Improvement to Pedestrian Walkway Facilities to Enhance Pedestrian Safety-Initiatives in India

Deteriorating quality of the pedestrian environment
and the increasing risk of pedestrian crashes are major concerns for
most of the cities in India. The recent shift in the priority to
motorized transport and the abating condition of existing pedestrian
facilities can be considered as prime reasons for the increasing
pedestrian related crashes in India. Bengaluru City – the IT capital
hub of the nation is not much different from this. The increase in
number of pedestrian crashes in Bengaluru reflects the same. To
resolve this issue and to ensure safe, sustainable and pedestrian
friendly sidewalks, Govt. of Karnataka, India has implemented
newfangled pedestrian sidewalks popularized programme named
Tender S.U.R.E. (Specifications for Urban Road Execution) projects.
Tender SURE adopts unique urban street design guidelines where the
pedestrians are given prime preference. The present study presents an
assessment of the quality and performance of the pedestrian side walk
and the walkability index of the newly built pedestrian friendly
sidewalks. Various physical and environmental factors affecting
pedestrian safety are identified and studied in detail. The pedestrian
mobility is quantified through Pedestrian Level of Service (PLoS)
and the pedestrian walking comfort is measured by calculating the
Walkability Index (WI). It is observed that the new initiatives taken
in reference to improving pedestrian safety have succeeded in
Bengaluru by attaining a level of Service of ‘A’ and with a good WI
score.

Authors:

• Basavaraj Kabade
• K. T. Nagaraja
• Swathi Ramanathan
• A. Veeraragavan
• P. S. Reashma

Keywords:

• Pedestrian safety
• pedestrian level of service
• right of way
• Tender SURE
• walkability index
• walkway facilities.

References:

[1] Road Accidents in India. Ministry of Road Transport and Highway,
2015, Government of India, New Delhi.
[2] Accidental Deaths and Suicides in India. New Delhi: National Crime
Records Bureau, NCRB 2015, Ministry of Home Affairs, India.
[3] Mohan, D., G. Tiwari, and K. Bhalla. “Road Safety in India”,
Transportation Research and Injury Prevention Programme (TRIPP),
New Delhi, India, 2015.
[4] Road Accident Statistics, Bengaluru City Traffic Police, 2017.
[5] Geometric Design Standards for Urban Roads in Plain. Indian Roads
Congress IRC-86, 1983, New Delhi, India.
[6] Vertical Curves for Highways, Indian Roads Congress IRC:SP:23-1983
New Delhi, India.
[7] Fruin, J. J. Designing for Pedestrians: A Level of Service Concept. In
Highway Research Record 355, HRB, National Research Council,
Washington, D.C., 1971, pp. 1–15.
[8] Polus, A., J. L. Schofer, and A. Ushpiz. Pedestrian Flow and Level of
Service. Journal of Transportation Engineering, ASCE, Vol. 109, No. 1,
1983, pp. 46–56.
[9] Tanaboriboon, Y., and J. A. Guyano. Level-of-Service Standards for
Pedestrian Facilities in Bangkok: A Case Study. ITE Journal, Vol. 59,
No. 11, 1989, pp. 39–41.
[10] Quality/Level of Service Handbook. Florida Department of
Transportation, Tallahassee, 2009.
[11] Môri, M., and H. Tsukaguchi. A New Method for Evaluation of Level of
Service in Pedestrian Facilities. Transportation Research Part A, Vol. 21,
No. 3, 1987, pp. 223–234.
[12] Muraleetharan, T., T. Adachi, T. Hagiwara, and S. Kagaya. Method to
Determine Overall Level-of-Service of Pedestrian Walkways Based on
Total Utility Value. Journal of Infrastructure Planning Review, Vol. 22,
No. 3, 2005, pp. 685–693.
[13] Huang T. H., Chen-Jr C.: Modeling Level of Service on Pedestrian
Environment, Journal of the Eastern Asia Society for Transportation
Studies, Vol. 7, 2007.
[14] Landis, Bruce, et al.: Modeling the Roadside Walking Environment: A
Pedestrian Level of Service, Transportation Research Board 1773,
Washington DC, 2001.
[15] Tan D, Wang W, Lu J, Bian Y.: Research on Methods of Assessing
Pedestrian Level of Service for Sidewalk, Journal of Transportation
Systems Engineering and Information Technology, Volume 7, 2007.
[16] TRB: Highway Capacity Manual, Transportation Research Board,
National Research Council, Washington, 2000.
[17] Bandara, S., S. C. Wirasinghe, D. Gurofsky, and P. Chan. 1994. Gradeseparated
pedestrian circulation systems. Transportation Research
Record 1438: 59-66.
[18] Bradshaw, C. 1993. Creating and using a rating system for neighborhood
walkability: Towards an agenda for ‘‘local heroes.’’ Paper presented at
the 14th International Pedestrian Conference, Boulder, CO.
[19] Dixon, L. 1996. Bicycle and pedestrian level of service performance
measures and standards for congestion management systems.
Transportation Research Record 1538: 1-9.
[20] Sankaran Marisamynathan and S. Lakshmi, “Method to determine
pedestrian level of service for sidewalks in Indian context”, The
International Journal of Transportation Research, Transportation
Letters, 2016, pp. 1-8.
[21] Highway Capacity Manual, Transportation Research Board (TRB):
National Research Council. Washington, DC, 2010.
[22] Guidelines for Pedestrian Facilities. Indian Road Congress IRC 103-
2012, New Delhi,
[23] Development of Indian Highway Capacity Manual (Indo-HCM),
Capacity Estimation of Pedestrian Facility (WP-7), 2016, unpublished.
[24] Study on Traffic and Transportation Policies and Strategies in Urban
Areas in India, 2008, Ministry of Urban Development, Government of
India.