• ♦Manual Notice 2022-2
• ►Preface
• ►1. Design General
  • ►1. Overview
    • ♦Application of Design Guidelines
    • ♦Roadway Design Manual Format
    • ♦External Reference Documents
  • ►2. Design Exceptions, Design Waivers, Design Variances, and Texas Highway Freight Network (THFN) Design Deviations
    • ♦Overview
    • ♦Design Exceptions
    • ♦Design Waivers
    • ♦Design Variances
    • ♦Texas Highway Freight Network (THFN) Design Deviations
  • ►3. Schematic Development
    • ♦Overview
    • ♦Schematic Development Process
    • ♦Schematic Layout
    • ♦Schematic Approval
  • ♦4. Access to the Interstate System
  • ♦5. Preliminary Design
  • ♦6. Maintenance Considerations in Design
• ►2. Basic Design Criteria
  • ►1. Overview
    • ♦Introduction
  • ►2. Functional Classifications
    • ♦Overview
  • ►3. Traffic Characteristics
    • ♦Overview
    • ♦Traffic Volume
    • ♦Speed
    • ♦Terrain
    • ♦Safety
    • ♦Additional Considerations
  • ►4. Sight Distance
    • ♦Overview
    • ♦Stopping Sight Distance
    • ♦Decision Sight Distance
    • ♦Passing Sight Distance
    • ♦Intersection Sight Distance
    • ♦Sight Distance at Under-Crossings
  • ►5. Horizontal Alignment
    • ♦Overview
    • ♦General Considerations for Horizontal Alignment
    • ♦Curve Radius
    • ►Superelevation Rate
    • ♦Sight Distance on Horizontal Curves
  • ►6. Vertical Alignment
    • ♦Overview
    • ♦Grades
    • ♦Vertical Curves
    • ♦Grade Change without Vertical Curves
    • ♦Vertical Alignment at Railroad Crossings
    • ♦Vertical Alignment at Intersections
    • ♦Vertical Clearance
    • ♦Combination of Vertical and Horizontal Alignment
  • ►7. Cross-Sectional Elements
    • ♦Overview
    • ♦Pavement Cross Slope
    • ♦Median Design
    • ♦Lane Widths
    • ♦Shoulder Widths
    • ♦Pavement Taper Lengths
    • ♦Curb and Curb with Gutters
    • ♦Roadside Design
    • ♦Slopes and Ditches
    • ♦Lateral Offset to Obstructions
    • ♦Clear Zone
  • ►8. Drainage Facility Placement
    • ♦Overview
    • ♦Introduction
    • ♦Design Treatment of Cross Drainage Culvert Ends
    • ♦Parallel Drainage Culverts
    • ♦Side Ditches
  • ♦9. Roadways Intersecting Department Projects
• ►3. New Location and Reconstruction (4R) Design Criteria
  • ►1. Overview
    • ♦Introduction
  • ►2. Urban Streets
    • ♦Overview
    • ♦Level of Service
    • ♦Basic Design Features
    • ♦Medians
    • ♦Median Openings
    • ♦Clear Zones
    • ♦Borders
    • ♦Berms
    • ♦Grade Separations and Interchanges
    • ♦Right-of-Way Width
    • ♦Intersections
    • ♦Speed Change Lanes
    • ♦Drainage Horizontal Offsets
    • ►Bus Facilities
    • ♦Bus Streets
  • ►3. Suburban Roadways
    • ♦Overview
    • ♦Basic Design Features
    • ♦Access Control
    • ♦Medians
    • ♦Median Openings
    • ♦Clear Zones
    • ♦Borders
    • ♦Grade Separations and Interchanges
    • ♦Right-of-Way Width
    • ♦Intersections
    • ♦Speed Change Lanes
    • ♦Parking
  • ►4. Two-Lane Rural Highways
    • ♦Overview
    • ♦Basic Design Features
    • ♦Access Control
    • ♦Transitions to Four-Lane Divided Highways
    • ♦Passing Sight Distances
    • ♦Speed Change Lanes
    • ♦Grade Separations and Interchanges
    • ♦Intersections
  • ►5. Multi-Lane Rural Highways
    • ♦Overview
    • ♦Basic Design Features
    • ♦Level of Service
    • ♦Basic Design Features
    • ♦Access Control
    • ♦Medians
    • ♦Turn Lanes
    • ♦Travel Lanes and Shoulders
    • ♦Intersections
    • ♦Transitions to Four-Lane Divided Highways
    • ♦Converting Existing Two-Lane Roadways to Four-Lane Divided Facilities
    • ♦Grade Separations and Interchanges
  • ►6. Freeways
    • ♦Overview
    • ♦Basic Design Criteria
    • ♦Access Control
    • ♦General
    • ♦Mainlane Access
    • ♦Frontage Road Access
    • ♦Control of Access Methods
    • ♦Control of Access by Design
    • ♦Mainlanes
    • ♦Design Speed
    • ♦Level of Service
    • ♦Lane Width and Number
    • ♦Shoulders
    • ♦Medians
    • ♦Outer Separation
    • ♦Crossing Facilities
    • ♦Vertical and Clear Zones at Structures
    • ♦Frontage Roads
    • ♦Function and Uses
    • ♦Planning
    • ♦Design Speed on Frontage Roads
    • ♦Capacity and Level of Service
    • ♦Frontage Road Design Criteria
    • ♦Conversion of Frontage Roads from Two-Way to One-Way Operation
    • ♦Grade Separations and Interchanges
    • ♦Three-Leg Interchanges
    • ♦Four-Leg Interchanges
    • ♦Diamond Interchanges
    • ♦Cloverleaf Interchanges
    • ♦Directional Interchanges.
    • ♦Interchange Spacing
    • ♦Auxiliary Lanes
    • ♦Ramps and Direct Connectors
    • ♦General Information
    • ♦Design Speed
    • ♦Ramp Geometrics
    • ♦Gores
    • ♦Cross Section and Cross Slopes
    • ♦Sight Distance
    • ♦Ramp Terminal Design
    • ♦Exit Ramps to Frontage Roads
    • ♦Ramp Spacing
    • ♦Metered Ramps
    • ♦Collector-Distributor Roads
    • ♦Frontage Road Turnarounds and Intersection Approaches
  • ►7. Freeway Corridor Enhancements
    • ♦Overview
    • ♦Freeways with High Occupancy Vehicle Treatments
    • ♦Light Rail Transit
    • ♦Peak Hour Lanes
    • ♦Tolled Express Lanes
  • ►8. Texas Highway Freight Network (THFN)
    • ♦Overview
    • ♦Vertical Clearance at Structures
    • ♦Signs, Overhead Sign Bridges (OSB’s), Signals
    • ♦Other Overhead Utilities
• ►4. Non-Freeway Rehabilitation (3R) Design Criteria
  • ►1. Purpose
    • ♦Overview
    • ♦Design Guidelines
  • ►2. Design Characteristics
    • ♦Pavement Design
    • ♦Geometric Design
    • ♦Design Values
    • ♦Alignment
    • ♦Design Speed
    • ♦Side and Backslopes
    • ♦Lane Widths
  • ►3. Designing for Safety
    • ♦Overview
    • ♦Safety Design
    • ♦Basic Safety Improvements
    • ♦Other Safety Improvements
  • ►4. Frontage Roads
    • ♦Overview
  • ►5. Bridges, Including Bridge-Classification Culverts
    • ♦Overview
  • ►6. Super 2 Highways
    • ♦Overview
    • ♦Basic Design Criteria
  • ►7. 3R Project Documentation
    • ♦Project-Specific Design Information
    • ♦Plan Set Requirements
• ►5. Non-Freeway Resurfacing or Restoration Projects (2R)
  • ►1. Criteria
    • ♦Overview
    • ♦Definition
    • ♦Upgrading
    • ♦Crash Analysis
• ►6. Special Facilities
  • ►1. Off-System Bridge Replacement and Rehabilitation Projects
    • ♦Overview
    • ♦Design Values
  • ►2. Historically Significant Bridge Projects
    • ♦Reference for Procedures
  • ►3. Texas Parks and Wildlife Department (Park Road (PR) and Park and Wildlife Road (PW)) Projects
    • ♦Working Agreements
  • ►4. Bicycle Facilities
    • ♦6.4.1 General
    • ♦6.4.2 Planning and Context
    • ♦6.4.3 Elements of Design
    • ♦6.4.4 Bikeway Types
    • ♦6.4.5 Intersections and Crossings
    • ♦6.4.6 Maintenance, Operations, and Work Zone
    • ♦6.4.7. References
• ►7. Miscellaneous Design Elements
  • ►1. Longitudinal Barriers and Roadside Safety Hardware Criteria
    • ♦Overview
    • ♦Concrete Barriers (Median and Roadside)
    • ♦Guardrail
    • ♦Attenuators (Crash Cushions)
    • ♦Roadside Safety Hardware Crash Criteria
  • ►2. Fencing
    • ♦Overview
    • ♦Right-of-way
    • ♦Control of Access Fencing on Freeways
  • ►3. Pedestrian Facilities
    • ♦7.3.1 General
    • ♦7.3.2 Elements of Design
    • ♦7.3.3 Linear Pedestrian Facilities
    • ♦7.3.4 Curb Ramp Design
    • ♦7.3.5 Driveway Design Considerations
    • ♦7.3.6 Intersections and Crossings
    • ♦7.3.7 Overcrossings and Underpasses
    • ♦7.3.8 Work Zone and Temporary Traffic Control Pedestrian Accommodations
    • ♦7.3.9 Lighting
    • ♦7.3.10 On-Street Parking
    • ♦7.3.11 Transit Access
    • ♦7.3.12 Railings Adjacent to Steep Slopes
    • ♦7.3.13 Additional Considerations
    • ♦7.3.14 Micromobility Vehicles
  • ►4. Parking
    • ♦Overview
    • ♦Fringe Parking Lots
    • ♦Parking Along Highways and Arterial Streets
  • ►5. Rumble Strips
    • ♦Overview
    • ♦Considerations for Centerline and Shoulder Rumble Strip Placement
    • ♦Bicyclists Considerations
  • ►6. Emergency Crossovers
    • ♦Overview
    • ♦Location
    • ♦Construction
  • ►7. Minimum Designs for Truck and Bus Turns
    • ♦Overview
    • ♦Application
    • ♦Channelization
    • ♦Alternatives to Simple Curvature
    • ♦Urban Intersections
    • ♦Rural Intersections
    • ♦Median U-Turn Movements
• ►8. Mobility Corridor (5 R) Design Criteria
  • ►1. Overview
    • ♦Introduction
  • ►2. Roadway Design Criteria
    • ♦Overview
    • ♦Lane Width and Number
    • ♦Shoulders
    • ♦Pavement Cross Slope
    • ♦Vertical Clearances at Structures
    • ♦Stopping Sight Distance
    • ♦Grades
    • ♦Horizontal Alignment
    • ♦Superelevation
    • ♦Superelevation Transition
    • ♦Vertical Curves
  • ►3. Roadside Design Criteria
    • ♦Clear Zone
    • ♦Slopes
    • ♦Medians
  • ►4. Ramps and Direct Connectors
    • ♦Overview
    • ♦Design Speed
    • ♦Lane and Shoulder Widths
    • ♦Acceleration and Deceleration Lengths
    • ♦Distance Between Successive Ramps
    • ♦Grades and Profiles
    • ♦Cross Section and Cross Slopes
• ►A. Longitudinal Barriers
  • ►1. Overview
    • ♦Introduction
  • ►2. Barrier Need
    • ♦Overview
    • ♦Types of Barrier
    • ♦Applications
    • ♦Working Width
  • ►3. Structural Considerations of Guard Fence
    • ♦Overview
    • ♦Post Spacing, Embedment, and Lateral Support
    • ♦Rail Element
    • ♦Blockouts
  • ►4. Placement of Guard Fence
    • ♦Overview
    • ♦Lateral Placement at Shoulder Edge or Curb Face
    • ♦Lateral Placement Away from the Shoulder Edge
    • ♦Deflection Considerations
  • ►5. End Treatment of Guard Fence
    • ♦Overview
  • ►6. Determining Length of Need of Barrier
    • ♦Overview
    • ♦Variables
    • ♦Design Equations
    • ♦Using Design Equations to Determine Length of Guard Fence
  • ►7. Example Problems
    • ♦Example Problem 1
    • ♦Example Problem 2
    • ♦Example Problem 3
  • ►8. Median Barrier
    • ♦Overview
    • ♦Application
    • ♦Placement
    • ♦Additional Cable Median Barrier Guidance
  • ►9. Emergency Crossovers
    • ♦Overview
    • ♦Location
    • ♦Construction
• ►B. Treatment of Pavement Drop-offs in Work Zones
  • ►1. Overview
    • ♦Scope
    • ♦Types of Treatment
    • ♦Factors Affecting Treatment Choice
    • ♦Edge Condition
    • ♦Guidelines for Treatment
• ►C. Driveway Design Guidelines
  • ♦1. Overview
  • ►2. Introduction
    • ♦General Guidelines
    • ♦Definitions
  • ►3. Driveway Design Principles
    • ♦General Guidelines
    • ♦Geometrics for Two-Way Driveways
    • ♦Divided Driveways
  • ►4. Profiles
    • ♦Driveway Grades
    • ♦Profiles on Curb and Gutter Sections
    • ♦Profiles with Drainage Ditch
  • ►5. Driveway Angle
    • ♦Two-Way Driveways
    • ♦One-Way Driveways
  • ►6. Bicycle and Pedestrian Considerations
    • ♦General Guidelines
  • ♦7. Visibility
  • ♦8. References
• ►D. Right-Turn Slip Lane Design Guidelines
  • ♦1. Introduction
  • ►2. New Construction
    • ♦Urban Design
    • ♦Suburban Design
    • ♦Rural Design
  • ►3. Retrofitting Treatments
    • ♦Providing Proper Refuge for Pedestrians
    • ♦Stopping and Yielding to Crossing Pedestrians
    • ♦Crosswalk Location
    • ♦Reducing Speeds in the Channelized Roadway
    • ♦Enhancing Visibility of Crossing Pedestrians
    • ♦Reducing Head Turning to Spot Oncoming Traffic
    • ♦Slip Lane Removal
  • ♦4. References
• ▼E. Alternative Intersections and Interchanges
  • ►1. Overview
    • ♦Introduction: Alternative Intersections and Interchanges
    • ♦Pedestrian Considerations for Alternative Intersections
  • ►2. Roundabouts
    • ♦Overview
    • ♦Planning
    • ♦Geometric Design
    • ♦Entry Width
    • ♦Circulatory Roadway Width
    • ♦Entry Curve
    • ♦Exit Curve
    • ♦Roundabout Speeds
    • ♦Vertical Geometry
    • ♦Cross-Slope
    • ♦Splitter Islands
    • ♦Pedestrian Considerations
    • ♦Bicyclist Considerations
    • ♦Access Management
  • ►3. Diverging Diamond Interchange (DDI)
    • ♦Overview
    • ♦Design Considerations
    • ♦Sight Distance
    • ♦Horizontal Alignment Alternatives
    • ♦Auxiliary Lanes
    • ♦Pedestrian and Bicyclist Considerations
    • ♦Access Management
  • ►4. Median U-Turn Intersection (MUT)
    • ♦Overview
    • ♦Design Considerations
    • ♦Location Considerations
    • ♦Pedestrian and Bicyclist Considerations
    • ♦Access Management
  • ►5. Restricted Crossing U-Turn Intersection (RCUT)
    • ♦Overview
    • ♦Design Considerations
    • ♦Intersection Angle
    • ♦Pedestrian and Bicyclist Considerations
    • ♦Access Management
  • ►6. Displaced Left Turn Intersection (DLT)
    • ♦Overview
    • ♦Design Considerations
    • ♦Sight Distance
    • ♦Pedestrian and Bicyclist Considerations
    • ♦Access Management
  • ♦7. References

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Appendix E: Alternative Intersections and Interchanges

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Section 1: Overview

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Introduction: Alternative Intersections and Interchanges

In recent years, the number of alternative intersections and interchanges has increased substantially in the United States and in Texas. As these numbers have increased, the body of data documenting the efficacy and appropriate applications of these intersections has also increased. Some of the advantages of these types of intersections/interchanges include the following:

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• An improvement in traffic flow by eliminating, relocating or modifying conflict points
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• Improved signal phasing and operations
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• A general decrease in crashes, and particularly a reduction in more severe crashes
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• A decrease in congestion and a reduction in traffic bottlenecks
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• Improvement of intersection delay, Level of Service (LOS), travel time, and vehicle throughput
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• The increased ability to maintain existing bridge structures
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• A possible reduction in the amount of ROW required for new projects

There are many tools currently available to conduct a preliminary (Stage 1) assessment to determine if a particular alternative is viable and preferable. The FHWA Alternative Intersections/Interchanges Informational Report is a report that provides guidance on proper selection, and the FHWA Capacity Analysis for Planning of Junctions (CAP-X) is an Excel based program that can be used to evaluate selected types of innovative junction designs (eight intersections, five interchanges, three roundabouts and two mini-roundabouts) using given peak flow volumes. Additionally, the FHWA Safety Performance Intersection Control Evaluations (SPICE), an Excel based program uses safety performance functions (SPFs) in Part C of the Highway Safety Manual (HSM) to evaluate and compare the safety aspects of at-grade intersection alternatives. The SPICE tool allows the selection of default safety performance functions (SPFs) and high quality crash modification factors (CMFs) from Part D of the HSM and CMF Clearinghouse to predict crash frequency and severity of intersection control strategies.

Stage 2 analysis would include a more detailed analysis of the preferred alternatives from Stage 1. These could include use of the Highway Safety Manual (HSM) procedures and associated programs such as Interactive Highway Safety Design Model (IHSDM), and Safety Analyst for safety analysis; Highway Capacity Manual (HCM) based tools such as Synchro, Sidra, and microsimulation modeling tools such as Vissim for traffic operational analysis; and cost-benefit analysis models.

The Design and Traffic Safety Divisions will be developing suggested procedures and protocols that incorporate Intersection Control Evaluation (ICE) which is a data-driven, performance-based framework and approach to objectively screen intersection alternatives and identify an optimal geometric and control solution for an intersection.

Early in the selection process of an alternative intersection, public involvement should be conducted to educate and allow feedback from the stakeholder and local community concerning the benefits and proper function of the chosen alternative, including vehicular, pedestrian, and bicyclist accommodations.

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Pedestrian Considerations for Alternative Intersections

While pedestrian considerations for alternative intersections require a closer examination, general considerations for non-standard roadway design treatments include:

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• Ensuring sight distance for pedestrians and motorists and minimizing obstructions, this is particularly important as vehicles and pedestrians are often approaching one another at non-right angles;
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• Providing wayfinding for navigation;
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• Safe and comfortable traversal of intersection;
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• Reducing the turning geometry in slip lanes to decrease speed;
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• Minimizing the number of crossing stages; and
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• Reducing the number of multiple conflict-point locations for crossings.

For more information on non-standard roadway treatments, see NCHRP Report 948: Guide for Pedestrian and Bicycle Safety at (Alternative) Intersections and Interchanges.