Summaries of Literature's: Difference between revisions

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*[[Methods, systems and devices for delivery drone security]]
*[[Methods, systems and devices for delivery drone security]]<ref>Ganesh, S., & Menendez, J. R. (2016). U.S. Patent No. US9359074B2. Washington, DC: U.S. Patent and Trademark Office</ref>
*[[Robotic aerial vehicle delivery system and method]]
*[[Robotic aerial vehicle delivery system and method]]<ref>Sisco, M. (2015). U.S. Patent No. US20150158599A1. Washington, DC: U.S. Patent and Trademark Office</ref>
*[[Method and system for drone deliveries to vehicles in route]]
*[[Method and system for drone deliveries to vehicles in route]]<ref>Siegel, R. S., Welch, S. C., & Barfield, J. R., Jr. (2016). U.S. Patent No. US9494937B2. Washington, DC: U.S. Patent and Trademark Office</ref>
*[[Can drones deliver?]]
*[[Can drones deliver?]]<ref>D'Andrea R. (2014). Guest Editorial Can Drones Deliver? [Abstract]. IEEE Transactions on Automation Science and Engineering, 11(3), 647-648
*[[Autonomous Drones for Assisting Rescue Services within the context of Natural Disasters]]
</ref>
*[[Simple GUI Wireless Controller of Quadcopter]]
*[[Autonomous Drones for Assisting Rescue Services within the context of Natural Disasters]]<ref>Apvrille, Ludovic & Tanzi, Tullio & Dugelay, Jean-Luc. (2014). Autonomous Drones for Assisting Rescue Services within the context of Natural Disasters. 2014 31th URSI General Assembly and Scientific Symposium, URSI GASS 2014. 10.1109/URSIGASS.2014.6929384.</ref>
*[[Modelling and control of quadcopter]]
*[[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
*[[Quadcopter Flight Dynamics]]
</ref>
*[[Method and system for detecting objects external to a vehicle]]
*[[Modelling and control of quadcopter]]<ref>Luukkonen,T.August 22, 2011,Modelling and control of quadcopter, Aalto University</ref>
*[[Design and Control of an Unmanned Aerial Vehicle for Autonomous Parcel Delivery with Transition from Vertical Take-off to Forward Flight]]
*[[Quadcopter Flight Dynamics]]<ref>Khan,M.,8, AUGUST 2014,Quadcopter Flight Dynamics,INTERNATIONAL JOURNAL OF SCIENTIFIC & TECHNOLOGY RESEARCH
*[[Drones in Logistics: A Feasible Future or a waste of effort]]
</ref>
*[[Implementing Delivery Drones in Logistics Business Process: Case of Pharmaceutical Industry]]
*[[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
*[[Autonomous Measurement Drone for Remote Dangerous Source Location Mapping  
</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>
*[[Self-Navigating Quadcopter]]
*[[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>
*[[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.
</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
</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>
Cavoukian, A., Ph.D. (2012, August). (Canada, Information & Privacy Commissioner). Retrieved April 28, 2018.
</ref>
*[[Moral Predators: The Duty to Employ Uninhabited Aerial Vehicles]]<ref>Strawser, B. J. (2010). Moral Predators: The Duty to Employ Uninhabited Aerial Vehicles. Handbook of Unmanned Aerial Vehicles,9(4), 2943-2964. doi:10.1007/978-90-481-9707-1_99
</ref>
*[[The Ethical Debate on Drones]]<ref>Hopkins, A. (2017). The Ethical Debate on Drones. Retrieved from https://digitalcommons.augustana.edu/cgi/viewcontent.cgi?article=1008&context=ethicscontest</ref>
*[[Robot ethics and law: part 2]]<ref>Robert Bogue, (2014) "Robot ethics and law: Part two: law", Industrial Robot: An International Journal, Vol. 41 Issue: 5, pp.398-402, https://doi.org/10.1108/IR-04-2014-0332
</ref>
*[[Drone transportation of blood products]]<ref>K Amukele, T. (2016). Drone transportation of blood products. Retrieved from https://onlinelibrary.wiley.com/doi/pdf/10.1111/trf.13900</ref>
== References ==
<references />

Latest revision as of 01:04, 29 April 2018

References

  1. Ganesh, S., & Menendez, J. R. (2016). U.S. Patent No. US9359074B2. Washington, DC: U.S. Patent and Trademark Office
  2. Sisco, M. (2015). U.S. Patent No. US20150158599A1. Washington, DC: U.S. Patent and Trademark Office
  3. Siegel, R. S., Welch, S. C., & Barfield, J. R., Jr. (2016). U.S. Patent No. US9494937B2. Washington, DC: U.S. Patent and Trademark Office
  4. D'Andrea R. (2014). Guest Editorial Can Drones Deliver? [Abstract]. IEEE Transactions on Automation Science and Engineering, 11(3), 647-648
  5. Apvrille, Ludovic & Tanzi, Tullio & Dugelay, Jean-Luc. (2014). Autonomous Drones for Assisting Rescue Services within the context of Natural Disasters. 2014 31th URSI General Assembly and Scientific Symposium, URSI GASS 2014. 10.1109/URSIGASS.2014.6929384.
  6. Hanafi,D.january 2013,Simple GUI Wireless Controller of Quadcopter,International Journal of Communications, Network and System Sciences
  7. Luukkonen,T.August 22, 2011,Modelling and control of quadcopter, Aalto University
  8. Khan,M.,8, AUGUST 2014,Quadcopter Flight Dynamics,INTERNATIONAL JOURNAL OF SCIENTIFIC & TECHNOLOGY RESEARCH
  9. Breed,D.,S.,Apr. 10, 2007,Method and system for detecting objects external to a vehicle, Intelligent Tech International Inc
  10. 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
  11. 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
  12. 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.
  13. 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
  14. 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
  15. Singh, O. G. (2015). Self-Navigating Quadcopter. International Journal of Computer Science and Information Technologies, 6(3), 2761-2765. doi:0975-9646
  16. 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
  17. 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
  18. 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
  19. Coppola, M., Mcguire, K., Scheper, K. & Croon, G. (2016). On-board Bluetooth-based Relative Localization for Collision Avoidance in Micro Air Vehicle Swarms.
  20. Turkay, Mustafa. (2017). OBJECT DETECTION AND TRACKING FOR REAL TIME FIELD SURVELLIANCE APPLICATIONS. doi: 10.13140/RG.2.2.34716.49282.
  21. Cavoukian, A., Ph.D. (2012, August). (Canada, Information & Privacy Commissioner). Retrieved April 28, 2018.
  22. Strawser, B. J. (2010). Moral Predators: The Duty to Employ Uninhabited Aerial Vehicles. Handbook of Unmanned Aerial Vehicles,9(4), 2943-2964. doi:10.1007/978-90-481-9707-1_99
  23. Hopkins, A. (2017). The Ethical Debate on Drones. Retrieved from https://digitalcommons.augustana.edu/cgi/viewcontent.cgi?article=1008&context=ethicscontest
  24. Robert Bogue, (2014) "Robot ethics and law: Part two: law", Industrial Robot: An International Journal, Vol. 41 Issue: 5, pp.398-402, https://doi.org/10.1108/IR-04-2014-0332
  25. K Amukele, T. (2016). Drone transportation of blood products. Retrieved from https://onlinelibrary.wiley.com/doi/pdf/10.1111/trf.13900