Lidé na fakultě
Ing. Tomáš Klinský

2024, 2024 Smart City Symposium Prague (SCSP), New York, IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC), p. 1-6), ISBN 979-8-3503-6095-0, ISSN 2691-3666

In today's steadily urbanizing landscape, cities continue to expand at a rapid pace. Alongside the improvement in quality of life, there's a notable increase in the number of private cars. However, the limited capacity of roads in densely populated urban areas remains unchanged. To ensure smooth operation and enhance the quality of public transport as a backbone of urban mobility, the implementation of public transport priority measures is imperative. One such measure is the establishment of dedicated bus lanes. This paper delves into the design options for the endpoint of a dedicated bus lane before an intersection, focusing on the perspective of public transport. Specifically, it examines four different designs for this endpoint, employing simulations conducted through the PTV Vissim program.

Stať ve sborníku z prestižní konf.

2023, 2023 Smart City Symposium Prague, New York, IEEE Press), ISBN 979-8-3503-2162-3, ISSN 2691-3666

Public transport priority is a key transport engineering tool for moving towards sustainable urban mobility. This paper explores the design options for an end of a dedicated bus lane ahead of a single lane roundabout, looking for the optimal design from a public transport perspective. Two possible designs of an end of dedicated lane were simulated using the PTV Vissim program. The parameters of average delay of public transport services and number of unnecessary stops of public transport vehicles were evaluated to determine the optimal design and contribute to a quality for public transport operation in practice.

Stať ve sborníku z prestižní konf. (Scopus)

2023, LOGI - Scientific Journal on Transport and Logistics, 14 (1), p. 239-250), ISSN 2336-3037

Public transport priority is an essential transport engineering technique for the transitionto sustainable urban mobility. This article presents a case study that simulates the effects ofintroducing a queue jump lane followed by a bus lane beyond an intersection compared to adedicated lane only in the section beyond the intersection (without introducing a queue jump lane).The monitored parameters were speed and reliability of public transport. The simulation wasperformed using the PTV Vissim program. The case study was evaluated in terms of publictransport operation, as well as selected effects on other road traffic with the aim to determine theoptimal traffic engineering design and improve public transport operation in practice. This casestudy provides valuable insights into the effects of these priority measures. The results cancontribute to the improvement of public transport operations.

Článek v periodiku excerpovaném databází Scopus cizojaz.