Lesson 3 Transportation Planning and Traffic Studies PDF

Summary

This document provides an overview of transportation planning, focusing on traffic survey techniques suitable for urban road traffic in developing countries like the Philippines. It covers surveys for urban traffic engineering, but excludes road safety information.

Full Transcript

Module 3:
TRANSPORTATION
PLANNING AND TRAFFIC
STUDIES
Module Overview
The process of transportation planning involves the elements of situation and
problem definition, search for solutions and performance analysis, as well as
evaluation and choice of project. The process is useful for describing the
effects of a proposed transportation alternative and for explaining the benefits
to the traveler of a new transportation system and its impacts on the
community. The highway and traffic engineer are responsible for developing
forecasts of travel demand, conducting evaluations based on economic and
noneconomic factors, and identifying alternatives for short-, medium-, and
long-range purposes.

Transportation planning decisions are not randomly assigned but are done
based on engineering data gathered through traffic studies.

This will be a guide to simple, reliable traffic survey techniques, suitable for
urban road traffic in developing countries such as the Philippines. It covers
surveys for urban traffic engineering but does not cover road safety or
transport planning.
Lesson 3.1: IMPORTANCE OF SURVEYS

THE NEED FOR SURVEYS

Surveys are required for both national and strategic traffic issues, and for local
traffic planning, engineering and management purposes. Traffic data are
important to a wide range of decision-making processes in the planning,
construction, operating and maintenance of the transport system. Information
is needed to support not only the case for transport investment (infrastructure
planning, design and construction), but also to indicate how to make best use
of existing road facilities (traffic management and maintenance policy).

The traffic data required from surveys is of transport supply (inventories and
characteristics of the vehicles and infrastructure which comprise the system),
transport demand (the amount the system is used and the patterns of
movement) or performance (how well the system accommodates the demand
placed upon it, measured in terms of traffic speeds, journey times and delay).
Table 1.1 lists the main types of survey that are further described in
subsequent chapters. The collection of traffic data is organized either as part
of general background monitoring of traffic developments or as part of a
detailed traffic investigation.

Traffic monitoring is the consistent and regular (periodic or continuous)
surveying of traffic data, either nationally or locally, for a range of planning
purposes: to calculate historical trends, in supply, demand and performance;
to calculate hourly, daily, and seasonal variation factors; to provide a summary
of the existing

system, in terms of supply, demand, and performance, and identify existing
problems; to determine the timing and sample rate of further surveys; as a
base for predicting future demand and performance, in order to plan
improvements.

Detailed data collection is required for the investigation of specific problems,
the design of improvements, and for 'before and after' evaluation of the impact
of changes. 'Before and after' surveys are a special type of monitoring to
gauge the effects of a specific action. `After' surveys should be carried out
long enough after implementation of the scheme to allow new traffic patterns
to become fully established (typically 2-4 weeks), but not so long as to allow
underlying traffic trends to affect the outcome. It is also desirable to carry out
simultaneous 'control' surveys in a different part of the city, to reveal any
underlying changes to traffic conditions.

Source: Transport Research Laboratory: Overseas Road note 11
 -- -

Lesson 3.2: SURVEY PLANNING GENERAL
CONSIDERATIONS

Road classification system

Roads have two basic but possibly conflicting, functions: to move traffic
smoothly and without interruption, and to provide access. The provision of
access will often necessitate interruption to traffic flow, hence the conflict. The
function of any specific road, therefore, is a balance between these two
extremes, and is defined by a road hierarchy. The concept of road hierarchy is
fundamental to safe and efficient traffic operations and planning. The
classification of a road's function within the hierarchy should also have a
significant effect on its design standards (geometry, structure, etc.). Therefore,
it is important in any study of the traffic network to describe the road links in
terms of their classification within the hierarchy. Figure shows a possible
classification system which should be amended to suit local conditions
(Institution of Highways and Transportation and the Department of Transport,
1987).
Example of a road hierarchy

Vehicle classification system

A fully comprehensive classified count may identify up to 20 different vehicle
types It is rare that such detail will be required, however, and in order to
minimize survey difficulties, five groups will often be sufficient based upon the
sub-groups. The group or category number is based on the number of tires on
the vehicle.
-

Sub-divisions should be chosen to include groups of common interest. For
example, in a transport planning study, divisions may be according to vehicle
occupancy; for a road damage study, they may be by vehicle weight; and for
traffic signals studies they may be according to their passenger car unit
values. Each class must be distinguished from the others by a unique
characteristic which can be seen easily in a moving traffic stream on a busy
street. For example, methods which involve the counting of the number of
tires are more reliable than those which require estimation of length or
weight. For clarification, a sketch or photograph of vehicle types should
always be given to survey staff.
 -- -
38
Sample of Road Categories and Function

--
--
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Sample Simplified Vehicle Classification

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40

Traffic variation and sampling

Traffic variations are usually cyclical, and may be hourly, daily, or seasonal.
The most appropriate days and times of survey depend on survey objectives
 (for example, whether average values or peak values are required). Surveys
should not be conducted when traffic flow is affected by abnormal conditions,
such as accidents, roadworks, public holidays, public processions, and severe
weather conditions (particularly heavy rain).

Separate measurements may be required for seasonal rainy and dry periods.
A particular problem in developing cities is that interruptions to traffic flows
can be so common as to be considered part of the normal traffic scene. In
this case the influence of the disruption should be noted, along with the traffic
performance values being evaluated.

The aim of any survey should be to collect only as much data as is
required to give an estimate at the desired level of accuracy. Appendix
A gives detailed guidance on the use of simple statistical procedures
to help choose the sample size.

Vision:
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Lesson 3.3: FIELDWORK PREPARATION

Human resources

A traffic engineer develops the general requirements into a work plan and
program. He must choose the appropriate survey method for the task and
conditions and decide on locations and times. He must also ensure the
correct preparation and training of both Supervisor and Surveyors.
Survey Supervisors undertake the surveys with teams of Surveyors. There
should be no more than 10 Surveyors per Supervisor; larger teams are
difficult to manage. The Supervisor must ensure the accuracy of observations
and recording, timekeeping and completion of survey form headings. He
must also support the survey team in general, by maintaining the supplies of
forms, materials, and equipment. He also records changes in traffic
conditions (for example, accidents, weather, traffic controls) using a log (see
Appendix B).

Shift lengths depend upon the intensity and rate of work, as well as any legal
constraints or government recommendations on working hours. In surveys
with a high work-rate (for example recording vehicle registration numbers)
attention spans are relatively short, and shifts should be broken up into
sessions of half an hour to one hour, with short breaks in between. In
general, shifts should be too short rather than too long; no Surveyor should
be asked to do more than is comfortably possible.

One Surveyor, however competent, should never be required to record more
than twelve items (for example, three classes of vehicle and four turning
movements). Two-way traffic is regarded as two items, even if not recorded
separately. As a rule of thumb, one experienced surveyor using a pencil and
appropriate form can simultaneously record:

∙- twelve items, up to a flow of 300 veh/hr.
∙- four items, up to 600 veh/hr.
∙- two items, up to 1200 veh/hr.
∙- one item up to 1800 veh/hr.

Rates for inexperienced Surveyors should be about two-thirds of these values.

For high volume flows in excess of 1800 veh/hr. the use of tally counters will
help. Other less satisfactory techniques include counting in groups of ten, and
creating sub-divisions of items for separate Surveyors to monitor (e.g.
counting by lane or sub- dividing the vehicle categories).

Survey duration should be sub-divided so that anomalies can be identified by
comparing different short periods and discussed with the Surveyors involved.
For example, even if the required data from a survey is the 1-hour total
volume, it should be divided into 15-minute periods.
42

Equipment

Lists of equipment and materials are included with the individual survey
instructions. The Supervisor must specify the equipment needed by each
Surveyor. Again, space is provided for this purpose on the Supervisor's field
log sheet (see Appendix B).

Watches are used extensively in traffic surveys. It is recommended that digital
chronometer watches which can display hour, minute, and second
simultaneously be used for all timing tasks. (Stopwatches are not
recommended as they are prone to operator error.) All watches should be
individually numbered, and each should be checked against a reliably
accurate standard from time to time.

Survey forms and instructions
 Survey form design should be simple, with enough space to record the data
easily even under busy field conditions. Margins at left, right, and bottom of
the form should be large enough to allow it to be clipped to a board, and filing
holes to be punched, without obscuring information. Heading information
should include the project title, survey type, and blank spaces for the
Surveyor to enter
the exact location (e.g. road name), a sketch plan showing the site and
location of the surveyor (with measurements to an accuracy of 50m), date
and time, Surveyor's name, weather conditions during the survey, and any
other information concerning unusual traffic conditions.

Each Surveyor and Supervisor must have clear, detailed written instructions
and training for each survey form and each survey task. This will include a
detailed description of each individual task and how the survey form(s) should
be filled in, with examples. It should be impressed upon them that every
single item of header information must be completed on every sheet. To
avoid ambiguity, it should also be emphasized that no box or column is ever
left blank; value zero is shown by the figure zero (not a dash), and suitable
abbreviations are used for `not available' (n/av), or `not applicable' (n/a).
Appendix C contains instructions and blank forms for each of the surveys
described in the following discussions.

Pilot survey

Pilot surveys are full field tests of a survey method, preferably at the location
of the main survey itself. Though they are sometimes omitted for reasons of
economy, experience has shown that pilot surreys are a vital part of ensuring
acceptable data quality. They can also help plan sample size and survey
duration, thus ensuring the most effective use of available time and money. If
the pilot is well prepared, and proves to be successful, the pilot survey data
may become part of the main data set.

Liaison with other agencies

The approval of the police may be required for any activity on the highway,
and their permanent presence may be necessary for some types of survey.
However, as far as possible, the police must be made aware that there should
be no unusual police presence or activity in the survey area which could affect

Vision:
Mission: - - - - -
For in -

the traffic characteristics being measured in the survey (for example,
additional enforcement of speed limits or drivers becoming conscious by the
presence of police).

Surveyor safety

Any work close to moving traffic has potential dangers. All survey staff should
have suitable insurance cover, and each individual should be given a verbal
briefing on traffic safety precautions as well as a copy of the safety card or
similar. There may be legal obligations on the part of the survey organizers in
respect of safety; these must be established and adhered to.
 Vision:
Mission: - - - - -

Lesson 3.4: DATA HANDLING

Data processing converts raw field data into a standard format, from which
summary statistics, tables, and graphs can be prepared. Analysis is the
process of drawing conclusions from this data. Both processing and analysis
should begin as soon as possible, because potential errors are more easily
identified and corrected if the surveyor concerned can be questioned. Also,
additional surveys are more easily organized, if required. The main types of
mistake are incorrect application of random or systematic sampling,
measurement errors (misreading or misrecording, usually arising from
Surveyors being required to record more information than can comfortably be
achieved, use of ambiguous definitions or lack of adequate Surveyor training)
and blunders (the result of direct human error). Measurement errors are often
difficult to detect later. Serious blunders are usually detectable if proper data
checking procedures are followed. However, every attempt should be made to
avoid measurement errors and blunders from the start, as many errors cannot
be identified once the data are collected.
For in -

Safety card example
Processing and error checking

Data processing usually involves the transfer of raw data from the field sheets
onto summary sheets or directly into computer files. This transcription process
itself can be a major source of error and must be carried out with care. The
transcriber should also remain alert to the possibility that the data contain
errors and report any observations which appear to be in error. With
computer records

Vision:
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46
 it is easy to make specific error checks at the first stage of data processing.
The most obvious check is for data to be entered twice, independently, and
compared for differences.

The traffic engineer should look for unusual values or patterns in lists, tables,
diagrams, and graphs. Discussion of unusual results with the Supervisors is
often very productive. For example, a traffic volume histogram may show a
large fluctuation from one 15-minute period to the next. There are no fixed
rules, but an investigation could be carried out as follows:

∙ consider what reasons could have caused the fluctuation, for example,
an effect such as that shown in the log.
∙ consider whether the Surveyor forgot to change time periods every 15
minutes, resulting in periods being longer or shorter than 15 minutes.
The Surveyor should be questioned about this and the original survey
forms examined. If this was the cause, the effect could be reduced by
combining 15-minute periods into, say, one hour periods instead.
∙ compare existing data from other surreys, to see if the effect was
present at adjacent locations at the same time; at the same location, at
the same time; at the same location and time on different days.
∙ if no other data exist, carry out an additional (short)check survey at the
same location and time of day.
∙ if no clear conclusion emerges, a judgement must be made on whether
the data should be included in the analysis.

When an error is suspected in an individual measurement, it should be
corrected or discarded. It should be corrected only if the correct value
is known with reasonable certainty. It is important not to throw away
data lust because it might be in error: stronger evidence is needed. In
most studies a few extreme values will not materially affect the results.
However, in studies interested mainly in extreme values (for example,
observance of speed limits) the treatment of extreme values needs to
be rather more thorough, and include a visual assessment of a
histogram of all the data.

Data processing resource needs (excluding analysis) vary considerably
between different types of surveys. As a rule of thumb, processing time can
take about twice the time of field data collection. Computers do not
necessarily speed up procedures as much as might be expected, though
direct entry of observations into a hand-held computer clearly has the
promise of much reduced processing time.

Analysis

Analysis seeks to draw conclusions relevant to the study objectives from the
data characteristics and trends established in the surreys. Statistical
techniques can be used to indicate, for example, whether there is a
relationship between variables under examination or whether a significant
difference has resulted from a particular road treatment. However, the
analysis cannot, of itself, say anything about causes; why does one variable
respond to a change in another or why a particular treatment has had some
success? It is the job of the traffic engineer to design surveys which will yield
data that can be used to test and quantify a hypothesis. To demonstrate, for
example, that higher

Vision:
Mission: - - - -
For in -
speeds result from a road widening the survey
must be designed to screen out all possible
alternative factors (different traffic flows, weather
conditions, etc.). The use of control surrey data
may be a powerful tool in this analytical process.

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Lesson 3.5: TRANSPORTATION SURVEYS

ROAD INVENTORY SURVEYS

The road infrastructure consists of links, junctions, parking spaces and
terminals. The physical characteristics which will influence its use include its
current geometrics and pavement structure, its traffic controls (signs, signals,
road markings, and parking restrictions), sidewalks, shoulders, adjacent land
use, service provision (for example, gas, water, electricity, telephones) and the
intensity of non-traffic activities which encroach upon road space (for
example, hawkers, builder's materials, market stalls etc.). The purpose of the
inventory survey is to record this information.

The detail of an inventory survey can be varied to suit needs. An approximate,
but simple survey method involves Surveyors walking or driving along a link
and locating objects or points by the distance (chainage) along the link and
the offset from the center line. Chainage can be taken from a vehicle
odometer or measured by pacing or measuring wheel. As much as possible,
inventory Surveyors should be restricted to observation and measurement,
as opposed to making any judgements.

Junctions generally require a more detailed approach than links with, for
example, measurements of corner radii and turning restrictions. Traffic signal
information should normally be collected in a form consistent with the
equipment manufacturer's specifications.

The rate of progress of an inventory survey obviously depends upon the data
items to be noted and the accuracy of measurements. However, a simple link
survey for traffic planning purposes should progress at approximately 0.5 - 1.0
km/h. Link surveys can be carried out by pairs of Surveyors, one surveying to
the left of the centerline, and the other to the right.

The field sheets themselves are the main output from the survey. They should
be filed and referenced to a master map showing the area covered by each
field sheet. Individual road links and junctions can be related to a network, by
a system of link and node numbering. Existing link/node numbers should be
used if these exist (for example for accident reporting or signal maintenance)
as this will permit ease of cross-referencing with other survey material.

PARKING SURVEYS

Parking surveys provide the data upon which the parking policy for an area
can be decided. The provision of parking is obviously a major factor, primarily
for private cars, in the accessibility of an area. Parking management is also a
most effective low-cost traffic policy instrument

Car parking spaces can be classified into on-street or off- street; public (i.e.
available to the public) or private; formal (i.e. marked and controlled spaces)
or informal. Parking and stopping spaces must also be provided for
commercial vehicles (primarily delivering and collecting freight) and public
transport vehicles (for picking up and setting down passengers). Other
characteristics of
For instructional purposes only 1st Semester SY 2020-2021 49
banned and restricted locations.

parking are dimensions and layout (including Parking demand characteristics include:
access roads); time controls; charges and costs;
Accumulation
⮚ the number of parked vehicles in an area, at
any given moment. A graph showing the
variation of accumulation in a city center during
the day, can be compared with the parking
supply to show when there is over or
under-provision of parking space.

Parking duration
⮚ the time one vehicle remains parked in one
place.

Parking load
⮚ the total demand on an area over a period of
time, measured in vehicle hours. It is the sum
total of all vehicle durations, (equal to the area
under the accumulation graph).

Parking volume
⮚ total number of vehicles using the parking
facilities over a period of time (usually one day).

Turnover
⮚ rate of use of parking spaces, calculated by
dividing the parking volume by the number of
spaces.

Arrival and departure rates
⮚ which affect the design of entry and exit
facilities, particularly for off streetcar parks.

Two surveys are described here: parking
inventory surveys, which determine the
existing supply, by recording the number and
location of spaces; parking patrol surreys
which monitor demand and are usually for
on-street (curbside) parking but can be used for
off-street facilities. The two are usually
undertaken together.

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competitive human resource, cutting-edge scientific knowledge
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knowledge and innovative technologies for sustainable
communities and environment.

An example of a completed link inventory form

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Coding a Network (from Leonard and Gower
1982)
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PARKING INVENTORY SURVEY and environmental conservation. Mission: Development of a highly
competitive human resource, cutting-edge scientific knowledge
and innovative technologies for sustainable communities and
This survey requires a base map, upon which theenvironment.
surveyor marks the location and number of
parking spaces. The map should be
approximately 1:500 scale, depending upon the
amount of detailed information to be recorded. A
sketch map is perfectly adequate, but officially
published maps may be preferred. The parking
inventory may also be incorporated into the road
link and junction inventory maps. Where more
than one form is required for a study area, a
master reference map of the study area will be
necessary, showing the area covered by each
sketch sheet.

The location and number of formal parking
spaces is usually determined easily because the
spaces are marked. The number of informal
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Routes are sub-divided into sections, typically of
6 meters long and 2.5 meters wide. For informal 20 spaces, to allow the identification of sections
areas, it is necessary to count the actual with different characteristics (for example
number of parked vehicles at a time of peak duration, turnover). Section boundaries should
demand. occur where characteristics are expected to
change, for example with change of adjacent
PARKING PATROL SURVEY land use from offices to shops. Data is then
summarized by section.
Surveyors patrol a predetermined route, with a
predetermined number of parking spaces. The Output
patrol is divided into a number of sections.
Surveyors record the location of all parked Vehicle arrivals, departures and accumulation
vehicles, their registration number, and vehicle can be calculated and entered into the boxes
type using Form D which can be modified to on the survey form itself. Parking duration is
allow the type of parking to be recorded on the estimated by noting the patrol time at which
form, by providing an additional column each registration number was first seen, and the
alongside the vehicle registration number. time at which it was last seen. The same result
is obtained by counting the number of
The area to be surveyed is decided from study observations of a particular vehicle registration
objectives and the parking spaces within that and multiplying by the patrol interval. Note,
area are identified from a parking inventory however, that if the vehicle is present on the first
surrey. In addition to public spaces, the survey or last patrol only a minimum duration can be
can include private, informal (e.g. waste calculated. Different vehicle types (or parking
ground), and illegal spaces (footpaths, types) can be dealt with separately.
no-parking areas), as required.
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and environmental conservation. Mission: Development of a
The patrol interval depends on whether parking highly competitive human resource, cutting-edge scientific
knowledge and innovative technologies for sustainable
at that location short or long stay is but is communities and environment.
typically 15 minutes. With low turnover, the
patrol interval can be as long as 45 - 60
minutes; with high turnover 15 - 20 minutes is
more appropriate. Preliminary data can be
obtained from a pilot survey. The patrol interval
should include an allowance of 5 minutes for
rest and contingencies.

The length of route is determined by the patrol
interval (less 5 minutes), together with the
Surveyor's walk speed. Typical walk speed is 20
meters/minute, although it depends on the
amount of data the surveyor has to record; high
turnover means more data and a slower speed.
If parking accumulation is required without
associated duration, only the total number of
each type of vehicle parked in each section
needs to be recorded on each patrol.
Therefore, less data is collected, walk speeds
are increased, and considerably longer routes
are possible. Alternatively, data can be collected
from a car, although a driver will be required.

Routes should be defined to end at the start
point, so that the surveyor wastes no time in
returning to the starting point. A simple circuit
may be defined by a Surveyor walking up one
side of a street and back on the other.
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be combined.

Bar charts can be drawn to summarize the
parking duration pattern, if necessary, by vehicle
type. If examination of these indicates this is
warranted, bar charts for adjacent sections can
An example of a Parking Inventory Survey (From
Wells, Traffic Engineering - An Introduction)

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and environmental conservation. Mission: Development of a highly
competitive human resource, cutting-edge scientific knowledge
and innovative technologies for sustainable communities and
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 knowledge and innovative technologies for sustainable
communities and environment.

Parking patrol example

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 and environmental conservation. Mission: Development of a highly
Parking Patrol Survey form example competitive human resource, cutting-edge scientific knowledge
and innovative technologies for sustainable communities and
ORIGIN - DESTINATION SURVEYS: environment.

REGISTRATION NUMBER METHOD

Origin-destination (O-D) data is used to analyze
the effect of proposals for change (for example,
a new traffic management scheme, or a new
road) on travel through a study area. The O-D
data is kept constant, but routes and journey
times can be changed; the impact of the
proposal on individual trips and cumulative
volumes, travel times, and costs can be
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 to minimize the amount of data processing. The
study area is defined by a cordon which should
destination. The origin and destination points be drawn in such a way that vehicles entering or
are the start and end zones of a trip but can leaving the area cross the cordon only once.
also be the entry and exit points on the study
area cordon. Usually it is not possible to record the
registration numbers of all vehicles, so in
O-D information can be derived from home or practice a subset of the total flow is chosen. It is
roadside interviews, postcard and sticker important that the subset is chosen such that
surveys and by registration number plate Surveyors at all points can record 100 per cent
surveys. For long term transport planning of the subset; it is much better to record 100
studies, and large urban areas, where it is per cent of a small subset than, say, 85 per cent
important to establish the social and economic of a larger one. The proportion which the subset
characteristics of transport users, interview forms of the total flow must be known.
surveys are best. Registration number plate
surveys obtain less information but are easier The most common method of choosing a
to implement and are suitable for determining sub-set is to use the last digit of the vehicle
existing patterns of movement in small study registration number. If any number between 0
areas. and 9 is equally likely to occur, then the choice
of any number automatically results in a 10 per
Surveys dealing only with local area traffic cent subset. If two numbers are chosen, then a
schemes are considered. The Registration 20 per cent subset is selected. The last digit is
Number Method is an observation survey which chosen because it is most likely to be a random
matches the number plates of vehicles which number. The
enter and exit the defined study area, in order
to accumulate an O-D matrix. If observers are
Vision: A globally competitive university for science, technology,
scattered throughout the study area, as well as and environmental conservation. Mission: Development of a
at the cordon, the method can also be used to highly competitive human resource, cutting-edge scientific
obtain large samples of travel time data knowledge and innovative technologies for sustainable
communities and environment.
between observation points and to determine
routing of individual vehicles through the study
area.

The main problems with registration number
surveys are that many reliable surveyors are
needed, survey planning and coordination is
complex and data processing and analysis are
complicated and time-consuming
(computerization of the registration-matching
process is almost essential).

Method

Surveyors record the registration numbers of
vehicles in- bound and out-bound to the study
area, together with the time of observation and
class of vehicle, if required. Two Surveyors are
required at each observation point, one for each
direction of traffic flow. Additional Surveyors can
be located at intermediate points inside the
study area, providing further information on
routing and travel time. Each sighting of a
vehicle provides more information on its travel
time and routing, and possible stops inside the
study area.

The study area should be as small as possible
consistent with study objectives, in order to
minimize the number of Surveyors needed and
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Alternatively, vehicle color can be used to
method is simple but requires every number distinguish the subset provided that the color is
plate to be scanned before deciding whether it not ambiguous; red is a poor choice, ranging
has to be recorded. from maroon to orange. Grey and white are
often sufficiently unambiguous. (The pilot study
should be used to check Surveyors' recognition
of the color.) Selection by color can bias the entry and exit point pair, which have a positive
results; for example, black is unambiguous, but travel time. The output file should list the entry
there are few black cars in most cities and many point, exit point, registration number, (if used)
of these may be official vehicles. Two (or more) vehicle type, entry time, and journey time.
colors may be used to provide a sufficient Assuming no errors, vehicles entering the study
sample. If vehicle color is used, the area will have been matched to an exit point,
simultaneous volume count must also be except for vehicles which either entered during
classified by color (as well as vehicle type) for the survey and stayed in the area until after the
expansion purposes. survey was finished or which were in the area
when the survey started
To avoid any cause for doubt, it is recommended
that the whole registration number (letters and
numbers) should be recorded in full. Form F is Vision: A globally competitive university for science, technology,
used to record the information. It is also possible and environmental conservation. Mission: Development of a highly
to record data on either a tape recorder or hand- competitive human resource, cutting-edge scientific knowledge
and innovative technologies for sustainable communities and
held microcomputer. For tape recorders the environment.
information is recorded verbally, doubling the
rate of data acquisition because the surveyor
does not take his eyes off the traffic. However,
transcription can take longer than the survey
itself, and other problems arise from equipment
failure etc. Handheld microcomputers record
time automatically, which if required makes
recording twice as fast as using pencil and
paper. If time is not to be recorded, then they do
not have this advantage and are also subject to
equipment failure problems.

An experienced Surveyor can record up to 300
registration numbers (of four numbers and three
letters) per hour, using pencil and paper. The
rate varies according to local conditions, the
type of registration number, the size of the plate
and numerals, etc. The rate will be lower with
inexperienced personnel and if other information
is recorded; for example, time of observation
reduces the rate by more than 50 per cent and
vehicle type, reduces the rate by about 20 per
cent. A pilot survey will help establish work rates.

Output

The survey begins at the same time at all
locations, so that just after the start of the survey
vehicles will be leaving the area which were not
recorded entering it. Furthermore, just before
the finish, vehicles enter the area which will not
be recorded leaving it These vehicles should be
ignored to obtain a clear picture of the
proportion of through traffic The easiest way to
remove most of them from the data set is to
estimate the average time (`n' minutes) it would
take to cross the survey area without stopping
and to discard all registration numbers of
vehicles which left or entered the area within `n'
minutes of the start or finish of the survey. This
is done before matching takes place.

Computer processing is recommended for
matching all registration numbers between each
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drawn of the travel times between each entry
and exit point. The vehicles with the shorter
but left during the survey. These vehicles form travel times represent the non-stopping traffic,
part of the "stopping" traffic discussed below. and the "tail" of longer travel times are for those
vehicles which stopped in the area for some
reason. It is necessary to decide the boundary
To identify stopping vehicles a histogram, is
between the two types. A simple rule is best
employed, and applied to all cases: for
example, using the first gap in the histogram
longer than one minute.

For the whole area, non-stopping traffic can be
expressed as a proportion of total traffic in the
survey period, total traffic being all (non
stopping and stopping) matched vehicles plus
the unmatched vehicles discussed. Knowing
the sample proportion, it is simple to factor the
sample data to give an estimate of the total
flows of non-stopping traffic.

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on the number and types of vehicles passing a
specified point on a link (link counts) or making
TRAFFIC VOLUME AND CLASSIFICATION specified movements at a junction (turning
SURVEYS counts). The occupancy of vehicles may also be
recorded to provide data on the volumes of
The purpose of these surveys is to collect data people using the road space. Volume of traffic is
expressed as a rate of flow, usually either as
vehicles per hour (veh/h), in particular the peak Link counts should be located on straight
hour demand on the road, or vehicles per day sections of road for good visibility. Duration can
(veh/day), often converted into the value "AADT" be from a few minutes to several days,
(Annual Average Daily Traffic). depending on purpose. Most counts are carried
out for one day, starting before the morning peak
By definition AADT can be known definitively hour, and extending for 12, 14 or 16 hours.
only from a continuous count over a full year. Count periods are usually 15 minutes, with
However, factors for modifying short period results summarized hourly. Shorter periods may
counts to estimate AADT can be developed be used for special purposes. Even when hourly
using long period counts for a limited number of counts are the most detailed data required, 15-
sites which are chosen to represent the main
types of road in the network. The annual counts Vision: A globally competitive university for science, technology,
at the sample sites will indicate seasonal, daily and environmental conservation. Mission: Development of a highly
competitive human resource, cutting-edge scientific knowledge
and hourly variation and hence the factors which and innovative technologies for sustainable communities and
relate traffic volumes (measured at any specific environment.
time) to the AADT, for that class of road.

In urban areas peaks in traffic demand arise
primarily because of home-to-work trips,
occurring typically at the beginning and end of
the normal working day. The `peak hour factor'
expresses peak hour volume on a route as a
proportion of the AADT. The peak hour factor for
a particular route is often a consideration in
classifying routes by type. As a rule of thumb, on
urban roads the peak hour traffic is usually
around 10 per cent of AADT (Note that the US
Highway Capacity Manual defines peak hour
factor in a different way - TRB, 1985).

Examples of presenting traffic volume data are
shown. These include volume maps, with a
geographical background overlaid by bandwidths
representing traffic volumes (see Fig 6.1 a);
desire line diagrams, more often used for
Transport Planning Studies, but which can also
be useful in the planning stages of local area
traffic surveys; junction turning movements.

Traffic volume surveys are carried out by either
manual or automatic traffic counts. Manual
counts are particularly useful for vehicle
classification, checking automatic counter
accuracy, and surveying vehicle occupancy.
Automatic traffic counts, using traffic counter
equipment, are normally used only on links, and
are particularly suitable for long-term data
collection, and analysis of seasonal, daily, and
hourly variations. In most studies, a combination
of automatic and manual counts is needed.

MANUAL TRAFFIC COUNTS

In a manual count a surveyor stands by the
roadside, counting and classifying the vehicles
as they pass, dividing the survey into fixed time
periods. It is normal for the surveyor to record
only one direction of flow.
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Turning movement counts are carried out in the
minute periods should be used as errors are same manner as link counts, except that the
more easily identified (particularly start-up and turning movement of each vehicle is recorded,
close- down errors). and the vehicle classification system is
simplified (to compensate for the extra demands
on Surveyors). These surveys are primarily knowledge and innovative technologies for sustainable
communities and environment.
concerned with the performance of the junction
during peak periods, and survey duration is
often confined to the morning and afternoon
peak periods, typically between 2 and 4 hours
each. Count periods are usually 15 minutes.
However, at signalized junctions’ short
term volumes are determined by signal
operations, and cycle times in excess of 2
minutes, or count periods less than 15 minutes,
may cause apparent fluctuations in flow. In
such cases it is best to record flow for each
cycle, using the cycle time as the counting
period.

Example of a Registration Plate Matching
Survey Data Reduction

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Presentation of Network Traffic Data and innovative technologies for sustainable communities and
environment.

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CEng 132n: Principles of Highway and Railroad Engineering
Presentation methods, neatness to distinguish the symbols
and more processing manpower. The 'crossing
out numbers' method is best with low or medium
Survey forms continuous flow.

Survey forms must be designed for the specific Vision: A globally competitive university for science, technology,
and environmental conservation. Mission: Development of a
needs of the study. Typical examples of highly competitive human resource, cutting-edge scientific
completed field forms are shown which also knowledge and innovative technologies for sustainable
illustrates the three common pencil-and-paper communities and environment.

methods of recording and classifying each
vehicle. The 'five-bar gate' method is the most
versatile and is applicable to both link and
turning counts. It records data quickly (without
the need for extreme neatness), is the most
economical in use of space on the survey form
and can be summarized quickly. The 'initial
letter' method is appropriate for surveys with
short periods of high flow, when field manpower
is limited. It has the fastest rate of data
recording where one surveyor must record
several items and is very fast for counts in only
one direction, as the Surveyor's need to look
down at the survey form is limited. It does
require longer processing time than other
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rubber pneumatic tube, held to the road surface
by special clips, or an inductance loop (several
It is the least flexible of the methods and has the turns of wire laid on or in the road surface in a
slowest recording rate. However, there are no rectangular or diamond shape).
problems of Surveyors 'losing count', and totaling
is immediate. Pneumatic tubes detect the movement of a
vehicle as the tube is depressed by a tire; this
Alternatively, hand tallies can be used to record creates a pulse of air which closes a diaphragm
specific vehicle classes. They are faster and in the recorder adding one axle (usually half a
more accurate than pencil and paper methods, vehicle) to the counter total. Tubes should be
because only the total is recorded, at the end of installed in accordance with the following
each count period, and the surveyor is looking atguidelines:
the traffic flow almost continuously. However,
vehicles can be missed while recording the -the count site must not be located where
cumulative total at the end of each count period. braking or acceleration occurs, or where
Note that tally counters should not be reset at overtaking is common, such as near junctions,
the end of each time period as this waste too bus stops, or other parking locations.
much time, rather the cumulative total should be
recorded at the end of each period. Tallies are ∙ the count site must not be located near areas
also subject to mechanical failure and should be where children play or walk to school, as
checked regularly; a common fault is not children are tempted to tamper with the counter
registering every vehicle. or tube.
∙ at the count site the road should be straight,
Errors with manual counts usually arise from one level, and free from flooding.
of three sources: failure to define vehicle ∙ the tube must be fixed at right angles to the
classification unambiguously, which can lead to direction of traffic flow. ∙ the tube must be
undetected errors; failure to observe time straight when fixed, and it should be stretched
periods accurately; surveyors having to count some 10 per cent to ensure it remains straight.
vehicles at a faster rate than they are capable. ∙ the tube must be clamped firmly to the road,
Particular attention should be given to these with at least one clamp per lane of traffic, plus
problems during the pilot survey. one near each curb.
∙ the counter should be securely locked to a pole
AUTOMATIC TRAFFIC COUNTS or tree, but the tube must not cross a footpath.
∙ the tube and counter must be checked
Equipment frequently for damage or malfunction.

Automatic traffic counter equipment consists of a Vision: A globally competitive university for science, technology,
and environmental conservation. Mission: Development of a highly
detector, to detect the vehicle, and a counter to competitive human resource, cutting-edge scientific knowledge
record the information. The most common types and innovative technologies for sustainable communities and
of detector used in traffic counting are a hollow environment.
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Pneumatic tube detectors record axles, and the counter assumes that
two axles equals one vehicle. This overestimates the number of
vehicles, and a correction factor should be applied, calculated from
classified count data (short sample count if necessary, but including
 both peak and off-peak data), as follows:

Correction Factor = Number of vehicles 1⁄2 x
Number of axles on those vehicles

A correction factor is calculated for a specific
site, but various sites can be averaged to
produce factors for an area, or different
classifications of roads.

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Alternative Methods of Traffic Counts and innovative technologies for sustainable communities and
environment.

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Automatic traffic counters

A loop detector detects the presence, rather
Vision: A globally competitive university for science, technology,
than the movement of a vehicle. The counter and environmental conservation. Mission: Development of a
passes an alternating electric current through highly competitive human resource, cutting-edge scientific
the loop, creating a magnetic field above the knowledge and innovative technologies for sustainable
communities and environment.
loop. The presence of a metal vehicle in the
magnetic field causes a change in the electrical
inductance, which is recorded by a sensor in
the counter. Non-metallic vehicles cannot be
detected, and pedal cycles are very difficult to
detect because of their shape. Loops are
usually permanent installations, laid in a
shallow slot cut into the road surface, and
sealed in by epoxy resin and bitumen. However,
temporary loops can be fixed with sticky tape to
the road surface. For loop wire specifications
and installation, refer to the counter manual.

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Counters are either non-storage or storage. The
former accumulates a running total, which must
be read manually on site but do not record data
by time period. They have limited applications
for measuring total volumes over a week,
month, or longer. Storage counters store count
data for specified time periods, for future
retrieval. They are complex and expensive, but
highly desirable in urban areas where hourly
variations in traffic are of concern. Modern
counters record data by electronic means, either
on magnetic cassette tapes, or in solid-state
memory. Data can be transcribed manually but is
more efficiently transcribed and summarized by
computer.

A counter should be checked with at least 50
vehicles, including all major vehicle classes,
over a range of speeds. This is necessary to
ensure that all vehicle types which should be
counted are being counted, and those not
required (for example pedal cycles) are not being
counted.

Combatting equipment errors

Automatic traffic counters require a continuing
Vision: A globally competitive university for science, technology,
program of checking and maintenance, by and environmental conservation. Mission: Development of a highly
trained technicians with access to a supply of competitive human resource, cutting-edge scientific knowledge
and innovative technologies for sustainable communities and
spare parts. More sophisticated machines need environment.
more specialized maintenance without which
they may prove to be of limited use. Poorly
adjusted equipment gives rise to consistent
over-or under-counting, while the sensitivity of
the counter may deteriorate over time due, for
example, to a partly blocked detector tube.
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SPOT SPEED SURVEYS
CEng 132n: Principles of Highway and Railroad
The
speed of vehicles can be
Engineering
measured instantaneously (spot
speed), or averaged over distance or
time. The spot speed of a vehicle
varies continuously, as the vehicle
accelerates or brakes. Spot speed
data is used to: RADAR SPEED GUNS

∙ determine observance of, and The location of the survey, sampling of
suitability of, existing speed limits. ∙ vehicles and recording of results, are
establish suitable new speed limits. exactly the same as for the manual
∙ determine a suitable design speed for short base method described below.
geometric design of the highway. ∙ The main requirements of the radar
provide information for use in road speed gun are that the operator is fully
safety and enforcement program. ∙ trained on the accurate use of the
assist the location of certain traffic equipment and that the speed gun,
signs. and its operator, are concealed from
∙ determine speed-flow relationships drivers. Measurements can be made
and traffic densities (May, 1990). from inside a parked car, but the car
should not be parked in any location
Spot speed surveys can also be used which affects the speed of the
to establish trends (monitoring), for vehicles surveyed.
example in before and after studies.
Spot speeds are usually measured on
links (not at junctions) and are
surveyed separately for each direction,
with the surveyor normally positioned
on the side of the road of the direction
being surveyed. Spot-speed data is
collected by either a radar speed gun
Vision: A globally competitive university for science,
(which gives automatic direct technology, and environmental conservation.
measurement) or short-base methods: Mission: Development of a highly competitive
timing a vehicle over a known short human resource, cutting-edge scientific knowledge
and innovative technologies for sustainable
distance, either manually with a communities and environment.
stopwatch or automatically using
modern loop or twin-tube devices.

Radar speed guns are suited to
relatively narrow roads at low or
medium flows, when vehicles travel
past the observer individually. They
are not suited to heavy traffic
volumes, congestion or multi-lane
roads. Furthermore, they are complex
to use, require significant training of
survey staff, and are expensive.
Methods where vehicles are timed
over a short base line are suitable for
almost all traffic conditions and types
of road. They require only simple and
inexpensive equipment and are less
obtrusive; the main problem is
overcoming parallax error. This is
reduced if a high vantage point is
available.

The presence of surveyors,
equipment, or unusual markings on
the road surface can affect driver
behavior. The need to make the
surveyors inconspicuous can affect
choice of survey method and location.
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Speed Survey using ‘Short-Base’ method to drivers. Alternatively, the downstream line can
be defined by the surveyor standing directly
MANUAL SHORT-BASE METHOD opposite a roadside object (for example, a power
pole or tree) on the
The survey location is usually at the middle of a
road link. A specific point is chosen on the link,
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determined if appropriate by the study objectives and environmental conservation. Mission: Development of a highly
(for example at a pedestrian crossing, to competitive human resource, cutting-edge scientific knowledge
investigate an accident problem). A short base and innovative technologies for sustainable communities and
environment.
length is created, over which vehicles can be
timed. The length will depend on speeds on the
road, with longer bases needed for higher
speeds. Table below relates approximate
lengths to average speeds.
Short Base Lengths

Average Speed of Traffic (km/h) S

Below 40

40-65

Above 65

Another approximate guide to length is that no
vehicle in the traffic stream should take less
than 2 seconds to traverse the short-base, in the
traffic conditions prevailing during the survey.

The ends of the short-base length are marked on
the road surface with paint, chalk, or tape lines;
the lines should be as inconspicuous as possible
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was a following vehicle in a platoon. The
procedure is repeated for the next vehicle, and
opposite kerb. The Surveyor must always be at so on through the survey period.
the downstream end. The short base length
must be measured accurately, preferably with a Unlike other types of survey, spot speed
metal tape measure rather than a measuring surveys are usually concerned with the
wheel. In addition, a "sampling line" is marked non-peak periods of traffic flow, when speeds
upstream of the start line. The sampling line is are higher. For example, where free-flow
needed so the surveyor can select the sample speeds are needed for setting speed limits,
vehicle before he starts to record its travel time. periods of low volume and good weather are
The Surveyor must be able to see the sampling specifically chosen.
line and both timing lines, for all lanes of traffic;
the pilot survey should determine whether a Definition of the target population is particularly
high vantage point is required. important for spot-speed surveys, and may be:

Sample vehicles are selected at the "sampling ∙ all vehicles in the traffic-stream.
line". The survey supervisor should define ∙ all vehicles with some choice of speed: for
which vehicles are to be surveyed. This might example, vehicles at the head of a platoon or
th single vehicles, on a fairly busy road.
be every n vehicle or according to some other
∙ all vehicles with a free choice of speed: this
method to ensure an unbiased sample (For
would be at low flows, when a complete choice
example, as the surveyor looks up he notes the
is available.
first vehicle in any lane to cross the sampling
line and selects the next vehicle in any lane to
Survey forms should allow space for a
cross the sampling line.
description of the chosen sampling method. It is
not always necessary to include all vehicle
This is the "sample vehicle". The Surveyor
classes; for example, cars alone are often the
starts the stopwatch as the sample vehicle
target population. If more than one class of
crosses the upstream start line and stops it as
vehicle is included, the class of each vehicle
the same vehicle crosses the downstream line.
should be marked on the survey form.
The time is recorded on the survey form,
together with vehicle type and whether or not it
Output
Vehicle speeds are calculated from the times
and known short-base distance. Results may
be presented numerically or graphically. The
most common graphical outputs are histograms
and cumulative distributions of speeds which
allow the extremes of the speed range to be
seen.

Numerical results can be mean speeds; the
range of speeds; the proportion of vehicles
above or below a certain speed (for road safety
and enforcement). The 85th percentile is
commonly used to describe speeds. This
excludes extremely fast drivers (and gross
measuring errors) and gives an estimate of
what the majority of drivers consider a top limit.

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highly competitive human resource, cutting-edge scientific
knowledge and innovative technologies for sustainable
communities and environment.

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Example of a frequency distribution (for and innovative technologies for sustainable communities and
environment.
spot-speed data)

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 needed. Practice should also establish the
driving style required to "float" or maintain one's
NETWORK SPEEDS AND DELAY SURVEYS: position in the traffic stream, i.e. for the survey
THE FLOATING CAR METHOD car to overtake the same number of vehicles as
overtake it along the length of the route. The
driver should not allow his driving style to
Average network travel times and journey
change in response to the pressures of the
speeds are a major measure of road traffic
survey.
performance. Not only are they an indication of
existing road link and network performance, but
they help identify specific congestion spots and Number of runs, routes and timing points
are important as an input to traffic models and
road investment appraisals. The basic method To account for different traffic conditions
for measuring network speed and delay (and its throughout the day, each survey run should be
causes) is the Floating Car Method. Other related to a particular time period. Typically,
techniques which could be adapted to achieve these periods are morning and afternoon
the same purpose are the license plate survey peaks, daytime off-peak, evening post-peak. A
and the elevated observer method. minimum of three runs is recommended for
each time period.
The advantages of the floating car technique
are its direct and accurate measurement of Maximum route length capable of being covered
travel times and delays, and personal in one run can be estimated from the duration
experience of the causes of delays. The main of each time period being studied, the number
disadvantages are the large resources required of runs required and typical assumed speeds.
for a comprehensive survey of a network, and For example, in a 2-hour period
problems of the survey vehicle exceeding the
Vision: A globally competitive university for science, technology,
speed limit. The floating car method only and environmental conservation. Mission: Development of a
surveys cars. Other vehicle types can be highly competitive human resource, cutting-edge scientific
surveyed by following a selected vehicle. knowledge and innovative technologies for sustainable
communities and environment.
However, it is difficult to choose random
vehicles to follow and the route of the vehicle is
not known in advance. Safety may also be a
problem, especially at high speed or in heavy
traffic.

For a comprehensive study of a traffic network,
surveyed links should include all the main road
network, and various minor roads. As a
monitoring technique for `before and after'
surveys, specific turning movements should be
identified for inclusion in the survey which
represent `typical' movements through the site.

Method

The survey car is driven along a pre-determined
route, at the typical speed of other cars.
Surveyors in the car record the time at
pre-determined timing points and the duration
and cause of all stops and delays. In addition,
the distance between the timing points must be
measured. If a good quality map exists (scale
down to 1:2500) it can be used. Alternatively,
the distance must be measured on the street
using a measuring wheel.

Pilot surveys should coverall survey links, at the
same times of day as the full survey. This is to
familiarize survey staff with the method and
routes and test the number of survey cars
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assumed 15 km/h would be 5 km.

requiring 4 runs, the maximum route travel time Route selection then depends upon covering the
would be 30 minutes; allowing (say) 10 minutes chosen network in the most efficient way. Survey
for turnaround and unexpected problems leaving links should be identified on a road network map
20 minutes travel time; route length at an of the study area, together with one-way streets
and banned turns. The following points must be
considered:

- most links are 2-way and must be surveyed in
both directions.

- circular routes are easier to operate;
furthermore, U-turning vehicles can create
problems of safety and delay, and it may be
easier to have two vehicles circulating in
opposite directions.

- in general, if more than one survey car is
needed, it is better to use short routes with one
car per route (per direction) than longer routes
with more than one car per route.

- for before and after studies, the routes chosen
for the before study must be repeated exactly,
after the planned changes have been Vision: A globally competitive university for science, technology,
and environmental conservation. Mission: Development of a highly
implemented. competitive human resource, cutting-edge scientific knowledge
and innovative technologies for sustainable communities and
Timing points should be located at every main environment.

road junction. Additional timing points should be
added where there is a long distance between
adjacent junctions, or where significant changes
in characteristics occur (for example, road
widening; a major traffic generator such as a
market). There is little extra survey effort
involved in adding extra timing points, and the
extra information need not be processed if not
required. Each timing point must be a specific,
easily identified, fixed point; a written description
is required, with sketch map. At junctions, timing
points will usually be the point of exit from the
junction so that all delay associated with the
approach to, and operation of, the junction is
included with the approach link. Intermediate
timing points are best located by roadside poles
(for example, streetlight, telephone, road sign).
To measure junction delay, it is best to have
timing points just before a point which
represents the longest queue length.
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 highly competitive human resource, cutting-edge scientific
knowledge and innovative technologies for sustainable
communities and environment.

Typical routes for moving observer/journey time
surveys

An example of a completed Journey
Time/Moving Observer Delay Survey Output
Data are usually presented by link (separately
by direction), either as travel time or speed, and
can then be aggregated for journeys or routes.
Data from
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as they represent conditions at different times of
day; simple averages can be calculated, but give
individual runs should be presented individually biased results, as more runs are made when
speeds are high and delays few. If the average competitive human resource, cutting-edge scientific knowledge
and innovative technologies for sustainable communities and
of runs within a period is needed for some environment.
special purpose, this can only be done by
ensuring the despatcher has sent every car off
(in that period) at equal intervals. To do this the
dispatching interval should be rather greater
than the longest circuit time in the pilot survey at
the most congested time. Travel times for each
link or route can be compared by time of day and
may be compared with the corresponding traffic
flow by time of day.

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 METHOD

JUNCTION DELAY SURVEYS The number of stopped vehicles queueing on
an approach to the function is counted at fixed
intervals, usually 15 or 30 seconds, over a
Delay is extra journey time incurred when a
vehicle is impeded, in excess of the journey period of five or ten minutes. The total volume
time if not impeded. Most delays in an urban of traffic is counted at the same time.
area arise at junctions or accesses. Junction
delay is a measure of junction performance, At sites where the whole queue cannot be
usually presented in the form of average delay counted by one Surveyor, or where vehicle
per vehicle. The data can be used to compare classification is required, the approach must be
junctions and indicate those most in need of sub-divided. The distance between the stop
improvement (either in line and a point at least 10 meters beyond the
design or control) or to compare junction delay back of the longest queue is divided into a
before and after an improvement. number of `boxes' such that each box is small
enough for a Surveyor to be able to maintain a
There are two alternative survey techniques continuous count of the number of stopped
which are the Stopped Vehicle Count Method vehicles in it. The front wheels determine the
(counting the number of stationary queueing box the vehicle
vehicles at fixed time intervals) and the
Elevated Observer Method (timing sampled
Vision: A globally competitive university for science, technology,
individual vehicles from a high vantage point). and environmental conservation. Mission: Development of a
When comparing delay survey results (for highly competitive human resource, cutting-edge scientific
knowledge and innovative technologies for sustainable
example, in a before and after study), it is communities and environment.
essential that the same survey method has
been used.

The stopped vehicle count method:

∙ - provides only total and average delay and
cannot distinguish between delays for different
turning movements.
∙ - does not take account of delays other than on
junction approaches; therefore the method is
not generally suitable for junctions where a
significant proportion of delay is within the
junction area (for example roundabouts).
∙ - relies on a clear determination of the number
of stopped vehicles. Where the queue is
"rolling" - as at roundabouts - the method is not
reliable. How- ever the method works well at
traffic signals.

The elevated observer method is suitable for all
kinds of junctions, where high vantage points
are available, from which all approaches to the
junction are visible. In addition to mean and
total delay:

∙ - distribution of delay can be calculated.
∙ - delay can be estimated separately by turning
movement.
∙ - delays can be divided between the junction
approach and the shared junction area.
∙ - the cause of delay to each sample vehicle
can be recorded (for example, junction controls,
pedestrians, other stopped vehicle).

STOPPED VEHICLE COUNT SURVEY
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A sketch plan should be prepared, showing for
is in, except that the first and last boxes should every approach:
include all vehicles in front of or behind the box,
respectively. - the number of approach lanes, and any special
fixed features (for example, bus stops, major
accesses).
- junction controls and signs. For signalized
junctions, measure cycle time based on the
average values over 5 cycles and note whether
left turn on red is allowed.

- whether delay is related to traffic movements
on any other approach (for example, at
roundabouts, and for opposed right turn vehicles
at signals).

- the longest queue normally observed during the
peak period. If queues extend back to the next
major junction upstream then the `floating car
method' or registration plate matching survey
should be used instead.

Delay Survey using ‘Short-Base’ method

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 by the fixed time interval (converted into hours).
The average delay is calculated by dividing the
total delay by the traffic volume in the same
period.

Vision: A globally competitive university for science, technology,
and environmental conservation. Mission: Development of a
highly competitive human resource, cutting-edge scientific
knowledge and innovative technologies for sustainable
communities and environment.

Delay Measurement by Stopped Vehicle
method
Not more than three vehicle classes per
Surveyor should be used, and the same
classes should be used for delay and for flow.
Non-motorized vehicles are not usually
included.

An observation interval of between 10 and 30
seconds should be chosen (preferably an exact
factor of 60 seconds) but must not be an exact
factor of any regular signal cycle time occurring
during the survey. The observation interval
remains fixed throughout the survey and is the
same for all approaches. Duration is usually 5
or 10 minutes at a time, which allows the
different approaches to a junction to be
surveyed in rotation. (All approaches must be
surveyed simultaneously if delays on them are
related.)

Output

Total delay should be presented for each
approach and for each time period studied. A
grand total for all approaches may also be given
provided the data were all collected at the
same time. The total delay (in vehicle hours) on
the approach during the duration of the survey
is calculated by multiplying the total number of
queueing vehicles counted in the survey period,
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Surveyor can see all the approaches to the
junction. Individual vehicles are timed between
ELEVATED OBSERVER SURVEY fixed timing points on each approach. Vehicles
are identified as either "delayed" or "not delayed"
Method and average travel times between the timing
points determined for each category. The total
An elevated location is found from where a and average delay is derived from the difference
in travel times between the two sets.

For each approach three points must be
identified which are visible to the Surveyor. The
finish timing point can be either the exit from the
junction, as defined in the travel time surrey, or
the stop line. The start timing point must be at
least 10 metres beyond the longest anticipated
queue and related to a fixed, easily identifiable
object. The sampling point should be at least 20
metres in advance of the start point. A pilot
survey should be used to test the procedure
(which is similar in nature to the short base
method for speeds-chapter 7) during the most
congested time of the proposed survey period.

Output

The calculations of delay can be made
separately by vehicle class, turning movement,
or time period. The average undelayed travel
time is calculated from the travel times of those
vehicles identified as undelayed. For the vehicles
identified as delayed, their individual delay time
is calculated by subtracting the
average undelayed time for that class, from the
sample vehicle travel time. Mean delay is
estimated by calculating the mean of all the
sample vehicle delays. Total delay is estimated
by multiplying mean delay by the traffic volume
on that approach. The values for each approach
can be added to give total junction delay in the
survey period.

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competitive human resource, cutting-edge scientific knowledge
and innovative technologies for sustainable communities and
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No.
80 the factor F, where

Where N is the number of each type of
SATURATION FLOW vehicle in the traffic stream, and PCU
CEng 132n: Principles of Highway and Railroadtheir passenger car unit value (see
Engineering below).

The maximum sustainable flow of
traffic past a point is known as the
saturation flow (or sat flow). It is a
fundamental characteristic of a road
and an important element of traffic
engineering design studies,
particularly related to traffic signal
control and junction design. In order to
compare flows of different vehicle mix,
saturation flows are usually expressed
in passenger car units (PCUs) in
which
vehicles are given a value equivalent
to the number of cars that they
displace from the traffic stream.

The measurement of saturation flow, An example of a completed Delay by
PCU values and other signal-related Stopped Vehicle form
issues, such as lost time, is difficult.
Vision: A globally competitive university for science,
For the purpose of this manual, two technology, and environmental conservation.
alternative simplified methods for Mission: Development of a highly competitive
estimating sat flows at a signalized human resource, cutting-edge scientific knowledge
and innovative technologies for sustainable
junction are outlined. These are the communities and environment.
Flow Profile Method and the Saturated
Period Count. The flow profile method
consists of dividing the signal green
time into regular, short, intervals
(typically 6 seconds) and counting the
vehicles which cross the stop line
during these intervals. More details of
this method, including its application
to lost time measurement, are given in
RRL (1963). The Saturated Period
Count requires the classified counting
of vehicles passing in only one
interval, the duration of this interval
being chosen to ensure saturation.
Examples of completed survey forms
for both of these methods are given.

For both methods an inventory of the
junction is completed during the pilot
study and the movements to be
counted are established. If the
composition of the traffic stream is
stable, and especially if more than 85
per cent are cars, the saturation flow
may be measured using one
`all-vehicle' category and then
converted to PCUs by multiplying by
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An example of completed Survey Sheets for and environmental conservation. Mission: Development of a highly
competitive human resource, cutting-edge scientific knowledge
Saturation Flow Surveys and innovative technologies for sustainable communities and
environment.

If, as is often the case in developing cities, traffic
composition is very variable from cycle to cycle,
and no vehicle type is dominant, then this
conversion
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CEng 132n: Principles of Highway and Railroad Engineering
 measurements, and a representative value of
sat flow (which is the gradient of these curves)
cannot be used. Groups of vehicles having a can be determined by eye.
common average PCU value should be
recorded in this case. SATURATED PERIOD COUNT

Before the surveys, the number of signal cycles This method gives less information than the flow
to be measured must be determined. As a profile method but is included because it is
general guide, 25 cycles should be enough at simpler to use and has been found, in practice,
most