Abstract
The timing of traffic lights at intersections is determined by the Local Authority. It is based on the peak hour statistics and the timing is maintained even during an off-peak hour. This one standard green time will be used every time in a day regardless of the number of vehicles and the road width. This approach will have a long green traffic light even though the number of vehicles is only a few and hence, will cause a long waiting time at the intersections. Therefore, the aim of this study is to vary the timing of traffic lights at junctions according to the number of vehicles. This paper will also consider road width variable which have not been considered so far. Fuzzy logic rules will be used to classify the number of vehicles and road width and time taken for vehicles to move at the intersections which was proposed in a previous work. The new timing will commensurate with the number of vehicles and road width. Field test data were gathered from Sala Benda and Semplak intersections which are amongst the busiest intersections in Bogor, Indonesia. Comparisons were made and show that the green light timing obtained is appropriate to the two factors considered. Also the waiting time for vehicles in each traffic cycle was also reduced. This study have formulated an optimal green lights timing in each intersection and will be used by local authorities to determine the timing of green traffic lights at the intersection and hence, can implement traffic control and an appropriate waiting time.
Highlights
Monitoring and controlling city traffic are a big problem in many countries
Other simulations show the same profile and have less waiting time for Traffic Controller (TC) compared to Manual Kapasiti Jalan Indonesia (MKJI). This project shows that incorporating the number of vehicles and road width in TC implementation, using fuzzy logic, have shown that optimization of green time at traffic lights can reduce congestion
The difference in green time obtained from the simulation compared to the field test at the intersection of Sala Benda is very significant with a range of difference from - 9.00% to - 91.0% and at the intersection of Semplak from + 2.05% to -73.19%
Summary
Monitoring and controlling city traffic are a big problem in many countries. Indonesia is one of the highest traffic conglomerates in the world with the capital Jakarta as the largest and densest urbanized area in Indonesia [1]. One of the causes of traffic congestion is the large population (4th place in the world) and an unbalanced distribution of the Indonesian population [2]. With the huge population and increasing vehicle ownership on the highways and the need for traffic control on the highways, the Department of Traffic and Road Transport (DLLAJR), the Ministry of Transport as the main authority in Indonesia need to find new ways or steps to resolve this problem. Given the rapid growth of population and large urban development as well as human activities and life spans, it is undeniable that almost every major city in Indonesia faces serious transport problems, including traffic congestion and delays, especially at intersections. Traffic congestion can cause many problems, and has the biggest impact that road users will face. The effect is that the cost of travel such as time, fuel consumption, wear and tear, carbon emissions and so on, must be borne by road users
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