Mr Julius Secadiningrat

Mr Julius Secadiningrat

Research Associate
Rsrch Ctr Transport Innovation

Technical Officer in the School of Civil and Environmental Engineering's Research Centre for Integrated Transport Innovation (rCITI)

Mr. Julius Raditya Secadiningrat is a Technical Officer at the Research Centre for Integrated Transport Innovation (rCITI) UNSW. His primary research interests are in the fields of transport and driving simulator, traffic modelling, and connected and automated vehicles (CAVs). Prior to joining rCITI, he was appointed as a research associate in Singapore where he was involved in delivering various industrial projects, mainly in collaboration with Singapore transport authority in the field of driver behaviour analysis, traffic modelling, and demand estimation for first-last mile active mobility (walking and cycling) trips in anticipation of a bicycle sharing scheme. In rCITI, his research area delves into the advancement of connected and automated vehicles (CAVs), particularly by studying drivers’ behaviour in automated vehicles and its impact on traffic safety and performance by utilising driving simulator equipped with automated car function and traffic simulation package.

He obtained a Bachelor of Engineering (Civil, 1st class honours) from Nanyang Technological University Singapore and a Master of Science (Transport) from Imperial College London, UK.

Civil Engineering Building (H20) Level 1, Room CE111 Kensington Campus
  • Journal articles | 2021
    Maohao C; Julius Raditya S; Dwi Phalita U; Yiik Diew W; Kit Meng L, 2021, 'Cyclists’ preference study in using four types of cycling facilities in Singapore', Case Studies on Transport Policy, 9, pp. 1810 - 1817,
    Journal articles | 2015
    Yeung JS; Wong YD; Secadiningrat JR, 2015, 'Lane-harmonised passenger car equivalents for heterogeneous expressway traffic', Transportation Research Part A: Policy and Practice, 78, pp. 361 - 370,
  • Conference Papers | 2020
    Sheng Z; Dixit VV; Secadiningrat JR; Thomson J; Muscat J, 2020, 'Embedded System Based Automated Vehicles Action Control', in Proceedings of 2020 IEEE 4th Information Technology, Networking, Electronic and Automation Control Conference, ITNEC 2020, pp. 1000 - 1005,