The MAR107 Aquadrone (original) (raw)

Water Drone Propulsion System MAR35

This research paper introduces a groundbreaking prototype known as the "Water Drone Propulsion System MAR35." The Water Drone Propulsion System MAR35 boasts a range of distinctive features and applications, which are detailed in this technical report. Firstly, we advocate for the implementation of the "Multiple Sensors System (MSS)" in the MAR35. This involves strategically placing all 3 small motors within the main body structure of the MAR35. Additionally, the Water Drone Propulsion System MAR35 features an innovative propeller design referred to as the "Silent Propeller System (SPS)." This system incorporates 3 potent motors within the main structure, accompanied by a series of specialized propellers that operate in precise synchronization to reduce noise levels by an impressive 99.5%. Furthermore, a cutting-edge concept called the "Sensibility Waves System (SWS)" is integrated, leveraging artificial intelligence for enhanced performance. In a bid for sustainability, the Water Drone Propulsion System MAR35 is equipped with storage box to support armies with suppliers and military equipment simultaneously. Notably, the Water Drone Propulsion System MAR35 can supply any cargo anytime and everywhere. Finally, its versatile capabilities render the Water Drone Propulsion System MAR35 indispensable for a wide array of natural disasters emergency missions.

The Uses of Fan-Aquadrones in Case of Floods or Tsunami Rescue and Relief Operations: MAR21 Prototype and MAR27 Prototype

ICTE in Transportation and Logistics 2019 (Springer Nature Switzerland AG), 2020

This research presents two new fan-aquadrones in case of floods or Tsunami rescue and relief operations anywhere and anytime. We have two models of fan-aquadrones such as the MAR21 prototype and MAR27 prototype. Initially, the MAR21prototype has a large structure to facilitate the carrying of food, medicines, and water to areas were affected severally by any flood or Tsunami. At the same time, the MAR21 prototype can handle also to do it a deep cleaning service of any area was affected by a flood or Tsunami subsequently. Additionally, the MAR21 prototype and MAR27 prototype offer to government and humanitarian agencies an alternative emergency maritime transportation system in case of floods or Tsunami disasters. The MAR21 prototype and MAR27 prototype construction is based on a high reception radio control system, a modern GPS system, high reception antenna and radar systems, HD cameras (live), powerful batteries, high resistance ESC systems, and powerful electric motors to support large operation in case of a flood or Tsunami rescue and relief operations anytime. The design of the structure of the MAR21 prototype and MAR27 prototype have special characteristics that can be adapted to any weather condition, temperature levels, and levels of water respectively. In fact, the cost of production of MAR21 prototype and MAR27 prototype is relatively cheap and easy for his construction according to this research. On the other hand, the MAR27 prototype is a smaller fan-aquadrone that can help to monitoring and scanning the pre and post flood or Tsunami disaster by using advanced GPS system, HD cameras with high resolution to observe the levels of damage in real time. Finally, the MAR21 prototype and MAR27 prototype are complementary emergency maritime transportation systems that can help in any case of floods or Tsunami rescue and relief operations rapidly and efficiently.

A New Advanced Military Drones Systems: Prototypes Modeling

SSRN, 2024

The present electronic handbook (E-Handbook) is divided into eight chapters are followed by: The first chapter introduces the full autonomous artificial intelligence in attack or defense decisions making in military drones’ system box (The NeuronDrone-Box): the hardware, algorithm, and a new special military Drone or UAV. The first section presents the full autonomous artificial intelligence in attack or defense decisions making in military drones’ system box (The NeuronDrone-Box) to adapt to any drone to the main control system of any drone. Second section is the algorithm is using chaos theory and Econographicology. third section we present the groundbreaking prototype known as the "Black Nightmare V.7." The Black Nightmare V.7 drone bombardier boasts a range of distinctive features and applications, which are detailed in this technical report. Firstly, we advocate for the implementation of the full autonomous artificial intelligence in attack or defense decisions making in military drones’ system box (The NeuronDrone-Box) to control the Multiple Ailerons System (MAS) and Multi-Missiles System (MM-System) connected to the full autonomous artificial intelligence in attack or defense decisions making in military drones’ system box (The NeuronDrone-Box). The second chapter introduces a groundbreaking prototype known as the " WATER DRONE PROPULSION SYSTEM MAR777." The Water Drone Propulsion System MAR777 boasts a range of distinctive features and applications, which are detailed in this technical report. Firstly, we advocate for the implementation of the "Multiple Sensors System (MSS)" in the water drone propulsion system MAR777 to detect survivors or missing people in rain floods and Tsunami. This involves strategically placing all cameras (under water and sea level) of the WATER DRONE PROPULSION SYSTEM MAR777 to observe the damage of floods and Tsunami in real-time. Additionally, the Water Drone Propulsion System MAR777 features an innovative autopilot design referred to as the "AI Searching System (AISS)." This system incorporates a system to scanning and locate possible areas with large damage by the rain floods or Tsunami, accompanied by a series of specialized detectors that operate in precise synchronization to searching people to rescue with a high accuracy of 99.5%. Furthermore, a cutting-edge concept called the "Searching and Rescue Emergency for Rain Floods and Tsunami System (SRERFT-System)" is integrated, leveraging artificial intelligence for enhanced performance. In a bid for sustainability, the Water Drone Propulsion System MAR777 is equipped with storage box to support survivors with suppliers and medicine. Notably, the Water Drone Propulsion System MAR777 is capable of carrying also any suppliers, be it water or life jackets, in the rain floods or Tsunami anytime and everywhere. Finally, its versatile capabilities render the Water Drone Propulsion System MAR777 indispensable for a wide array of natural disasters emergency missions. The third chapter introduces a groundbreaking prototype known as the "Water Drone Propulsion System MAR37." The Water Drone Propulsion System MAR37 boasts a range of distinctive features and applications, which are detailed in this technical report. Firstly, we advocate for the implementation of the "Multiple Sensors System (MSS)" in the MAR37. This involves strategically placing all 2 large motors within the main body structure of the MAR37. Additionally, the Water Drone Propulsion System MAR37 features an innovative propeller design referred to as the "Silent Propeller System (SPS)." This system incorporates 2 potent motors within the main structure, accompanied by a series of specialized propellers that operate in precise synchronization to reduce noise levels by an impressive 99.5%. Furthermore, a cutting-edge concept called the "Sensibility Waves System (SWS)" is integrated, leveraging artificial intelligence for enhanced performance. In a bid for sustainability, the Water Drone Propulsion System MAR37 is equipped with storage box to support armies with suppliers and military equipment simultaneously. Notably, the Water Drone Propulsion System MAR37 can supply any cargo anytime and everywhere. Finally, its versatile capabilities render the Water Drone Propulsion System MAR37 indispensable for a wide array of natural disasters emergency missions. The fourth chapter introduces a groundbreaking prototype known as the " WATER DRONE PROPULSION SYSTEM MAR25." The Water Drone Propulsion System MAR25 boasts a range of distinctive features and applications, which are detailed in this technical report. Firstly, we advocate for the implementation of the "Multiple Sensors System (MSS)" in the water drone propulsion system. This involves strategically placing all ailerons within the main body structure of the WATER DRONE PROPULSION SYSTEM MAR25. Additionally, the Water Drone Propulsion System MAR25features an innovative propeller design referred to as the "Silent Propeller System (SPS)." This system incorporates a potent motor within the main structure, accompanied by a series of specialized propellers that operate in precise synchronization to reduce noise levels by an impressive 99.5%. Furthermore, a cutting-edge concept called the "Sensibility Waves System (SWS)" is integrated, leveraging artificial intelligence for enhanced performance. In a bid for sustainability, the Water Drone Propulsion System MAR25 is equipped with storage box to support armies with suppliers and military equipment simultaneously. Notably, the Water Drone Propulsion System MAR25 is capable of carrying military suppliers, be it guns or munitions, in the field of action anytime and everywhere. Finally, its versatile capabilities render the Water Drone Propulsion System MAR25 indispensable for a wide array of military and natural disasters emergency missions. The fifth chapter introduces a groundbreaking prototype known as the "Water Drone Propulsion System MAR31." The Water Drone Propulsion System MAR31 boasts a range of distinctive features and applications, which are detailed in this technical report. Firstly, we advocate for the implementation of the "Multiple Sensors System (MSS)" in the MAR31. This involves strategically placing all 3 large motors within the main body structure of the MAR31. Additionally, the Water Drone Propulsion System MAR31 features an innovative propeller design referred to as the "Silent Propeller System (SPS)." This system incorporates 3 potent motors within the main structure, accompanied by a series of specialized propellers that operate in precise synchronization to reduce noise levels by an impressive 99.5%. Furthermore, a cutting-edge concept called the "Sensibility Waves System (SWS)" is integrated, leveraging artificial intelligence for enhanced performance. In a bid for sustainability, the Water Drone Propulsion System MAR31 is equipped with storage box to support armies with suppliers and military equipment simultaneously. Notably, the Water Drone Propulsion System MAR31 can supply any cargo anytime and everywhere. Finally, its versatile capabilities render the Water Drone Propulsion System MAR31 indispensable for a wide array of natural disasters emergency missions. The sixth chapter introduces a groundbreaking prototype known as the "Black Nightmare V.7." The Black Nightmare V.7 drone bombardier boasts a range of distinctive features and applications, which are detailed in this technical report. Firstly, we advocate for the implementation of the "Multiple Ailerons System (MAS) and Multi-Missiles System (MM-System)" in the Black Nightmare V.7 drone bombardier. This involves strategically placing all ailerons within the main body structure of the aircraft. Additionally, the Black Nightmare V.7 drone bombardier features an innovative propeller design referred to as the "Silent Propeller System (SPS)." This system incorporates a potent motor within the main structure, accompanied by a series of specialized propellers that operate in precise synchronization to reduce departure and landing noise levels by an impressive 99.5%. Furthermore, a cutting-edge concept called the "Sensibility Winds System (SWS)" is integrated, leveraging artificial intelligence for enhanced performance. In a bid for sustainability, the Black Nightmare V.7 drone bombardier is equipped with solar panels, ensuring a continuous charge to support its four powerful motors simultaneously. Notably, the Black Nightmare V.7 drone bombardier is capable of carrying four heavy bombs and three missiles (air-air). Finally, its versatile capabilities render the Black Nightmare V.7 drone bombardier indispensable for a wide array of military and national emergency missions. The seventh chapter presents an innovative military sea security defense system never introduced before. We present the first aquatic smart platforms carrier system (Hydronescarrier) and different aquatic smart platforms that is a vital part of the military equipment for the Hydronescarrier. We aim to present all the features and functionalities of this new military defense system, which can play an important role in defense and attack operations more quickly and efficiently. The Hydronescarrier includes an artificial intelligence system, autonomous defense systems, energy systems, and smart control systems. These components form a complex and dynamic defense system that provides immediate high-level protection to strategic areas, even at a distance. Some specifications are withheld for national security reasons. Additionally, this basic manual introduces the NeuronDrone-Box and Mega-NeuronDrone-Box: the hardware, algorithm, and a new special military Hydrone. In a special section, we like to mention that all algorithms in this basic manual use chaos theory and Econographicology. Subsequently, we present the groundbreaking prototypes known as the MAR107X aquatic smart platform, The MAR107Y aquatic smart platform, and the MAR107Z aqua...

A NEW GENERATION OF DRONES SYSTEMS

The present electronic monograph (E-monograph) is divided into eight chapters are followed by: The first chapter introduces the full autonomous artificial intelligence in attack or defense decisions making in military drones’ system box (The NeuronDrone-Box): the hardware, algorithm, and a new special military Drone or UAV. The first section presents the full autonomous artificial intelligence in attack or defense decisions making in military drones’ system box (The NeuronDrone-Box) to adapt to any drone to the main control system of any drone. Second section is the algorithm is using chaos theory and Econographicology. third section we present the groundbreaking prototype known as the "Black Nightmare V.7." The Black Nightmare V.7 drone bombardier boasts a range of distinctive features and applications, which are detailed in this technical report. Firstly, we advocate for the implementation of the full autonomous artificial intelligence in attack or defense decisions making in military drones’ system box (The NeuronDrone-Box) to control the Multiple Ailerons System (MAS) and Multi-Missiles System (MM-System) connected to the full autonomous artificial intelligence in attack or defense decisions making in military drones’ system box (The NeuronDrone-Box). The second chapter introduces a groundbreaking prototype known as the " WATER DRONE PROPULSION SYSTEM MAR777." The Water Drone Propulsion System MAR777 boasts a range of distinctive features and applications, which are detailed in this technical report. Firstly, we advocate for the implementation of the "Multiple Sensors System (MSS)" in the water drone propulsion system MAR777 to detect survivors or missing people in rain floods and Tsunami. This involves strategically placing all cameras (under water and sea level) of the WATER DRONE PROPULSION SYSTEM MAR777 to observe the damage of floods and Tsunami in real-time. Additionally, the Water Drone Propulsion System MAR777 features an innovative autopilot design referred to as the "AI Searching System (AISS)." This system incorporates a system to scanning and locate possible areas with large damage by the rain floods or Tsunami, accompanied by a series of specialized detectors that operate in precise synchronization to searching people to rescue with a high accuracy of 99.5%. Furthermore, a cutting-edge concept called the "Searching and Rescue Emergency for Rain Floods and Tsunami System (SRERFT-System)" is integrated, leveraging artificial intelligence for enhanced performance. In a bid for sustainability, the Water Drone Propulsion System MAR777 is equipped with storage box to support survivors with suppliers and medicine. Notably, the Water Drone Propulsion System MAR777 is capable of carrying also any suppliers, be it water or life jackets, in the rain floods or Tsunami anytime and everywhere. Finally, its versatile capabilities render the Water Drone Propulsion System MAR777 indispensable for a wide array of natural disasters emergency missions. The third chapter introduces a groundbreaking prototype known as the "Water Drone Propulsion System MAR37." The Water Drone Propulsion System MAR37 boasts a range of distinctive features and applications, which are detailed in this technical report. Firstly, we advocate for the implementation of the "Multiple Sensors System (MSS)" in the MAR37. This involves strategically placing all 2 large motors within the main body structure of the MAR37. Additionally, the Water Drone Propulsion System MAR37 features an innovative propeller design referred to as the "Silent Propeller System (SPS)." This system incorporates 2 potent motors within the main structure, accompanied by a series of specialized propellers that operate in precise synchronization to reduce noise levels by an impressive 99.5%. Furthermore, a cutting-edge concept called the "Sensibility Waves System (SWS)" is integrated, leveraging artificial intelligence for enhanced performance. In a bid for sustainability, the Water Drone Propulsion System MAR37 is equipped with storage box to support armies with suppliers and military equipment simultaneously. Notably, the Water Drone Propulsion System MAR37 can supply any cargo anytime and everywhere. Finally, its versatile capabilities render the Water Drone Propulsion System MAR37 indispensable for a wide array of natural disasters emergency missions. The fourth chapter introduces a groundbreaking prototype known as the " WATER DRONE PROPULSION SYSTEM MAR25." The Water Drone Propulsion System MAR25 boasts a range of distinctive features and applications, which are detailed in this technical report. Firstly, we advocate for the implementation of the "Multiple Sensors System (MSS)" in the water drone propulsion system. This involves strategically placing all ailerons within the main body structure of the WATER DRONE PROPULSION SYSTEM MAR25. Additionally, the Water Drone Propulsion System MAR25features an innovative propeller design referred to as the "Silent Propeller System (SPS)." This system incorporates a potent motor within the main structure, accompanied by a series of specialized propellers that operate in precise synchronization to reduce noise levels by an impressive 99.5%. Furthermore, a cutting-edge concept called the "Sensibility Waves System (SWS)" is integrated, leveraging artificial intelligence for enhanced performance. In a bid for sustainability, the Water Drone Propulsion System MAR25 is equipped with storage box to support armies with suppliers and military equipment simultaneously. Notably, the Water Drone Propulsion System MAR25 is capable of carrying military suppliers, be it guns or munitions, in the field of action anytime and everywhere. Finally, its versatile capabilities render the Water Drone Propulsion System MAR25 indispensable for a wide array of military and natural disasters emergency missions. The fifth chapter introduces a groundbreaking prototype known as the "Water Drone Propulsion System MAR31." The Water Drone Propulsion System MAR31 boasts a range of distinctive features and applications, which are detailed in this technical report. Firstly, we advocate for the implementation of the "Multiple Sensors System (MSS)" in the MAR31. This involves strategically placing all 3 large motors within the main body structure of the MAR31. Additionally, the Water Drone Propulsion System MAR31 features an innovative propeller design referred to as the "Silent Propeller System (SPS)." This system incorporates 3 potent motors within the main structure, accompanied by a series of specialized propellers that operate in precise synchronization to reduce noise levels by an impressive 99.5%. Furthermore, a cutting-edge concept called the "Sensibility Waves System (SWS)" is integrated, leveraging artificial intelligence for enhanced performance. In a bid for sustainability, the Water Drone Propulsion System MAR31 is equipped with storage box to support armies with suppliers and military equipment simultaneously. Notably, the Water Drone Propulsion System MAR31 can supply any cargo anytime and everywhere. Finally, its versatile capabilities render the Water Drone Propulsion System MAR31 indispensable for a wide array of natural disasters emergency missions. The sixth chapter introduces a groundbreaking prototype known as the "Black Nightmare V.7." The Black Nightmare V.7 drone bombardier boasts a range of distinctive features and applications, which are detailed in this technical report. Firstly, we advocate for the implementation of the "Multiple Ailerons System (MAS) and Multi-Missiles System (MM-System)" in the Black Nightmare V.7 drone bombardier. This involves strategically placing all ailerons within the main body structure of the aircraft. Additionally, the Black Nightmare V.7 drone bombardier features an innovative propeller design referred to as the "Silent Propeller System (SPS)." This system incorporates a potent motor within the main structure, accompanied by a series of specialized propellers that operate in precise synchronization to reduce departure and landing noise levels by an impressive 99.5%. Furthermore, a cutting-edge concept called the "Sensibility Winds System (SWS)" is integrated, leveraging artificial intelligence for enhanced performance. In a bid for sustainability, the Black Nightmare V.7 drone bombardier is equipped with solar panels, ensuring a continuous charge to support its four powerful motors simultaneously. Notably, the Black Nightmare V.7 drone bombardier is capable of carrying four heavy bombs and three missiles (air-air). Finally, its versatile capabilities render the Black Nightmare V.7 drone bombardier indispensable for a wide array of military and national emergency missions. The seventh chapter presents an innovative military sea security defense system never introduced before. We present the first aquatic smart platforms carrier system (Hydronescarrier) and different aquatic smart platforms that is a vital part of the military equipment for the Hydronescarrier. We aim to present all the features and functionalities of this new military defense system, which can play an important role in defense and attack operations more quickly and efficiently. The Hydronescarrier includes an artificial intelligence system, autonomous defense systems, energy systems, and smart control systems. These components form a complex and dynamic defense system that provides immediate high-level protection to strategic areas, even at a distance. Some specifications are withheld for national security reasons. Additionally, this basic manual introduces the NeuronDrone-Box and Mega-NeuronDrone-Box: the hardware, algorithm, and a new special military Hydrone. In a special section, we like to mention that all algorithms in this basic manual use chaos theory and Econographicology. Subsequently, we present the groundbreaking prototypes known as the MAR107X aquatic smart platform, The MAR107Y aquatic smart platform, and the MAR107Z aqua...

Unmanned Marine Vehicles

Journal of Marine Science and Engineering, 2021

Water covers nearly 70% of the Earth’s surface, and throughout history, oceans, seas, lakes, rivers, etc [...]

IJERT-Unmanned Marine Vehicle for Disaster Management

International Journal of Engineering Research and Technology (IJERT), 2020

https://www.ijert.org/unmanned-marine-vehicle-for-disaster-management https://www.ijert.org/research/unmanned-marine-vehicle-for-disaster-management-IJERTV9IS090047.pdf The idea of the project was inspired by the floods in the State of Maharashtra in year 2019.The aim of the bot is to provide essential commodities like food, clothes and first aid in areas where human help is inaccessible during flood situations. Also, the bot would be instrumental in reducing the workload on the emergency services as it can be controlled by one person only. During floods, it becomes difficult to reach out to each and every flood affected person. In such situations, a remotely controlled vehicle can be of immense help for the aid to stranded people. Unmanned Marine Vehicle (UMV) can serve the purpose by swiftly detecting stranded people and providing them the necessary help. It can be controlled remotely and detect the stranded with help of the camera mounted on it. A CFD analysis, calculations for buoyancy and turbulent forces in water were performed. The UMV was put under a short testing period in which all its essential functions were tested. This UMV will help in flood situations to supply essentials in the least time possible and also to relieve the authorities by reducing manned risks.

Unmanned Surface and Underwater Vehicles

2007

: The introduction of unmanned vehicles may have serious consequences for naval operations. Therefore, in the future the Royal Netherlands Navy needs to have sufficient knowledge to be able to make sound decisions with respect to procurement and employment of such vehicles. The an earlier study research had already been carried out into unmanned aerial vehicles. In this project it was examined which defence capabilities can be carried out with unmanned surface and underwater vehicles. First an inventory of current and future unmanned vehicles and a subdivision into three categories were made. Next it was tried to project the listed vehicles on the capability list of the Royal Netherlands Navy. This appeared to be difficult, because for this study the capabilities were not detailed enough. Therefore, these capabilities were further subdivided into `subcapabilities', so next the suitability of the listed vehicles for those subcapabilities could be investigated.

Hybrid Drones for Military and Emergency Relief

This Electronic Mongraph (E-Monpgraph) is interested to present different hybrid drones prototypes and artificial intelligence (AI) algorithms using Econographicology (Ruiz Estrada, 2017) as the main analytical and theoretical framework to support the construction of all these prototypes and a set of AI algorithms subsequently. This E-Monograph is divided into seven chapters. The first chapter is the introduction of six chapters in analysis. The second chapter presents a new prototype is called “MR8-UAV.” The MR8-UAV has its unique and special features and applications are presented in this chapter. Firstly, we promote in this research the uses of “Internal Ailerons System (IAS).” We suggest to located all aleirons into the body of the main structure of MR8-UAV. At the same time, the MR8-UAV presents a new propeller design under the “Anti-noise Propeller System (APS).” The MR8-UAV keeps a powerful motor inside of its main structure with a serial of special propellers interconnected and working synchronized with high precision to avoid the noise in 97% in departure, flying, and landing respectively. Thirdly, a new concept of “Breaking Sensibility Winds System (BSWS)” under the uses of artificial intelligence. The use of MR8-UAV is unlimited for military, commercial, and national emergencies missions. This research presents an original UAV with unique features and military applications such as invisibility system under the uses of transparent fiber plastic together with a strong and light titanium structure) and a special and different types of propollers to generate full silence in missions of surveillance and spying military missions. third chapter shows a new UAV is called “Wind-MAR10”. Initially, the Wind-MAR10 has a large structure to facilitate to carry suffisticated camera systems and light weapons in case of defense or attak specific targets efficiently. The WIND-MAR10 can handle also to do it a deep evaluation of data of possible targets using artificial intelligence (AI). The Construction of the WIND-MAR10 is based on a high reception radio control system, modern GPS system, high reception antenna and radar systems, HD cameras (live), powerful batteries, high resistance ESC systems, and powerful electric motors to support large operations in case of any military conflict. The fourth chapter introduces the Multi-Disks Networks Autonomous Decisions Maker Artificial Intelligence Mapping (MNADMAI-Mapping) for Hydrones and Drones revolves around the efficacy of a multi-level mega-data analysis algorithm with the uses of a new mathematical and graphical approach as the most effective analytical control system to programming any UAV (Zenko, 2013) such as Hydrone (drones for water or under water) and Drone (air) missions. The main motivation behind the creation of the MNADMAI-Mapping for Hydrones and Drones is to offer a new artificial intelligence machine tool to evaluate and take auto-decisions in a possible war (Ashkenazi, 2016), warlike, domestic conflicts, or border problem militarily under a large list of possible military actions (defense or attack) efficiently. Thereby, the mission of the MNADMAI-Mapping for Hydrones and Drones is to offer to any army, navy, and air force an alternative artificial intelligence system (Leys, 2018). Fifth chapter presents a new hybrid propson system to generate a new way of impulse and ventilation, this prototype is supported by a main propeller (with a main motor) and sub-motors (2 motors or many motors) together in the same physical space to generate different ways of synergies to maimize a single propulsion simultaneously. This new prototype is called “The Multi-Motors Integrated Hybrid PropuIsion System - (MIHP-System)-.” The MIHP-System design revolves around the efficacy of a multi-level mega-data analysis algorithm is called MIHP-System evaluator with the uses of a new mathematical and graphical modeling as the most effective analytical tool to evaluate this specific propulsion system under a new experimental design efficiently. The sixth chapter presents two new smart hydrones in case of floods or Tsunami res-cue and relief operations anywhere and anytime. We have two models of smart hydrones such as the MAR21 smart hydrone and MAR17 smart hydrone. Initially, the MAR21 smart hydrone has a large structure to facilitate the carrying of food, medicines, and water to areas were affected severally by any flood or Tsunami. At the same time, the MAR21 smart hydrone can handle also to do it a deep cleaning service of any area was affected by a flood or Tsunami subsequently. Additionally, the MAR21 smart hydrone and MAR17 smart hydrone offers to government and humanitarian agencies an alter-native emergency maritime transportation system in case of floods or Tsunami disasters. The MAR21 smart hydrone and MAR17 smart hydrone construction is based on a high reception radio control system, a modern GPS system, high reception antenna and radar systems, HD cameras (live), powerful batteries, high resistance ESC systems, and pow erful electric motors to support large operation in case of a flood or Tsunami rescue and relief operations anytime. The design of the structure of the MAR21 smart hy-drone and MAR17 smart hydrone has special characteristics that can be adapted to any weather condition, temperature levels, and levels of water respective-ly. In fact, the cost of production of MAR21 smart hydrone and MAR17 Smart hydrone is relatively cheap and easy for his construction accord ing to this research. Finally, the seventh chapter shows the Multi-Level National Security Intelligence System (MNSI--System) revolves around the efficacy of multi-level mega-data analysis frameworks together with the uses of multidimensional graphs as the most effective analytical artificial intelligence learning machine tool to understand and solve any military and national security problems from a holistic approach. The main motivation behind the creation of the MNSI-System is to offer a new artificial intelligence learning machine tool to evaluate dynamic and complex possible war, warlike, domestic conflicts, or border problems militarily under a large list of possible strategies efficiently. Thereby, the mission of the MNSI-System is to offer army, navy, air force, intelligence, and governments an alternative artificial intelligence approach. Hence, the MNSI-System is offering a set of different types of multidimensional artificial intelligence learning machines tools are presented: the mega-dynamic disks coordinate space (vertical position and horizontal position) learning machine tool and the mega-disks networks mapping (MDN-Mapping) learning machine tool respectively.