Abstract:
Time-of-Day (ToD) modelling is an additional step to the conventional four-step Travel
Demand Models (TDMs). ToD models are developed to obtain more detailed outputs over
the temporal dimension, specially focusing the metropolitan level where need more demand
management solutions. With this additional step, daily (24-hour) travel demand is
distributed into a discrete number of time-windows. Simulation of the peak period is one of
the major concerns in ToD modelling. Traditionally, the trip allocation into time-windows
is based on departure-time, arrival-time or temporal mid-point of individual trip timing.
Even though the past studies have applied either one of above trip timings, the major
drawback of this was not considering the total trip duration. The trips-in-motion concept is
applied to estimate the actual trips/vehicles traversed within a particular time window,
where the concept follows a more logical approach of capturing the entire trip duration
compared to the three time stamps above. The objective of this paper is to identify the most
precise starting-time stamps that maximize the trips that fall within a given time-window
and minimizes the trip-tailing associated with it. A time-matrix was introduced to apply the
trips-in-motion concept to meet these objectives and all trips were allocated to the time
matrix based on departure and arrival time stamps of each trip. Time-matrix represented the
entire day (24-hour) and the time window represented a few cells of the matrix. Then, all
door-to-door trips were evaluated according to four criteria which reflect the objectives of
the study. Finally, the precise starting-time stamps for time windows were selected that
comply with all four criteria. The 2013 database of Colombo Metropolitan Region Transport
Masterplan (ComTrans) was analysed using Bentley Cube Voyager transport demand
modelling software. First, we distinguished morning, mid-day and evening peak periods.
Then, the most precise starting timestamps of two-hour time windows were selected for each
peak, as 6:30 A.M., 01:30 P.M. and 05:00 P.M. respectively. Further, it was estimated that
52% of door-to-door trips are traversed only these time windows. The above results are
similar those of the ComTrans peak-periods, which reported 7 - 8 A.M., 1 - 3 P.M. and 5 -
7 P.M. as peak periods in which 55% of daily trips took place. The study was further
extended to motorized transfers of trips, which account for only 78% of door-to-door trips.
The results were the same as for door-to-door trips. The proposed method paves a rational
approach to derive time windows to represent peak characteristics and are consistent with
previously defined values. Therefore, this study has developed a systematic approach to
identify time-windows as an input for ToD based modelling. The above results were limited to two-hour time windows and also the passenger modes were neglected, but there are
provisions to test such scenarios. It is recommended to study further the shift in peak periods
with the change in time of demand which would be the behavioural change most expected
to occur post COVID-19.
Citation:
Chandrasena, S., & Sivakumar, T. (2020). Trips-in-motion time matrix to identify time windows as an input for time-of-day modelling [Abstract]. In T.L. Gunaruwan (Ed.), Proceedings of 5th International Conference on Research for Transport and Logistics Industry 2020 (p. 27-28). Sri Lanka Society of Transport and Logistics. https://slstl.lk/r4tli-2020/