Summaries of Literature's: Difference between revisions
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*[[Can drones deliver?]]<ref></ref> | *[[Can drones deliver?]]<ref></ref> | ||
*[[Autonomous Drones for Assisting Rescue Services within the context of Natural Disasters]]<ref></ref> | *[[Autonomous Drones for Assisting Rescue Services within the context of Natural Disasters]]<ref></ref> | ||
*[[Simple GUI Wireless Controller of Quadcopter]]<ref></ref> | *[[Simple GUI Wireless Controller of Quadcopter]]<ref>Hanafi,D.january 2013,Simple GUI Wireless Controller of Quadcopter,International Journal of Communications, Network and System Sciences | ||
*[[Modelling and control of quadcopter]]<ref></ref> | </ref> | ||
*[[Quadcopter Flight Dynamics]]<ref></ref> | *[[Modelling and control of quadcopter]]<ref>Luukkonen,T.August 22, 2011,Modelling and control of quadcopter, Aalto University</ref> | ||
*[[Method and system for detecting objects external to a vehicle]]<ref></ref> | *[[Quadcopter Flight Dynamics]]<ref>Khan,M.,8, AUGUST 2014,Quadcopter Flight Dynamics,INTERNATIONAL JOURNAL OF SCIENTIFIC & TECHNOLOGY RESEARCH | ||
*[[Design and Control of an Unmanned Aerial Vehicle for Autonomous Parcel Delivery with Transition from Vertical Take-off to Forward Flight]]<ref></ref> | </ref> | ||
*[[Drones in Logistics: A Feasible Future or a waste of effort]]<ref></ref> | *[[Method and system for detecting objects external to a vehicle]]<ref>Breed,D.,S.,Apr. 10, 2007,Method and system for detecting objects external to a vehicle, Intelligent Tech International Inc | ||
*[[Implementing Delivery Drones in Logistics Business Process: Case of Pharmaceutical Industry]]<ref></ref> | </ref> | ||
*[[Autonomous Measurement Drone for Remote Dangerous Source Location Mapping]]<ref></ref> | *[[Design and Control of an Unmanned Aerial Vehicle for Autonomous Parcel Delivery with Transition from Vertical Take-off to Forward Flight]]<ref>Hochstenbach,M. , Notteboom,C. , Theys, B., Schutter, J., D.,2015,Design and Control of an Unmanned Aerial Vehicle for Autonomous Parcel Delivery with Transition from Vertical Take-off to Forward Flight, International Journal of Micro Air Vehicles | ||
*[[GPS Guided Autonomous Drone]]<ref></ref> | </ref> | ||
*[[Self-Navigating Quadcopter]]<ref></ref> | *[[Drones in Logistics: A Feasible Future or a waste of effort]]<ref>Lotz, A. (2015, November 18). Drones in Logistics: A Feasible Future or a waste of effort. [Scholarly project]. In ScholarWorks@BGSU. Retrieved April 28, 2018, from https://scholarworks.bgsu.edu/cgi/viewcontent.cgi?article=1215&context=honorsprojects</ref> | ||
*[[Self-Stabilizing Quad-Rotor Helicopter]]<ref></ref> | *[[Implementing Delivery Drones in Logistics Business Process: Case of Pharmaceutical Industry]]<ref>Vlahovic, N. , Knezevic, B. , Batalic, P. (2016). 'Implementing Delivery Drones in Logistics Business Process: Case of Pharmaceutical Industry'. World Academy of Science, Engineering and Technology, International Science Index 120, International Journal of Social, Behavioral, Educational, Economic, Business and Industrial Engineering, 10(12), 4026 - 4031. | ||
*[[Flight Control and Hardware Design of Multi-Rotor Systems]]<ref></ref> | </ref> | ||
*[[Towards autonomous navigation of multiple pocket-drones in real-world environments]]<ref></ref> | *[[Autonomous Measurement Drone for Remote Dangerous Source Location Mapping]]<ref>Croizé, P., Archez, M., Boisson, J., Roger, T., & Monsegu, V. (2015). Autonomous Measurement Drone for Remote Dangerous Source Location Mapping. International Journal of Environmental Science and Development, 6(5), 391-396. doi:10.7763/ijesd.2015.v6.624 | ||
*[[On-board Bluetooth-based Relative Localization for Collision Avoidance in Micro Air Vehicle Swarms]]<ref></ref> | </ref> | ||
*[[Object detection and tracking for real time field surveilliance applications]]<ref></ref> | *[[GPS Guided Autonomous Drone]]<ref>Roberts, C. (2016, April 25). GPS Guided Autonomous Drone [Scholarly project]. In University of Evansville. Retrieved April 28, 2018, from https://www.evansville.edu/majors/eecs/downloads/projects2016/CameronRobertsReport.pdf | ||
</ref> | |||
*[[Self-Navigating Quadcopter]]<ref>Singh, O. G. (2015). Self-Navigating Quadcopter. International Journal of Computer Science and Information Technologies, 6(3), 2761-2765. doi:0975-9646 | |||
</ref> | |||
*[[Self-Stabilizing Quad-Rotor Helicopter]]<ref>Rought, J., Goodhew, D., Sullivan, J., & Rodriguez, A. (n.d.). Self-Stabilizing Quad-Rotor Helicopter[Scholarly project]. In University of Central Florida. Retrieved April 28, 2018, from http://www.eecs.ucf.edu/seniordesign/su2010fa2010/g07/user/image/conferencepaper.pdf | |||
</ref> | |||
*[[Flight Control and Hardware Design of Multi-Rotor Systems]]<ref>Zimmerman, N. M. (2016). Flight Control and Hardware Design of MultiRotor Systems(Master's thesis, Marquette University, 2016) (pp. 1-123). Milwaukee: Marquette University. Retrieved April 28, 2018, from https://epublications.marquette.edu/cgi/viewcontent.cgi?referer=https://www.google.nl/&httpsredir=1&article=1370&context=theses_open | |||
</ref> | |||
*[[Towards autonomous navigation of multiple pocket-drones in real-world environments]]<ref>Mcguire, K., Coppola, M., Wagter, C. D., & Croon, G. D. (2017). Towards autonomous navigation of multiple pocket-drones in real-world environments. 2017 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS). doi:10.1109/iros.2017.8202164 | |||
</ref> | |||
*[[On-board Bluetooth-based Relative Localization for Collision Avoidance in Micro Air Vehicle Swarms]]<ref>Coppola, M., Mcguire, K., Scheper, K. & Croon, G. (2016). On-board Bluetooth-based Relative Localization for Collision Avoidance in Micro Air Vehicle Swarms. | |||
</ref> | |||
*[[Object detection and tracking for real time field surveilliance applications]]<ref>Turkay, Mustafa. (2017). OBJECT DETECTION AND TRACKING FOR REAL TIME FIELD SURVELLIANCE APPLICATIONS. doi: 10.13140/RG.2.2.34716.49282. </ref> | |||
*[[Privacy and Drones: Unmanned Aerial Vehicles]]<ref></ref> | *[[Privacy and Drones: Unmanned Aerial Vehicles]]<ref></ref> | ||
*[[Moral Predators: The Duty to Employ Uninhabited Aerial Vehicles]]<ref></ref> | *[[Moral Predators: The Duty to Employ Uninhabited Aerial Vehicles]]<ref></ref> | ||
Revision as of 00:44, 29 April 2018
- Methods, systems and devices for delivery drone securityCite error: Invalid
<ref>tag; refs with no name must have content - Robotic aerial vehicle delivery system and methodCite error: Invalid
<ref>tag; refs with no name must have content - Method and system for drone deliveries to vehicles in routeCite error: Invalid
<ref>tag; refs with no name must have content - Can drones deliver?Cite error: Invalid
<ref>tag; refs with no name must have content - Autonomous Drones for Assisting Rescue Services within the context of Natural DisastersCite error: Invalid
<ref>tag; refs with no name must have content - Simple GUI Wireless Controller of Quadcopter[1]
- Modelling and control of quadcopter[2]
- Quadcopter Flight Dynamics[3]
- Method and system for detecting objects external to a vehicle[4]
- Design and Control of an Unmanned Aerial Vehicle for Autonomous Parcel Delivery with Transition from Vertical Take-off to Forward Flight[5]
- Drones in Logistics: A Feasible Future or a waste of effort[6]
- Implementing Delivery Drones in Logistics Business Process: Case of Pharmaceutical Industry[7]
- Autonomous Measurement Drone for Remote Dangerous Source Location Mapping[8]
- GPS Guided Autonomous Drone[9]
- Self-Navigating Quadcopter[10]
- Self-Stabilizing Quad-Rotor Helicopter[11]
- Flight Control and Hardware Design of Multi-Rotor Systems[12]
- Towards autonomous navigation of multiple pocket-drones in real-world environments[13]
- On-board Bluetooth-based Relative Localization for Collision Avoidance in Micro Air Vehicle Swarms[14]
- Object detection and tracking for real time field surveilliance applications[15]
- Privacy and Drones: Unmanned Aerial VehiclesCite error: Invalid
<ref>tag; refs with no name must have content - Moral Predators: The Duty to Employ Uninhabited Aerial VehiclesCite error: Invalid
<ref>tag; refs with no name must have content - The Ethical Debate on DronesCite error: Invalid
<ref>tag; refs with no name must have content - Robot ethics and law: part 2Cite error: Invalid
<ref>tag; refs with no name must have content - Drone transportation of blood productsCite error: Invalid
<ref>tag; refs with no name must have content
References
- ↑ Hanafi,D.january 2013,Simple GUI Wireless Controller of Quadcopter,International Journal of Communications, Network and System Sciences
- ↑ Luukkonen,T.August 22, 2011,Modelling and control of quadcopter, Aalto University
- ↑ Khan,M.,8, AUGUST 2014,Quadcopter Flight Dynamics,INTERNATIONAL JOURNAL OF SCIENTIFIC & TECHNOLOGY RESEARCH
- ↑ Breed,D.,S.,Apr. 10, 2007,Method and system for detecting objects external to a vehicle, Intelligent Tech International Inc
- ↑ Hochstenbach,M. , Notteboom,C. , Theys, B., Schutter, J., D.,2015,Design and Control of an Unmanned Aerial Vehicle for Autonomous Parcel Delivery with Transition from Vertical Take-off to Forward Flight, International Journal of Micro Air Vehicles
- ↑ Lotz, A. (2015, November 18). Drones in Logistics: A Feasible Future or a waste of effort. [Scholarly project]. In ScholarWorks@BGSU. Retrieved April 28, 2018, from https://scholarworks.bgsu.edu/cgi/viewcontent.cgi?article=1215&context=honorsprojects
- ↑ Vlahovic, N. , Knezevic, B. , Batalic, P. (2016). 'Implementing Delivery Drones in Logistics Business Process: Case of Pharmaceutical Industry'. World Academy of Science, Engineering and Technology, International Science Index 120, International Journal of Social, Behavioral, Educational, Economic, Business and Industrial Engineering, 10(12), 4026 - 4031.
- ↑ Croizé, P., Archez, M., Boisson, J., Roger, T., & Monsegu, V. (2015). Autonomous Measurement Drone for Remote Dangerous Source Location Mapping. International Journal of Environmental Science and Development, 6(5), 391-396. doi:10.7763/ijesd.2015.v6.624
- ↑ Roberts, C. (2016, April 25). GPS Guided Autonomous Drone [Scholarly project]. In University of Evansville. Retrieved April 28, 2018, from https://www.evansville.edu/majors/eecs/downloads/projects2016/CameronRobertsReport.pdf
- ↑ Singh, O. G. (2015). Self-Navigating Quadcopter. International Journal of Computer Science and Information Technologies, 6(3), 2761-2765. doi:0975-9646
- ↑ Rought, J., Goodhew, D., Sullivan, J., & Rodriguez, A. (n.d.). Self-Stabilizing Quad-Rotor Helicopter[Scholarly project]. In University of Central Florida. Retrieved April 28, 2018, from http://www.eecs.ucf.edu/seniordesign/su2010fa2010/g07/user/image/conferencepaper.pdf
- ↑ Zimmerman, N. M. (2016). Flight Control and Hardware Design of MultiRotor Systems(Master's thesis, Marquette University, 2016) (pp. 1-123). Milwaukee: Marquette University. Retrieved April 28, 2018, from https://epublications.marquette.edu/cgi/viewcontent.cgi?referer=https://www.google.nl/&httpsredir=1&article=1370&context=theses_open
- ↑ Mcguire, K., Coppola, M., Wagter, C. D., & Croon, G. D. (2017). Towards autonomous navigation of multiple pocket-drones in real-world environments. 2017 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS). doi:10.1109/iros.2017.8202164
- ↑ Coppola, M., Mcguire, K., Scheper, K. & Croon, G. (2016). On-board Bluetooth-based Relative Localization for Collision Avoidance in Micro Air Vehicle Swarms.
- ↑ Turkay, Mustafa. (2017). OBJECT DETECTION AND TRACKING FOR REAL TIME FIELD SURVELLIANCE APPLICATIONS. doi: 10.13140/RG.2.2.34716.49282.