6. .
Drones can be fun to fly, but they're also a headache for security. Drones
are flying spies, poking their nose in sensitive areas, and there are rising
concerns they could be used as flying improvised explosive devices
(IEDs.)
Small, nimble, and fast, drones are hard to shoot down . Even then,
shooting at a drone with a weapon presents a problem—missed shots can
endanger the public.
7. BATTLE DRONE DEFENDER
The Battelle Drone Defender is a rifle made for
electronic warfare, as first reported by
motherboard. The gun looks like a hodgepodge
of science fiction props strapped together
12. The laser focuses on the tail of the drone, which is a good
way to disable it. A laser gun has to keep the beam on the
target for long enough to burn through something crucial.
Better targeting and more powerful beams both improve a
laser’s ability to destroy a drone. In Boeing’s test, it took
15 seconds to destroy the target.
13. . The Blighter works by severing the invisible tether of radio frequency
commands that connects the drone with its operator. Cut the tether and the
drone can no longer receive commands. The drone will fall out of the sky or
fly on until it crashes.
Blighter consists of three pieces of equipment. The first, an air security radar,
scans for incoming drones. Once detected, it hands off the target to the EO
(electro-optical) tracker. The EO tracker, which features a 12x zoom and
thermal imager, locks onto the drone and allows the operator to visually
inspect it.
14. Once the operator decides the drone must die, he activates the
Directional Radio Frequency Inhibitor. This is the "gun" of the system,
which "fires" directed radio signals at the same frequency as the
drone's controls. Unable to receive further commands, the drone is
effectively neutralized.
Blighter's system is promising, and could help to keep the skies free
of bullets. The system may continue to work against commercial
drones,
15. DETECTION RANGE: 8 KM
MINIMUM TARGET SIZE (RCS): 0.01 M2
FREQUENCY BAND: KU-BAND
RADAR TYPE: E-SCAN FREQUENCY MODULATED CONTINUOUS WAVE
(FMCW) DOPPLER SURVEILLANCE RADAR
TRANSMITTER POWER (NOMINAL): 4 WATT
AZIMUTH COVERAGE: 180° (STANDARD) OR 90° (OPTIONAL)
17. .
Maldrone may be the world’s first drone virus – infecting approaching
drones with malware and dropping them out of the air like a bag of
hammers.
The Python-language script has been successfully tested by inserting
the code into a Parrot AR Drone via Wi-Fi.
Maldrone was originally intended to demonstrate security
vulnerabilities in consumer-level drones rather than as a malicious
“drone death ray.” Nevertheless, it’s not difficult to see how such a
drone zapper could easily be distributed among the hacker
community as a malicious way to stop drones.
18. MICROWAVE GUN
THE STATED SPECIFICATIONS OF THE
RANETS WAS ALMOST IDENTICAL TO
THE NEW MICROWAVE GUN. THE
COMPLEX WEIGHING 5 TONS WAS
SUPPOSED TO HIT THE ENEMY
ELECTRONICS WITHIN A RADIUS OF
10 KM AND HAD A DEFENSIVE
CAPABILITY OF UP TO 60 DEGREES
VERTICALLY AND 360 DEGREES
HORIZONTALLY.
19. MICROWAVES CONSIST OF ANY
WAVELENGTH BETWEEN
300 MHZ (0.3 GHZ) AND
300 GHZ.
A large transformer
A large capacitor (rated around 1-2
kV; 1-100 uF),
Some high voltage diodes
A magnetron
20.
21.
22. Ending Part……………………
a drone-targeting laser cannon. Called the Compact Laser Weapon System, the
weapon uses a tracking system and focused laser beam to incinerate a UAV in
flight. Boeing demonstrated the laser cannon at a media event that was held
recently in Albuquerque