References:
[1] Tole, L. (2008). “Changes in the built vs non-built environment in a rapidly urbanizing region: A Case Study of the Greater Toronto Area,” Computers, Environment and Urban Systems, vol. 32 issue 5, pp. 355-364. ISSN: 0198-7515.
[2] Idris, M.Y.I., Tamil, E.M., Noor, N.M., Razak, Z. and Fong, K.W. (2009a). “Parking Guidance System Utilizing Wireless Sensor Network and Ultrasonic Sensor,” Information Technology Journal, vol. 8 issue 2, pp. 138-146. ISSN: 1812-5638.
[3] Idris, M.Y.I., Leng, Y.Y., Tamil, E.M., Noor, N.M. and Razak, Z. (2009b). “Car Park System: A Review of Smart Parking System and its Technology,” Information Technology Journal, vol. 8 issue 2, pp. 101-113. ISSN: 1812-5638.
[4] Department of Transport Management Technology (2015). “Students’ Handbook 2010-2015,” School of Management Technology, Federal University of Technology, Akure.
[5] Ahad, A., Khan, Z.R. and Ahmad, S.A. (2016). “Intelligent Parking System,” World Journal of Engineering and Technology, vol. 4, pp. 160-167.
[6] Chai, H., Ma, R. and Zhang, H.M. (2018). “Search for parking: A Dynamic Parking and Route Guidance System for Efficient Parking and Traffic Management,” Journal of Intelligent Transportation Systems, DOI: https://doi.org/10.1080/15472450.2018.1488218
[7] Kianpisheh, A., Mustaffa, N., Limtrairut, P. and Keikhosrokiani, P. (2012). “Smart Parking System Architecture Using Ultrasonic Detector,” International Journal of Software Engineering and its Applications, vol. 6 issue 3, pp. 51-58.
[8] Kizilkaya, B., Caglar, M., Al-Turjman, F. and Ever, E. (2018). “An Intelligent Car Park Management System: Hierarchical Placement Algorithm Based on Nearest Location,” Proceedings of 32nd International Conference on Advanced Information Networking and Applications Workshops, in IEEE Explore Digital Library. DOI: https://doi.org/10.1109/WAINA.2018.00151
[9] Paidi, V., Fleyeh, H., Hakansson, J. and Nyberg, R.G. (2018). “Smart Parking Sensors, Technologies, and Applications for open parking lots: a review,” IET Intelligent Transport Systems, vol. 12 issue 8, pp. 735-741. DOI: http://dx.doi.org/10.1049/iet-its.2017.0406
[10] Faiyetole, A.A. (2019). “A Review of Intelligent Transport System, and its People’s Needs Considerations for Traffic Management’s Policy Framework in a Developed Country;” In Outay, F., Yasar, A., and Shakshuki, E. Editors, Global Advancements in Connected and Intelligent Mobility: Emerging Research and Opportunities. IGI-Global, USA: Pennsylvania.
[11] Santhosh, G. and Sathish, G.C. (2017). “Frameworks for Parking Systems: A Survey,” Proceedings of Second National Conference on Advances in Computing and Information Technology, published in Asia Journal of Engineering and Technology Innovation (AJETI), pp. 149-152.
[12] Amadi, E.C., Ahaiwe, J., Etus, C. and Akpabio, N. (2014). “Deployment of ICT for Effective Transportation System in Nigeria: A Design model of Nigerian System in Nigeria.” International Journal of Science and Research (IJSR), vol. 3 issue 11, pp. 24-32.
[13] Hassoune, K., Dachry, W., Moutaouakkil, F. and Medromi, H. (2016). "Smart Parking Systems: A Survey,” Proceedings of 11th International Conference on Intelligent Systems: Theories and Applications (Sita), published by IEEE Xplore, pp. 1-6. https://doi.org/10.1109/SITA.2016.7772297
[14] Singh, B., Gupta, A., and Suman, S. (2014). “Framework for Development of Advanced Traveler Information System: A Case Study for Chandigarh City.” Proceedings of International Conference on Transportation Planning and Implementation Methodologies for Developing Countries 2014 (TPMDC-2014), Submission Id. 54.
[15] Jung, H.G., Kim, D.S. Yoon, P.J. and Kim, J. (2006). “Structure Analysis Base Parking Slot Marking Recognition for Semi-Automatic Parking System,” in D.Y. Yeung et al. (Eds.) SSPR & SPR, LNCS 4109, pp. 384-393.Springer-Verlag Berlin Heidelberg.
[16] Geng, Y. and Cassandras, C.G. (2012). “A New ‘Smart Parking’ System Infrastructure and Implementation,” Procedia – Social and Behavioral Sciences, vol. 54, pp. 1278-1287.
[17] Al-Kharusi, H. and Al-Bahadly, I. (2014). “Intelligent Parking Management System Based on Image Processing,” World Journal of Engineering and Technology, vol. 2, pp. 55-67.
[18] Yusnita, R. Norbaya, F. and Basharuddin, N. (2012). “Intelligent Parking Space Detection System Based on Image Processing,” International Journal of Innovation, Management and Technology, vol. 3 issue 3, pp. 232-235.
[19] Basavaraju, S.R. (2015). “Automatic Smart Parking System using the Internet of Things (IoT),” International Journal of Scientific and Research Publications, vol. 5 issue 12, pp. 629-632.
[20] Gandhi, B.M.K. and Rao, M. K. (2016). “A Prototype for IoT Based Car Parking Management System for Smart Cities,” Indian Journal of Science and Technology, vol. 9 issue 17, pp. 1-6.
[21] Singh, H., Anand, C., Kumar, V. and Sharma, A. (2010). “Automated Parking System with Bluetooth Access,” International Journal of Engineering and Computer Science, vol. 3 issue 5, pp. 5773-5775.
[22] Yee, H.C. and Rahayu, Y. (2014). “Monitoring Parking Space Availability Via Zigbee Technology,” International Journal of Future Computer and Communication, vol. 3, issue 6, pp. 377-380.
[23] Mutiara, G.A., Agung, A.A.G, and Handayani, R. (2017). “MAC Address-Based Smart Parking Prototype using Solar Cell,” ARPN Journal of Engineering and Applied Sciences,” vol. 12 issue 4, pp. 1085-1091.
[24] Mehmood, Z., Haneef, O., Mohammad, N. and Khattak, S. (2018). “Towards a Fully Automated Car Parking System,” IET Intelligent Transport Systems, http://dx.doi.org/10.1049/iet-its.2018.5021.
[25] Orrie, O., Silva, B., and Hancke, G.. (2015). “A Wireless Smart Parking System,” Proceedings of 41st Annual Conference of the IEEE Industrial Electronics Society, IECON, published in IEEE Xplore, pp. 004110-004114.
[26] Sakai, A.K., Mizuno, T., Sugimoto, and Okuda, T. (1995). “Parking Guidance and Information System,” Proceedings of Vehicle Navigations and Information System Conference in Conjunction with the Pacific Rim TransTech Conference, 6th International VNIS. A Ride into the Future, July 30-August 2, IEEE Explore, pp. 478-485.
[27] Bertini, R. and El-Geneidy, A. (2002). “Advanced Traffic Management System Data. In D. Gillen & D. Levinson (Eds.), Assessing the Benefits and Costs of ITS. Transportation Research, Economics and Policy, (vol 10, pp. 287-314). Springer, Boston, MA.
[28] Krejcie, R.V. and Morgan, D.W. (1970). “Determining Sample Size for Research Activities,” Educational and Psychological Measurement, vol. 30, pp. 607-610.
[29] Scheeling, J. (2002). “Car Park Monitoring System,” University of Queensland.
[30] Rao, Y.R. (2017). “Automatic Smart Parking System using the Internet of Things (IoT),” International Journal of Engineering Technology Science and Research, vol. 4 issue 5, pp. 225-228. ISSN: 2394-3386.
[31] Arduino IDE (2018). “Arduino Software IDE on Windows PC,” from Arduino.cc: https://www.arduino.cc/en/Guide/Windows, accessed 08 August 2018.
[32] Mimbela, L.E.Y. and Klein, L.A. (2000). “A Summary of Vehicle Detection and Surveillance Technologies used in Intelligent Transport System,” Southwest Technology Development Institute (SWTDI) at New Mexico State University.
[33] Faiyetole, A.A. (2018). “Potentialities of Space-Based Systems for Monitoring Climate Policies and Mitigation of Climate Process Drivers,” Astropolitics, vol. 16 issue 1, pp. 28-48.