行 論文 果 文 參考 結論
研究 行 與 為
建 研究
1. 案例研究 探討變換車道 車 行為 要 討
論 結果 系統
2. 系統 探討 量化
研究 表 型
7.4 結
文獻 文 論 論文 論
論
車
論 目 案 論文 參考 表
要
• ?
• ?
統 車 100 [58]
行 [59]
表
行 道 車
車
參考文獻
[1] World Health Organization. “Global Status Report on Road Safety 2015”.
http://www.who.int/, 2015.
[2] J.Treat, N. Tumbas, S. McDonald, D. Shinar, R. Hume, R. Mayer, R. Stansifer and N. Castellan. “Tri-Level Study of the Causes of Traffic Accidents: Final Report”. DOT HS 034 3 535, 1979.
[3] National Highway Traffic Safety Administration. “Critical Reasons for Crashes Investigated in the National Motor Vehicle Crash Causation Survey”. https:
//crashstats.nhtsa.dot.gov/, 2015.
[4] IIHS News. “U.S. DOT and IIHS Announce Historic Commitment of 20 Au-tomakers to Make Automatic Emergency Braking Standard on New Vehicles”.
http://www.iihs.org/, 2016.
[5] National Highway Traffic Safety Administration. “U.S. Department of Trans-portation Releases Policy on Automated Vehicle Development”. http://www.
nhtsa.gov/, 2013.
[6] H. Reese. “Autonomous Driving Levels 0 to 5: Understanding the Differences”.
TechRepublic, https://www.techrepublic.com/, 2016.
[7] 車 研究 . “ 車 要”. https://www.artc.
org.tw/, 2013.
[8] M. Bertoncello and D. Wee. “Ten Ways Autonomous Driving Could Redefine the Automotive World”. McKinsey & Company, http://www.mckinsey.com/, 2015.
[9] C. Harper, C. Hendrickson, S. Mangones and C. Samaras. “Estimating Poten-tial Increases in Travel with Autonomous Vehicles for the Non-Driving, Elderly and People with Travel-Restrictive Medical Conditions”. Transportation Re-search Part C: Emerging Technologies, 72: 1–9, 2016.
[10] B. Schoettle and M. Sivak. “A Survey of Public Opinion about Autonomous and Self-Driving Vehicles in the U.S., the U.K., and Australia”. Report UMTRI-2014-21, Transportation Research Institute, University of Michigan, 2014.
[11] L. Gomes. “Driving in Circles: The Autonomous Google Car May Never Actu-ally Happen”. Slate Magazine, http://www.slate.com/, 2014.
[12] Office of Defects Investigations and National Highway Traffic Safety Adminis-tration. “ODI Resume - Investigation: PE 16-007”. https://static.nhtsa.
gov/odi/inv/2016/INCLA-PE16007-7876.PDF, 2017.
[13] Department of Motor Vehicles. “Autonomous Vehicle Disengagement Reports 2016”. https://www.dmv.ca.gov/, 2016.
[14] Google Auto, LLC/Waymo. “Report on Autonomous Mode Disengagements for Waymo Self-Driving Vehicles in California”. https://www.dmv.ca.gov/, 2016.
[15] M. Sivak and B. Schoettle. “Road Safety with Self-Driving Vehicles: General Limitations and Road Sharing with Conventional Vehicles”. Report UMTRI-2015-2, Transportation Research Institute, University of Michigan, 2015.
[16] S. Ferguson, E. Teoh and A. McCartt. “Progress in Teenage Crash Risk during the Last Decade”. Journal of Safety Research, 38(2): 137–145, 2007.
[17] Goldman Sachs. “Monetizing the Rise of Autonomous Vehicles”. Cars 2025, 3, 2015.
[18] M. Sivak and B. Schoettle. “Should We Require Licensing Tests and Graduated Licensing for Self-Driving Vehicles ?”. Report UMTRI-2015-33, Transportation Research Institute, University of Michigan, 2015.
[19] L. Gomes. “Hidden Obstacles for Google’s Self-Driving Cars: Impressive Progress Hides Major Limitations of Google’s Quest for Automated Driving”.
MIT Technology Review, https://www.technologyreview.com/, 2014.
[20] D. Lavrinc. “This Is How Bad Self-Driving Cars Suck in the Rain”. Jalopnik, http://jalopnik.com/, 2014.
[21] S. Sutherland. “How Will Driverless Cars Handle Canada’s Nasty Weather ?”.
The Weather Network, https://www.theweathernetwork.com/, 2015.
[22] C. Trudell. “Snow Problem When It Comes to Self-Driving Cars, Says Google”.
Insurance Journal, http://www.insurancejournal.com/, 2015.
[23] K. Fraser. “How Reliable Can Aged Autonomous Cars Be ?”. WardsAuto, http://wardsauto.com/, 2016.
[24] A. Barr and M. Ramsey. “Google Tries to Make Its Cars Drive More Like Humans”. The Wall Street Journal, https://www.wsj.com/, 2015.
[25] L. Mathews. “Google Is Making Its Self-Driving Cars Drive More Like People”.
Geek.com, https://www.geek.com/, 2015.
[26] C. Matyszczyk. “Google Teaching Self-Driving Cars to Drive Like Humans”.
CNET, https://www.cnet.com/, 2015.
[27] J. Titcomb. “Google to Make Driverless Cars Act More Like Humans After Complaints They Are Too Polite”. The Telegraph, http://www.telegraph.
co.uk/, 2015.
[28] J. Rasmussen. Information Processing and Human-Machine Interaction: An Approach to Cognitive Engineering. Elsevier Science Inc., 1986.
[29] S. Palmer. “Can Self-Driving Cars Ever Really Be Safe ?”. Shelly Palmer, https://www.shellypalmer.com/, 2017.
[30] M. Blanco, J. Atwood, S. Russell, T. Trimble, J. McClafferty and M. Perez.
“Automated Vehicle Crash Rate Comparison Using Naturalistic Data”. Tech-nical report, Virginia Tech Transportation Institute, 2016.
[31] L. Blincoe, T. Miller, E. Zaloshnja and B. Lawrence. “The Economic and Societal Impact of Motor Vehicle Crashes, 2010 (Revised May 2015)”. https:
//crashstats.nhtsa.dot.gov/, 2015.
[32] N. Kalra and S. Paddock. “Driving to Safety: How Many Miles of Driving Would It Take to Demonstrate Autonomous Vehicle Reliability ?”. Transporta-tion Research Part A: Policy and Practice, 94: 182–193, 2016.
[33] H. Peng. “Evaluation of the Performance and Safety of Automated Vehicles”.
2012.
[34] N. Gobillot, F. Guet, D. Doose, C. Grand, C. Lesire and L. Santinelli.
“Measurement-Based Real-Time Analysis of Robotic Software Architectures”.
In 2016 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS), pages 3306–3311, 2016.
[35] Y. Saito, T. Azumi, S. Kato and N. Nishio. “Priority and Synchronization Support for ROS”. In 2016 IEEE 4th International Conference on Cyber-Physical Systems, Networks, and Applications (CPSNA), pages 77–82, 2016.
[36] C. Hubmann, M. Aeberhard and C. Stiller. “A Generic Driving Strategy for Ur-ban Environments”. In 2016 IEEE 19th International Conference on Intelligent Transportation Systems (ITSC), pages 1010–1016, 2016.
[37] D. Zhao, H. Lam, H. Peng, S. Bao, D. LeBlanc, K. Nobukawa and C. Pan. “Ac-celerated Evaluation of Automated Vehicles Safety in Lane-Change Scenarios Based on Importance Sampling Techniques”. IEEE transactions on intelligent transportation systems, 18(3): 595–607, 2017.
[38] N. Stanton and P. Salmon. “Human Error Taxonomies Applied to Driving: A Generic Driver Error Taxonomy and Its Implications for Intelligent Transport Systems”. Safety Science, 47(2): 227–237, 2009.
[39] D. Su and K.-Y. Chan. “Compensating for Operational Uncertainty in Man-Machine Systems: A Case Study on Intelligent Vehicle Parking Assist”. ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems, Part B: Me-chanical Engineering, 1(3), 2015.
[40] C. Munro, J. Jefferys, E. Gower, B. Muñoz, C. Lyketsos, L. Keay, K. Turano, K. Bandeen-Roche and S. West. “Predictors of Lane-Change Errors in Older Drivers”. Journal of the American Geriatrics Society, 58(3): 457–464, 2010.
[41] G. Fitch, S. Lee, S. Klauer, J. Hankey, J. Sudweeks and T. Dingus. “Analysis of Lane-Change Crashes and Near-Crashes”. US Department of Transportation, National Highway Traffic Safety Administration, 2009.
[42] S. Habenicht, H. Winner, S. Bone, F. Sasse and P. Korzenietz. “A Maneuver-Based Lane Change Assistance System”. In 2011 IEEE Intelligent Vehicles Symposium (IV), pages 375–380, 2011.
[43] J. Ding, R. Dang, J. Wang and K. Li. “Driver Lane Change Decision Analysis and Intention Recognition Algorithm”. Qinghua Daxue Xuebao/Journal of Tsinghua University, 55(7): 769–774, 2015.
[44] L. Li and F.-Y. Wang. “The Automated Lane-Changing Model of Intelligent Vehicle Highway Systems”. In Proceedings. The IEEE 5th International Con-ference on Intelligent Transportation Systems, pages 216–218, 2002.
[45] J. Peng, R. Fu and Y. Guo. “Real-Time Prediction of Lane-Changing Behaviors under Naturalistic Driving Conditions”. Harbin Gongye Daxue Xuebao/Journal of Harbin Institute of Technology, 47(9): 119–123, 2015.
[46] L.-H. Xu, S.-G. Hu, Q. Luo and Y. Zhou. “Lane-Changing Model Based on Different Types of Drivers”. Journal of South China University of Technology (Natural Science Edition), 42(8): 104–111, 2014.
[47] S. Lee, W. Wierwille and E. Olden. “A Comprehensive Examination of Natu-ralistic Lane Changes”. National Highway Traffic Safety Administration, 2004.
[48] TOYOTA. http://www.toyota.com.tw/, 2017.
[49] B.-Y. Shi, X.-G. Yang and X.-F. Yu. “Modeling and Simulation of Discretionary Lane-Change Considering the Combination with the Car-Following Model”.
Journal of Transport Science and Engineering, 25(4): 91–96, 2009.
[50] D. Bezzina and J. Sayer. “Safety Pilot Model Deployment: Test Conductor Team Report”. US Department of Transportation, National Highway Traffic Safety Administration, 2015.
[51] G. Paddan and M. Griffin. “Evaluation of Whole-Body Vibration in Vehicles”.
Journal of Sound and Vibration, 253(1): 195–213, 2002.
[52] “Human Benchmark”. https://www.humanbenchmark.com/, 2017.
[53] G. Stein, O. Mano and A. Shashua. “Vision-Based ACC with a Single Camera:
Bounds on Range and Range Rate Accuracy”. In 2003 IEEE Intelligent Vehicles Symposium, pages 120–125, 2003.
[54] K.-L. Lu, K.-L. Chang, L.-R. Huang, K.-M. Ji, Y.-C. Chang and C.-J. Yang.
“Safety Requirements of Vehicular Electronics - An Introduction of ISO-26262 and Its Application”. ICT Journal, (163): 10–16, 2015.
[55] S. Sivaraman and M. Trivedi. “A General Active-Learning Framework for On-Road Vehicle Recognition and Tracking”. IEEE Transactions on Intelligent Transportation Systems, 11(2): 267–276, 2010.
[56] T. Triplett, R. Santos, S. Rosenbloom and B. Tefft. “American Driving Survey:
2014-2015”. AAA Foundation for Traffic Safety, https://www.aaafoundation.
org/, 2016.
[57] National Highway Traffic Safety Administration. “Traffic Safety Facts 2014”, 2014.
[58] J. Ball. “How Safe Is Air Travel Really ?”. The Guardian, https://www.
theguardian.com/, 2014.
[59] L. Kille. “Transportation Safety over Time: Cars, Planes, Trains, Walking, Cycling”. Journalist’s Resource, https://journalistsresource.org/, 2014.