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Business proposal - Development and transfer of technology to YOU
We offer you the following high technology products based on our technology know how and our record track of success.
Proposal 1: Laser canonA laser canon is the most advanced laser weapon that can shoot a target using 100KW of laser power. Just to give you an idea of this laser intensity, these lasers could make a hole through a 6in steel slab just in 2-3 seconds.
Our proposal is to install this in an already available armour vehicles that you have (tanks etc.). Guidance system uses a low power laser like the he-ne laser with a telescope visual display.
Concept drawing as shown below.
Laser installed in a tank
Applications: Shoot down aero planes, missiles and any fast moving object Destroy walls like a concrete slab and any shielding materials
Guidance: Laser radar guidance system TV camera + He-ne laser spot target
Development time: 2 years for the laser system 5 years for guidance system
Cost: tbd
Proposal 2: Laser gun (vehicle in a scale 1:5)
This is used to shoot living object using a 3KW laser power.
Laser relay to a 1:5 scale radio controlled vehicle TV camera using fiber optical system
This is powered by a motor and can be maneuvered with TV camera system. The laser has to be installed in an another vehicle.
Applications: Shoot enemy
Guidance: TV camera + He-ne laser spot target
Development time: 2 years for the laser system 2 years for the vehicle with remote control
Cost: tbd
Proposal 3: (i) UAV (Unmanned aircraft vehicle)- long range
Use for surveillance and can provide images up to 12X optical zoom and 800X digital zoom. This can cover an area of 50km radius. Real time image transmission using fiber optics (>1 terra hertz (THz) of band width and 1Tbits per second of transmission rate.)
UAV or spy plane for surveillance (long range) TV camera using fiber optical system
Applications: Take images of enemy front (up to 50 km radius)
Specifications:
Altitude: ~3,000 m.
Image: TV camera (x12 optical zoom, X800 digital zoom) (like seeing a tiny hair on the floor for a 5 8 height person)
Frames/s: 60 frames per second
Relay: Fiber optic system RF system
Guidance: RF remote control Fiber optic control
Speed: 150 250 Km/h
Development time: 2 years for the aero plane + guidance system 2 years for optical system + image transmission system
Cost: tbd
Proposal 3: (ii) UAV (Unmanned aircraft vehicle)- short range
Mainly to get a better stability image and confirmation with very detailed picture.
UAV-Top view (showing propulsion system)
UAV-Bottom view (showing camera and VTOL) TV camera using fiber optical system
Applications: Take images of enemy front or any landscape (up to 3 km radius)
Specifications:
Altitude: ~1,000 m.
Image: TV camera (x12 optical zoom, X800 digital zoom) (like seeing a tiny hair on the floor for a 5 8 height person)
Frames/s: 60 frames per second
Relay: Fiber optic system RF system
Guidance: RF remote control Fiber optic control
Speed: 30 80 Km/h, Stationary (very stable for image confirmation)
Development time: 2 years for the aero plane + guidance system 2 years for optical system + image transmission system
Cost: tbd
Proposal 4: Missile guidance system using TV camera
The TV camera is mounted at the tip of the missile. This will send a real time image via a fiber optic to the control system.
TV camera to guide the missile TV camera using fiber optical system
Applications: Provide guidance system for the missile
Specifications:
Range: ~100 km.
Image: TV camera (x12 optical zoom, X800 digital zoom)
Frames/s: 100 frames per second
Relay: Fiber optic system RF system
Guidance: RF remote control Fiber optic control
Speed of missile: ~3-5 speed of sound
Development time: 3 years for the imaging system 5 years for image processing + comparison system
Cost: tbd
Proposal 5: Track down nuclear submarine using white light laser
My true experience.
Nuclear submarine go into deep sea to avoid detection. But there is no escape from us
A nuclear submarine will leave some nuclear traces. This trace of nuclear waste has an energy within the white light laser range. Comparing this energy, we could track down the path of this nuclear sub. This equipment can be installed in any navy boat.
Development time: 3 years for the detection system
Cost: tbd
Important notes: A comparison between wireless, wired and fiber optics transmission rates.
Transmission rate Band width
Wireless 64 Kbits/s 0.3 MHz Wired 1-10 Gbits/s 1 MHz Fiber optics 1 Tbits/s 1 THz (with fiber optics, all images are real time display)
We hope to supply the best technology for YOU. The BEST in the class.
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