Professional Engineer, Transportation
About the role
Design, coordinate, and deliver roadway infrastructure projects in compliance with TxDOT and AASHTO standards. Utilize knowledge in the TxDOT Roadway Design Manual, A Policy on Geometric Design of Highways and Streets (AASHTO Green Book) to produce roadway designs that include horizontal and vertical alignments. Calculate deceleration and acceleration lengths for turning lanes. Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves. Perform sight distance evaluations using the sum of brake reaction distance and braking distance. Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks. Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume. Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry. Prepare and adapt design solutions for projects in urban, suburban, and rural environments from high-speed to low-speed conditions, as well as environmental constraints. Develop schematic and PS&E (Plans, Specifications, and Estimates) designs, temporary traffic control plans, and cost estimates and quantities using historical bid data and TxDOT Standards and Specifications, including evaluating right-of-way impacts and coordinating with utilities and stakeholders, identifying and coordinating with utilities and responding to contractor questions during the bidding and construction phases.
Responsibilities
- Utilize OpenRoads Designer to create 3D models and terrain surfaces, with tasks such as implementing superelevation, modeling dynamic end conditions, including retaining walls and cut/fill slopes.
- Analyze adjacent developments and construct 3D terrain models based on proposed grading contours.
- Use developed terrain models to analyze development impacts to ultimate roadway design.
- Analyze developing cut and fill slopes from the adjacent property to proposed roadway using end condition templates in OpenRoads Designer, considering proposed superelevations of the pavement cross slopes and adjusting the superelevation transitions to optimize the needed end conditions.
- Prepare and adapt design solutions for projects in urban, suburban, and rural environments from high-speed to low-speed conditions, as well as environmental constraints.
- Develop schematic and PS&E (Plans, Specifications, and Estimates) designs, temporary traffic control plans, and cost estimates and quantities using historical bid data and TxDOT Standards and Specifications, including evaluating right-of-way impacts and coordinating with utilities and stakeholders.
- Perform sight distance evaluations using the sum of brake reaction distance and braking distance.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Calculate deceleration and acceleration lengths for turning lanes.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripital acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripital acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or redesigning driveway geometry.
- Design pavement cross slope super elevations based on needed pavement edge elevations and to sustain vehicle centripetal acceleration in horizontal curves.
- Design pedestrian and bicycle facilities, ensuring ADA compliance by meeting cross slope and grade requirements along sidewalks and at crosswalks.
- Design bicycle facilities to accommodate designated users for the pertinent corridor, with additional design considerations based on corridor context such as vehicle speed and volume.
- Design driveways to maximize safety and mobility by evaluating existing and proposed driveways, consolidating where possible, or