Association "Anima mundi"

TECHNOLOGIES

12.06.2023: Instructional summary from the ON / OFF section

1. Therefore, hydrogen should be considered as a substance for which, by changing the exposure conditions at the subatomic level, an extremely large amount of energy can be practically extracted. (AAM, ON / OFF: 03.10.2022).

2. After passing through the modulated fields, the hydrogen atoms acquire new properties and a huge amount of energy is released here. (AAM, ON / OFF: 22.10.2022).

3. There was a time not long ago when the laws of physics were taught in schools and explained about the penetration of hydrogen through matter. (AAM, ON / OFF: 26.10.2022).

4. THE PROBLEM LIES NOT IN THE PRODUCTION OF HYDROGEN, BUT IN ITS USE AND CONTROL OF THE ONGOING PROCESSES. (AAM, ON / OFF: 11.12.2022).

5. Hydrogen does not have a magnetic structure up to a certain limit, so its use is very small, but after it is structured, it can be used in quantum mechanics as a stabilizer, adding to other sequences of technical solutions. (AAM, ON / OFF: 17.12.2022).

6. In order to add value, it is enough to pass hydrogen gas through a structured low-frequency field, where the charges acquire an additional shoulder, which after using it we obtain a huge amount of energy and perform energy management with the same fields. (AAM, ON / OFF: 25.12.2022).

7. Without the titanic effort and gigantic manipulation of hydrogen to get an electric current, it only takes a few watts to get the strong/weak interaction. (AAM, ON / OFF: 31.12.2022).

8. Hydrogen likes to react with other substances, and due to its atomic mass it is not only penetrating, but also perfectly binds to other large molecules, to form stable chains. (AAM, ON / OFF: 02.04.2023)

9. When 8.9748 is reached. (AAM, ON / OFF: 18.04.2023).

10. Before starting to process the material, you need to turn on the magnetic field at the selected frequency, choose the order of pouring the materials, but before inserting any of the materials, you need to increase the pulses and ... (AAM, ON / OFF: 28.04.2023).

11. In order to isolate the system, it’s enough to surround the moving object with modulated fields, which will form a unique system closed inside the object, while outside the observer will see the plasma (ionization) field. (AAM, ON / OFF: 03.05.2023).

12. If you use heated materials for fusing metals, they must be melted separately and by dispersion method let them through the fields in a closed system, changing the frequencies of the fields, which will allow the atom of each metal to resonate with the frequency of its and with the specific frequency of the adjacent atom structure. (AAM, ON / OFF: 19.05.2023).

13. During the process of hydrogen release, due to processes at the subatomic level, a huge field is created, that can be used to control the EBG (electrolyzer / battery / generator), for example, for increasing power, creating an external field, modulation, etc. (AAM, ON / OFF: 30.05.2023).

30.05.2023: AMG200 - suit for life support, protection and functional ensurement (prototype stage, supplemented version).

Date of submission of the supplemented idea: 28.02.2023

ESA campaign: Space Suit Design Competition

Idea number: I-2022-04826

Since the universe is filled with various forms of water, this is the best way to get energy from water. Water is needed to fill the power elements of the suit, from which energy is later extracted. Water in outer space acts as a sort of radiation barrier containment, absorbing vast amounts of radiation, that can be used in fusion of energy extraction.

Each built-in module of the suit can connect to other external modules (in space or other stations) through a unified connector. The whole suit or parts of the suit (as an upgrade) can use any element of the module (CubeSat) for power enhancement or other tasks.

Advantages of AMG200:
1. Can be used as a spacesuit during the launch of a spacecraft into orbit.
2. In orbit, the functional units of the suit can be entered into all external devices.
3. An overboard safety suit with connection to any module (CubeSat).
4. There is no need to change the functionality of the suit on the moon or planets, it is enough to connect the appropriate accessories.
5. Through the control panel, the suit can form a protective body (space) around itself, which can represent a room, a protective capsule, support vital functions, etc.
6. The suit does not need to be removed, to remove or replenish resources and life support products.
7. The suit is easily repaired in case of damage.
8. The life support systems in the suit are duplicated over several levels.
9. In the event of any malfunction, the replaced module of the suit, can continue to be used in other docking module systems (without trash).

Components of AMG200:

Helmet
Skeleton (framework on the body)
Gloves
Bracelets
Jacket
Pants
Shoes
Belt
Backpack: protection module / life support module / autonomous power source module / control and communication module / ventilation module

1. HELMET

Construction - modular / all types, depending on the external environment, the most suitable model and functions are selected. All light and heavy elements can be connected to the structural frame of the helmet. The helmet can be used as an individual accessory independently of other components of the suit and/or combined with the skeleton frame with any element or whole of the suit. The helmet's autonomous modular power source supports the helmet's heating, cooling, ventilation, steam removal and structural material functions.

Modules:
• structural frame of the helmet

made of light alloy
has a quick system connection to extensions

• light elements

face shield (easily mounted on the structural frame) with a display output and the ability to control content by voice and/or other means (e.g. via wristbands, keyboard, etc.)
functions: environmental capture and data collection (cameras, microphones, sensors, etc.) / system data exchange support / environmental and body temperature capture / external and internal pressure capture / body function analysis and biometric data collection / communication link support / air filtration and virus removal / adaptive protection: individual, complex / support of element integrity / support of adaptive autonomous energy source

• heavy elements

designed to absorb and protect the head from impacts, mechanical and other damages

2. SKELETON (framework on the body)

The chain membered frame-skeleton of light alloy or polymer on which any of the elements is mounted or placed. The purpose of the skeleton is to evenly balance area, weight, ergonomics and other elements of distribution according to functionality. All elements of the skeleton can be separate: arms, legs, head, chest, back, lower legs, etc. All skeletal structures are supported by heating, cooling, ventilation, etc. In the event of skeletal injury, a skeletal realignment function is provided to restore basic skeletal integrity and functionality.

3. GLOVES

The platform for broad purpose sensors. Additionally, the glove has a built-in manipulative tongs, which allows you to perform additional force and other manipulative actions and tasks, depending on the level of complexity and heaviness.

4. BRACELETS

The platform for input and duplicated output information. Additionally, depending on the level of danger, the bracelets has feature algorithmic protection systems, that allows protection against certain interventions and damage to the body and the integrity of the suit.

5. JACKET

The platform for ventilation support. The jacket consists of two separate modular mesh fabrics, which additionally perform the following functions: I – protection against mechanical damage, II – protection against electromagnetic and other radiation.

6. PANTS

The platform for protection and support of sensitive functional areas. Pants are modulated depending on the task, which implementation requires a long or short period of time. For a long period of use, the pants have a system for removing traces of human functions, which contents are stored in the capsule of the backpack. This capsule can be exchanged for a new empty capsule at any time as needed.

7. SHOES

The platform for moisture collection, orthopedic foot adapter, cooling-heating-ventilation and massaging. The shoes have limited movement mobility (does not allow to turn, deviate, bend). The special function of connecting the shoes fixes the joint of the knee. In the front part the shoes have stiff reinforcements, that prevent strong impacts and/or give the shoes a form of support.

8. BELT

The platform for the energy power modules supporting, equipment mounting, first and essential medical aid elements.

9. BACKPACK

An autonomous platform for a power source of increased power, air filtration of increased performance, storage of helmet parts and large modulation components transportation. Depending on the modification the backpack may contain component parts, that allow to ensure the necessity of the suit and body functioning.

Modules:
• protection module

electromagnetic protection
integrity assurance system: if damage to a part of the suit is detected, the functions of this part will be taken over by undamaged parts of the suit

• life support module

climate control
adaptive medicine cabinet
body monitoring system, which depending on the damage or change in the body's basic functions, performs algorithmic operations and/or informs the operator about the need to make physical decisions or other manipulations

• autonomous power source module

the functions of the suit can be provided by the energy of all basements (heat, light, batteries, internal reactor, modulating energy of autonomous energy sources)

• control and communication module

remote access and control of all suit modules and functions is possible
provides continuous or algorithmic communication with a multi-channel central base

• ventilation module

fans, tubes for heating and cooling
autonomous operation and/or together in the system as required

17.01.2023: STRATEGIC DESCRIPTION OF IMPLEMENTATION OF MODULAR ELEMENTS

Date of submission of the idea: 17.01.2023

ESA campaign: Innovative Mission Concepts Enabled by Swarms of CubeSats

Idea number: I-2023-00277

Title of the idea: Strategic description of implementation of modular elements

1. A set of spacecrafts mini models (CubeSats) can be combined into modules: living block, life support, hydroponics, transport, monitoring and other modules, depending on the need and purpose.

2. Each mini module (CubeSat) can be transformed according to the intended purpose.

3. All mini models (CubeSats) have separate power units, that can be adapted as needed, for example, connected to a life support system, movement (adjustment), transport, etc.

4. The power source of all mini modules (CubeSats) – hydrogen.

5. The weight of one mini module (CubeSat) ranges from 0,6 kg to 30 kg, the connection with other elements is unified, so they can be used as space station elements or as spacesuit parts and additions.

6. The operation of each mini module (CubeSat) is individual, but it can also work in a swarm.

7. By connecting mini modules (CubeSats) together, large-scale (volume) areas are formed, in which household elements (bed, wardrobe, etc.) are formed from the same modules (CubeSats).

8. In space the space suit (AMG200 type) has the ability to connect directly to the mini modules (CubeSats) and control them, change configurations, perform and monitor tasks, that are displayed on the space suit.

9. With the help of mini modules (CubeSats), it is possible to connect objects of any shape from the modules (a room on the moon or a planet, a space orbital station, etc.).

10. Each mini module (CubeSat) is a reusable object and is used in the construction of larger objects (telescope, antenna, energy storage, energy production, etc.).

11. During launch the mini modules (CubeSats) are used to form fields around the general launch object and in orbit as an acceleration mechanism.

22.11.2022: TECHNOLOGICAL STRATEGY OF THE SPACE INDUSTRY *

Date of submission of the idea: 22.11.2022

ESA channel: Open Discovery Ideas Channel

Idea number: I-2022-05181
Title of the idea: Technological strategy of the space industry

Ultima ratio – nothing can be used without energy, therefore a universal source of energy is offered – WATER.

1. Preparation stage
1.1. Manufacturing of individual components.
1.2. Energy production and storage.
1.3. Design of life-saving components and production of prototypes.
1.4. Protection measures against biological disease agents and radiation:
1.4.1. individual common skeleton
1.4.2. suit
1.4.3. biomechanical composite suit
1.5. Preservation of biological species and creation of biosphere in closed spheres.
1.6. Research and application of new physical phenomena.
1.7. An extrapolation laboratory, where tests are carried out on newly developed prototypes under extreme conditions.
1.8. Development and application of alloys with new properties.
1.9. Production and use of self-constructed autonomous elements.
1.10. Development and production of space vehicles:
1.10.1. rovers
1.10.2. spaceships
1.10.3. satellites
1.10.4. drones
1.10.5. robot drones with ID use in the construction of the space station and other space objects.
1.11. Development, application and production of food forms.
1.12. Air filtration (closed type).
1.13. Gerontology.
1.14. Research laboratories.

2. Energy sources
Water is an element, that can be used for human domestic physiological functioning and obtaining absolutely clean fuel. The first functioning and technologically functional working prototypes showed, that the use of water as an energy source, fully ensures the implementation of the tasks set in the initial stage of this project.
2.1 Mobile sources for equipment: mobile mini-reactors (batteries), which principle of operation - the use of water splitting products.
2.2 Individual sources for suits and other devices: the suits and/or station service suits have all the pre-suited functions, that are compatible with existing equipment.
2.3 Sources for backup storage: the fuel element of all reserve energy sources is water, which is the basis of electricity and heat generation.

3. Equipment and shape of the space station
3.1 Space station in outer space: the shape of the space station in outer space - round (sphere).

3.2 Space station on a planet: the principle of arrangement of the space station on the planet - hexagonal shape.
3.3 Space station on moving bodies: principle of a spider web network.
3.4 Space station on satellites: should be like a ship anchored in the sea, because this is the safest way to study space objects and their samples.

4. Spaceships
4.1 Spaceship is designed for low altitude orbit up to 1000 km.
4.2 Spaceship is designed to travel to a space station in orbit.
4.3 Spaceship is designed to travel to a space base on other planets.
4.4 Spaceship is designed to travel to the space station on moving space objects.
4.5 Spaceship is designed to move to satellites.

5. Life support systems
5.1 Spaceship: all life support systems (air, water, sewage, air and general filtration) must be easily accessible, repairable and replaceable.
5.2 Space station: all life support systems must be permanently installed and must not be able to be modified and/or accessed and influenced in any way.
5.3 Suit: for life support, protection and functional ensurement.

6. Technological compatibility
6.1 Universality of rigid connections for all components.
6.2 Unification of all interfaces.
6.3 Absolute duplication of all data.

7. Specialized aviation depending on the atmospheric environment (for associate members of ESA)
7.1 Development of new aviation technologies using water as the main source of energy.
7.2 Development of new materials for space industry.
7.3 Development of human food sources in various phases and states.
7.4 Development of hyponics media for growing plants on space stations and planets.
7.5 Development of emergency safety systems.

* A full detailed description of the strategy is available only to members of the Association Anima mundi or can be provided by separate agreement.

28.10.2022: AMG200 - suit for life support, protection and functional ensurement (prototype stage).

Date of submission of the idea: 29.10.2022