roundabout design 101 - purdue e-pubs
TRANSCRIPT
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Roundabout Design 101: Principles, Process, and Documentation
Part 1
March 7, 2012
Well designed roundabouts should minimize accidents, delay and costs for
everyone using the intersection. This session covers the design process
that leads to a well designed roundabout as well as challenging conditions
where roundabouts may fail.
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• Identifying Candidate Intersections
• Evaluation Process
• Safety Performance
• Design Principles
• Balanced Design
• Design Composition
– What can go wrong?
Presentation Outline – Part 1
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Presentation Outline – Part 2
• Geometry and Capacity
• Choosing a Capacity Analysis Method
– Modeling differences
• Capacity
• Delay
• Limitations
• Variation / Uncertainty in Prediction
• Examples
• Staging Construction to Match Volume Increase
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Modern Roundabout Benefits
• Superior safety performance
• Very high capacity … up to 6,000 VPH
• Great geometric flexibility – ROW
• Simple for traffic to use
• Simple for pedestrians to use
• Environmental benefits
• Aesthetic .. can look superb .. Civic Feature
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Where to Consider Roundabouts
• Intersections with high crash rates/high severity rates
• Intersections with complex geometry, skewed approaches, >4
approaches
• Rural intersections with high-speed approaches
• Freeway interchange ramp terminals
• Closely spaced intersections
• Replacement of all-way stops
• Replacement of signalized intersections
• At intersections with high left turn volumes
• Replacement of 2-way stops with high side-street delay
• Intersections with high U-turn movements
• Transitions from higher-speed to lower-speed areas
• Where accommodating older drivers is an objective
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Evaluate Alternatives
• Do Nothing
• Install Traffic Signals
• Install Roundabout
• Other options (DDI?)
• Primary MOE’s:
– Cost
– Safety
– Capacity
Secondary MOE’s:
- Environmental factors
of air, fuel and time
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Signal vs. Roundabout
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1. Project Background - describe site conditions
2. Safety Assessment (historical crash data)
3. Operational Analyses – Arcady, HCM
4. Cost Comparison – Construction, crash savings, life-
cycle
5. Alternative Selection – screening criteria (capacity,
safety, cost)
6. Conceptual Roundabout Design – nearly a 30% design
7. Conclusions and Recommendations
Intersection Control Study Contents
The Key Mindset:
- Be sure to solve a problem if a roundabout is to be used!
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Substantial Design Effort for Intersection
Control Studies (Concept Development)
Co
nce
ptu
al
Des
ign
Pla
nn
ing
Milestone
Det
ail
ed D
esig
n
Pro
ject
Dev
elo
pm
ent
Traffic
Flow
Worksheet
Concept
Sketch
Final
Horizontal
Layout
Lane
Configuration
Initial
Geometric
Parameters
Capacity
Analysis
Fastest
Path
Design
Vehicle
Path
Overlap
Impact
Assessment
Performance Checks and Context Sensitive Evaluation
Alignments/
Profiles
Drainage
Cross Slope Staging
Cross
Sections
Signing Lighting Landscaping Sight
Evaluation
Scoping
And
Feasibility Input
60%
90%
Multiple Design Iterations
30% & Feasibility
Recommendation
Context
Considerations &
Problem Statement
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Design Inputs – Traffic Forecasts “Model it first, draw it next”
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Existing and Future Operations
• Reduced delay = reduced vehicle emissions
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Collision Cost Assessment
Note: Different figures are used for HSIP applications
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Roundabout collisions =
low severity (failure to yield)
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Roundabout collisions =
low severity (failure to yield)
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• 24 roundabouts built before 2008
• 3 years before/after crash data
• Results based on Empirical Bayes adjustment
• Mixed results for total crash frequency
• 9% decrease in total crashes
• Significant 52% decrease in injury crashes – Speed limit did not show significant impact on safety
– Multi-lanes seem to be safer than single lane roundabouts for
injury crashes
– Single lanes saw the largest decrease in total crashes
Comprehensive Evaluation of Wisconsin
Roundabouts Wisconsin Traffic Operations and Safety Laboratory, September 2011
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Crash Type
= Significant Reduction in Economic Cost
Comprehensive Evaluation of
Wisconsin Roundabouts Simple Distribution (before EB adjustment)
3 yrs before / 3 yrs after crash data
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Typical Quantitative Comparison
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Typical Qualitative Comparison
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Factors affecting the outcome of these studies:
•What is the year chosen for the life-cycle cost?
•Discount factors
•Collision costs
•Societal costs versus agency costs
•Accuracy of secondary factors (emissions, etc.)
•Decision Environments
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Balanced Design Composition
• Good designs should minimize: Accidents (Safety)
Delay
Costs
• For all who use the intersection: Vehicles (cars, trucks, motorcycles…)
Bicyclists
Pedestrians
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Balancing Competing Objectives I-70 / Edwards, CO Interchange
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1. Composition (Strategic): – Traffic and lane configuration
– Space for trucks
– Stopping sight distance
– Entry and exit paths (overlap for multi-lane)
2. Details: 1. Grading
2. Intersection sight distance
3. Lighting, signs, markings and cross walks
SAFETY
DELAY
COST
We generally spend more
of our time on this.
Design Principles
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Substantial Design Effort for Intersection
Control Studies (Concept Development)
Co
nce
ptu
al
Des
ign
Pla
nn
ing
Milestone
Det
ail
ed D
esig
n
Pro
ject
Dev
elo
pm
ent
Traffic
Flow
Worksheet
Concept
Sketch
Final
Horizontal
Layout
Lane
Configuration
Initial
Geometric
Parameters
Capacity
Analysis
Fastest
Path
Design
Vehicle
Path
Overlap
Impact
Assessment
Performance Checks and Context Sensitive Evaluation
Alignments/
Profiles
Drainage
Cross Slope Staging
Cross
Sections
Signing Lighting Landscaping Sight
Evaluation
Scoping
And
Feasibility Input
60%
90%
Multiple Design Iterations
30% & Feasibility
Recommendation
Context
Considerations &
Problem Statement
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• Speed Reduction
– Entry Path Curvature
• Vehicle Paths
– Entry Path Overlap
– Exit Path Overlap
– Instinctive Paths
• Traffic Information System
• Sight Distance
• Truck Accommodation
• Design Details
Performance Based Design with context consideration
Composition involves
synthesizing all of these
elements
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Safety Issue #1 Inadequate Entry Path Deflection
RESULTS:
• Speed of entry too fast
• Impacts pedestrian safety
• Entry / circulating crashes
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Speed Profile
50
40
30
20
10
50
40
30
20
10
The steepness of the
entry speed profile
indicates deceleration
Speed
Distance
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Inadequate Speed Control
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What is the design entry speed?
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Entry
speed is
not
defined by
markings
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1. Approaching lanes
offset to left of
circle’s center
2. Circle size
3. Compactness of
entry curve
combinations
Note: Too much
deflection can lead to
reduced safety, e.g.
SMV crashes
Ways to Achieve Deflection
1 to 2 lane offset
Flat Exit
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Entry Deflection
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Problems with Guidance
A faster path than the main entry…
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Safety Issue #2: Entry/Exit Path Overlap
Entry Path Overlap
Perpendicular
entries
Tight exit
radii
Exit Path Overlap Source: FHWA Guide with Edits
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Poor Deflection + Entry Path Overlap
•Avoid tight entry radii and reverse curvature on Multi-lane
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Unnatural Entry Paths Owing to Geometry
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Unnatural Entry Paths Owing to Geometry
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Good Entry Path Design
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Exit Path Overlap
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Radial vs. Offset Left Design
40
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Compliance but Poor Composition
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Compliance but Poor Composition XXX
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Angles of Visibility
FHWA Roundabout Guide
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Safety Issue #3: Traffic
Information System
Incorrect Design Consequences:
• Incorrect lane choice – exit crashes
(sideswipe)
• Sudden lane changes
• Weaving in the circle
• Improper left turns
• Navigational and way-finding errors
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Coordination of Geometry and Lane
Designation
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Lane Choice Before Entry
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Lane Choice is Essential
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Overhead Lane Designation Signs
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Balanced designs require consideration
for trucks
A WB-65 may require an 20 to 23 foot wide entry path
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Each Site has a Different User Mix
• Freeways have more and larger trucks
– Sometimes 30% trucks, rare pedestrians.
• Arterials mix fewer trucks
– 3-15% and more frequent pedestrians
• Collectors: few trucks
– ~ 1% or less depending on land use
classification
• Local streets: cars, peds, school buses
• Isolated sites can have special user classes
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A Trend Toward Wider Entries
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Design Vehicle = WB-65?
Apron
10ft.-16ft
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Load Envelope Diagram
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Grades
•Relatively flat circle desired (minor grade for drainage)
•Desirable profile through the circle is ≤ 4%
Brighton, CO Photo source: Mark Doctor
57
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Visualize and extract the profiles
before you build…
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What do these all have in common?
• A poor understanding of the principles of safe
roundabout operation
• The basic elements exist, but composition
was overlooked
• Changes would not be costly
• Each will require a holistic approach to
integrate the geometry with the project
context
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Balanced Design
• Roundabout operation is holistic –
design should reflect this
• Balance competing needs of: Achieving capacity
Providing space for trucks
Slowing speeds
Accommodating pedestrians
ITERATIVE PROCESS!
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Balanced Design
• Design is a top down process
General first specifics second
• Two parts to design
1. Problem solving – Strategic – What to do
2. Details – Tactical – Doing it
> Complexity = > Strategy
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Safety Issue #1 Inadequate Entry Path Curvature (EPC)
SOLUTIONS:
• Adjust ICD size
• Adjust entry radius
• Offset entry alignment
• Apply EPC based on traffic flows – (ACCIDENT CHANGE IS A NET EFFECT)
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Safety Issue #2:
Entry / Exit Path Overlap
RESULTS:
• Unnatural vehicle paths
• Sideswipe or rear-end entry-entry or
exiting crashes (lane change)
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Safety Issue #2:
Entry/Exit Path Overlap
SOLUTIONS:
• Increasing exit radii
• Realigning entry
• Modify entry angle (compound radii and tangential entry/exit)
• Road markings (exit striping)
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•Entry Path Curvature •Entry Width •Approach lane(s) width •Angle between arms •Inscribed Circle Diameter/Central Island Diameter
•(U.K. Research TRL Report LR 1120)
Geometric Parameters Affecting Safety:
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Performance Based Design
• We tend to try to create templates based
on right-of-way or road classification
• Retrofits are not addressed in most
standards
• Standard drawings don’t address
anomalies and unusual conditions – only
principles can
• Producing an optimized design, requires
effective application of operating principals
(prior to designing)
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Sign Clutter (information overload)
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Spot the flaws…
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Specifically, a roundabout should be considered as an alternative in the following instances:
1. For any intersection that is being designed as new or is being reconstructed;
2. For all existing intersections that have been identified as needing major safety or operational improvements; and
3. For all intersections where a request for a traffic signal has been made.
Sample Policy for Roundabout Consideration
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Standard Roundabouts: Effect of Entry Path Curvature
0.0
0.4
0.8
1.2
0 0.02 0.04
Accid
en
ts /
ye
ar
/ a
rm
Entry path curvature
Tota l
Single
vehicleApproaching
Entry-
circulating
INCREASING entry path curvature…
• DECREASES entering-circulating accidents
• INCREASES approaching accidents
• INCREASES single vehicle accidents
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Traffic affects markings/affects
geometry
• Spiral markings set up for exclusive lanes and correct lane choice for exiting traffic
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Spot the Strategic Flaws