other assets ensures effective battlefield awareness1.
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