Videos by Mario Arturo Ruiz Estrada
Un analisis del Impacto del Bitcoin en el Salvador, Centro America
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The first dialogue in the Asia Latin American Dialogues for year 2022 by Dr. Evangelos Koutronas.
The Asia Latin America Dialogues No.5 with Dr. Paola Sanoni
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This E-workshop tries to present in Latin America different issues about Asia from economics, soc... more This E-workshop tries to present in Latin America different issues about Asia from economics, social, political, and technological points of view. 4 views
First presentation of the Asia Latin America Dialogues in the Centre of Latin America Studies (CL... more First presentation of the Asia Latin America Dialogues in the Centre of Latin America Studies (CLAS)-UM by Dr. Erick Brenes Mata from Costa Rica. 18 views
Tenth presentation of the Asia Latin America Dialogues in the Centre of Latin America Studies (CL... more Tenth presentation of the Asia Latin America Dialogues in the Centre of Latin America Studies (CLAS)-UM by Professor Ramoneda from Universida Nacional de la Plata, Argentina. 16 views
The Asia Latin America Dialogues No.4 with Dr. Francis E. Hutchinson
The eighth Asia Latin America Dialogues by Professor Ritsuko Funaki from Chuo University, Tokyo, ... more The eighth Asia Latin America Dialogues by Professor Ritsuko Funaki from Chuo University, Tokyo, Japan. The nineth Asia Latin America Dialogues in the Centre of Latin America Studies (CLAS) at Universi... more The nineth Asia Latin America Dialogues in the Centre of Latin America Studies (CLAS) at University of Malaya by Ken-Ichi Akao from Waseda University, Tokyo, Japan. 10 views
The seventh Asia Latin America Dialogues in the Centre of Latin America Studies (CLAS) at Univers... more The seventh Asia Latin America Dialogues in the Centre of Latin America Studies (CLAS) at University of Malaya by Harry Antaraki. Second presentation of the Asia Latin America Dialogues in the Centre of Latin America Studies (C... more Second presentation of the Asia Latin America Dialogues in the Centre of Latin America Studies (CLAS)-UM by Dr. Evangelos Koutronas from West Virginia University. 9 views
The sixth Asia Latin America Dialogues in the Centre of Latin America Studies (CLAS) at Universit... more The sixth Asia Latin America Dialogues in the Centre of Latin America Studies (CLAS) at University pof Malaya by Alfredo Acosta Fonseca from ICAP. 7 views
The presentation of Professor Corrado Letta in the second Asia Latin America Dialogue for year 2022.
Seminrio electronico del Asia en Latinoamerica
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Third presentation of the Asia Latin America Dialogues in the Centre of Latin America Studies (CL... more Third presentation of the Asia Latin America Dialogues in the Centre of Latin America Studies (CLAS)-UM by Professor Neantro Saavedra-Rivano from Tsukuba University. 17 views
Papers by Mario Arturo Ruiz Estrada
Mantarraya Negra UAV, 2025
The Black Nightmare Bombardier V.7 internal Ailerons system is an advanced unmanned aerial vehicl... more The Black Nightmare Bombardier V.7 internal Ailerons system is an advanced unmanned aerial vehicle (UAV) integrating cutting-edge stealth, AI guidance, and vectoring aileron technology. With superior maneuverability, an extended operational range, and an innovative defensive missile system, this UAV redefines modern aerial combat capabilities.
UniKL, 2025
This paper explores the concept of economic desgrowth (defined as the opposite of economic growth... more This paper explores the concept of economic desgrowth (defined as the opposite of economic growth) resulting from import tariffs and their negative impact on a countrys economic growth performance. The research aims to demonstrate that import tariffs are more than just trade regulations or tools to restrict imports; they are also frequently employed to stimulate domestic production and job creation. However, this study examines how tariffs can also lead to a decline in overall consumption, which in turn significantly affects the formation of GDP. The primary objective is to analyse how import tariffs may contribute to rapid and uncontrolled economic desgrowth, potentially triggering a spiral of inflation that could escalate into hyperinflation and widespread unemployment. Finally, the paper evaluates the impact of import tariff-induced economic desgrowth in the specific context of U.S.-China trade relations.
UniKL, 2025
Este artículo explora el concepto de descrecimiento económico (definido como lo opuesto al crecim... more Este artículo explora el concepto de descrecimiento económico (definido como lo opuesto al crecimiento económico) resultante de los aranceles a las importaciones y su impacto negativo en el desempeño del crecimiento económico de un país. La investigación tiene como objetivo demostrar que los aranceles a las importaciones son más que simples regulaciones comerciales o herramientas para restringir las importaciones; también se utilizan frecuentemente para estimular la producción nacional y la creación de empleo. Sin embargo, este estudio examina cómo los aranceles pueden también provocar una disminución del consumo general, lo cual afecta significativamente la formación del PIB. El objetivo principal es analizar cómo los aranceles a las importaciones pueden contribuir a un descrecimiento económico rápido y descontrolado, potencialmente desencadenando una espiral inflacionaria que podría escalar hasta una hiperinflación y un desempleo generalizado. Finalmente, el artículo evalúa el impacto del descrecimiento económico inducido por los aranceles a las importaciones en el contexto específico de las relaciones comerciales entre Estados Unidos y China.
UniKL, 2025
This paper explores the concept of economic desgrowth (defined as the opposite of economic growth... more This paper explores the concept of economic desgrowth (defined as the opposite of economic growth) resulting from import tariffs and their negative impact on a countrys economic growth performance. The research aims to demonstrate that import tariffs are more than just trade regulations or tools to restrict imports; they are also frequently employed to stimulate domestic production and job creation. However, this study examines how tariffs can also lead to a decline in overall consumption, which in turn significantly affects the formation of GDP. The primary objective is to analyse how import tariffs may contribute to rapid and uncontrolled economic desgrowth, potentially triggering a spiral of inflation that could escalate into hyperinflation and widespread unemployment. Finally, the paper evaluates the impact of import tariff-induced economic desgrowth in the specific context of U.S.-China trade relations.
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Videos by Mario Arturo Ruiz Estrada
Papers by Mario Arturo Ruiz Estrada
The MAR107Y Hydrone Patrol has four powerful motors with two ESC75 connected to a powerful batteries. The MAR107Y Hydrone Patrol can use 4G or 5G reception systems for more coverage of reception and manoeuvrability. The MAR107Y Hydrone Patrol has one cameras that make it possible to catch up on live video or recorded videos simultaneously. Additionally, MAR107Y Hydrone Patrol has a high sound resolution speaker to communicate in insolate places and emergencies in far away places.
The MAR107Y Hydrone Patrol carries powerful lights and emergency lights (red colour) for its location and elimination in dark places. At the same time, the MAR107Y Hydrone Patrol keeps two propellers with a unique design.
The MAR107Y Hydrone Patrol is opening a new era in the construction of mixing robotics and UAVs from a holistic approach with a new design and electronic systems to make MAR107Y Hydrone Patrol a unique UAV to be used in sea, lakes, rivers, canals, or any water environment. The stability and speed of MAR107Y Hydrone Patrol make this machine a unique piece of engineering.
Finally, the MAR107Y Hydrone Patrol probes its efficiency in different environments and weathers its efficiency and capability without any problem and easy driving without any experience in the uses of conventional drones. The MAR107Y Hydrone Patrol can respond in critical times or emergencies.
The MAR107-X Aquadrone has two powerful motors with two ESC40 connected to a powerful battery. The MAR107-X Aquadrone can use 4G or 5G reception systems for more coverage of reception and manoeuvrability. The MAR107-X has two cameras that make it possible to catch up on live video or recorded videos simultaneously. Additionally, MAR107-X Aquadrone has a high sound resolution speaker to communicate in insolate places and emergencies in far away places.
The MAR107-X Aquadrone carries powerful lights and emergency lights (red colour) for its location and elimination in dark places. At the same time, the MAR107-X Aquadrone keeps two propellers with a unique design. The first propeller has seven propellers in 3 different levels integrated into a unique position. In the second MAR107-X Aquadrone propeller keeps three propellers in two different sections.
The MAR107-X Aquadrone is opening a new era in the construction of mixing robotics and UAVs from a holistic approach with a new design and electronic systems to make MAR107-X Aquadrone a unique UAV to be used in Sea, and lakes, rivers, canals, or any water environment. The stability and speed of MAR107-X Aquadrone make this machine a unique piece of engendering.
Finally, the MAR107-X Aquadrone probes its efficiency in different environments and weathers its efficiency and capability without any problem and easy driving without any experience in the uses of conventional drones. The MAR107-X Aquadrone can respond in critical times or emergencies.
The MAR107 Aquadrone has two powerful motors with two ESC40 connected to a powerful battery. The MAR107 Aquadrone can use 4G or 5G reception systems for more coverage of reception and manoeuvrability. The MAR107 has two cameras that make it possible to catch up on live video or recorded videos simultaneously. Additionally, MAR107 Aquadrone has a high sound resolution speaker to communicate in insolate places and emergencies in far away places.
The MAR107 Aquadrone carries powerful lights and emergency lights (red colour) for its location and elimination in dark places. At the same time, the MAR107 Aquadrone keeps two propellers with a unique design. The first propeller has seven propellers in 3 different levels integrated into a unique position. In the second MAR107 Aquadrone propeller keeps three propellers in two different sections.
The MAR107 Aquadrone is opening a new era in the construction of mixing robotics and UAVs from a holistic approach with a new design and electronic systems to make MAR107 Aquadrone a unique UAV to be used in Sea, and lakes, rivers, canals, or any water environment. The stability and speed of MAR107 Aquadrone make this machine a unique piece of engendering.
Finally, the MAR107 Aquadrone probes its efficiency in different environments and weathers its efficiency and capability without any problem and easy driving without any experience in the uses of conventional drones. The MAR107 Aquadrone can respond in critical times or emergencies.
Main Structure-8: Income and Poverty in formal and informal sectors; (ix) Main Structure-9: Public Sector (public transportation, security, health, welfare programs, and taxation); (x) Main Structure-10: Others (historical, customs, habits, religion, values, and anthropological). The objective of the GCD-Index is to offer policymakers a new analytical tool to assess urban development from a multidimensional perspective. The GCD-Index is a flexible and straightforward indicator that can be applied to analyze the development of any city. We apply the GCD-Index to study the development of Tokyo, Japan, between 2000 and 2019 to provide
a sense of how the index can be used to assess the progress of integrated and sustainable urban development in a megacity.
between two players for the generation of favorable conditions in a joint venture. Subsequently, the success of any joint-venture according to this research depends on the effort to work hard by the weak player and sacrifice welfare from the stronger player. In the Beginning, this study assumes that different players need to agree with some initial
talks. In fact, both players can start a formal discussion to find the suitable point of balance in the process to consolidate a joint-venture. Nevertheless, the division between players always depends on the opportunity cost and incentives in the process of negotiation.
The third phase is the measurement of the full free trade area agreement trend (FFTAA-Trend) index. The last phase is the measuring of the full free trade area agreement stage (FFTAA-Stage) index. Finally, we propose a mechanism to generate the favorable conditions for a possible full free trade area between Mexico and Malaysia, it is called MX-MY-FFTAA.
and future of policy modeling from both qualitative and
quantitative perspectives. Over the years the focus of the policy
modeling literature has changed. The changes encompassed
research topics, approaches, techniques, theories, methods, and
analytical tools that are required for the rigorous analysis of
complex and dynamic economic phenomena in policy modeling.
At the same time, this workshop aims to introduce a method of
classifying and evaluating policy modeling. An analytical tool called
“Policy Modeling Consistency (PMC-Index)” has been developed
for the purpose of evaluating policy modeling. Hence, the PMCIndex enables policymakers and researchers to identify the level of
consistency as well as the strengths and weaknesses within any
policy modeling. Through the PMC-Index, this workshop
promotes multidisciplinary approach to policy modeling and
suggests that various possible effects of any economic policy can be
shown using a multi-dimensional modeling approach means.
Dimensional space (X,Y) and 3-Dimensional space (X,Y,Z) can
only show a micro-picture in the visualization of complex
and dynamic economic phenomena.
• Hence, the hypothesis of this research paper is that the 2-
Dimensional and 3-Dimensional spaces are a micro-slice of
the huge Mega-space or Universe into a fixed period of
time and common space.
• Therefore, to test the hypothesis in mention, this research
paper suggests the application of an alternative multidimensional graphical modeling that is called “the MegaSpace Cartesian Plane”.
income distribution and poverty in China. This is based on the
application of a special 3-Dimensional mapping system under
the uses of Mathematica software version 8.0 to observe the
income and poverty distribution in all China. Hence, the main
objective of this paper is to build a large number of maps and
equations that can show the real situation in the income
distribution and poverty of China. Finally, this paper tries to find
all possible weaknesses and vulnerabilities that the income
distribution and poverty can generate on the Chinese economy
in the long run. At the same time, the generation of possible
policies to benefit far areas of China. In our case, we study the
income distribution and poverty from an economic, historical,
cultural, environmental, social, political and technological
perspective.
The first part will present a new model of analysis to evaluate how the port cargo openness, the productivity level, the cargo expansion, and the technological change adaptability can affect directly on the marginal port productivity growth rate performance. This new model of analysis is entitled “the ports growth performance evaluation model (PGPE-Model)”. The objective of the PGPE-Model is to offer policy makers and researchers new analytical tools to study the impact and trend of
ports performance from a new perspective. The PGPE-Model application is not limited to the study of a special group of ports. It is not constrained by issued about the geographical area or development stage of the port. The PGPE-Model, in effects, is a simple and flexible scheme.
The second part of this paper shows the results obtained by the application of PGPE-Model on different ports at Singapore, Malaysia, South Korea, Japan and China. The PGPE-Model general objective is to measure the evolution and vulnerability of the ports performance.
Guatemala was used to illustrate the applicability of the model from where analyses provide a coherent evaluation of the degree to which crime can affect a country’s economic performance.
The third chapter introduces the Mega-Kinetic-Disks Coordinate System (MKD-Coordinate System) introduces a novel approach to evaluating dynamic and complex phenomena across different levels. It involves infinite variables interconnected within the same graphical space, operating at varying speeds of time through the utilization of kinetic energy in different sectors to achieve harmony. The central concept behind the MKD-Coordinate System revolves around the effectiveness of multidimensional graphs as the most powerful visual tool for comprehending natural phenomena from a multidimensional viewpoint. Consequently, the mission of the MKD-Coordinate System is to provide academics, researchers, and policymakers with an alternative multidimensional graphical modeling approach for the study and teaching-learning process of sciences from a comprehensive perspective.
The chapter fourth purposes the uses of an alternative Simulator. It is called “The Space Cubic Warp Effect Simulator (SCWE-Simulator)”. The main objective of the SCWE-Simulator is to evaluate s[ace and time under the uses of a large number of exogenous variables and endogenous variables that interacting together in the same graphical space framework. Hence, our final target is to observe HOW any crisis of any natural phenomenal under certain circumstances and environments through the visualization of a cube that keep in constant movement and warp stage all the time. Finally, the evaluation of a natural or social crisis depends on the position and size that the cube is going to occupied in the SCWE-Simulator.
The fifth chapter introduces the uses of the global crisis smash effect simulator as a theoretical framework to evaluate the final effects of any natural phenomena behaviour. We present different scenarios and results according to different levels of devastation that the global crisis can generate in space and time. The global crisis smash effect simulator requires the use of multidimensional modeling in real time to visualize different scenarios and evaluate the final impact of any natural phenomena crisis.
The chapter sixth will present a short introduction about empty-spaces that exist into the mega-space by offer a basic mathematical and graphical modeling. The first part of this chapter reviews the literature review about dimension and coordinate systems (Cartesian plane and coordinate space). The second part of this chapter will present an introduction to the theory of empty-spaces.
The chapter seventh introduces the is interested to make a short review about the general theory of relativity by Professor Albert Einstein from a geometrical perspective. The same chapter also proposes an alternative co-ordinate system to study time and space from a multi-dimensional perspective, it is entitled “The Mega Space-Time Continuum”.
The chapter eighth, we demonstrate mathematically through the use of multidimensional partial derivatives and integrals that the time and light are the same phenomena. According to this research, the space is the unconditional channel to materialize time by using light as the perfect parameter to measure time respectively. Hence, the idea of time in the Megasverses (Ruiz Estrada, 2011) can confirm that the concept of light implies a new way to understand time. At the same time, If the light is running at different speeds through different multi-dimensional spaces, then we can observe that the intensity of light can help to quantify time perfectly. Finally, the final conclusion in this research chapter is that light is time.
The chapter nineth aims to present a new mathematical proof to demonstrate that the perfect interconnectivity of a series of sticks can enable them to float or move on any liquid or ice surface more efficiently and for longer durations. Furthermore, this research opens up new opportunities for applications in space exploration, particularly in non-gravitational environments. It proposes innovative designs for specialized sticks that can ensure optimal allocation and resistance at various altitudes and pressure levels without restrictions or constraints on their usability. Finally, we called to this mathematical framework the Theory of Integrated Sticks.
The chapter tenth introduces a new conceptualization of light. Many existing theories attempt to explain the complex natural phenomena associated with light. We have divided the discussion of light theories into five sections, each addressing different perspectives on light: (a) Ancient theories, (b) Classical theories, (c) Quantum theories, (d) Modern theories, and (e) Emerging theories. Subsequently, we propose a new theory of light, describing it as a multidimensional kinetic magnetic field. This field consists of randomly interacting particles that spread and behave chaotically across an infinite number of mini-dimensions. These dimensions form a continuous series of nano-disks that are interconnected and constantly evolving through unstoppable reactions. These reactions generate self-sustaining energy fields that are perpetually in motion, undergoing unpredictable and dynamic transformations within unfixed patterns. The new theory will be referred to as the Multidimensional Light Refractions Theory (MLR-Theory). The MLR-Theory emphasizes the chaotic and multidimensional behaviour of light. Finally, we have constructed an experimental bulb to probe this theory. This bulb is called the Clean Light Transversal Multidimensional Disks.
The chapter eleventh introduces a new multidimensional graphical model to visualize the behaviour of nuclear fusion chain reactions from a multidimensional perspective. Existing theories often attempt to represent nuclear fusion graphically using two dimensions (X, Y) or three dimensions (X, Y, Z). To provide context, we begin with a brief overview of atomic fusion theories to establish a general understanding of this complex and dynamic phenomenon. Next, we discuss examples of graphical approaches commonly applied to atomic fusion theories. Finally, we propose an alternative multidimensional graphical model for visualizing nuclear fusion: the Multidimensional Atomic Chain Reaction Graphical Modeling (MACRG-Modeling).
Finally, the chapter twelfth goes beyond the conventional understanding of time, exploring the concept of exponentially infinite times, each operating within distinct spatial dimensions and temporal frameworks. Our conception of time diverges significantly, as we propose the existence of multiple "times." These varying temporal dimensions across different universes allow for approximate calculations, which can help in understanding complex natural phenomena like black holes within the Megasverses. We assume that different timelines fluctuate according to various regions of the Megasverses. Finally, the multiple times operating across the Megasverses are unified under a new concept we call "Transfiguration Time." We aim to demonstrate that negative time does not exist; rather, time undergoes different transfigurations within itself.
Additionally, the MGML-Manifolds integrate the MGML-Index and real GDP performance (Ɍ) to complement the analysis, offering insights into how inflation and unemployment jointly impact GDP performance in both the short and long run. The fifth chapter introduces a novel approach to evaluating the relationship between inflation and unemployment—two critical macroeconomic indicators—that departs from traditional models such as the Phillips curve. The proposed framework is called the Multidimensional Dynamic Interconnected Inflation-Unemployment Coordinate Space (MDIIU-Coordinate Space), designed to model the Macroeconomic Growth Massive Leaking Space Manifolds (MGML-Manifolds). The MGML-Manifolds unify inflation and unemployment into a single economic indicator, enabling the study and visualization of these two variables as an integrated whole. The MDIIU-Coordinate Space employs an innovative graphical approach with a unique coordinate system that incorporates two dependent (endogenous) variables—inflation and unemployment—interconnected with an infinite number of independent (exogenous) variables to construct the MGML-Manifolds. These exogenous variables, which include domestic and external economic, social, political, and technological factors, are dynamic and change in real-time within the same graphical space. The primary objective of this framework is to interconnect the two dependent variables with an extensive array of independent variables, exploring how these exogenous factors can directly or indirectly influence inflation and unemployment, either independently or simultaneously. We propose that while inflation and unemployment are distinct economic phenomena with their own underlying dynamics, both have similar negative effects on economic performance. The relationship between these variables can manifest as either an inverse or direct proportional relationship, depending on whether inflation or unemployment is contracting or expanding, individually or collectively. Additionally, the MGML-Manifolds integrate the MGML-Index and real GDP performance (Ɍ) to complement the analysis, offering insights into how inflation and unemployment jointly impact GDP performance in both the short and long run. The sixth chapter provides an overview of the role of humanoid robots (HR) in the economy from a macroeconomic perspective. In the first section, we present a general introduction to robots. The second section offers a brief history of robots. The third section focuses on the basic requirements for building a humanoid robot (HR). In the fourth section, we delve into a microeconomic analysis of the impact of humanoid robots (HR) on firms, specifically regarding cost, revenue, and profit maximization. In the fifth section, we evaluate from a macroeconomic view, we assess the impact of humanoids robots (HR) on the productivity, unemployment, inflation, economic growth, income distribution, and international trade. Additionally, this research emphasizes that humanoid robots (HR) are likely to create two possible outcomes, both of which require two mechanisms. We highlight key aspects of the emerging role of humanoid robots (HR) as a potential and effective substitute for human labour across various production sectors in the economy, as well as the profound changes occurring in the macroeconomic performance of any country. Finally, the seventh chapter This conceptual paper introduces a new econometric approach that, for the first time, demonstrates how two dependent (endogenous) variables, denoted as (Y), influenced by an infinite number of independent (exogenous) variables (Xi), can be represented on two separate axes within the same coordinate system. This innovative mathematical and graphical method provides a unique way to analyse and evaluate two phenomena simultaneously within a single graphical space. The proposed model is called the "Dual-Endogenous Multi-Exogenous Integrated Model (DEMEI-Model)." To illustrate, we use this model to examine the interaction between inflation and unemployment from a multidimensional perspective. While demonstrated here in economic analysis, this statistical method can be applied broadly across both natural and social sciences. Finally, the DEMEI-Model is applied to microeconomics, focusing on demand and supply analysis as a case study.
Finally, the fifth chapter introduces a new economic simulator in the case of a war, this new economic simulator is entitled “The Post-War Economic Impact Simulator (PEI-Simulator).” The PEI-Simulator assesses the economic impacts of countries thorough the possible scenario of a partial or full war in three different stages: (i) pre-war stage; (ii) war stage; (iii) post-war stage. The analysis makes use of different indicators such as economic desgrowth from war (-δwar), war intensity (I), war losses (-Lwar), economic wear from war (Πwar), level of war tension (Twar), level of diplomatic negotiations (D), and the total economic leaking from war (Ωwar). Lastly, this research applies the PEI-Simulator to evaluate a possible full war between Russia and Ukraine.
The third chapter introduces a groundbreaking prototype known as the "MR12-UAV Bombardier." The MR12-UAV 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)" in the MR12-UAV Bombardier. This involves strategically placing all ailerons within the main body structure of the aircraft. Additionally, the MR12-UAV 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 MR12-UAV Bombardier is equipped with solar panels, ensuring a continuous charge to support its four powerful motors simultaneously. Notably, the MR12-UAV Bombardier is capable of carrying two heavy payloads, be it bombs or missiles, for both air-land and air-sea operations. Finally, its versatile capabilities render the MR12-UAV Bombardier indispensable for a wide array of military and national emergency missions.
The chapter fourth introduces a groundbreaking prototype named the "Auto-position Sensorial Surface Anti-Turbulence System (ASSA-System)" integrated into the construction of the MRNSP-V.8-UAV. This report comprehensively outlines the unique features and diverse applications of the MRNSP-V.8-UAV. First and foremost, we advocate for the implementation of the "Internal Ailerons System (IAS)" in this research. We propose the incorporation of all ailerons within the main structural body of the MRNSP-V.8-UAV. Concurrently, the MRNSP-V.8-UAV showcases a novel propeller design under the "Anti-noise Propeller System (APS)." The ASSA-System houses a potent motor within its primary structure, along with a series of specialized propellers intricately synchronized to achieve a remarkable noise reduction of 97% during departure, flight, and landing. Additionally, we introduce a pioneering concept: the "Breaking Sensibility Winds System (BSWS)," leveraging the capabilities of artificial intelligence. The versatility of the auto-positioning sensorial surface anti-turbulence system (ASSA-System) extends to military applications and national relief efforts in the event of natural disasters.
The fifth chapter introduces the innovative prototype known as the "MR1-UAV," outlining its distinctive features and diverse range of applications. A primary focus of this study is the implementation of the "Quiet Propeller System (QPS)." The MR1-UAV integrates a robust motor within its core structure, coupled with a series of specialized propellers meticulously synchronized to significantly reduce noise levels by 97% during departure, flight, and landing phases. Additionally, a pioneering concept of the "Ultra-sensitivity Winds System (UWS)" is proposed, leveraging artificial intelligence for enhanced performance. The versatility of the MR1-UAV extends to encompass military, commercial, and critical national emergency missions.
The chapter sixth shows the MULTICOPTER MR10-UAV concept, employing a strategically arranged set of propellers within a unified structure (Jones, 2017). This configuration maximizes energy efficiency during takeoff and minimizes impact forces during landing. By closely interconnecting ten propellers, a unique and harmonized propulsion system is achieved, enabling rapid and secure flight. The MULTICOPTER MR10-UAV incorporates an integral propeller system known as the "Closely Integrated Propeller System (CIPS)" (Refer to Figures 1, 2, 3, 4, and 11). This design integrates ten robust motors, each equipped with an independent battery, enhancing its flight endurance. These motors operate in synchronized harmony with high precision, resulting in a 99% reduction in departure and landing noise levels. Moreover, the MR10-UAV boasts the capacity to transport substantial payloads reliably and efficiently. Its versatility extends to a wide array of applications, including but not limited to commercial ventures, logistical operations, military endeavors, and responding to national emergencies.
Finally, the chapter seventh introduces the Multi-Level Drones National Intelligence Security System (CORAZA-System). We evaluate the effectiveness of multi-level mega-data analysis frameworks, coupled with the utilization of multidimensional graphs as a potent analytical tool within artificial intelligence. This approach offers a holistic perspective in comprehending and addressing complex military and national security challenges. The primary impetus behind the development of the CORAZA-System is to provide a novel artificial intelligence tool capable of efficiently assessing dynamic and intricate scenarios, including potential wars, conflicts, and border issues. This tool aims to evaluate diverse strategies in a comprehensive manner. Consequently, the CORAZA-System endeavors to furnish armed forces, intelligence agencies, and governments with an alternative artificial intelligence approach.
The fifth chapter is interested to evaluate the impact of 2019 novel coronavirus (COVID-19) and its final impact on the tourism, air transportation, international trade, and electricity consumption at China. We are considering to evaluate the case of COVID-19 in China. We are taking in consideration the case of COVID-19 to be evaluated from a macroeconomic perspective. In this research paper, we also propose to use the economic crisis from a massive contagious infection diseases simulator (ECMCID-Simulator) subsequently. Hence, the ECMCID-Simulator tries to show a macro-dynamic analysis with different possible scenarios simultaneously. Finally, the ECMCID-Simulator was applied to the case of 2019 novel coronavirus (COVID-19) at China respectively. The chapter sixth examines how to evaluate corruption based on the socio-economic development leakage that any country can experience in different historical periods. It is based on a new indicator entitled” The Massive Socio-Economic Development Leakage from Corruption Index (∂-n-Index).” This index includes a new set of calculations such as (i) The inflation/poverty input-output table (IPIO-Table); (ii) total socio-economic development surplus or deficit (SE+ or SE-); (iii) socio-economic development leakage (-δ) and welfare (+δ); (iv) socio-economic development desgrowth (Ð); (v) socio-economic development box. Therefore, the main objective of this research is to evaluate corruption from an alternative approach. Finally, we suggest to apply the Massive Socio-Economic Development Leakage from Corruption Index (∂-n-Index) in the case of Guatemala from year 1986 to year 2023. The purpose of chapter seventh is to propose the application of a simulator, the Cryptocurrency Vulnerability Evaluator (CV-Evaluator), designed to assess the susceptibility of cryptocurrencies to a range of economic and geopolitical challenges. These include deep financial crises, conflicts, inflation, unemployment, economic contraction, corruption, significant trade imbalances, natural disasters, and pandemics. The primary aim of the CV-Evaluator is to provide insights into the vulnerability of a cryptocurrency under diverse circumstances, enabling informed decisions regarding the optimal times for buying or selling. This assessment is facilitated through the use of varying risk levels, visualized within a constantly shifting and evolving cube framework. Subsequently, the CV-Evaluator employs Bitcoin as a case study to validate the effectiveness and applicability of our simulator. This choice is driven by Bitcoin's established status and its extensive historical data, rendering it a suitable experimental laboratory for this purpose.
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.