Mirable Quist
I am a Post Doctorate Engineering Student, Founder / Director / Chief Executive Officer / Lecturer of Aeronautics society RBG.
Supervisors: 1. ENGINEER GORGE SARPONG NSIA LECTURER: AIT -OUM (ACCRA INSTITUTE OF TECHNOLOGY – OPEN UNIVERSITY OF MALAYSIA) P. O. Box AN- 19782, ACCRA NORTH GHANA. EMAIL: sarpongnsiageorge@yahoo.com MOBILE NUMBER: 00233205885502 .2. BAATUOMU B. CRISTIAN P. O. BOX 308, ER. EMAIL: bayellingchris@gmail.com or chris@newlifecollege.edu.gh MOILE UMER: 00233243045440 / 00233262045440 / 00233204109919 .3.PROFESSOR AMEVI ACKAKPOVI ACCRA TECHNICAL UNIVERSITY CHANCELLOR, ACCRA TECHNICAL UNIVERSITY, ACCRA - GHANA. EMAIL: ackakpovia@gmail.com MOBILE NUMBERS: 00233200393112 / 0023354218706/ 00233548220970 .4. PROFESSOR KESTER QUIST – APHETSI HUMAN RIGHT ACTIVISTS AND CRYPTOLOGIST. LECTURER/RESEARCHER/HOD IT DEPARTMENT AND COMPUTING MARYSON COLLEGE, and CAPCOAST AND GHANA TELECOM UNIVERSITY IN ACCRA DEAN OF GRADUATE STUDIES. FIVE ELEMENTS MA
Phone: +233542201875
Supervisors: 1. ENGINEER GORGE SARPONG NSIA LECTURER: AIT -OUM (ACCRA INSTITUTE OF TECHNOLOGY – OPEN UNIVERSITY OF MALAYSIA) P. O. Box AN- 19782, ACCRA NORTH GHANA. EMAIL: sarpongnsiageorge@yahoo.com MOBILE NUMBER: 00233205885502 .2. BAATUOMU B. CRISTIAN P. O. BOX 308, ER. EMAIL: bayellingchris@gmail.com or chris@newlifecollege.edu.gh MOILE UMER: 00233243045440 / 00233262045440 / 00233204109919 .3.PROFESSOR AMEVI ACKAKPOVI ACCRA TECHNICAL UNIVERSITY CHANCELLOR, ACCRA TECHNICAL UNIVERSITY, ACCRA - GHANA. EMAIL: ackakpovia@gmail.com MOBILE NUMBERS: 00233200393112 / 0023354218706/ 00233548220970 .4. PROFESSOR KESTER QUIST – APHETSI HUMAN RIGHT ACTIVISTS AND CRYPTOLOGIST. LECTURER/RESEARCHER/HOD IT DEPARTMENT AND COMPUTING MARYSON COLLEGE, and CAPCOAST AND GHANA TELECOM UNIVERSITY IN ACCRA DEAN OF GRADUATE STUDIES. FIVE ELEMENTS MA
Phone: +233542201875
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Papers by Mirable Quist
Drones includes: Autonomous Flight, Enhanced Data Collection. UAVs or Unmanned Aerial
Vehicles are aircraft operated without a human pilot on board. They can be remotely controlled
or fly automatously using pre-programmed flight plans or more complex dynamic automation
systems. Why UAVs? Agility and maneuverability. Cost-effectiveness compared to manned
aircraft. Access to hazardous or remote areas. smaller in size and can achieve great speeds.
Understanding Artificial Intelligence (AI). AI is Simulation of human intelligence in machines,
enabling systems to learn, reason, make decisions. Key Areas for Drones: Machine learning,
Algorithms learning from data and Computer vision: Enabling drones to "see" and understand.
AI in Action: Empowering Drones. Applications: Search and Rescue. Search and Rescue with AI
includes: Rapid coverage of large areas. Thermal imaging for finding people. Facial recognition
for missing person identification (consider ethnical implications). Applications: Precision
Agriculture. Revolutionizing Agriculture: Crop health monitoring: Identifying diseases and
deficiencies. Precision Spraying: Optimize pesticide and fertilizer use. Automated field mapping
and yield estimation. Applications: Infrastructure Inspection. Infrastructure Inspection with AI
includes: Access to hard-to-reach areas. AI - powered damage detection (cracks, corrosion).
Faster and more cost-effective inspections. Applications: Delivery Drones. The Future Delivery:
Autonomous deliveries to remote areas. Faster and more efficient delivery items. Considerations:
Safety, regulation, public perception. The Future of AI and Drones; Integration with LIDAR, 5G
for enhanced capabilities. Expanding to disaster response, environmental monitoring, planetary
exploration. Addressing ethical considerations (privacy, security). AI is revolutionizing UAV
capabilities. Vast potential for various industries. Exciting future with endless possibilities
Drones includes: Autonomous Flight, Enhanced Data Collection. UAVs or Unmanned Aerial
Vehicles are aircraft operated without a human pilot on board. They can be remotely controlled
or fly automatously using pre-programmed flight plans or more complex dynamic automation
systems. Why UAVs? Agility and maneuverability. Cost-effectiveness compared to manned
aircraft. Access to hazardous or remote areas. smaller in size and can achieve great speeds.
Understanding Artificial Intelligence (AI). AI is Simulation of human intelligence in machines,
enabling systems to learn, reason, make decisions. Key Areas for Drones: Machine learning,
Algorithms learning from data and Computer vision: Enabling drones to "see" and understand.
AI in Action: Empowering Drones. Applications: Search and Rescue. Search and Rescue with AI
includes: Rapid coverage of large areas. Thermal imaging for finding people. Facial recognition
for missing person identification (consider ethnical implications). Applications: Precision
Agriculture. Revolutionizing Agriculture: Crop health monitoring: Identifying diseases and
deficiencies. Precision Spraying: Optimize pesticide and fertilizer use. Automated field mapping
and yield estimation. Applications: Infrastructure Inspection. Infrastructure Inspection with AI
includes: Access to hard-to-reach areas. AI - powered damage detection (cracks, corrosion).
Faster and more cost-effective inspections. Applications: Delivery Drones. The Future Delivery:
Autonomous deliveries to remote areas. Faster and more efficient delivery items. Considerations:
Safety, regulation, public perception. The Future of AI and Drones; Integration with LIDAR, 5G
for enhanced capabilities. Expanding to disaster response, environmental monitoring, planetary
exploration. Addressing ethical considerations (privacy, security). AI is revolutionizing UAV
capabilities. Vast potential for various industries. Exciting future with endless possibilities
those aspect of Human Health including quality of life, that are determined by physical,
biological, social and psychological factors on which can potentially affect adversely the health
of presents and future generations of human being. Environmental health science studies the
impact of humans on environment while environmental health studies the impact of the
environment on human health. Environmental science deals with impact of human activities on
environment, it is multidiscipline science which involves Physics, Chemistry, life science,
Ecological Sciences, Agriculture Science and so on. Different Type of Environments: Biotic
environment: All the living things including plants, animals, microorganisms inside or outside
our bodies. Abiotic Environment: All non-living things such as climate, air, soil, water, minerals
etc. Man made Environment: It includes all the things made or created by human beings such as
buildings, vehicles, synthetic chemicals, industrial equipment etc. Earth’s Environment is made
up of….1. Atmosphere: It includes thick Gaseous mantle surrounding the Earth. It spread up to
300 km above the earth surface. Apart from naturally occurring gases it also includes water
vapor, industrial gases and even microorganisms etc. 2. Biosphere: It includes the part of it which
contains all the living organisms. 3. Lithosphere: it includes the solid shell of any rocky planet in
case of earth. a. The Core: Innermost layer of earth which is 3500km in radius. b. The mantle:
middle layer of earth’s Lithosphere 2900km in thickness. cThe Crust floats on top of the mantle and is outermost layers. 0-100km thick. 4.Hydrosphere: it
includes all of the water inside the surface or outside the surface of the earth. Components of
our External Environment: Physical: Air, water, soil, housing, climate, geography, heat,
debris, radiation etc. Psychosocial; Culture values, customs, Beliefs, habits, attitudes, morals,
religion, education, lifestyle, health system, community life, social, and political organization.
Biological; Viruses, bacteria, algae & fungi, insects, rodents, animals and plants etc. Impact of
Environmental Factors on Human Health: Environmental factors or pollutants on cause
various health problems like metal illness, respiratory diseases, heart disease and some type of
cancer. Similarly, people with low incomes are more likely to live in polluted areas unsafe
drinking water. A. Population Imbalance: The rapid uncontrolled increase in population in one
part of the world while declining in aging population in other parts of the world has become a
major problem for the environmental health scientists. The regions of the world with lower GDP
per capita are witnessing and uncontrolled population explosion which is creating joblessness,
increase in crime, poor health condition of the community overall, unequal distribution of
resources among the populace. The poorer countries already struggling with the economic
overburdened each year with ever increasing number of young people whose needs are
unfulfilled. results in poor quality of life. While at the same time developed countries in the
world are witnessing an altogether opposite problem. Population Imbalance: In developed
countries the birth rates have been decreasing trends from last 03 or 04 decades resulting in labor
shortage, lack of skilled labor, ageing population, very low birth rates of local communities
resulting in demographic shifts in population etc
– made, and technology `hazards (gas leaks, oil splits, nuclear melt downs, and industrial fires). Disaster resilience is the ability of individuals, communities, organizations and states to adapt to and recover from hazards, shocks or stresses without compromising long term prospects for development. Disaster Risk Management is about organizing and directing resources to cope with both natural and human made disasters by dealing with all four phases disasters: Disaster Risk Management Phases includes Preparedness, Response, Recovery and Prevention / Mitigation. Preparedness is a pre disaster ongoing process in which individuals, communities, government, and organizations plant to better respond and cope with the disaster by minimizing ensures the
highest level of readiness. Response is defined as the actions taken to decrease mortality and
morbidity, and to prevent further property damage when the hazard occurs. Response is putting
preparedness plans into action. Recovery is defined as the actions taken to return to normal following a disaster During the recovery phase the individual, communities, government, and institutions start working to return to normal after a disaster, relying on their own skills, experience and resources to rebuild their lives onset of the emergency and the reconstruction period. Prevention is to ensure that human action or natural phenomena do not result in disaster or emergency
– made, and technology `hazards (gas leaks, oil splits, nuclear melt downs, and industrial fires). Disaster resilience is the ability of individuals, communities, organizations and states to adapt to and recover from hazards, shocks or stresses without compromising long term prospects for development. Disaster Risk Management is about organizing and directing resources to cope with both natural and human made disasters by dealing with all four phases disasters: Disaster Risk Management Phases includes Preparedness, Response, Recovery and Prevention / Mitigation. Preparedness is a pre disaster ongoing process in which individuals, communities, government, and organizations plant to better respond and cope with the disaster by minimizing ensures the
highest level of readiness. Response is defined as the actions taken to decrease mortality and
morbidity, and to prevent further property damage when the hazard occurs. Response is putting
preparedness plans into action. Recovery is defined as the actions taken to return to normal following a disaster During the recovery phase the individual, communities, government, and institutions start working to return to normal after a disaster, relying on their own skills, experience and resources to rebuild their lives onset of the emergency and the reconstruction period. Prevention is to ensure that human action or natural phenomena do not result in disaster or emergency
Drafts by Mirable Quist
Drones includes: Autonomous Flight, Enhanced Data Collection. UAVs or Unmanned Aerial
Vehicles are aircraft operated without a human pilot on board. They can be remotely controlled
or fly automatously using pre-programmed flight plans or more complex dynamic automation
systems. Why UAVs? Agility and maneuverability. Cost-effectiveness compared to manned
aircraft. Access to hazardous or remote areas. smaller in size and can achieve great speeds.
Understanding Artificial Intelligence (AI). AI is Simulation of human intelligence in machines,
enabling systems to learn, reason, make decisions. Key Areas for Drones: Machine learning,
Algorithms learning from data and Computer vision: Enabling drones to "see" and understand.
AI in Action: Empowering Drones. Applications: Search and Rescue. Search and Rescue with AI
includes: Rapid coverage of large areas. Thermal imaging for finding people. Facial recognition
for missing person identification (consider ethnical implications). Applications: Precision
Agriculture. Revolutionizing Agriculture: Crop health monitoring: Identifying diseases and
deficiencies. Precision Spraying: Optimize pesticide and fertilizer use. Automated field mapping
and yield estimation. Applications: Infrastructure Inspection. Infrastructure Inspection with AI
includes: Access to hard-to-reach areas. AI - powered damage detection (cracks, corrosion).
Faster and more cost-effective inspections. Applications: Delivery Drones. The Future Delivery:
Autonomous deliveries to remote areas. Faster and more efficient delivery items. Considerations:
Safety, regulation, public perception. The Future of AI and Drones; Integration with LIDAR, 5G
for enhanced capabilities. Expanding to disaster response, environmental monitoring, planetary
exploration. Addressing ethical considerations (privacy, security). AI is revolutionizing UAV
capabilities. Vast potential for various industries. Exciting future with endless possibilities
Drones includes: Autonomous Flight, Enhanced Data Collection. UAVs or Unmanned Aerial
Vehicles are aircraft operated without a human pilot on board. They can be remotely controlled
or fly automatously using pre-programmed flight plans or more complex dynamic automation
systems. Why UAVs? Agility and maneuverability. Cost-effectiveness compared to manned
aircraft. Access to hazardous or remote areas. smaller in size and can achieve great speeds.
Understanding Artificial Intelligence (AI). AI is Simulation of human intelligence in machines,
enabling systems to learn, reason, make decisions. Key Areas for Drones: Machine learning,
Algorithms learning from data and Computer vision: Enabling drones to "see" and understand.
AI in Action: Empowering Drones. Applications: Search and Rescue. Search and Rescue with AI
includes: Rapid coverage of large areas. Thermal imaging for finding people. Facial recognition
for missing person identification (consider ethnical implications). Applications: Precision
Agriculture. Revolutionizing Agriculture: Crop health monitoring: Identifying diseases and
deficiencies. Precision Spraying: Optimize pesticide and fertilizer use. Automated field mapping
and yield estimation. Applications: Infrastructure Inspection. Infrastructure Inspection with AI
includes: Access to hard-to-reach areas. AI - powered damage detection (cracks, corrosion).
Faster and more cost-effective inspections. Applications: Delivery Drones. The Future Delivery:
Autonomous deliveries to remote areas. Faster and more efficient delivery items. Considerations:
Safety, regulation, public perception. The Future of AI and Drones; Integration with LIDAR, 5G
for enhanced capabilities. Expanding to disaster response, environmental monitoring, planetary
exploration. Addressing ethical considerations (privacy, security). AI is revolutionizing UAV
capabilities. Vast potential for various industries. Exciting future with endless possibilities
those aspect of Human Health including quality of life, that are determined by physical,
biological, social and psychological factors on which can potentially affect adversely the health
of presents and future generations of human being. Environmental health science studies the
impact of humans on environment while environmental health studies the impact of the
environment on human health. Environmental science deals with impact of human activities on
environment, it is multidiscipline science which involves Physics, Chemistry, life science,
Ecological Sciences, Agriculture Science and so on. Different Type of Environments: Biotic
environment: All the living things including plants, animals, microorganisms inside or outside
our bodies. Abiotic Environment: All non-living things such as climate, air, soil, water, minerals
etc. Man made Environment: It includes all the things made or created by human beings such as
buildings, vehicles, synthetic chemicals, industrial equipment etc. Earth’s Environment is made
up of….1. Atmosphere: It includes thick Gaseous mantle surrounding the Earth. It spread up to
300 km above the earth surface. Apart from naturally occurring gases it also includes water
vapor, industrial gases and even microorganisms etc. 2. Biosphere: It includes the part of it which
contains all the living organisms. 3. Lithosphere: it includes the solid shell of any rocky planet in
case of earth. a. The Core: Innermost layer of earth which is 3500km in radius. b. The mantle:
middle layer of earth’s Lithosphere 2900km in thickness. cThe Crust floats on top of the mantle and is outermost layers. 0-100km thick. 4.Hydrosphere: it
includes all of the water inside the surface or outside the surface of the earth. Components of
our External Environment: Physical: Air, water, soil, housing, climate, geography, heat,
debris, radiation etc. Psychosocial; Culture values, customs, Beliefs, habits, attitudes, morals,
religion, education, lifestyle, health system, community life, social, and political organization.
Biological; Viruses, bacteria, algae & fungi, insects, rodents, animals and plants etc. Impact of
Environmental Factors on Human Health: Environmental factors or pollutants on cause
various health problems like metal illness, respiratory diseases, heart disease and some type of
cancer. Similarly, people with low incomes are more likely to live in polluted areas unsafe
drinking water. A. Population Imbalance: The rapid uncontrolled increase in population in one
part of the world while declining in aging population in other parts of the world has become a
major problem for the environmental health scientists. The regions of the world with lower GDP
per capita are witnessing and uncontrolled population explosion which is creating joblessness,
increase in crime, poor health condition of the community overall, unequal distribution of
resources among the populace. The poorer countries already struggling with the economic
overburdened each year with ever increasing number of young people whose needs are
unfulfilled. results in poor quality of life. While at the same time developed countries in the
world are witnessing an altogether opposite problem. Population Imbalance: In developed
countries the birth rates have been decreasing trends from last 03 or 04 decades resulting in labor
shortage, lack of skilled labor, ageing population, very low birth rates of local communities
resulting in demographic shifts in population etc
– made, and technology `hazards (gas leaks, oil splits, nuclear melt downs, and industrial fires). Disaster resilience is the ability of individuals, communities, organizations and states to adapt to and recover from hazards, shocks or stresses without compromising long term prospects for development. Disaster Risk Management is about organizing and directing resources to cope with both natural and human made disasters by dealing with all four phases disasters: Disaster Risk Management Phases includes Preparedness, Response, Recovery and Prevention / Mitigation. Preparedness is a pre disaster ongoing process in which individuals, communities, government, and organizations plant to better respond and cope with the disaster by minimizing ensures the
highest level of readiness. Response is defined as the actions taken to decrease mortality and
morbidity, and to prevent further property damage when the hazard occurs. Response is putting
preparedness plans into action. Recovery is defined as the actions taken to return to normal following a disaster During the recovery phase the individual, communities, government, and institutions start working to return to normal after a disaster, relying on their own skills, experience and resources to rebuild their lives onset of the emergency and the reconstruction period. Prevention is to ensure that human action or natural phenomena do not result in disaster or emergency
– made, and technology `hazards (gas leaks, oil splits, nuclear melt downs, and industrial fires). Disaster resilience is the ability of individuals, communities, organizations and states to adapt to and recover from hazards, shocks or stresses without compromising long term prospects for development. Disaster Risk Management is about organizing and directing resources to cope with both natural and human made disasters by dealing with all four phases disasters: Disaster Risk Management Phases includes Preparedness, Response, Recovery and Prevention / Mitigation. Preparedness is a pre disaster ongoing process in which individuals, communities, government, and organizations plant to better respond and cope with the disaster by minimizing ensures the
highest level of readiness. Response is defined as the actions taken to decrease mortality and
morbidity, and to prevent further property damage when the hazard occurs. Response is putting
preparedness plans into action. Recovery is defined as the actions taken to return to normal following a disaster During the recovery phase the individual, communities, government, and institutions start working to return to normal after a disaster, relying on their own skills, experience and resources to rebuild their lives onset of the emergency and the reconstruction period. Prevention is to ensure that human action or natural phenomena do not result in disaster or emergency