Projects - User contributions [en]

Projects:2018s1-145 Simplified Indoor UAV Operations

2018-08-21T02:57:22Z

A1669931:

UAVs have been mainly used for defence since 200??, however since entering the commercial market UAV development for personal use has taken the forefront of UAV development. Due to the increasing functionality available on commercial UAVs many sectors have begun exploring the possible applications of drones.

Many papers published on UAV development
Potential for student courses

Our project focuses on implementing obstacle evasion within a defined space using an Optitrack System. This wiki shall firstly discuss the background motivations behind this study as well as the research that has already been conducted within this field. The project shall then be broken into sections...

== Project Team ==

Elizabeth Hodgins

Matthew Preece

Samuel Thomas

'''Supervisors'''

Dr Hong Gunn Chew

Dr Braden Phillips

With assistance from Ryan Choi

== Definitions ==

UAV - Unmanned Aerial Vehicle

== Background and Previous Studies ==
'''Potential Fields'''

In the 2015 study at Universitas Gadjah Mada in Indonesia, by Budiyanto, et. al [2],
attractive and repulsive potential fields around the controlled UAV, its destination and its
surroundings were used to avoid collisions and reach a set destination. In the potential
field method, a controlled vehicle is likened to a charged particle which is attracted to its
destination and repelled from any objects in its path [24]. The group used a combination
of these two forces to determine the linear acceleration of the UAV along its path to a
destination. However, limited its motion to remaining at the same altitude for the duration
of the path. The repulsive constant affects the limit distance of how close the UAV will
approach a repulsive object and was varied throughout the experiments to determine the
best value. These values were tested using a Parrot AR Drone 2.0 in simulation using the
Gazebo simulator package through the Robot Operating System (ROS). Three test cases
were used - a single UAV with static obstacles along its path, three UAVs in one area,
with only one UAV with a destination and five UAVs with destinations within one area
manueovering static objects and the other UAVS around them. In each test case, accuracy,
time to complete and path length were compared. In the conclusion of the study, it was
determined that the optimal repulsive constant value was 7.8 for dynamic performance.
Whilst the potential field algorithm in this study is applied in path planning to a specified
location, our research will analyse the effectiveness of potential fields when applied to manual
flight control

== Equipment ==
'''OptiTrack Motion Capture System'''

'''Parrot Mambo Drone'''

== System Design ==

[[File:System_Diagram.jpg|1000px|thumb|left|System Diagram]]

The system has been broken into four main high-level components, and then further broken down into individual tasks within them.

== Testing ==

== Results ==

== Conclusions ==

== References ==
[1]
Commercial drones are the fastest-growing part of the market
https://www.economist.com/news/technology-quarterly/21723003-most-drones-today-are-either-cheap-toys-or-expensive-weapons-interesting
[2]
A. Budiyanto, A. Cahyadi, T. B. Adji and O. Wahyunggoro,
``UAV obstacle avoidance using potential field under dynamic environment,''
In Proc. 2015 International Conference on Control, Electronics, Renewable Energy and Communications (ICCEREC), Bandung, (2015), pp. 187-192.
Available: IEEE Explore,
{http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=7337041&isnumber=7337022}.
[Accessed: May 29, 2018].

Projects:2018s1-145 Simplified Indoor UAV Operations

2018-08-21T02:57:05Z

A1669931:

UAVs have been mainly used for defence since 200??, however since entering the commercial market UAV development for personal use has taken the forefront of UAV development. Due to the increasing functionality available on commercial UAVs many sectors have begun exploring the possible applications of drones.

Many papers published on UAV development
Potential for student courses

Our project focuses on implementing obstacle evasion within a defined space using an Optitrack System. This wiki shall firstly discuss the background motivations behind this study as well as the research that has already been conducted within this field. The project shall then be broken into sections...

== Project Team ==

Elizabeth Hodgins

Matthew Preece

Samuel Thomas

'''Supervisors'''

Dr Hong Gunn Chew

Dr Braden Phillips

With assistance from Ryan Choi

== Definitions ==

UAV - Unmanned Aerial Vehicle

== Background and Previous Studies ==
'''Potential Fields'''
In the 2015 study at Universitas Gadjah Mada in Indonesia, by Budiyanto, et. al [2],
attractive and repulsive potential fields around the controlled UAV, its destination and its
surroundings were used to avoid collisions and reach a set destination. In the potential
field method, a controlled vehicle is likened to a charged particle which is attracted to its
destination and repelled from any objects in its path [24]. The group used a combination
of these two forces to determine the linear acceleration of the UAV along its path to a
destination. However, limited its motion to remaining at the same altitude for the duration
of the path. The repulsive constant affects the limit distance of how close the UAV will
approach a repulsive object and was varied throughout the experiments to determine the
best value. These values were tested using a Parrot AR Drone 2.0 in simulation using the
Gazebo simulator package through the Robot Operating System (ROS). Three test cases
were used - a single UAV with static obstacles along its path, three UAVs in one area,
with only one UAV with a destination and five UAVs with destinations within one area
manueovering static objects and the other UAVS around them. In each test case, accuracy,
time to complete and path length were compared. In the conclusion of the study, it was
determined that the optimal repulsive constant value was 7.8 for dynamic performance.
Whilst the potential field algorithm in this study is applied in path planning to a specified
location, our research will analyse the effectiveness of potential fields when applied to manual
flight control

== Equipment ==
'''OptiTrack Motion Capture System'''

'''Parrot Mambo Drone'''

== System Design ==

[[File:System_Diagram.jpg|1000px|thumb|left|System Diagram]]

The system has been broken into four main high-level components, and then further broken down into individual tasks within them.

== Testing ==

== Results ==

== Conclusions ==

== References ==
[1]
Commercial drones are the fastest-growing part of the market
https://www.economist.com/news/technology-quarterly/21723003-most-drones-today-are-either-cheap-toys-or-expensive-weapons-interesting
[2]
A. Budiyanto, A. Cahyadi, T. B. Adji and O. Wahyunggoro,
``UAV obstacle avoidance using potential field under dynamic environment,''
In Proc. 2015 International Conference on Control, Electronics, Renewable Energy and Communications (ICCEREC), Bandung, (2015), pp. 187-192.
Available: IEEE Explore,
{http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=7337041&isnumber=7337022}.
[Accessed: May 29, 2018].

Projects:2018s1-145 Simplified Indoor UAV Operations

2018-08-21T01:56:53Z

A1669931:

Projects:2018s1-145 Simplified Indoor UAV Operations

2018-08-21T01:56:02Z

A1669931:

Elizabeth Hodgins

Matthew Preece

Samuel Thomas

'''Supervisors'''

Dr Hong Gunn Chew

Dr Braden Phillips

With assistance from Ryan Choi

== Definitions ==

UAV - Unmanned Aerial Vehicle

== Abstract ==

UAVs have been mainly used for defence since 200??, however since entering the commercial market UAV development for personal use has taken the forefront of UAV development. Due to the increasing functionality available on commercial UAVs many sectors have begun exploring the possible applications of drones.

Many papers published on UAV development
Potential for student courses

Our project focuses on implementing obstacle evasion within a defined space using an Optitrack System. This wiki shall firstly discuss the background motivations behind this study as well as the research that has already been conducted within this field. The project shall then be broken into sections...

== Background and Previous Studies ==

== Equipment ==
'''OptiTrack Motion Capture System'''

'''Parrot Mambo Drone'''

== System Design ==

[[File:System_Diagram.jpg|1000px|thumb|left|System Diagram]]

The system has been broken into four main high-level components, and then further broken down into individual tasks within them.

== Testing ==

== Results ==

== Conclusions ==

== References ==
[1]
Commercial drones are the fastest-growing part of the market
https://www.economist.com/news/technology-quarterly/21723003-most-drones-today-are-either-cheap-toys-or-expensive-weapons-interesting

Projects:2018s1-145 Simplified Indoor UAV Operations

2018-08-21T01:43:03Z

A1669931:

== Project Team ==

Elizabeth Hodgins

Matthew Preece

Samuel Thomas

'''Supervisors'''

Dr Hong Gunn Chew

Dr Braden Phillips

With assistance from Ryan Choi

== Definitions ==

UAV - Unmanned Aerial Vehicle

== Abstract ==

UAVs have been mainly used for defence since 200??, however since entering the commercial market UAV development for personal use has taken the forefront of UAV development. Due to the increasing functionality available on commercial UAVs many sectors have begun exploring the possible applications of drones.

Many papers published on UAV development
Potential for student courses

Our project focuses on implementing obstacle evasion within a defined space using an Optitrack System. This wiki shall firstly discuss the background motivations behind this study as well as the research that has already been conducted within this field. The project shall then be broken into sections...

== Background and Previous Studies ==

== Equipment ==
'''OptiTrack Motion Capture System'''

'''Parrot Mambo Drone'''

== System Design ==

[[File:System_Diagram.jpg|1000px|thumb|left|System Diagram]]

The system has been broken into four main high-level components, and then further broken down into individual tasks within them.

== Testing ==

== Results ==

== Conclusions ==

== References ==
[1]
Commercial drones are the fastest-growing part of the market
https://www.economist.com/news/technology-quarterly/21723003-most-drones-today-are-either-cheap-toys-or-expensive-weapons-interesting

Projects:2018s1-145 Simplified Indoor UAV Operations

2018-08-21T01:41:31Z

A1669931:

== Project Team ==

Elizabeth Hodgins

Matthew Preece

Samuel Thomas

'''Supervisors'''

Dr Hong Gunn Chew

Dr Braden Phillips

With assistance from Ryan Choi

== Definitions ==

UAV - Unmanned Aerial Vehicle

== Abstract ==

UAVs have been mainly used for defence since 200??, however since entering the commercial market UAV development for personal use has taken the forefront of UAV development. Due to the increasing functionality available on commercial UAVs many sectors have begun exploring the possible applications of drones.

Many papers published on UAV development
Potential for student courses

Our project focuses on implementing obstacle evasion within a defined space using an Optitrack System. This wiki shall firstly discuss the background motivations behind this study as well as the research that has already been conducted within this field. The project shall then be broken into sections...

== Background and Previous Studies ==

== Equipment ==
'''OptiTrack Motion Capture System'''

'''Parrot Mambo Drone'''

== System Design ==

[[File:System_Diagram.jpg|1000px|thumb|left|System Diagram]]

== Testing ==

== Results ==

== Conclusions ==

== References ==
[1]
Commercial drones are the fastest-growing part of the market
https://www.economist.com/news/technology-quarterly/21723003-most-drones-today-are-either-cheap-toys-or-expensive-weapons-interesting

Projects:2018s1-145 Simplified Indoor UAV Operations

2018-08-21T01:41:04Z

A1669931:

== Project Team ==

Elizabeth Hodgins

Matthew Preece

Samuel Thomas

'''Supervisors'''

Dr Hong Gunn Chew

Dr Braden Phillips

With assistance from Ryan Choi

== Definitions ==

UAV - Unmanned Aerial Vehicle

== Abstract ==

UAVs have been mainly used for defence since 200??, however since entering the commercial market UAV development for personal use has taken the forefront of UAV development. Due to the increasing functionality available on commercial UAVs many sectors have begun exploring the possible applications of drones.

Many papers published on UAV development
Potential for student courses

Our project focuses on implementing obstacle evasion within a defined space using an Optitrack System. This wiki shall firstly discuss the background motivations behind this study as well as the research that has already been conducted within this field. The project shall then be broken into sections...

== Background and Previous Studies ==

== Equipment ==
'''OptiTrack Motion Capture System'''

'''Parrot Mambo Drone'''

== System Design ==

[[File:System_Diagram.jpg|200px|thumb|left|System Diagram]]

== Testing ==

== Results ==

== Conclusions ==

== References ==
[1]
Commercial drones are the fastest-growing part of the market
https://www.economist.com/news/technology-quarterly/21723003-most-drones-today-are-either-cheap-toys-or-expensive-weapons-interesting

Projects:2018s1-145 Simplified Indoor UAV Operations

2018-08-21T01:40:42Z

A1669931:

== Project Team ==

Elizabeth Hodgins

Matthew Preece

Samuel Thomas

'''Supervisors'''

Dr Hong Gunn Chew

Dr Braden Phillips

With assistance from Ryan Choi

== Definitions ==

UAV - Unmanned Aerial Vehicle

== Abstract ==

UAVs have been mainly used for defence since 200??, however since entering the commercial market UAV development for personal use has taken the forefront of UAV development. Due to the increasing functionality available on commercial UAVs many sectors have begun exploring the possible applications of drones.

Many papers published on UAV development
Potential for student courses

Our project focuses on implementing obstacle evasion within a defined space using an Optitrack System. This wiki shall firstly discuss the background motivations behind this study as well as the research that has already been conducted within this field. The project shall then be broken into sections...

== Background and Previous Studies ==

== Equipment ==
'''OptiTrack Motion Capture System'''

'''Parrot Mambo Drone'''

== System Design ==

[ [ File:System_Diagram.jpg |200px|thumb|left|System Diagram ] ]

== Testing ==

== Results ==

== Conclusions ==

== References ==
[1]
Commercial drones are the fastest-growing part of the market
https://www.economist.com/news/technology-quarterly/21723003-most-drones-today-are-either-cheap-toys-or-expensive-weapons-interesting

Projects:2018s1-145 Simplified Indoor UAV Operations

2018-08-21T01:40:26Z

A1669931:

== Project Team ==

Elizabeth Hodgins

Matthew Preece

Samuel Thomas

'''Supervisors'''

Dr Hong Gunn Chew

Dr Braden Phillips

With assistance from Ryan Choi

== Definitions ==

UAV - Unmanned Aerial Vehicle

== Abstract ==

UAVs have been mainly used for defence since 200??, however since entering the commercial market UAV development for personal use has taken the forefront of UAV development. Due to the increasing functionality available on commercial UAVs many sectors have begun exploring the possible applications of drones.

Many papers published on UAV development
Potential for student courses

Our project focuses on implementing obstacle evasion within a defined space using an Optitrack System. This wiki shall firstly discuss the background motivations behind this study as well as the research that has already been conducted within this field. The project shall then be broken into sections...

== Background and Previous Studies ==

== Equipment ==
'''OptiTrack Motion Capture System'''

'''Parrot Mambo Drone'''

== System Design ==

[ [ File:System_Diagram.jpg|200px|thumb|left|System Diagram ] ]

== Testing ==

== Results ==

== Conclusions ==

== References ==
[1]
Commercial drones are the fastest-growing part of the market
https://www.economist.com/news/technology-quarterly/21723003-most-drones-today-are-either-cheap-toys-or-expensive-weapons-interesting

File:System Diagram.jpg

2018-08-21T01:38:52Z

A1669931:

Projects:2018s1-145 Simplified Indoor UAV Operations

2018-08-21T01:35:59Z

A1669931:

== Project Team ==

Elizabeth Hodgins

Matthew Preece

Samuel Thomas

'''Supervisors'''

Dr Hong Gunn Chew

Dr Braden Phillips

With assistance from Ryan Choi

== Definitions ==

UAV - Unmanned Aerial Vehicle

== Abstract ==

UAVs have been mainly used for defence since 200??, however since entering the commercial market UAV development for personal use has taken the forefront of UAV development. Due to the increasing functionality available on commercial UAVs many sectors have begun exploring the possible applications of drones.

Many papers published on UAV development
Potential for student courses

Our project focuses on implementing obstacle evasion within a defined space using an Optitrack System. This wiki shall firstly discuss the background motivations behind this study as well as the research that has already been conducted within this field. The project shall then be broken into sections...

== Background and Previous Studies ==

== Equipment ==
'''OptiTrack Motion Capture System'''

'''Parrot Mambo Drone'''

== System Design ==

[[File:System_Diagram.jpg]]

== Testing ==

== Results ==

== Conclusions ==

== References ==
[1]
Commercial drones are the fastest-growing part of the market
https://www.economist.com/news/technology-quarterly/21723003-most-drones-today-are-either-cheap-toys-or-expensive-weapons-interesting

Projects:2018s1-145 Simplified Indoor UAV Operations

2018-08-21T01:17:12Z

A1669931:

== Project Team ==

Elizabeth Hodgins

Matthew Preece

Samuel Thomas

'''Supervisors'''

Dr Hong Gunn Chew

Dr Braden Phillips

With assistance from Ryan Choi

== Definitions ==

UAV - Unmanned Aerial Vehicle

== Abstract ==

UAVs have been mainly used for defence since 200??, however since entering the commercial market UAV development for personal use has taken the forefront of UAV development. Due to the increasing functionality available on commercial UAVs many sectors have begun exploring the possible applications of drones.

Many papers published on UAV development
Potential for student courses

Our project focuses on implementing obstacle evasion within a defined space using an Optitrack System. This wiki shall firstly discuss the background motivations behind this study as well as the research that has already been conducted within this field. The project shall then be broken into sections...

== Background and Previous Studies ==

== Equipment ==
'''OptiTrack Motion Capture System'''

'''Parrot Mambo Drone'''

== System Design ==

[[File:system_diagram.jpg]]

== Testing ==

== Results ==

== Conclusions ==

== References ==
[1]
Commercial drones are the fastest-growing part of the market
https://www.economist.com/news/technology-quarterly/21723003-most-drones-today-are-either-cheap-toys-or-expensive-weapons-interesting

Projects:2018s1-145 Simplified Indoor UAV Operations

2018-08-21T01:14:48Z

A1669931:

== Project Team ==

Elizabeth Hodgins

Matthew Preece

Samuel Thomas

'''Supervisor'''

Dr Hong Gunn Chew

Dr Braden Phillips

With assistance from Ryan Choi

== Definitions ==

UAV - Unmanned Aerial Vehicle

== Abstract ==

UAVs have been mainly used for defence since 200??, however since entering the commercial market UAV development for personal use has taken the forefront of UAV development. Due to the increasing functionality available on commercial UAVs many sectors have begun exploring the possible applications of drones.

Many papers published on UAV development
Potential for student courses

Our project focuses on implementing obstacle evasion within a defined space using an Optitrack System. This wiki shall firstly discuss the background motivations behind this study as well as the research that has already been conducted within this field. The project shall then be broken into sections...

== Background and Previous Studies ==

== Equipment ==
''OptiTrack Motion Capture System''

''Parrot Mambo Drone''

== System Design ==

[[File:system_diagram.jpg]]

== Testing ==

== Results ==

== Conclusions ==

== References ==
[1]
Commercial drones are the fastest-growing part of the market
https://www.economist.com/news/technology-quarterly/21723003-most-drones-today-are-either-cheap-toys-or-expensive-weapons-interesting

Projects:2018s1-145 Simplified Indoor UAV Operations

2018-04-10T03:20:18Z

A1669931: Created page with "== Project Team == Elizabeth Hodgins Matthew Preece Samuel Thomas '''Supervisor''' Dr Hong Gunn Chew With assistance from Ryan Choi == Definitions == UAV - Unmanned A..."

== Project Team ==

Elizabeth Hodgins

Matthew Preece

Samuel Thomas

'''Supervisor'''

Dr Hong Gunn Chew

With assistance from Ryan Choi

== Definitions ==

UAV - Unmanned Aerial Vehicle

== Abstract ==

UAVs have been mainly used for defence since 200??, however since entering the commercial market UAV development for personal use has taken the forefront of UAV development. Due to the increasing functionality available on commercial UAVs many sectors have begun exploring the possible applications of drones.

Many papers published on UAV development
Potential for student courses

Our project focuses on implementing obstacle evasion within a defined space using an Optitrack System. This wiki shall firstly discuss the background motivations behind this study as well as the research that has already been conducted within this field. The project shall then be broken into sections...

== Background and Previous Studies ==

== Proposed Project Breakdown ==

[[File:system_diagram.jpg]]

== References ==
[1]
Commercial drones are the fastest-growing part of the market
https://www.economist.com/news/technology-quarterly/21723003-most-drones-today-are-either-cheap-toys-or-expensive-weapons-interesting