Technology Development Projects

Underground Facilities Construction

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This pertains to technology of building underground facilities with isolated life support systems, airlock doors, building layers of impenetrable materials above the underground living quarters such as the prevention of destruction of the living quarters from space debris, comets, and asteroids. The use of special types of elevators with isolated clearing shafts and airlocks at multiple levels, to ensure that if there are problems at one level the problems to not spread to another level, such as containing potential issues of internal problems such as disease outbreaks, while also having security to protect from outside problems such as damages to the elevator shafts from space debris. Contingency plans and technology to ensure that if the elevator shaft is damaged above ground, that there is technology to excavate out of the elevator tunnel, to ensure that there is no possibility of being trapped underground from potentials of space debris. There are systems capable of converting the carbon dioxide from human breath into oxygen. There are systems that produce food, water, beer, medicine, and other types of basic consumable necessities, from equipment that is very small and capable of rapid production of small quantities while also having the capability of rapid production of large numbers of small quantities, through the use of tiny equipment under high-pressure systems that create the necessities of various types of food and drinks from basic elements and rapid growth technologies such as rapid plant growth and the storage of seeds of plants, and seed maintenance to ensure that the seeds are kept at optimum living standards.

Desert Facilities Construction

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This pertains to the construction of facilities, such as homes and commercial buildings, in desert conditions such as in areas of high winds, high heat, and on sand dunes. These facilities may pertain to some types of land and environmental characteristics on other planets, and the improvements to building structures could lead to the improvement of building materials, improved processes for sealing buildings from external environments such as the creation of artificial environments and living conditions within the sealed buildings, the development of equipment to filter the air and remove all sand from the air at the entry points to the facilities in order to prevent the tracking of and the contamination of air inside the facilities, the creation of improved air conditioning technologies that use less energy, are able to filter the air at a sub-atomic level such as the removal of all debris, carbon dioxide, and particulate matter through the filtration of the air through permeation filters that only allow basic elements such as oxygen to pass through, and air conditioning systems that are capable of operating under extreme conditions such as the protection of the equipment from extreme heat, secondary systems that protect the air conditioning equipment and isolate the air conditioning equipment from the outside, backup systems for the air conditioning including power and automated robotic systems maintenance, zero emissions, air conditioning systems that have the ability to prevent fires while at the same time not remove the air from the building – such as seal-tight facilities that are impossible for fire to occur in due to extreme constraints of the air movement and the inability for flammable materials to catch fire due to the extreme constraints. These inventions and studies of such inventions should occur first at a scientific level without persons in the facilities, such that the facilities construction technology is for the purpose of the development of the secured and sealed facilities infrastructure, rather than for the actual construction of facilities for a purpose of a desert building. The facilities themselves are for the purpose of scientific testing and the development of technologies that protect the facilities and facilities technologies from the environment and the protection of the living standards inside through the isolation of all air and matter inside the buildings from the outside.

Small Stealth Aircraft

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This technology pertains to a small stealth aircraft that is a one-person aircraft, utilizing small jet engines in the wings and a large jet aircraft in the fuselage. Once the aircraft is in the air, the small jet engines are adequate to glide the plane. The large jet engine is capable of travelling at super-sonic speeds. The aircraft has an auto-pilot program, and there is a specially designed flight simulator for the aircraft, due to the small size and the aerodynamics of the small aircraft resembling a stealth alien ship.

 

There would be issues with controlling the aircraft, travelling at such high speeds. It would need a special type of navigation system that can anticipate all of the different wind speeds and directions, and manipulate the aircraft's wings and ailerons to glide through the air like a programmable bullet.

Mini-Jet Engine

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This technology pertains to a mini-jet engine for small aircraft, including stealth UAVs (or stealth drone), single-person stealth aircraft, and other small aircraft such as a lit drop UAV (or lit drop drone), robotic aircraft, platform aircraft for robotics and robotic transportation, small aircraft for space transportation, and other types of aircraft.

Hypersonic Drone Technology

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This technology basically encompasses drone or UAV aircraft that can travel at hypersonic speeds, but also drop in and out again of hypersonic flight speeds, such as for the purpose of destroying ICBMs and/or SCBMs launched from multiple locations. This technology would be one of the first responders to missile launches, and could also be used to intercept jets and bombers and destroy them.

Options for weaponry obviously includes the usual air-to-air missiles, kinetic kill vehicles, and also laser systems that could be fired while the drones are in hypersonic travel speed. The reason why lasers could be used at hypersonic speeds is because the laser doesn’t put any drag on the aircraft as it is fired.

The size of a hypersonic drone could be as large or larger than the Global Hawk II. It would not be able to fire missiles at hypersonic speed, at least to my knowledge of the aerodynamics of hypersonic flight, because there would be drag created by the missile launch that could destroy the drone if it was flying at hypersonic speeds while a missile is launched. This option is not impossible in the future, but a new type of missile that doesn’t create much drag upon launch would need to be developed.

The missiles used on a hypersonic drone would have to be inside the drone aircraft, because otherwise the drag from the Jetstream going around the missile on the wing like on a standard drone would create drag which would slow down the drone, and it would also be a hazard of causing the drone to break apart while in hypersonic flight speed.

The hypersonic drone will take a lot more planning, for an example the firing of the laser while travelling at hypersonic speed would need to occur at pulses consistent with the travel speeds of both the drone and the object the laser is intended to hit, and the pulses would need to modulate in direction and length of pulse to accommodate for the different travelling speeds of both the drone and the intercepted object.

There will need to be a new type of radar system developed for a hypersonic drone, because conventional radar will not be fast enough to detect the speed and direction of the object(s) intended to be intercepted. The system would need to be able to function with other aircraft in the area and share information on high frequencies that the enemy cannot jam, and also be able to communicate with weapons systems after they are launched from the drone, while the weapons systems should also have self-guided radar systems because the intercepts could occur in contested environments.


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