Adeleke Olorunnisola | Federal University of Technology Akure (original) (raw)

Research Papers by Adeleke Olorunnisola

IJAEM, 2021

The aim of this project is to develop and evaluate a prototype remotely controlled quadcopter wit... more The aim of this project is to develop and evaluate a prototype remotely controlled quadcopter with a battery of 850mAh using locally sourced material. The quadcopter was tested and a flight time of 100secs with extra payload of about 40g was achieved. In achieving this, a frame which is the major body of this project is designed and fabricated putting into consideration the weight, strength, and flexibility of the frame and landing skid that can accommodate shock generated while landing the aircraft. MATLAB software was used for few simulations of the Roll, Pitch and Yaw of the flight controller. The developed quadcopter was tested and it met the performance requirements it was designed for.The main problem in quadcopter is the balancing and stability system. Most of quadcopter will be unbalance and loose stability in case there are direct disturbance on it such as wind. In this project design, a stable design with lightweighted frame but high strength to weight ratio was designed and constructed.Material selection for this drone (project) was thoroughly be analyzed to achieve a more stable system.

Papers by Adeleke Olorunnisola

International Journal of Scientific Research in Science, Engineering and Technology

This review paper aims to analyze the theoretical foundations of smart manufacturing and its impa... more This review paper aims to analyze the theoretical foundations of smart manufacturing and its impact on production processes, particularly in the domains of robotics and additive manufacturing, across past, present, and future time horizons. It also explores the potential of smart manufacturing to improve the precision of manufacturing processes, as well as the challenges it poses to the manufacturing sector. This overview will deepen our understanding of modern manufacturing practices. It's worth noting that some scientific developments and technological tools discussed here can be applied to a wider range of automated systems beyond the manufacturing sector. As such, this paper offers valuable insights for those involved in automated system design and implementation.

The aim of this project is to develop and evaluate a prototype remotely controlled quadcopter wit... more The aim of this project is to develop and evaluate a prototype remotely controlled quadcopter with a battery of 850mAh using locally sourced material. The quadcopter was tested and a flight time of 100secs with extra payload of about 40g was achieved. In achieving this, a frame which is the major body of this project is designed and fabricated putting into consideration the weight, strength, and flexibility of the frame and landing skid that can accommodate shock generated while landing the aircraft. MATLAB software was used for few simulations of the Roll, Pitch and Yaw of the flight controller. The developed quadcopter was tested and it met the performance requirements it was designed for.The main problem in quadcopter is the balancing and stability system. Most of quadcopter will be unbalance and loose stability in case there are direct disturbance on it such as wind. In this project design, a stable design with lightweighted frame but high strength to weight ratio was designed a...

This review paper aims to analyze the theoretical foundations of smart manufacturing and its impa... more This review paper aims to analyze the theoretical foundations of smart manufacturing and its impact on production processes, particularly in the domains of robotics and additive manufacturing, across past, present, and future time horizons. It also explores the potential of smart manufacturing to improve the precision of manufacturing processes, as well as the challenges it poses to the manufacturing sector. This overview will deepen our understanding of modern manufacturing practices. It's worth noting that some scientific developments and technological tools discussed here can be applied to a wider range of automated systems beyond the manufacturing sector. As such, this paper offers valuable insights for those involved in automated system design and implementation.

IJAEM, 2021

The aim of this project is to develop and evaluate a prototype remotely controlled quadcopter wit... more The aim of this project is to develop and evaluate a prototype remotely controlled quadcopter with a battery of 850mAh using locally sourced material. The quadcopter was tested and a flight time of 100secs with extra payload of about 40g was achieved. In achieving this, a frame which is the major body of this project is designed and fabricated putting into consideration the weight, strength, and flexibility of the frame and landing skid that can accommodate shock generated while landing the aircraft. MATLAB software was used for few simulations of the Roll, Pitch and Yaw of the flight controller. The developed quadcopter was tested and it met the performance requirements it was designed for.The main problem in quadcopter is the balancing and stability system. Most of quadcopter will be unbalance and loose stability in case there are direct disturbance on it such as wind. In this project design, a stable design with lightweighted frame but high strength to weight ratio was designed and constructed.Material selection for this drone (project) was thoroughly be analyzed to achieve a more stable system.

International Journal of Scientific Research in Science, Engineering and Technology

This review paper aims to analyze the theoretical foundations of smart manufacturing and its impa... more This review paper aims to analyze the theoretical foundations of smart manufacturing and its impact on production processes, particularly in the domains of robotics and additive manufacturing, across past, present, and future time horizons. It also explores the potential of smart manufacturing to improve the precision of manufacturing processes, as well as the challenges it poses to the manufacturing sector. This overview will deepen our understanding of modern manufacturing practices. It's worth noting that some scientific developments and technological tools discussed here can be applied to a wider range of automated systems beyond the manufacturing sector. As such, this paper offers valuable insights for those involved in automated system design and implementation.

The aim of this project is to develop and evaluate a prototype remotely controlled quadcopter wit... more The aim of this project is to develop and evaluate a prototype remotely controlled quadcopter with a battery of 850mAh using locally sourced material. The quadcopter was tested and a flight time of 100secs with extra payload of about 40g was achieved. In achieving this, a frame which is the major body of this project is designed and fabricated putting into consideration the weight, strength, and flexibility of the frame and landing skid that can accommodate shock generated while landing the aircraft. MATLAB software was used for few simulations of the Roll, Pitch and Yaw of the flight controller. The developed quadcopter was tested and it met the performance requirements it was designed for.The main problem in quadcopter is the balancing and stability system. Most of quadcopter will be unbalance and loose stability in case there are direct disturbance on it such as wind. In this project design, a stable design with lightweighted frame but high strength to weight ratio was designed a...

This review paper aims to analyze the theoretical foundations of smart manufacturing and its impa... more This review paper aims to analyze the theoretical foundations of smart manufacturing and its impact on production processes, particularly in the domains of robotics and additive manufacturing, across past, present, and future time horizons. It also explores the potential of smart manufacturing to improve the precision of manufacturing processes, as well as the challenges it poses to the manufacturing sector. This overview will deepen our understanding of modern manufacturing practices. It's worth noting that some scientific developments and technological tools discussed here can be applied to a wider range of automated systems beyond the manufacturing sector. As such, this paper offers valuable insights for those involved in automated system design and implementation.