CoimbatoreStreetDesignandManagementPolicy ITDP 170218
CoimbatoreStreetDesignandManagementPolicy ITDP 170218
CoimbatoreStreetDesignandManagementPolicy ITDP 170218
Management Policy
February 2017
Table of Contents
Definitions 6
Introduction 8
Background 8
City overview 8
Vision 13
Goals 13
Urban Planning 21
Multi-modal Integration 22
City Leadership 27
Public Awareness 27
Institutional Framework 28
Performance Measurement 30
Footpaths 32
Landscaping 35
Bus Stops 36
Street Lighting 37
Street Vending 37
On-street Parking 38
Stormwater Drainage 39
Other Utilities 40
Cycle Tracks 40
Carriageway 42
Summary 44
Average trip length: The average distance covered by a transport mode for a trip. It is measured in
kilometres.
Bus rapid transit (BRT): High quality bus based mass transit system that delivers fast, comfortable,
reliable and cost-effective urban mobility through the provision of segregated right-of-way
infrastructure, rapid and frequent operations, and excellence in marketing and customer service.
Complete streets: Streets that are designed for all uses as per actual local demand, including all
modes of mobility as well as street vending, trees, street furniture etc.
Cycle sharing system: A flexible form of personal PT with cycles stored in a closely spaced network
of stations. A registered user can check out a cycle from a station and return it to any other station.
Typically, usage is free for short duration use.
Greenway: A waterway or strip of land set aside for recreational use of environmental protection and
where vegetation is encouraged along with exclusive facilities for cycling and walking.
Mass rapid transit (MRT): A high quality public transport system characterized by high capacity,
comfort, overall attractiveness, use of technology in passenger information system, and ensuring
reliability using dedicated right of way for transit vehicles (i.e. rail tracks or bus lanes).
Mobility: Conditions under which an individual is capable to move in the urban environment.
Mode share: The share of total trips carried out by different modes of urban transport including
walking, cycling, bus, rail, share auto-rickshaws, private auto, two wheelers and cars.
Non-motorized transport (NMT): Human powered transportation such as walking and cycling.
On-street parking: The space occupied by vehicles to park along the edge of the street or
carriageway which otherwise could have been used by motorized or nonmotorized traffic.
Paratransit: The term refers to informal public transport, including vehicles like auto rickshaw, vans,
tempo, jeeps, private city buses and private city minibuses that operate on a shared or per seat basis
on informally organized routes operated by private sector and has intermediate stops. The service
may or may not have a predefined “fare structure.” The term “intermediate public transport (IPT)”
means the same, but is avoided in this document for consistency.
Public Transport (PT): Shared passenger vehicle which is publically available for multiple users.
The term “PT” as used in this document and other toolkits includes city buses, MRT and paratransit.
Parking management: A mechanism to ensure the efficient use of street space, and over time,
parking fees can be implemented to manage demand.
Right of Way (ROW): Measure of the width of the road taken from compound wall/edge to
compound wall/edge.
Sustainable transport modes: The following modes are categorized as “sustainable modes” of urban
transport because when compared with personal motor vehicles, they consume the least amount of
road space and fuel per person-km and also cost much less to build the infrastructure: walking,
cycling, and public transport (including a regular bus service as well as a MRT systems).
Traffic calming:Traffic calming measures ensure pedestrian and vehicle safety by reducing at least
speed and potentially also the volume of motor vehicles. Traffic calming slows down vehicles through
vertical displacements, horizontal displacement, real or perceived narrowing of carriageway,
material/colour changes that signal conflict point, or complete closure of a street.
Vehicle Kilometres Travelled (VKT): Vehicle kilometers travelled by all the personal motor
vehicles (in the city) in one day.
Introduction
Background
The Coimbatore City Municipal Corporation (CCMC) has initiated the process of creating a Street
Design and Management Policy to ensure the implementation of high quality transport systems. It
aims to create a policy environment that supports increased accessibility by prioritizing the use of
walking, cycling, and public transport. Too often, transport planning has concentrated on
infrastructure, traffic, costs, and benefits, with environmental factors limited to engineering
consideration. However, mobility planning now focuses on the movement of “people, not vehicles’, a
goal clearly expressed in the 2006 National Urban Transport Policy (NUTP).1
In harmony with the focus on moving people, the Policy seeks out to achieve a more equitable
allocation of road space by incorporating a focus on non-motorised transport (NMT) and public
transport (PT) based approach in the planning, design, managing, and budgeting stages. In adopting a
NMT-PT based approach, cities strive to stabilise the use of personal motor vehicles (PMVs), thereby,
improving health, safety, and environmental quality, and enhancing social equity and economic
activity.
City overview
Coimbatore is the second largest city in the Indian state of Tamil Nadu. The City is the district
headquarters and is well known for its textile and automobile industries. The city is also an emerging
hub for information technology-related industries. Due to its close proximity to the Western Ghats,
Coimbatore has pleasant climate throughout the year.
1
Ministry of Urban Development, Government of India (2006). National Urban Transport Policy.
http://urbanindia.nic.in/policies/TransportPolicy.pdf.
Figure i. Map of Tamil Nadu including Coimbatore District (left) and the Coimbatore Local Planning
Area boundary (right)
The city is well positioned at the junction of major roads from Tamil Nadu, Kerala, and Karnataka.
Three National Highways pass through the city: NH-47 (Kanyakumari-Salem), NH-67 (Coimbatore-
Nagapattinam), and NH-209 (Bengaluru-Dindigul). The hill station Ooty is only 90 km from the city
and is easy to reach by road and mountain rail service throughout the year.
According to the 2011 census, Coimbatore metropolitan area has a population of 2.2 million. 2
Coimbatore’s population is estimated to grow to nearly 3.8 million by 2031.3 With increasing
population, the city is witnessing rapid motorisation, increased congestion and pollution. With
suitable interventions at this stage, it can avoid the pitfalls of cities of similar characteristics and can
set high standards for other cities to follow.
The CCMC is the authority responsible for planning and service provision in the city. Headed by a
Municipal Commissioner, CCMC utilises eleven departments to carry out civic operations. CCMC’s
Engineering Department is responsible for maintenance of Coimbatore’s 2,376 km of roads as well as
its schools, public toilets, community temples, and health clubs.4 The Town Planning Department is
responsible for the planning activities, including sanctioning plots for construction, identifying
encroachments based on complaints, sanctioning Transfers of Development Rights, and preparing
survey maps. Town Planning manages the reserved buildings and land, and is the decision making
body regarding how land is allocated for various purposes.
When planning transport infrastructure and services, it is important to differentiate between mobility
and accessibility. Mobility, which represents an individual’s capability to move, is measured in terms
of “how far do we go?” and “how quickly do we get there?” Accessibility describes the ability to reach
social and economic opportunities, and is often measured in terms of the time, money, discomfort and
risk that is required to reach such opportunities.
For example, in cities with high levels of congestion, citizens who travel by automobile may
experience relatively poor levels of mobility (slow travel speed, low individual travel mileage).
However, the cities themselves may be economically successful due to their accessibility (cumulative
number of opportunities, activities that are clustered together, many travel options, overall low cost of
2
http://www.census2011.co.in/census/city/492-coimbatore.html
3
Assuming a growth rate of 2.95 per cent per year.
4
http://www.coimbatore.tn.nic.in/pdf/SHB043.pdf
travel). Transport systems exist to provide economic and social connections—travel is rarely an end in
itself. Thus, a “good” transport system provides more accessibility per unit of mobility.
Local transport policies play an important role in influencing aspirations for PMVs, and moderating
the demand for motorised travel. CCMC recognizes walking, cycling and the use of public transport
as important modes to enhance accessibility and improve mobility. Thus, it is necessary to develop
programs and infrastructure designed to support and grow these modes - hence this policy. The Policy
focuses on street design and management and making optimal use of its resources by:
● Emphasising on making walking and cycling safe and attractive. NMT provides basic
mobility, affordable transport, access to public transport, as well as health and recreation
benefits. Improving conditions for NMT reduces the demand for travel by PMVs. Such
improvements increase the convenience, comfort and safety of walking and cycling and
therefore benefit existing users as well as encourage new users.
● Providing high quality public transport. High quality buses with ITMS, supported with
terminals and depots makes public transport attractive even to personal vehicle users. To
support the demand for PT, cities should also strive to provide mass rapid transit (MRT).
● Stabilising and/or reducing the use of PMVs. Stabilising the use of PMVs at today’s level
can be achieved through various mechanisms like reducing parking supply, charging for
parking according to demand and employing several other appropriate including congestion
charging. As the city provides attractive alternatives to PMVs, in the form of high quality
NMT and PT facilities, people shift to these alternatives.
5
In partnership with the Institute for Transportation and Development Policy (ITDP), the Commissionerate of Municipal
Administration (CMA) launched the SCTT programme to address the mobility issues in tier-2 cities like Coimbatore.
Figure ii. If existing trends continue, Coimbatore will see a doubling in the number of daily motor
vehicle trips (“Business-as-usual”). If Coimbatore invests in better NMT facilities and public
transport these trends can be reversed (“NMT-PT Based Transportation”).
Pedestrian trips account for 20 per cent of daily journeys, and that cycling represents 3 per cent of
trips. Considering that walking and cycling account for 23 per cent of all trips in Coimbatore, and that
all trips via public transport require pedestrian trips at the beginning and end of each journey,
improving conditions for pedestrians and cyclists could impact almost 56 per cent of all commuters.
If the cities continue with status quo, public transport mode share is also expected to decline from 33
per cent to 16 per cent in 2031. Thus, it is not only important to increase the number of city buses and
introduce high-quality MRT network, but also enhance NMT infrastructure to improve access to
public transport.
CCMC has already has begun several important initiatives to improve conditions for NMT users
through the Smart Cities Model Roads project and the Lake Rejuvenation project. The Model Roads
project aims to re-design and build complete streets that prioritises NMT infrastructure along 13 km
of street length within the city. The Lake Rejuvenation project focuses on redeveloping 35 km of
Coimbatore’s lake-fronts into world-class NMT corridors, connecting one another and creating an
NMT network across the city. These interventions would help arrest the decline in the use of NMT
modes while providing improved safety for NMT users.
It is important to note that when it comes to promoting NMT-PT based infrastructure and services, no
single measure suffices. A package of infrastructure provisions, transportation and land use policies,
and promotional programmes is necessary for any city to successfully increase and safely maintain the
number of cyclists and pedestrians. This Policy will explore the following to support cyclists,
pedestrians, and other NMT users:
2. Goals
2.1. The ULB aims to increase the use of walking, cycling, and public transport by
creating a safe and pleasant network of footpaths, cycle tracks, greenways, and other
facilities to serve all citizens in the metropolitan area. It will strive to meet the
following desirable outcomes by designing streets consistent with principles of
Complete Streets, and incorporating appropriate environmental planning and water
management techniques. The ULB also urges other concerned agencies to take
complementary actions to realise these goals.
Table 1. Outcomes
Share of private
shared mobility modes
shall at least 20% of
all motorised trips.
Reducing Vehicle VKT by PMVs shall VKT by PMVs shall VKT by PMVs shall
Kilometers Travelled be within 20% or less be retained at or below be within 15-20% or
(VKT) of baseline year levels. the higher of the 5 and less of baseline year
15 year horizon levels. levels.
Improving traffic Fatalities shall be 10.0 At least At least
safety or less per lakh 75% of the final goal 25% of the final goal
population shall be met. shall be met.
Improving air The ULB will meet or 100% of the final goal At least
quality exceed CPCB ambient shall be met. 50% of the final goal
air quality norms on at shall be met.
least 350 days a year.
2.2. The ULB will make investments in, and manage well, walking, cycling, public
transport infrastructure, and PMV use to meet the following output goals that
contribute to achieving the desired outcomes listed above. Output goals are
determined for short (5 year), medium (10 year), and long (15 year) planning
horizons, as follows. The ULB also urges other concerned agencies to take
complementary actions to realise these goals.
Table 2. Output goals
Improving All streets that have a At least 75% of streets At least 25% of streets
infrastructure for right-of-way (ROW) that have a ROW of that have a ROW of
walking of 12m or more shall 12m or more shall 12m or more shall
have footpaths have footpaths have footpaths
compliant to IRC 103- compliant to IRC 103- compliant to IRC 103-
2012 or better. 2012. 2012.
All streets with ROW At least 75% of streets At least 25% of streets
less than 12m ROW with ROW less than with ROW less than
shall have a footpath 12m shall have a 12m wide shall have a
on one side and/or footpath on one side footpath on one side
traffic calming and/or traffic calming and/or traffic calming
measures to create measures. measures.
safe, low-speed space
that can be shared by
motorised and non-
motorised modes.
Improving 100% of streets shall At least 75% of the At least 25% of the
infrastructure for be made safe for final goal shall be met. final goal shall be met.
cycling cycling, by creating
dedicated cycle tracks
or using traffic
calming measures to
create safe, low-speed
space that can be
shared by motorised
and non-motorised
vehicles.
Providing universal All public facilities - At least 75% of the At least 25% of the
accessibility PT, NMT, public final goal shall be met. final goal shall be met.
space, public
buildings - will be
usable by everyone,
regardless physical
ability.
Managing PMV All streets that have a At least 75% of the At least 50% of the
usage parking occupancy of final goal shall be met. final goal shall be met.
more than 60% during
peak hours shall be
brought under an IT-
enabled parking
management system
along with demand-
pegged pricing.
Consider Mode
6
In some special circumstances, public transport may take precedence over cycling infrastructure.
Non-motorised vehicles movement and parking
3.1.3. Road space on all streets shall be equitably allocated for all users. Space for
movement and parking of PMVs will be provided only after adequate space
has been provided for NMT and PT modes.
3.1.4. The design of streets will not discriminate against users by their age, ability,
gender, income, race, ethnicity, or religion. An equity-based approach to
street design will ensure that services and infrastructure meet the needs of all
users.
3.1.5. Footpaths, pedestrian crossings and other elements of the pedestrian
environment shall be universally accessible by all users, in compliance with
Ministry of Urban Development’s Harmonised Guidelines and Space
Standards for Barrier-Free Built Environment for persons with Disability and
Elderly Persons (2016).
3.1.6. Streets shall offer space for relaxation, interaction, vending, and other
activities by installing elements such as trees, furniture, and lighting.
3.1.7. Streets will be appropriately designed and maintained to address the unique
characteristics of the neighbourhood, be it historic centres, commercial
business districts, or residential areas. Streets will be designed so as to
conserve existing watersheds, and natural systems.
3.1.8. Use of PMVs shall be discouraged through appropriate travel demand
management (TDM) measures like reducing parking supply, pegging parking
fee to demand, restrict access or controlling through movement of PMVs on
certain streets through part or full pedestrianisation, and congestion charging.
3.1.9. NMT planning will be transparent, in close consultation with key
stakeholders. Broad and economically diverse citizen participation will be
ensured in all stages of planning and implementation.
3.1.10. All ULB-sponsored studies and transport plans will strive to increase the use
of NMT, public transport, and shared mobility modes, and control the use of
PMVs.
4. Street Typologies and Network Planning
4.1. The ULB will classify streets into four typologies namely, local street, minor
collector, major collector, and arterial street, in accordance with their function,
surrounding land use, and other characteristics. Streets will be designed in accordance
with their typology. Characteristics and design features for each of these typologies is
detailed in Table 4.
4.1.1. Local streets: Their primary function shall be for local activities and access to
properties and not through movement of traffic. The primary land-use shall
be residential. They will typically have an ROW of less than 12m and shall
not allow access to heavy vehicles. There may not be a dedicated footpath on
such streets. However, the ULB will design the streets as shared space that
give priority to NMT modes. Various traffic calming elements will be
employed to ensure that vehicle speeds are below 20kmph—safe for
intermingling of pedestrians, cyclists, and motor vehicles. The ULB may
allow vehicle parking where feasible.
4.1.2. Minor collector streets: They are meant to serve local traffic and connect
local streets to arterial streets. The primary land use shall be mixed-
residential. They shall be designed with dedicated footpaths and carriageway
for vehicle movement. The width of the carriageway shall not exceed 6.5m
(for two-way movement). Pedestrians shall have the right to cross such streets
at any location. Speed reduction measures such as speed breakers and table-
top crossings will be employed to limit vehicle speeds to under 30 kmph and
ensure safety of NMT users. Public transport feeder buses may operate on
such streets. The ULB may allow vehicle parking where feasible.
4.1.3. Major collector streets: These are larger collector streets meant for for local
traffic movement and to connect to arterial streets. They are expected to have
mixed use with a large degree of street level retail activity. They shall have
adequately sized footpaths and street furniture to cater to the adjacent land
use. The carriageway will be restricted to 5.5m per direction of movement,
with an intermittent median of 1-2m width. The medians shall include
pedestrian refuges for safe street-level crossing, at least once every 50 m.
Public transport feeder buses as well as medium frequency main line buses
may operate on such streets. The ULB may allow vehicle parking where
feasible. The ULB may also implement cycle tracks on these streets if they
form a part of a larger cycling network.
4.1.4. Arterial streets: They are meant for motorised movement across the city.
However, they shall have safe NMT facilities at street edges. Such streets are
expected to have mixed use with a larger proportion of retail/commercial use.
The ULB will explore the possibility of implementing high-frequency and
high-quality mass rapid transit, such as bus rapid transit (BRT), on these
streets to improve transit access. Safety for pedestrians will be ensured by
providing at-grade pedestrian crossing with a median refuge at least once
every 200 m. On-street parking shall be restricted, except when there is space
available for a service lane with parking.
Table 4. Street typologies
Features Street Typology
Primary function Meant for local Meant for local Meant for local Meant for
activities and traffic movement traffic movement movement across
access to and to connect to and to connect to the city; should
properties; not arterial streets arterial streets have dedicated
meant for through space at edge to
traffic local activities
Landuse Residential use Primarily Mixed use with Mixed use with
residential use with significant retail predominance of
some mixed use activity at street commercial
level activity
Maximum design 20 kmph 30 kmph 40 kmph 50 kmph
speed
Footpath 7 Shared space; may > 2.3 meters (at > 3.0 meters (on > 3.0 meters (on
also have a least on one side) both sides) both sides)
footpath
Cycling In mixed traffic In mixed traffic May have May have
dedicated cycle dedicated cycle
tracks if part of a tracks if part of a
cycling network cycling network
Carriageway 3.5-5.5m, Shared 4.5-6.5m, <5.5m per 6.5-9m per
space with priority undivided; for two direction direction
to NMT modes way movement
Public Transport No Feeder service Feeder buses & High speed / high
medium frequency frequency bus
mainline bus service (>30
services (< 30 Bus/Hr). May have
Bus/Hr) dedicated lanes.
Medians and mid- Not applicable No medians Intermittent Continuous
block openings median; Width median; Width
Pedestrians can >1m >1m
cross the
carriageway Pedestrian Pedestrian
anywhere crossings with a crossings with a
median refuge, at median refuge, at
least once every least once every
50m 200m
7
Footpath clear width with buffer; not including space for furniture, utilities, trees, and landscaping.
Open when Open when Maybe open when
crossing a major or crossing a major or cut by a major
minor collector, or minor collector, or collector;
a local street; a local street; Signalised
Unsignalised Unsignalised
Closed for minor
collectors and local
streets;
At least one
intersection every
500m
At-grade Raised Raised Not raised when Not raised
pedestrian signalised;
crossing at Otherwise, raised
intersections
Typical ROW <12m 12-18m 18-24m >24m
Speed reduction Speed breakers; Speed breakers; Table top crossings Traffic signals
measures chicanes; table top crossings
landscape
Vehicle Type No HCV No restrictions No restrictions No restrictions
except during except during except during
certain times of the certain times of the certain times of the
day day day
On-street parking Maybe Maybe Maybe Only from service
lane, if one exists;
Temporary stops
for drop-offs and
pick-ups may be
allowed.
4.2. The ULB will collaborate with key stakeholders to identify and develop select streets
as special streets that limit access to PMVs.
4.2.1. NMT-only streets: All motor vehicle traffic will be prohibited, using barriers
and enforcement to prevent their entry and encroachment of NMT space.
Appropriate penalties will be applicable on infractions. Such streets will be
designed in compliance with disability access guidelines, with bicycle
parking, and access for emergency response vehicles. Commercial deliveries
to properties on such streets will be restricted to outside of normal hours. The
ULB will identify streets where pedestrian density is the highest, such as
those in important market streets, historical and cultural areas, and develop
them as NMT-only streets with plazas, seating, trees and structures for shade,
as well as space for organized street vending.
4.2.2. NMT-PT-only streets: PMV traffic will be prohibited but public transport
services will be allowed, in addition to pedestrians and cyclists. The ULB
will identify such streets based on the amount of NMT traffic and the need
for access by and through movement of public transport modes.
4.2.3. Greenways: The ULB will develop spaces along natural features such as
water bodies, lakes, marshes, and parks, as a network of exclusive facilities
for walking and cycling only, with a variety of public spaces and natural
features. Motor vehicle traffic will be prohibited on this network. Such
greenways shall have a minimum clear width of 7m to accommodate two-
way movement of cyclists and pedestrians.
4.3. The ULB will create a complete pedestrian network, linking all buildings and
destinations, accessible to all persons and protected from motor vehicles. Such a
network will be created by developing all streets in the city with walking facilities or
by employing measures that improve pedestrian safety in shared spaces. All footpaths
must be compliant with IRC 103:2012.
4.4. The ULB will create a cycling network to ensure that streets are safe for cycling
within a neighbourhood as well as across the city. The ULB will identify streets for
dedicated cycle tracks, or create traffic calmed streets to ensure safety of cyclists on
their entire travel route.
5. Urban Planning
5.1. The ULB urges concerned agencies, such as the Urban Development Authority and
others, to provide a dense network of complete streets and paths that give priority to
NMT modes. The ULB will work with concerned agencies to
5.1.1. Create a fine-grained comprehensive network of streets that are safe for
walking and cycling. The NMT network shall have at least 80 intersections
per square km.
5.1.2. Support the creation of a citywide greenway network to improve access for
pedestrians and cyclists, and provide through access for pedestrians and
cyclists in city gardens and other public spaces.
5.1.3. Ensure that all new construction and redevelopment limit the small block size
so that the longest block face is less than or equal to 150 m.
5.1.4. Prohibit pedestrian cul-de-sacs and ensure that pedestrians have access to the
shortest path for all journeys.
6.1.2. Prioritize physically permeable frontage 9 abutting public walkways. This can
include entrances to restaurants and cafes, storefronts, and residential housing
that contribute to a vibrant public realm. The average number of shops and
building entrances per 100m of street frontage shall be at least 5.
6.1.3. Adopt minimum build-to lines to ensure that private buildings are oriented
towards the streets rather than towards internal plots and thus provide “eyes
on the street.”
6.1.4. Ensure that front setbacks, where present, are not used for motor vehicular
parking, but instead become an extension of the pedestrian environment.
6.1.5. Ensure that for residential buildings, compound walls are transparent above a
height of 300mm.
6.1.6. Ensure that for plots with frontage on more than one street, the main vehicle
access, i.e. driveways, shall be provided from the secondary street. To reduce
pedestrian-vehicular conflicts, average number of driveways intersecting
pedestrian walkways will be limited to 2 or less per 100m of block frontage.
7. Multi-modal Integration
7.1. The ULB will design streets and public spaces that are integrated with and supportive
of public transport services. Where it has the power to do so, it will develop
accessible multi-modal interchanges (MMIs) at intercity transit station, public
transport stations and bus stops. Such interchanges shall be designed in accordance
with the hierarchy of modes listed in Table 3 in this Policy.
8
Visually active frontage measures the opportunities for visual connection between sidewalks and the interior ground floors
of adjacent buildings. Not only shops and restaurants, but also workplaces, residences and all types of premises qualify.
9
Physically permeable frontage measures active physical connections through the block frontage via entrances and exits to
and from storefronts, building lobbies, courtyard entrances, passageways, and so on.
7.1.1. The ULB will provide bus shelters and/or rapid transit stations at key
destinations 10, and at frequent intervals. Bus stops will be located in the
furniture zone or on bulb-outs in the parking lane, leaving clear space for
pedestrian movement behind and allowing bus passengers to board without
waiting and/or stepping into the carriageway.
7.1.2. Bus bays inconveniences and slows down the movement of bus services.
Therefore, they will not be constructed except in cases where they provide
improved intermodal access to intercity railway and bus stations, rapid transit
stations, or other key destinations.
7.1.3. The ULB will create clear, direct, and short transfers between rail systems,
bus stops, and paratransit stops that minimise horizontal and vertical
displacement. These pathways shall comply with disability access guidelines
and shall offer consistency and clarity in station entrances and interfaces,
spaces, layout, and visual cues. The ULB will prioritise at-grade access to
BRT stations.
7.1.4. The ULB will provide paratransit stands at key destinations, and at frequent
intervals.
7.1.5. The ULB will provide protection from rain and sun inside stations and stops
and along connections between modes.
7.1.6. The ULB will coordinate feeder service schedules and routes with schedules
of trunk services to minimise customer wait times.
7.1.7. The ULB will adopt priority measures to ensure the efficient movement of
surface public transport modes, such as buses and rickshaws, to and from the
station area.
7.1.8. The ULB will provide clear and consistent wayfinding and signage to support
efficient navigation to public transport stations in station areas. The ULB will
provide static information such as route maps, route destinations, and transfer
opportunities.
7.1.9. The ULB will provide for safe and efficient movement of pedestrians and
cyclists in the influence areas around public transport stops and stations.
7.1.10. The ULB will provide an attractive pedestrian environment on all approach
streets within one km radius of MRT stations, particularly on routes serving
major destinations. All pedestrian links will provide a high level of priority
and safety and shall be compliant with this Policy.
7.1.11. The ULB will provide clearly marked and protected access for pedestrians
and cyclists at station areas to minimise conflicts, particularly at passenger
pick-up and drop-offs, bus facilities, and parking access points.
7.1.12. The ULB will provide secure and plentiful bicycle parking at station
entrances with additional cycling amenities at high volume locations.
7.2. The ULB will provide last mile connectivity to mass rapid transit stations via
innovative programs such as cycle sharing. Cycle sharing systems refer to the shared
use of a common cycle fleet. The principle is simple: Individuals use the cycles on an
“as needed” basis and return the cycles to a network of closely spaced cycle stations.
With a smart card or other form of identification, a user can check out a cycle from a
10
Key destinations are the main places that people need to access including: municipal offices, public transport nodes and
stations, common workplaces, schools, markets, shops, sites of worship, and recreation areas.
station and return it to any other station. These systems imply short-term cycle access
and provide users with an environmentally friendly and low-cost form of public
transport. The ULB will implement cycle sharing systems that employ the following
best practice features:
7.2.1. A dense network of stations across the coverage area, with spacing of
approximately 300m between stations.
7.2.2. A fully automated locking system at stations that allows users to check cycles
in or out without the need for staffing at the station
7.2.3. Radio frequency identification devices to track where a cycle is picked up,
where it is returned, and the identity of the user
7.2.4. Real-time monitoring of station occupancy rates through general packet radio
service (GPRS), used to guide the redistribution of cycles
7.2.5. Real-time user information provided through various platforms, including the
web, mobile phones, and/or on-site terminals
7.2.6. Pricing structures that incentivise short trips, helping to maximise the number
of trips per cycle per day.
7.2.7. Cycles with specially designed parts and sizes to discourage theft and sale as
whole or for parts.
11
Relevant IRC publications include the Guidelines for Pedestrian Facilities (IRC 103-2012), Geometric Design Standards
For Urban Roads And Plains (IRC 86-1983), and Guidelines For Capacity Of Urban Roads In Plain Areas (IRC 106-1990).
9.3.2. The ULB will clearly demarcate parking and no-parking zones. Footpaths,
cycle tracks, and other NMT facilities will be designated as no-parking zones.
9.3.3. The ULB will urge Traffic Police to ensure that footpaths, cycle tracks, and
other NMT facilities remain free of encroachment by parked vehicles.
9.3.4. The ULB will utilize all revenue collected from the parking management
program to fund public transport and NMT improvements that support
meeting the goals in listed in this Policy.
9.4. The ULB will manage vending as follows, in accordance with the provisions of the
national Street Vendors (Protection of Livelihood and Regulation of Street Vending)
Act 2014 and relevant state rules:
9.4.1. The ULB will identify locations where there is existing and potential demand
for goods and services of street vendors.
9.4.2. The ULB will enhance and preserve existing culturally significant street
vending markets.
9.4.3. The ULB will provide supportive infrastructure such as cooperatively
managed water taps, electricity points, waste bins, and public toilets.
9.4.4. The ULB will regulate street vending by providing vendor infrastructure in
locations that ensure the continuity of footpaths and cycle tracks.
9.5. The ULB will institute a repair and maintenance programme to keep all footpaths and
cycle tracks in a good state of repair and cleanliness.
9.6. The ULB will provide designated spaces for trash collection so that trash containers
and trash collection activities do not hinder the use of NMT facilities.
9.7. The ULB will adopt a zero tolerance approach for managing encroachments on
footpaths. The ULB will remove all temporary and permanent obstructions that force
pedestrians to walk on the carriageway. The ULB will relocate vendors as per the
provisions of Section 9.4.
9.8. During construction projects that compromise the use of NMT infrastructure, the
ULB will provide alternative means for pedestrians and cyclists to circulate.
9.9. The ULB will implement and maintain street furniture for NMT users as follows:
9.9.1. The ULB will provide street furniture, such as benches, waste bins, tables,
public way-finding signage, shelter, water taps, and other amenities to make
streets an attractive place to spend time, promote sanitary conditions, and to
function as traffic calming elements.
9.9.2. The ULB will locate street furniture in appropriate locations that receive
proper shade, and maintain 3m clear width path of travel so that they do not
obstruct through movement of pedestrians and cyclists, and avoid
unnecessary clutter.
9.9.3. The ULB will coordinate the placement of street furniture with other user
amenities (especially advertising panels and utility boxes) to maintain a 2m
clear width path of travel to not obstruct through movement of pedestrians
and cyclists.
9.9.4. The ULB will scale the quantity of street furniture to meet demand, adjacent
land uses and street activity (e.g. larger quantities will be provided at key
destinations, public facilities, commercial hubs, etc.). Refuse collection
furniture / waste bins will be provided at frequent intervals (e.g. every 20 m)
on streets with large numbers of pedestrians and commercial activity.
9.9.5. The ULB will conduct maintenance, replacement, and cleaning to ensure that
all street furniture elements (especially waste bins) remain in usable and
sanitary condition.
9.10. The ULB will manage advertising and hoardings in public ROWs as follows:
9.10.1. The ULB will coordinate the placement of advertising panels with other user
amenities (especially utility boxes) to maintain an unobstructed 2m wide, 2m
high clear path of travel to facilitate movement of pedestrians and cyclists, as
well as avoid unnecessary clutter and protruding objects.
9.11. The ULB will manage service utility providers to ensure that access points for storm
water, sewage, electricity, telecommunications, and other services meet the following
standards:
9.11.1. Access points for underground and overground utilities will be designed in
such a way that they do not conflict with NMT user movements. Manhole
covers will be level with footpaths, cycle tracks, and the surfaces of other
NMT facilities. Utility access points will be designed to minimise disruption
from maintenance.
9.11.2. Storm water systems will be designed so that storm water drains off of NMT
infrastructure into appropriate channels and catch pits. At no point will
footpaths, cycle tracks, or other NMT facilities lie at the lowest level in the
street cross section, except in the case of NMT-only streets. Stormwater
facilities will be maintained regularly to prevent flooding of NMT
infrastructure.
12.2. The ULB will prioritize funding NMT improvements in areas where there is high
NMT use.
12.3. The ULB will channel foreign loans and investment toward projects that improve
conditions for NMT users.
13.2. Successful implementation of street design projects will involve cooperation between
multiple stakeholders, such as urban local bodies, traffic police, planning agencies,
consultants and others, at different stages. The ULB will develop appropriate
frameworks to engage with stakeholders, both at the city and zonal levels.
13.2.1. To improve inter-agency coordination at the city-level, the ULB will set up
and convene regular meetings of an NMT Sub-Committee under the city’s
Unified Metropolitan Transport Authority (UMTA). In case UMTA doesn’t
exist, the ULB shall constitute a Land Use and Transit Integration (LUTI)
Committee, constituting representatives from all stakeholders. Such a LUTI
Committee can then transition into the UMTA, at a later stage.
13.2.2. The ULB will set up Zonal Review Committee to oversee detailed street
design at the zonal level. The ULB will convene regular meetings of the
Review Committee to oversee detailed design produced by consultants,
construction implementation and monitoring as well as to address inter-
agency issues that may arise during this process. The Committee will include
with the following members.
● Officials from the Municipal Corporation, such as,
○ Staff of the Street Design Cell,
○ City Engineer,
○ Zone Engineers 12,
● Representative from public transport agencies,
● Representative from traffic police,
● Representative from local planning authority,
● Representative from non-government or community organisations,
and
● External consultants/ experts with the Street Design Cell
13.3. The ULB will also partner with academic institutions and technical organisations to
conduct training programs to train officials, engineers and staff in the basics of street
design.
Increasing share of Mode share of walking, cycling, public transport, private shared Increase
sustainable transport mobility modes
modes
Mode share of PMVs Decrease
12
In case a project extends across multiple zones, relevant officials from all these zones shall be part of the Review Committee.
13
Only footpaths that comply with the standards in the Street Design and Management Policy and the SDM are to be
counted.
cyclists Coverage of cycle tracks 14 Increase
Improving reach of PT % population living within 400m of PT bus stop and frequency of 12 Increase
buses per hour
Providing universal % of public transport and NMT facilities in compliance with “Persons Increase
accessibility with Disabilities Act, 1996
Improving quality of PT Size of bus fleet: % of desired fleet at 50 high quality buses/ lakh Increase
population
Improving traffic safety Number of fatalities per lakh population per year Decrease
Length of roads with cycle tracks + cycle-only roads, per lakh Increase
population
14.2. The ULB will create an inventory of footpaths and cycle tracks, conduct surveys of
transport system users, and compile other records to measure progress as per the
indicators listed above.
14.3. The ULB will commission progress reports that indicate compliance with this Policy,
performance as per the indicators listed above, and progress toward achieving the
goals outlined in Section 2. The ULB will make progress reports available for public
scrutiny and feedback.
14
Only cycle tracks that comply with the standards in the Street Design and Management Policy and the SDM are to be
counted.
14.4. The ULB will ensure that NMT infrastructure designs are reviewed and the re-
evaluated per their contribution to performance indicators listed above.
1. Footpaths
1.1. Footpaths will be provided where there are none; and where footpaths exist, widths
will be increased depending on pedestrian volumes in order to prevent pedestrian
overflow onto the carriageway and to ensure continuity. Footpaths will meet the
following standards, in compliance with IRC:103 - 2012: 15
1.1.1. Footpaths shall include space for business frontage (frontage zone 16), space
for pedestrian mobility (pedestrian zone 17) that is at least 1.8m wide in
residential areas and 2.5m in commercial areas, and space for landscaping
and street furniture (furniture zone 18) (Figure 1).
1.1.2. Height of the footpath shall not exceed 150mm above the carriageway.
1.1.3. Footpath surface shall be evenly paved and smooth for all users, including
those on wheelchairs.
15
IRC:103 - 2012, Guidelines for Pedestrian Facilities; and ITDP Better Streets, Better Cities section 2.1 p8
16
A frontage zone provides a buffer between street-side activities and the pedestrian zone. Next to a compound
wall, the frontage zone can become a plantation strip.
17
A pedestrian zone provides continuous space for walking and shall be clear of any obstructions, level
differences, or other obstacles to pedestrian movement.
18
A furniture zone is a space for landscaping, furniture, lights, bus stops, signs, and private property access
ramps
Figure 1. Footpaths comprise of three main zones: A. the frontage zone, B. pedestrian zone, and C.
the furniture zone.
1.2. The ULB shall ensure that footpaths and other elements of the pedestrian
environment are accessible to all users, in compliance with Ministry of Urban
Development’s Harmonised Guidelines and Space Standards for Barrier-Free Built
Environment for persons with Disability and Elderly Persons (2016).
1.3. The ULB shall pursue all means to free up space for footpaths such as removing or
realigning vehicle parking, junction boxes and other obstructions and will prioritise
street amenities such as street furniture, landscaping, and trees over vehicle parking.
1.4. The ULB shall ensure that all rail overbridges and rail underpasses have pedestrian
access. The ULB will also seek opportunities to provide pedestrian access on flyovers
where such access provides a mobility or safety benefit for pedestrians.
1.5. Footpath shall be continuous even at property entrances for uninterrupted pedestrian
movement. The height of the footpath shall remain the same. To provide access to
private properties, vehicle ramps shall be provided in the furniture zone with a 1:6
gradient (Figure 2).
Figure 2. Footpaths shall continue at property entrances, and vehicle ramps at 1:6 gradient will be
provided in the furniture zone.
1.6. Bollards shall be installed to prevent vehicles from parking on the footpaths, leaving a
clear width of at least 1.2m (IRC:103 - 2012, 6.1.12) for wheelchair access.
Figure 3. Raised pedestrian crossing reduces vehicle speed, thereby increasing pedestrian safety
2.6. Grade separated facilities such as foot overbridges and subways are often unsafe and
inaccessible to many users, and inconvenient for all pedestrians. Therefore, facilities
that involve a significant vertical displacement of pedestrians will not be permitted on
urban streets. Such facilities will only be considered in the context of limited access
expressways.
3.3. Pedestrian crossings will be located in alignment with pedestrian desire line -
pedestrian travel path.
4. Landscaping
4.1. All footpaths shall have a continuous tree line to provide shade and improve the
aesthetic of the streetscape.
4.2. Placement of landscaping shall be coordinated with other street amenities (especially
advertising panels and utility boxes) to maintain a clear path of travel for pedestrians
and cyclists so as to not obstruct their through movement.
4.3. Height of trees shall be maintained so that it does not hinder the visibility of all road
users. Canopy of trees shall have a minimum clearance of 3m from the surface of the
footpath to ensure better visibility for pedestrians (Figure 5).
4.4. Native trees shall be planted to minimise irrigation and maintenance requirements,
and for a prolonged tree life.
4.5. All trees will be protected with tree pits that allow maximum soil exposure enabling
water and air to get to the roots.
4.6. Tree pits, with a minimum dimension of 1m x1m, shall be provided to accommodate
the growth of root structures as tree matures.
Figure 5. Placement of trees shall allow for a clear walking and cycling path. A 3m canopy height
ensures better visibility for pedestrians (left). Tree will be protected with tree pits that allow
unobstructed pedestrian movement (right).
5. Bus Stops
5.1. Bus stops shall provide safety and comfort for passengers while waiting, and shall be
conveniently placed. Placement of bus stops will allow for continuous footpaths and
cycle tracks. This may imply diverting the footpath, cycle track, or service lane
behind the stop (Figure 6).
5.2. Bus-bays shall be avoided at all times. This is because bus drivers generally stop in
their linear path of travel, thus, forcing passengers to walk into the carriageway to
board the bus. Also, vehicles behind the bus sometimes attempt to pass on the left,
compromising passenger safety.
5.3. Bus stops shall be placed adjacent to the bus linear line of travel so that the bus does
not need to pull over to the left (IRC: 103:2012, 6.10). If there is a parking space
between the footpath and the carriageway, bus stops shall be located on the bulb-out
of the parking lane.
5.4. Bus stops shall ideally be placed at 200-400m intervals so that passengers can easily
access the stop by walk.
5.5. The length and width of a bus stop will vary depending upon passenger demand.
However, it is recommended that stations be at least 2.5m wide which is adequate for
a seating arrangement.
5.6. Seating shall not be more than 450 mm above finish floor level. The finish floor level
shall not exceed 150 mm above the carriageway.
Figure 6. Bus stops shall be placed adjacent to the bus linear line of travel, and shall allow for
continuous footpath and cycle tracks.
6. Street Lighting
6.1. Street lighting shall be provided such that the longitudinal dimension is equivalent to
three times the pole height, and horizontal dimension is slightly longer than the pole.
6.2. The table below indicated pole height and spacing option. The spacing between two
light poles shall be approximately three times the height of the pole.
Table 6. Pole height and spacing metrics
6.3. Poles shall be no higher than 12m to reduce undesirable illumination of private
properties.
6.4. Additional lighting shall be provided particularly at black spots, areas of sexual
harassment and/or violence, areas of personal crime, and areas of isolation.
6.5. The placement of street lighting shall be coordinated with other street elements so
that they do not impede proper illumination.
6.6. A single row of light posts is generally sufficient for streets up to 12m wide.
6.7. On wider streets, dual lights can be mounted on a single central post.
7. Street Vending
7.1. Street vending shall be accommodated where there is demand for their goods and
services. Well-planned vending zones allow formal and informal vending to coexist
together without compromising pedestrians and cyclists mobility (Figure 7).
7.2. Vending areas shall be positioned in the furniture zone, to ensure the continuity of
footpaths and cycle tracks.
7.3. Concerned authorities shall refer to their city-specific Street Vending Act/state level
rules for permitted dimensions of street vending stalls.
Figure 7. Street vendors shall be accommodated to enliven public spaces, without compromising the
continuity of cycle tracks and footpaths.
Figure 8. Street furniture shall be located where it does not obstruct pedestrian movement, such as in
parking bulb-outs (left) or in the furniture zone (right)
9. On-street Parking
9.1. On-street parking shall be clearly designated, managed, charged and restricted in
volume. Parking areas shall be allocated after providing adequate space for
pedestrians, cyclists, trees and landscaping, and street vending.
9.2. Parallel parking is the preferred parking layout in terms of the area occupied per car.
The same parking layout can be used as perpendicular parking for two-wheelers.
Parking bays shall have a maximum width of 2.5m (Figure 9).
9.3. Each parking slot shall be no more than 5.0m x 2.5m for a four-wheeler. The same
area can be used to park five two-wheelers. Additional buffer may have to be
provided at either ends of the parking bay for safe entry and exit of vehicles from
these parking bays.
9.4. Unlike footpaths and cycle tracks, parking lanes need not be continuous. On-street
parking may be provided where space is available in the public right-of-way, after
providing necessary NMT infrastructure.
9.5. Parking signages shall be erected that clearly communicate parking rules to the
public, and shall be in compliance with IRC: 67. All signages will be located so as to
not hinder pedestrian and cyclist movement, preferably in the furniture zone of the
street.
9.6. Designated parking is often laid with similar material used on the adjacent
carriageway - asphalt or concrete. Differentiated surface material such as paver
blocks may also be used to distinguish space allocated for parking.
9.7. Bicycle parking spaces will be equipped with supporting infrastructure (Sheffield
Stands, guard rails, cycle lockers) to lock the cycles.
Figure 9. Parallel parking for cars is the most efficient parking layout, as compared to perpendicular
and angular parking.
10.8. Drain lines shall be laid at an approximate 2% incline to encourage gravitational flow
of water. Incline of roads also serves as a channel for stormwater, directing it into
catchpits that are protected with grating to prevent solid waste from entering the
chambers.
10.9. Catchpits are designed such that silt collection happens in the chamber trough before
the water flows through RCC pipes into the main stormwater drain, and it can be
periodically cleared.
19
Institute for Transportation and Development Policy, Better streets, better cities. www.itdp.org/betterstreets,
section 2.15 and 2.16
12.2. Cycle tracks will have at least 2m of clear space per direction for one-way movement
and 3m for two-way movement, and have a smooth surface -- asphalt or concrete.
Paver blocks will be avoided (Figure 11).
12.3. Painting cycle tracks, without segregation, shall be discouraged as they are likely to
be encroached by parked vehicles. They shall be elevated 100-150 mm above the
carriageway.
12.4. A buffer of 0.5m between the cycle track and parking areas or the carriageway shall
be constructed.
12.5. In compliance with IRC 11: 1962, cycle tracks shall be provided on streets that have
more than 100 motor vehicles and 400 cyclists during peak hour. On routes with more
than 200 motor vehicles per hour, cycle tracks shall be provided even if the cycle
traffic is less than 100 per hour.
Figure 11. Cycle tracks shall have a minimum width of 2m with a buffer of 0.5m from the
carriageway. Trees along the cycle track provide shade and comfort for cyclists.
Figure 12. A BRT system provides high-quality and high-frequency mass transit system for the city.
The system must have exclusive right-of-way for BRT buses, supported with high quality stations with
IT based off-board fare collection system.
16. Summary
16.1. A summary of various street elements and their specifications is presented below. The
ULB shall use these guidelines to inform the SDM.
Table 7. Street element standards
Street element Specifications Minimum Maximum
width (m) width (m)
Two-way 3.0 *
Buffer 0.5 *