DAFTAR PUSTAKA
_. (1992). Undang Undang Nomor 14 Tahun 1992 Tentang Lalu Lintas Dan Angkutan Jalan. Jakarta. _. (1993). Peraturan Pemerintah Republik Indonesia No 43 Tahun 1993 Tentang Prasarana dan Lalu Lintas Jalan. Jakarta. _. (1993). Peraturan Pemerintah Republik Indonesia Nomor 44 Tahun 1993 Tentang Kendaraan dan Pengemudi. Jakarta. _.
(1996). Keputusan Direktur Jenderal Perhubungan Darat Nomor :273/HK.105/DJRD/96 Tentang Pedoman Teknis Pengaturan Lalu Lintas di Persimpangan Berdiri Sendiri Dengan Alat Pemberi Isyarat Lalu Lintas. Jakarta.
_. (1997). Manual Kapasitas Jalan Indonesia (MKJI). Indonesia:Departemen Pekerjaan Umum Ditjen Bina Marga. _. (2007). Keputusan Menteri Pekerjaan Umum Nomor 370/KPTS/M/2007 Tentang Penetapan Golongan Jenis Kendaraan Bermotor Pada Ruas Jalan Tol. Jakarta. _. (2012). Pengembangan Sistem Transportasi nasional guna mempercepat dan memperluas pembangunan ekonomi dalam rangka Ketahanan Nasional. Jurnal Kajian Lemhanas RI. (Edisi 14). Hlm 31-40. _. (2014). Peraturan Menteri Perhubungan Republik Indonesia Nomor PM 34 Tahun 2014 Tentang Marka Jalan. Jakarta. _. (2014). Peraturan Menteri Perhubungan Nomor 13 Tahun 2014 Tentang Rambu Lalu Lintas. Jakarta. _. (2014). Peraturan Pemerintah Republik Indonesia No 74 Tahun 2014 Tentang Angkutan Jalan. Jakarta. _. (2014). Pedoman Kapasitas Simpang APILL. Konstruksi Bahan Bangunan dan Rekayasa Sipil. Kementrian Pekerjaan Umum. Adamatzky, Andrew. et al (eds). (2008). AUTOMATA-2008. Bristol: Luniver Press.
356
Azeem, Motaz A. (2013). Start Programming using Object Pascal. Diakses dari https://freepascalanswers.wordpress.com/2012/09/02/freepascallazarusbook-startprog/ pada tanggal 26 Juni 2016 pukul 21.15 WIB. Barceló, Jaume. (ed). (2010). Fundamentals of Traffic Simulation. New York: Springer. Bar-Yam,Yaneer. (1997). Dynamics of complex systems. Massachusetts: AddisonWesley. Benjaafar, S., Dooley, K., & Setyawan, W. 1997. Cellular Automata for Traffic Flow Modeling. Diakses dari http://citeseerx.ist.psu.edu/viewdoc/ download?doi=10.1.1.32.3670&rep=rep1&type=pdf. Pada tanggal 17 November 2015. Pukul 15.52 WIB. Benoso, B. Luna., Perales , J. C. Martínez., & Carapia ,R. Flores. (2013). Modeling Traffic Flow for Two and Three Lanes through Cellular Automata. International Mathematical Forum. Vol. 8 no. 22. hlm 1091 – 1101. Brilon, W., & Wu, N. (2001). Capacity at unsignalized intersections derived by conflict technique. Transportation Research Record. no 1776. hlm 82-90. Burzyński, Marcin. et al. (2009). Two–Lane Traffic Analysis by Means of Cellular Automata Solutions Within a Highway Model. Transport Problems. Volume 4 Issue 4. Hlm 25-32. Chen, Guangjiao, et al. (2013). A cell automation traffic flow model for mixed traffic. Procedia-Social and Behavioral Sciences .96(2013). Hlm 1412– 1419. Chodur, Janushz. (2000).Capacity of Unsignalized Urban Junctions. Transportation Research Circular E-C108: 4th International Symposium on Highway Capacity. Hlm 357-368. Gartner, Nathan H., Messer, Carroll., & Rathi , Ajay K. (2001). Traffic Flow Theory State-of The-Art-Report Revised 2001. rev.ed. Washington DC: Committee on Traffic Flow Theory and Characteristics. Transportation Research Board.
357
Gazis, Denos C. (2002). TRAFFIC THEORY. Dordrecht : Kluwer Academic Publishers. Gould, Gregory., & Karner, Alex. (2014).Modeling Bicycle Facility Operation: a Cellular Automaton Approach. Transportation Research Record: Journal of the Transportation Research Board. Vol 2140. Hlm 1-35. Gundaliya, P. J., Mathew, Tom V., & Dhingra, S. L. (2005). Methodology for finding optimum cell size for a grid based cellular automata traffic flow model. European Transport \ Trasporti Europei. n. 29. Hlm 71-79. Harald, Niesche. (2006). Introduction to Cellular Automata. Seminar “Organic Computing” SS2006. HCM. (2000). HIGHWAY CAPACITY MANUAL. Transportation Research Board, National Research Council. Washington DC. Hermawan, Rudy. (2009). Kaji Ulang Penentuan Tarif dan Sistem Penggolongan Kendaraan Jalan Tol di Indonesia. Jurnal Teknik Sipil. Vol. 16 No. 2. Hlm 95-102. Hoogendoorn, Serge P., & Bovy, Piet H.L. (2001). State-of-the-art of Vehicular Traffic Flow Modelling . Special Issue on Road Traffic Modelling and Control of the Journal of Systems and Control Engineering. Hlm 1-46. Huixin, Wu., Feng, Wang., & Duo, Mo. (2013). Mixed Traffic Flow Simulation at Urban Intersection and Its Application. Journal of Applied Sciences. 13(18). Hlm 3835-3840. Ivanac, V., Bašić, B.D., & Vanjak, Z. (2013). Construction and Evaluation of Cellular Automata Lattice Based on the Semantics of an Urban Traffic Network. Journal of Cellular Automata. Vol. 8. Hlm 417–428. Juniardi. (2006). ANALISIS ARUS LALU LINTAS DI SIMPANG TAK BERSINYAL Studi Kasus : Simpang Timoho dan Simpang Tunjung di Kota Yogyakarta. Tesis. Semarang: Program Pasca Sarjana Universitas Diponegoro. Karayiannis, Michael A. (2005). Cellular Automata in Traffic Prediction for Computer Networks. Doctoral Dissertation. University of York. Heslington UK.
358
Kerner, Boris S. (2009). Introduction to Modern Traffic Flow Theory and Control:The Long Road to Three-Phase Traffic Theory. Berlin: Springer. Li, Haiyuan. et al. (2009).Capacities of Unsignalized Intersections Under Mixed Vehicular and Nonmotorized Traffic Conditions. Transportation Research Record 2130. Hlm 129-137. Luo, Zhenke., Liu, Yue., & Guo, Chen. (2014). Operational characteristics of mixed traffic flow under bi-directional environment using cellular automaton. Journal of Traffic and Transportation Engineering. 1(6). hlm 383-392. Luttinen, R.Tapio. (2004). Capacity and Level of Service at Finnish Unsignalized Intersections. Finnra Reports. Finnish Road Administration. Maeda, Ken-Ichi & Sakama, Chiaki. (2007). Identifying Cellular Automata Rules. Journal of Cellular Automata. Vol 2. hlm 1–20. Maerivoet, Sven & De Moor, Bart. (2005). Cellular automata models of road traffic. Physics Reports. 419. Hlm 1-64. Mehar, Arpan., Chandra, Satish., & Velmurugan, Senathipathi. (2013). Speed and Acceleration Characteristics of Different Types of Vehicles on Multi-Lane Highways. European Transport \ Trasporti Europei. Issue 55. Hlm 1-12. Mu, Rui., & Yamamoto, Toshiyuki. (2012). An Analysis on Mixed Traffic Flow of Conventional Passenger Cars and Microcars Using a Cellular Automata Model. Procedia-Social and Behavioral Sciences. 43(2012). Hlm 457 – 465. Neuman, Timothy R. et al. (2003). NCHRP REPORT 500 Volume 5: A Guide for Addressing Unsignalized Intersection Collisions. Transportation Research Board. Washington DC. Opland, Linda. (2007). Size classification of passenger cars: Pre-study on how to size classify passenger cars by inventorying the existing classification models. Master's Thesis. Chalmers University of Technology. Göteborg Sweden. Pal, Dibyendu & Mallikarjuna , C. (2010). Cellular automata cell structure for modeling heterogeneous traffic. European Transport.n 45. Hlm 50-63.
359
Prasetijo, Joewono. (2007). Capacity and Traffic Performance of Unsignalized Intersections under Mixed Traffic Conditions. Doctoral Dissertation. Ruhr–Universität Bochum. Bochum. Rajeswaran, S. & Rajasekaran, S. (2012). A Realistic Approach to the Traffic Flow Behaviors by Cellular Automata Models. International Journal of Computer Applications. Volume 56 - No. 12, October 2012. Hlm 31-35. Roess ,Roger P., Prassas,Elena S. & McShane, William R. (2011). Traffic Engineering: Fourth Edition. New Jersey: Pearson Prentice Hall. Ruskin,H.J., & Wang,R. (2002). Modeling Traffic Flow at an Urban Unsignalised Intersection. Lecture Notes In Computer Science. (Volume 2329). Hlm 381-390. Springer-Verlag Berlin Heidelberg. Sangole, Jayant., Patil, Gopal., & Tripathy, Debabrata. (2013). Agent-based Methodology for Simulation of Heterogeneous Traffic at Uncontrolled Tintersection Using Grid Based Cellular Automata. 13th WCTR, July 15-18, 2013 . Rio, Brazil. Tong, Weiping., & Cheng, Lin. (2013). Simulation of Pedestrian Flow Based on Multi-Agent. Procedia-Social and Behavioral Sciences .96 (2013). Hlm 17-24. Wolfram, Stephen. (1983). Statistical Mechanics of Cellular Automata. Review of Modern Physiscs. Vol 55 no 3. Hlm 601-644. Wu, Q.S. et al. (2005). Study of traffic flow at an unsignalized T-shaped intersection by cellular automata model. The European Physical Journal B. 48(2005). Hlm 265–269. Zhang, S., Ren,G., & Yang,R. (2013). Simulation model of speed–density characteristics for mixed bicycle flow—Comparison between cellular automata model and gas dynamics model. Physica A. 392 (2013). Hlm 5110–5118.
360