Effective Traffic Management System By Using Hydraulic Footpath

Authors

  • Prof. Chetan N. Gawali  Assitant Professor of Civil Engineering, Nagpur Institute of Techonolgy, Nagpur, Maharashtra, India
  • Amit R. Bhongade  UG Student of Civil Engineering, Nagpur Institute of Techonolgy, Nagpur, Maharashtra, India
  • Amit M. Ramteke  UG Student of Civil Engineering, Nagpur Institute of Techonolgy, Nagpur, Maharashtra, India
  • Nilesh G. Landge  UG Student of Civil Engineering, Nagpur Institute of Techonolgy, Nagpur, Maharashtra, India
  • Prafull P. Shende Author  UG Student of Civil Engineering, Nagpur Institute of Techonolgy, Nagpur, Maharashtra, India
  • Sagar S. Modak  UG Student of Civil Engineering, Nagpur Institute of Techonolgy, Nagpur, Maharashtra, India

DOI:

https://doi.org//10.32628/IJSRST207346

Keywords:

Vehicular traffic, Bhim Square, ITDP, IRC

Abstract

Vehicular traffic is the major problem in metropolitan cities because traffic congestion is increasing rapidly at signalized intersections; it results in chronic situation in dense downtown areas. Traffic congestion is also major problem for smooth transportation. So, here we adopted a mechanism which minimizes traffic problems and that mechanism is called hydraulic machine. Hydraulic machine is the mechanisms which lift the things up and down at a particular height. Our purpose is to create a mechanism which lifts the footpath at signalized intersection up and down when there is more traffic at signalized intersection. We studied about the various congested signalized intersection areas and then selected Bhim Square for our study. We collected the peak hour traffic data using videography survey method and categorized the vehicles into different classes. Calculate the queue length at bhim square using normal footpath and again calculate the queue length for same traffic data by using hydraulic foothpath. On comparing the reduction of queue length percentage we observed that hydraulic footpath is more preferable than the normal footpath for congested traffic at signalized intersection, because it reduce approximate 60% queue length. Also, hydraulic footpath gives extra space at signalized intersection and it helps to increase service volume.

References

  1. Sunil Kumar v and J. Ranjitha (2013). “Improvement of Traffic Operations In Congested Signalized Intersections’’, International Journal of Engineering Research & Technology (IJERT) ISSN: 2278-0181.
  2. Kadali BR and Vedagiri P (2013). “Investigated the behaviour of pedestrian road crossing at the uncontrolled midblock location in India under mixed traf?c condition using multiple linear regressions (MLR) technique”, European Transport ISSN 1825-3997.
  3. Zhang X et al. (2013). “Investigated the effects of pedestrian green time, crosswalk length and pedestrian crossing direction on pedestrian walking speed at signalized crosswalk”, Proceedings of the Eastern Asia Society for Transportation Studies, Vol.9.
  4. Dein Shaw, Jyun-Jhe Yu and Cheng Chieh (2013). “Design of a Hydraulic Motor System Driven by Compressed Air”, Energies ISSN 1996-1073.
  5. HAO Yanxi and YANG Xiaoguang*(2013). “Research on the Delay in Signalized Intersection with left turn special phase”13th COTA International Conference of Transportation Professionals, published by Elsevier Ltd: 2211 – 2218.
  6. K.Vidhya and A.Bazila Banu (2014). “Density Based Traffic Signal System”, International Journal of Innovative Research in Science, Engineering and Technology ISSN: 2319 – 8753.
  7. Ashwini Basavaraju, Senhalata Doddigarla, Navitha Naidu,  and Shruti Malgatti (2014). “Vehicle Density Sensor System to Manage Traffic”, International Journal of Research in Engineering and Technology ISSN: 2319-1163.
  8. Narendra M. Hatwar and Prof.V. K. Gajghate (2014). “Impact of New Public Transportation System in Nagpur City”, International Journal of Engineering Research and Development ISSN: 2278-067X.
  9. P. Prema and Dr. A. Murugan (2015). “Intelligent traffic light control using wireless sensor networks with prioritize emergency vehicles”’, International Journal OF Engineering Sciences & Management Research ISSN 2349-6193.
  10. Gowri Asaithambi, Manu O. Kuttan1 and Sarath Chandra (2016) “Pedestrian road crossing behaviour under mixed traf?c conditions”,  Springer International Publishing Switzerland DOI 10.1007/s40890-016-0018-5.
  11. Basil David Daniel and Siti Naquiyah Mohamad Nor (2016). “Pedestrian Footpath Level of Service (FOOT-LOS) Model for Johor Bahru”,  MATEC Web of Conferences 47, 03006.
  12. Miss. Aishwarya B. Shinde, Miss. Pranita B. Daphal and Miss. Pratiksha S. Nilange (2016). “Design and Fabrication of Mechanical Lift for Transportation”, Global Research and Development Journal for Engineering ISSN: 2455-5703.
  13. Syedah Tabish1 Er. Munish Kumar (2017). “Research Paper on study Of Pedestrian Crossing Behaviour, Analysis of Intersection”, International Journal of Latest Research in Science and Technology ISSN:2278-5299.
  14. Mr. Virendra P. Patil1 and Ms. Shweta D. Bhasme (2019). “A Review on Design and Analysis of Hydraulic Powerpack and Pumps”, International Research Journal of Engineering and Technology e-ISSN: 2395-0056.
  15. C.N.Gawali, D.R.Naxin and S.S.Kapgate .(2019) “Comparative Study of Signalized Intersection and Rotary for Effective Traffic Management’’, International Journal of Management, Technology And Engineering, Volume IX, Issue I, ISSN NO : 2249-7455.

International Journal of Scientific Research in Science and Technology

Downloads

Published

2020-06-30

Issue

Volume 7, Issue 3, May-June-2020

Section

Research Articles

License

Copyright (c) IJSRST

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

[1]
Prof. Chetan N. Gawali, Amit R. Bhongade, Amit M. Ramteke, Nilesh G. Landge, Prafull P. Shende Author, Sagar S. Modak, " Effective Traffic Management System By Using Hydraulic Footpath, International Journal of Scientific Research in Science and Technology(IJSRST), Online ISSN : 2395-602X, Print ISSN : 2395-6011, Volume 7, Issue 3, pp.305-313, May-June-2020. Available at doi : https://doi.org/10.32628/IJSRST207346