PRE2020 3 Group 5 Summaries: Difference between revisions

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<b>Sven:</b>
<b>Sven:</b>
Paper <ref name="DroneUsePossibilities">[https://doi.org/10.4172/2165-784x.1000233] Kardasz, P., & Doskocz, J. (2016). Drones and Possibilities of Their Using. Journal of Civil & Environmental Engineering, 6(3), 1–7. </ref>
Paper <ref name="DroneUsePossibilities">[https://doi.org/10.4172/2165-784x.1000233] Kardasz, P., & Doskocz, J. (2016). Drones and Possibilities of Their Using. Journal of Civil & Environmental Engineering, 6(3), 1–7. </ref> <br />
Summery
Paper <ref name="DroneSpecsReview">[https://doi.org/10.1016/j.paerosci.2017.04.003] Hassanalian, M., & Abdelkefi, A. (2017). Classifications, applications, and design challenges of drones: A review. Progress in Aerospace Sciences, 91, 99–131. </ref> <br />
Summery
Paper <ref name="SocialImpactCommercialDrones">[https://doi.org/10.1016/j.techsoc.2016.02.009] Rao, B., Gopi, A. G., & Maione, R. (2016). The societal impact of commercial drones. Technology in Society, 45, 83–90. </ref> <br />
Summery
Paper <ref name="ForestMonitorDrones">[https://doi.org/10.1016/j.biocon.2016.03.027] Zhang, J., Hu, J., Lian, J., Fan, Z., Ouyang, X., & Ye, W. (2016). Seeing the forest from drones: Testing the potential of lightweight drones as a tool for long-term forest monitoring. Biological Conservation, 198, 60–69. </ref> <br />
Summery
Paper <ref name="DronesMedicine">[https://doi.org/10.1111/ijcp.12989] Balasingam, M. (2017). Drones in medicine-The rise of the machines. International Journal of Clinical Practice, 71(9), e12989. </ref> <br />
Summery
Summery
Paper <ref name="DroneSpecsReview">[https://doi.org/10.1016/j.paerosci.2017.04.003] Hassanalian, M., & Abdelkefi, A. (2017). Classifications, applications, and design challenges of drones: A review. Progress in Aerospace Sciences, 91, 99–131. </ref>
Paper <ref name="SocialImpactCommercialDrones">[https://doi.org/10.1016/j.techsoc.2016.02.009] Rao, B., Gopi, A. G., & Maione, R. (2016). The societal impact of commercial drones. Technology in Society, 45, 83–90. </ref>
Paper <ref name="ForestMonitorDrones">[https://doi.org/10.1016/j.biocon.2016.03.027] Zhang, J., Hu, J., Lian, J., Fan, Z., Ouyang, X., & Ye, W. (2016). Seeing the forest from drones: Testing the potential of lightweight drones as a tool for long-term forest monitoring. Biological Conservation, 198, 60–69. </ref>
Paper <ref name="DronesMedicine">[https://doi.org/10.1111/ijcp.12989] Balasingam, M. (2017). Drones in medicine-The rise of the machines. International Journal of Clinical Practice, 71(9), e12989. </ref>


<b>Lucas:</b>
<b>Lucas:</b>
Paper <ref name="EarlyDefibrillation">[https://doi.org/10.1161/01.cir.0000028148.62305.69] Capucci, A., Aschieri, D., Piepoli, M. F., Bardy, G. H., Iconomu, E., & Arvedi, M. (2002). Tripling Survival From Sudden Cardiac Arrest Via Early Defibrillation Without Traditional Education in Cardiopulmonary Resuscitation. Circulation, 106(9), 1065–1070. </ref>
Paper <ref name="EarlyDefibrillation">[https://doi.org/10.1161/01.cir.0000028148.62305.69] Capucci, A., Aschieri, D., Piepoli, M. F., Bardy, G. H., Iconomu, E., & Arvedi, M. (2002). Tripling Survival From Sudden Cardiac Arrest Via Early Defibrillation Without Traditional Education in Cardiopulmonary Resuscitation. Circulation, 106(9), 1065–1070. </ref> <br />
Paper <ref name="ProjectileTearGas">[https://doi.org/10.1016/j.wneu.2020.02.050] Hoz, S. S., Aljuboori, Z. S., Dolachee, A. A., Al-Sharshahi, Z. F., Alrawi, M. A., & Al-Smaysim, A. M. (2020). Fatal Penetrating Head Injuries Caused by Projectile Tear Gas Canisters. World Neurosurgery, 138, e119–e123. </ref>
Summery
Paper <ref name="SilicaBasedFHF">[https://doi.org/10.1007/s10971-016-4285-8] Kuprin, D. S. (2017). Physical–chemical explanation of fire-fighting efficiency of FHF (fast-hardening foam) based on structured silica particles. Journal of Sol-Gel Science and Technology, 81(1), 36–41. </ref>
Paper <ref name="ProjectileTearGas">[https://doi.org/10.1016/j.wneu.2020.02.050] Hoz, S. S., Aljuboori, Z. S., Dolachee, A. A., Al-Sharshahi, Z. F., Alrawi, M. A., & Al-Smaysim, A. M. (2020). Fatal Penetrating Head Injuries Caused by Projectile Tear Gas Canisters. World Neurosurgery, 138, e119–e123. </ref> <br />
Paper <ref name="RiskDronesPrivacy">[https://doi.org/10.5195/tlp.2013.123] Schlag, C. (2013). The New Privacy Battle: How the Expanding Use of Drones Continues to Erode Our Concept of Privacy and Privacy Rights. Pittsburgh Journal of Technology Law and Policy, 13(2), 1–23. </ref>
Summery
Paper <ref name="NewBatteryManagementDrones">[https://doi.org/10.1115/imece2019-10479] Hashemi, S. R., Esmaeeli, R., Aliniagerdroudbari, H., Alhadri, M., Alshammari, H., Mahajan, A., & Farhad, S. (2019). New Intelligent Battery Management System for Drones. Volume 6: Energy, 1–7. </ref>
Paper <ref name="SilicaBasedFHF">[https://doi.org/10.1007/s10971-016-4285-8] Kuprin, D. S. (2017). Physical–chemical explanation of fire-fighting efficiency of FHF (fast-hardening foam) based on structured silica particles. Journal of Sol-Gel Science and Technology, 81(1), 36–41. </ref> <br />
Summery
Paper <ref name="RiskDronesPrivacy">[https://doi.org/10.5195/tlp.2013.123] Schlag, C. (2013). The New Privacy Battle: How the Expanding Use of Drones Continues to Erode Our Concept of Privacy and Privacy Rights. Pittsburgh Journal of Technology Law and Policy, 13(2), 1–23. </ref> <br />
Summery
Paper <ref name="NewBatteryManagementDrones">[https://doi.org/10.1115/imece2019-10479] Hashemi, S. R., Esmaeeli, R., Aliniagerdroudbari, H., Alhadri, M., Alshammari, H., Mahajan, A., & Farhad, S. (2019). New Intelligent Battery Management System for Drones. Volume 6: Energy, 1–7. </ref> <br />
Summery


<b>Bram:</b>
<b>Bram:</b>
Paper <ref name="PublicAcceptanceDrones">[https://doi.org/10.1016/j.techsoc.2019.101180] Aydin, B. (2019). Public acceptance of drones: Knowledge, attitudes, and practice. Technology in Society, 59, 101180. </ref>
Paper <ref name="PublicAcceptanceDrones">[https://doi.org/10.1016/j.techsoc.2019.101180] Aydin, B. (2019). Public acceptance of drones: Knowledge, attitudes, and practice. Technology in Society, 59, 101180. </ref> <br />
Paper <ref name="UAVFireFighting">[https://doi.org/10.1109/elnano.2018.8477527] Sherstjuk, V., Zharikova, M., & Sokol, I. (2018). Forest Fire-Fighting Monitoring System Based on UAV Team and Remote Sensing. 2018 IEEE 38th International Conference on Electronics and Nanotechnology (ELNANO), 663–668. </ref>
Summery
Paper <ref name="ManagingDroneRevolution">[https://doi.org/10.1016/j.jairtraman.2020.101929] Merkert, R., & Bushell, J. (2020). Managing the drone revolution: A systematic literature review into the current use of airborne drones and future strategic directions for their effective control. Journal of Air Transport Management, 89, 101929. </ref>
Paper <ref name="UAVFireFighting">[https://doi.org/10.1109/elnano.2018.8477527] Sherstjuk, V., Zharikova, M., & Sokol, I. (2018). Forest Fire-Fighting Monitoring System Based on UAV Team and Remote Sensing. 2018 IEEE 38th International Conference on Electronics and Nanotechnology (ELNANO), 663–668. </ref> <br />
Paper <ref name="SurgMedAppDrones">[https://doi.org/10.4293/jsls.2018.00018] Rosser, J. C., Vignesh, V., Terwilliger, B. A., & Parker, B. C. (2018). Surgical and Medical Applications of Drones: A Comprehensive Review. JSLS : Journal of the Society of Laparoendoscopic Surgeons, 22(3), e2018.00018. </ref>
Summery
Paper <ref name="MedDroneDelivery">[https://doi.org/10.1016/j.cja.2020.06.006] EUCHI, J. (2020). Do drones have a realistic place in a pandemic fight for delivering medical supplies in healthcare systems problems? Chinese Journal of Aeronautics, 1–9. </ref>
Paper <ref name="ManagingDroneRevolution">[https://doi.org/10.1016/j.jairtraman.2020.101929] Merkert, R., & Bushell, J. (2020). Managing the drone revolution: A systematic literature review into the current use of airborne drones and future strategic directions for their effective control. Journal of Air Transport Management, 89, 101929. </ref> <br />
Summery
Paper <ref name="SurgMedAppDrones">[https://doi.org/10.4293/jsls.2018.00018] Rosser, J. C., Vignesh, V., Terwilliger, B. A., & Parker, B. C. (2018). Surgical and Medical Applications of Drones: A Comprehensive Review. JSLS : Journal of the Society of Laparoendoscopic Surgeons, 22(3), e2018.00018. </ref> <br />
Summery
Paper <ref name="MedDroneDelivery">[https://doi.org/10.1016/j.cja.2020.06.006] EUCHI, J. (2020). Do drones have a realistic place in a pandemic fight for delivering medical supplies in healthcare systems problems? Chinese Journal of Aeronautics, 1–9. </ref> <br />
Summery


<b>Stijn:</b>
<b>Stijn:</b>

Revision as of 16:41, 11 March 2021

Main page: Main page


Week 1 Summeries

Sven: Paper [1]
Summery Paper [2]
Summery Paper [3]
Summery Paper [4]
Summery Paper [5]
Summery

Lucas: Paper [6]
Summery Paper [7]
Summery Paper [8]
Summery Paper [9]
Summery Paper [10]
Summery

Bram: Paper [11]
Summery Paper [12]
Summery Paper [13]
Summery Paper [14]
Summery Paper [15]
Summery

Stijn: [16] [17] [18] [19] [20]

Pepijn: [21] [22] [23] [24] [25]

References

  1. [1] Kardasz, P., & Doskocz, J. (2016). Drones and Possibilities of Their Using. Journal of Civil & Environmental Engineering, 6(3), 1–7.
  2. [2] Hassanalian, M., & Abdelkefi, A. (2017). Classifications, applications, and design challenges of drones: A review. Progress in Aerospace Sciences, 91, 99–131.
  3. [3] Rao, B., Gopi, A. G., & Maione, R. (2016). The societal impact of commercial drones. Technology in Society, 45, 83–90.
  4. [4] Zhang, J., Hu, J., Lian, J., Fan, Z., Ouyang, X., & Ye, W. (2016). Seeing the forest from drones: Testing the potential of lightweight drones as a tool for long-term forest monitoring. Biological Conservation, 198, 60–69.
  5. [5] Balasingam, M. (2017). Drones in medicine-The rise of the machines. International Journal of Clinical Practice, 71(9), e12989.
  6. [6] Capucci, A., Aschieri, D., Piepoli, M. F., Bardy, G. H., Iconomu, E., & Arvedi, M. (2002). Tripling Survival From Sudden Cardiac Arrest Via Early Defibrillation Without Traditional Education in Cardiopulmonary Resuscitation. Circulation, 106(9), 1065–1070.
  7. [7] Hoz, S. S., Aljuboori, Z. S., Dolachee, A. A., Al-Sharshahi, Z. F., Alrawi, M. A., & Al-Smaysim, A. M. (2020). Fatal Penetrating Head Injuries Caused by Projectile Tear Gas Canisters. World Neurosurgery, 138, e119–e123.
  8. [8] Kuprin, D. S. (2017). Physical–chemical explanation of fire-fighting efficiency of FHF (fast-hardening foam) based on structured silica particles. Journal of Sol-Gel Science and Technology, 81(1), 36–41.
  9. [9] Schlag, C. (2013). The New Privacy Battle: How the Expanding Use of Drones Continues to Erode Our Concept of Privacy and Privacy Rights. Pittsburgh Journal of Technology Law and Policy, 13(2), 1–23.
  10. [10] Hashemi, S. R., Esmaeeli, R., Aliniagerdroudbari, H., Alhadri, M., Alshammari, H., Mahajan, A., & Farhad, S. (2019). New Intelligent Battery Management System for Drones. Volume 6: Energy, 1–7.
  11. [11] Aydin, B. (2019). Public acceptance of drones: Knowledge, attitudes, and practice. Technology in Society, 59, 101180.
  12. [12] Sherstjuk, V., Zharikova, M., & Sokol, I. (2018). Forest Fire-Fighting Monitoring System Based on UAV Team and Remote Sensing. 2018 IEEE 38th International Conference on Electronics and Nanotechnology (ELNANO), 663–668.
  13. [13] Merkert, R., & Bushell, J. (2020). Managing the drone revolution: A systematic literature review into the current use of airborne drones and future strategic directions for their effective control. Journal of Air Transport Management, 89, 101929.
  14. [14] Rosser, J. C., Vignesh, V., Terwilliger, B. A., & Parker, B. C. (2018). Surgical and Medical Applications of Drones: A Comprehensive Review. JSLS : Journal of the Society of Laparoendoscopic Surgeons, 22(3), e2018.00018.
  15. [15] EUCHI, J. (2020). Do drones have a realistic place in a pandemic fight for delivering medical supplies in healthcare systems problems? Chinese Journal of Aeronautics, 1–9.
  16. [16] Floreano, D., & Wood, R. J. (2015). Science, technology and the future of small autonomous drones. Nature, 521(7553), 460–466.
  17. [17] Khan, M. N. H., & Neustaedter, C. (2019). An Exploratory Study of the Use of Drones for Assisting Firefighters During Emergency Situations. Proceedings of the 2019 CHI Conference on Human Factors in Computing Systems, 1–14.
  18. [18] Restas, A. (2015). Drone Applications for Supporting Disaster Management. World Journal of Engineering and Technology, 03(03), 316–321.
  19. [19] Liu, Z., Kim, A. K., & Carpenter, D. (2007). A study of portable water mist fire extinguishers used for extinguishment of multiple fire types. Fire Safety Journal, 42(1), 25–42.
  20. [20] Aydin, B., Selvi, E., Tao, J., & Starek, M. J. (2019). Use of Fire-Extinguishing Balls for a Conceptual System of Drone-Assisted Wildfire Fighting. Drones, 3(1), 17–32.
  21. [21] Moore, J. (2013). U.S. Patent No. 2013/0134254. Maryland
  22. [22] W, G.Y. & K, K.W. (2019). U.S. Patent No. 10,413,763. Korea
  23. [23] Anania, E. C., Rice, S., Pierce, M., Winter, S. R., Capps, J., Walters, N. W., & Milner, M. N. (2019). Public support for police drone missions depends on political affiliation and neighborhood demographics. Technology in Society, 57, 95–103.
  24. [24] Feeney, Matthew, Surveillance Takes Wing: Privacy in the Age of Police Drones (December 13, 2016). Cato Institute Policy Analysis No. 807, Available at SSRN: https://ssrn.com/abstract=2919439
  25. [25] Manjikian, M. & Army War College (U.S.). (2017). A Typology of Arguments about Drone Ethics. Amsterdam, Netherlands: Amsterdam University Press.