Skip to main content

Why military forces transferred to use GPS?

https://crisisofdemocracticstates.blogspot.com/

Kimmo Huosionmaa

Many times people ask, why military forces use GPS, and what is the problem with an Inertial navigation system, what is used in rockets and what has the vital role in the nuclear submarines and aircraft. The reason for that is very simple. The inertial navigation system records all route of the vehicle, and following that track could the enemy locate the secret military bases locations if they find the Inertial device in some aircraft, and this makes this system complicated.

Every change, of course, is recorded in that system and that makes easy to target the weapons to that thing, and that makes the Inertial risky. But the other reason, why GPS is more popular is, that this satellite-based system can make possible to locate own troops from the area, and that makes possible to use tactical firepower more effectively. And if the GPS is used in bombs, that system allows sending the target data straight to the bomb, when the aircraft is in airborne, and those systems can change the target very fast. This makes GPS-bomb effective against all fixed target.

This is why the jamming systems against those satellite navigation systems are under research. The system, what would someday replace the GPS is the hybrid system, there are multiple sensors. Maybe it uses GPS only in a couple of seconds, and then the system transfer to use other navigation methods like some version of Loran, or Inertial navigation system. The hybrid version of Inertial navigation would work with the same method, the beginning point of the trip would be located by using GPS, and then Inertial would continue to navigate the vehicle.

The advanced version of Loran would work like normal radio compass, but the system would use more coherent radio signals and thin areas, those system bases in Maser-technology. Those very sharply targeted transmissions allow to locate the aircraft very sharply. Also, there could be used DSMAC-(Digital Scene Matching Area Correlation) navigation, what allows those aircraft or ships navigate very sharply without GPS.

This navigation system was replaced TERCOM in the late 1980's when the lower price of the microchips made possible to create computer-based solutions for missiles and other weapons. The system is developed originally for missiles, and it bases that the cameras are making an image from the area what is under the aircraft, and that thing is compared with the images, what are in the memory of the computer. If the images are matching, the location of the vehicle is correct. And ships can use SONAR to make that image.

The most modern versions of that navigation system are using LIDAR, what is the name of the Laser-radar, what uses light in the place, where normal radars uses radio waves. This kind of new era navigation systems can make GPS old fashion, and some of them are immune to jamming. But those systems are still under the developing, except DSMAC, what is in use at the cruise missiles. That system has been in use since the first digital cameras have been in the missiles. But the use of this system in aircraft and ships is a brand new idea, and it can revolutionize the navigation.

Comments

Popular posts from this blog

The new 3D printers are coin-size systems.

"The tiny device could enable a user to rapidly create customized, low-cost objects on the go, like a fastener to repair a wobbly bicycle wheel or a component for a critical medical operation. Credit: Sampson Wilcox, RLE" (Scitech, Tiny Titan: MIT’s Revolutionary Coin-Sized 3D Printer Fits in Your Pocket) Researchers created a 3D printer that is coin-size. That kind of printer can create things like microchips. But it's possible. Those tiny 3D printers can also work in extremely large-size projects. In simplest models, the 3D printers are positioned on tracks. The 3D printer itself is the tool, that can be part of the modular production systems.  There are visions of high-temperature metal printers installed on the gantry cranes. That makes those crane printers that can make even ship-size things. The crane that the printer controls can move back and forth and the printer can move horizontally. This kind of thing can turn the crane into a high-temperature 3D printer, that

Quantum computers and ultra-fast photonic microchips can danger even the most secure communication.

"Quantum computers could pose a major security risk to current communication systems in 12-15 years with their exponentially greater speed and code-breaking ability. (ScitechDaily, Today’s Most-Secure Communications Threatened by Future Quantum Computers) Quantum computers can break entire binary cryptography. And that makes all communication unsecured. That is one of the greatest threats in quantum computing. And this brings the arms race to the quantum age. The quantum computer can create codes that any binary computer can break. But the quantum computer can also break old-fashioned codes. And that makes it an ultimate weapon and sabotage tool.   Quantum computers can change the measurements of the ammunition in factories by changing the system calibration. Or it can delete databases from the opponent's computer systems. This thing can delete all SIM cards from mobile telephones. In peacetime, the hackers that operate using quantum systems can steal the names of the counter-

Electric power innovations. Fuel cells in aircraft and solar panels over Arizona canal.

  "ZEROe teams powered on the iron pod, the future hydrogen-propulsion system designed for Airbus’ electric concept aircraft." (Intersting Engineering, Airbus's ZEROe: First engine fuel cell powers up for hydrogen flight) Electric power innovations. Fuel cells in aircraft and solar panels over Arizona canal.  Airbus Zero is a testbed for fuel cells that are used in commercial aircraft. The problem with aircraft is always noise and pollution. If the aircraft uses electric engines. That decreases noise levels and cleans the air, especially around airfields. Lightweight solar panels that can be installed on the wings and body of aircraft can give electricity to electric engines. And they can extend an aircraft's operational range.   The thing that makes this kind of system interesting is that the "flying cars" or cheap VTOL aircraft can use them as a power source. The hydrogen power cells can give energy to electric aircraft at night time. And that makes them m