SELF-DRIVING TRANSPORTATION SYSTEM FOR ECO-CAMPUS
DOI:
https://doi.org/10.51200/jbimpeagard.v3i1.1030Keywords:
self-driving, transportation system, eco-campusAbstract
In large campuses such as UMS and NTU, students need to move at long distances. The transportation of choice has been public transportation. The most common is in the form of buses. Buses need bus stops at strategic locations and only travel at intervals. Although buses are the most eco-friendly among all the transportation systems within a campus, alternative technologies had been studied to improve it further. Self-driving technologies are the most promising. Combined with sharing technologies such as Uber share, self-driving cars offer the most promising solution. Self-driving technologies are already under active development. Campus application should be the first choice for deployment. Campus environment is a private environment so is well controlled. The maps and network infrastructures are well established so will allow reliable self-driving technologies to be used within the campus only. It is therefore surprising that there are few trials involving self-driving transportation systems in a campus environment. There are various possibilities but all these should be overcome in order to have a truly eco-friendly environment within the campus. Electrical shared self-driving cars allow eco-friendly mass transportation of people because electricity is a clean energy. Sharing allows full utilisation of the vehicles unlike other modes of transportation. Mobile apps and GPS allow pickup of passengers at any safe place instead of just at designated places. Because self-driving cars have no drivers, small vehicles may be used economically without the added costs of an extra non-paying passenger and salary of the driver for each vehicle. The lack of any driver also makes it safer for the students especially female students. Although there are still issues of safety among current self-driving technologies as had been shown by the accidents suffered by Tesla cars running on even semi-autonomous modes, safety within the campus should be much better and there is no need for full certification from the transportation authorities. Operating within the campus environment allow operators to operate without the strict licencing requirements of the public transportation environment. Safety can still be ensured by restricting the operation of the self-driving vehicles within clearly marked roads in the campus, enforcing safe speed limits such as the 50 km/hr imposed by Google and restricting operations in clear weather and daytime only. With remote operators and emergency buttons, even the semi-autonomous modes that are within the capabilities of current hardware, self-driving ride-sharing cars should be possible.
References
Ackerman, E., 2016. After Mastering Singapore’s Streets, NuTonomy’s Robo-taxis Are Poised to Take on New Cities. [Online] Available at: http://spectrum.ieee.org/transportation/self-driving/after-mastering-singapores-streets-nutonomys-robotaxis-are-poised-to-take-on-new-cities [Accessed 22 January 2017].
Alonso-Moraa, J. et al., 2017. On-demand high-capacity ride-sharing via dynamic trip-vehicle assignment. Proceedings of the National Academy of Sciences of the United States of America, 17 January, Volume 114, pp. 462-467.
Boudette, N. E., 2017. Tesla’s Self-Driving System Cleared in Deadly Crash. [Online] Available at: https://www.nytimes.com/2017/01/19/business/tesla-model-s-autopilot-fatal-crash.html?_r=0 [Accessed 20 January 2017].
Burns, J., 2017. Just 3000 Ride-Share Vehicles Could Replace NYC's Whole Taxi Fleet. [Online] Available at: http://www.forbes.com/sites/janetwburns/2017/01/03/just-3000-ride-share-vehicles-could-replace-nycs-whole-taxi-fleet/#216afc73706f [Accessed 22 January 2017].
Colijn, P., Herbach, J. S. & McNaughton, M. P., 2016. Determining Pickup and Destination Locations for Autonomous Vehicles. U.S.A., Patent No. US 20160370194.
Google, 2016. Google Self-Driving Car Project Monthly Report: November 2016. [Online] Available at: https://static.googleusercontent.com/media/www.google.com/en//selfdrivingcar/files/reports/report-1116.pdf [Accessed 20 January 2017].
Guizzo, E., 2011. How Google's Self-Driving Car Works. [Online] Available at: http://spectrum.ieee.org/automaton/robotics/artificial-intelligence/how-google-self-driving-car-works [Accessed 19 Jan 2017].
Hawkins, A. J., 2016. Uber says it’s reviewing incident of self-driving car running a red light. [Online] Available at: http://www.theverge.com/2016/12/14/13960836/uber-self-driving-car-san-francisco-red-light-safety [Accessed 20 January 2017].
Knight, W., 2016. My Self-Driving Uber Needed Human Help. [Online] Available at: https://www.technologyreview.com/s/602351/my-self-driving-uber-needed-human-help/ [Accessed 20 January 2017].
Kok, L. M., 2016. Self-driving car collides with lorry at Biopolis Drive. [Online] Available at: http://www.straitstimes.com/singapore/courts-crime/self-driving-car-collides-with-lorry-at-biopolis-drive [Accessed 20 January 2017].
Kovach, S., 2017. Google’s newly spun-out self driving car company no longer publishes monthly accident reports. [Online] Available at: http://www.businessinsider.my/waymo-ends-publishing-self-driving-car-accident-reports-website-2017-1/?r=US&IR=T#cz0JFcljcGEHAyC2.97 [Accessed 20 January 2017].
Lee, Y., 2016. Uber’s Top Southeast Asia Rival Joins Self-Driving Car Trial. [Online] Available at: https://www.bloomberg.com/news/articles/2016-09-23/ride-hailing-startup-grab-joins-singapore-self-driving-car-trial [Accessed 20 January 2017].
Markoff, J., 2016. Tesla and Google Take Different Roads to Self-Driving Car. [Online] Available at: https://www.nytimes.com/2016/07/05/business/tesla-and-google-take-different-roads-to-self-driving-car.html?_r=0 [Accessed 20 January 2017].
Musk, E., 2016. Master Plan, Part Deux. [Online] Available at: https://www.tesla.com/blog/master-plan-part-deux [Accessed 20 January 2017].
NVIDIA, 2017. The AI Car Computer for Self-Driving Vehicles. [Online] Available at: http://www.nvidia.com/object/drive-px.html [Accessed 22 January 2017].
NXP, 2017. S32VLS2-RDB: BlueBox: Autonomous Driving Platform (S32VLS2-RDB). [Online] Available at: http://www.nxp.com/products/microcontrollers-and-processors/arm-processors/s32-arm-processors-microcontrollers/bluebox-autonomous-driving-platform-s32vls2-rdb:S32VLS2-RDB [Accessed 22 January 2017].
Patentyogi, 2017. Google seems to developing an Uber-killer. [Online] Available at: http://patentyogi.com/latest-patents/google/google-seems-developing-uber-killer/ [Accessed 2 January 2017].
Protin, C., 2016. Here are all the radars, sensors and cameras Uber’s self-driving cars use to get around. [Online] Available at: The source of the sensors for Google is at its website (Guizzo, 2011) which may be out of date. [Accessed 20 January 2017].
Randall, T., 2017. Tesla’s Autopilot Vindicated With 40% Drop in Crashes. [Online] Available at: https://www.bloomberg.com/news/articles/2017-01-19/tesla-s-autopilot-vindicated-with-40-percent-drop-in-crashes [Accessed 20 January 2017].
SAE International, 2014. AUTOMATED DRIVING: LEVELS OF DRIVING AUTOMATION ARE DEFINED IN NEW SAE INTERNATIONAL STANDARD J3016. [Online] Available at: http://www.sae.org/misc/pdfs/automated_driving.pdf [Accessed 20 January 2017].
Silk, 2017. Google Self-Driving Cars Incidents. [Online] Available at: https://google-self-driving-car-incidents.silk.co/ [Accessed 20 January 2017].
State of California Department of Motor Vehicles, 2017. Report of Traffic Accident Involving an Autonomous Vehicle (OL 316). [Online] Available at: https://www.dmv.ca.gov/portal/dmv/detail/vr/autonomous/autonomousveh_ol316 [Accessed 20 January 2017].
Tesla, 2017. Autopilot. [Online] Available at: https://www.tesla.com/autopilot [Accessed 20 January 2017].
The State of California Department of Motor Vehicles , 2017. Testing of Autonomous Vehicles. [Online] Available at: https://www.dmv.ca.gov/portal/dmv/detail/vr/autonomous/testing [Accessed 22 January 2017].
Tilley, A., 2016. NXP's BlueBox Computer Has Head Start In Self-Driving Car Race. [Online] Available at: http://www.forbes.com/sites/aarontilley/2016/05/16/nxp-autonomous-car-chips/#200b0bbd73b4 [Accessed 22 January 2017].
Uber, 2017. Uberpool. [Online] Available at: https://www.uber.com/en-MY/ride/uberpool/ [Accessed 20 January 2017].
Waymo, 2016. August 2016 entitled “A record month in milesâ€. [Online] Available at: https://medium.com/waymo/a-record-month-in-miles-9e2795de31f0#.xkofqb56c [Accessed 20 January 2017].
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