Roadway Engineering: Creating Community Connections

A cornerstone of any growing community is its connectivity. Roadway engineering provides more than just conduits for cars; it forms the framework for mobility in a community that leverages a variety of modes of transportation.

A well-designed transportation network featuring different types of roadways can have widespread impact on economic development and individual wellness. This includes improvements that ensure all areas—especially underserved populations—have access to jobs, essential services, and amenities as well as healthier lifestyles through reductions in emissions and the promotion of active transportation. In this blog we discuss how roadway designs exist at the intersection of planning and transportation engineering to support the growth of healthier, more sustainable communities.

Read on, or skip ahead:

• Key Roadway Considerations
• Types of Roadway
• Neighborhood Streets
• Mid-Size Collectors and Corridors
• Large Arterials and Highways

What is Roadway Engineering and Its Importance?

Roadway engineering is the planning, design, and construction of transportation infrastructure that enhances existing roadways or establishes new connections within a community. The practice integrates technical expertise, urban planning, and environmental considerations to develop safe, efficient, and accessible transportation systems that serve both current and future needs.

The design process starts with an assessment of existing conditions, including topographic mapping, survey and GIS, to understand site constraints. From there, engineers develop roadway layouts that meet design and safety standards. The final design incorporates permitting requirements, cost considerations, and agency coordination to ensure a smooth transition from planning through construction. The end result is a completed roadway that enhances connection across a community.

Key Roadway Engineering Project Considerations

Stormwater Infrastructure and Low Impact Development

An extremely common aspect of roadway engineering involves the inclusion of stormwater infrastructure considerations. While accounting for increased impervious surfaces and polluted runoff, stormwater features reduce flooding and improve water quality for a community.

Culvert Replacement and Environmental Mitigation

With new development comes the potential for negative environmental impact, but proper analysis of natural resources can mitigate adverse effects. Existing culverts are notoriously inefficient and are also among the most common barriers to fish passage. Today, culverts are being replaced to protect aquatic habitat, reduce flooding, and preserve water rights for property owners.

Pedestrian Features

An important piece of roadway engineering is consideration of how it facilitates more than just cars. Multimodal design gives communities options for how they get from point A to point B, all while reducing carbon emissions and promoting physical health through active transportation. Emphasizing pedestrian mobility features like pedestrian bridges, protected bike lanes, cross walks, and traffic stripping reduces traffic conflicts for all.

Traffic Control Elements

Safety is the top priority of any roadway project. With updated traffic signals and signage, drivers are more aware, creating a safer environment for themselves and pedestrians. As the design of a roadway considers number of lanes and width, control of speed can also be effectively managed.

Transit-Oriented-Development

A healthy transportation network is a diverse transportation network. As roadway projects increase in size, so do opportunities to incorporate multimodal features. This can include accommodating mass transit with new stations, specialized lanes, or connection to adjacent trail systems. All ultimately contribute to traffic calming, creating a more connected community.

From small neighborhood streets to large arterials, each roadway type must be designed with the specific needs of the community in mind. A critical aspect of any design is engaging with the public to ensure buy-in and minimize disruption. The larger the initiative, the more essential public outreach becomes, and each project presents its own unique impacts to the connectivity of the communities it serves.

Types of Roadways and Their Impact on Communities

Different types of roadways serve unique, though connected, purposes in a transportation network. Their design often begins with comprehensive planning efforts which help identify the transportation needs of a community. Potential projects can then be developed with the focus of serving both community and client goals.

Neighborhood Streets

Neighborhood streets are designed with a primary focus on safety and accessibility, often placing an emphasis on pedestrians, cyclists, and access to public transit. The more limited scope of neighborhood street projects makes cost-effective construction strategies vital to fit within local budgets.

With this localized focus on enhancing connectivity and accessibility, neighborhood streets also typically include ADA-compliant sidewalks and crosswalks while speed bumps or curb extensions are among traffic calming measures. This roadway type requires extra attention to minimizing impact on adjacent properties while maximizing the benefits to those who call the neighborhood home, including the public assets that often exist in the area.

Tualatin, OR Adds Safe Routes to School

Among some of the most important improvements that can be made to neighborhood streets are those that create a safer environment for children that play and travel in the area. For many parents at Tualatin Elementary, it was clear that updates to the neighborhood streets could make a real difference for the kids walking and biking to and from school.

As part of Safe Routes to School (SRTS) programs, which provides grants for these types of improvements, work on 95th and Avery made a variety of upgrades to enhance pedestrian safety, particularly for the kids of Tualatin Elementary.

Multiple intersections were improved with high visibility striping in crosswalks, rectangular rapid-flashing beacons (RRFB), and other features to create safer pedestrian crossings and reduce conflicts with vehicles. Deficient sidewalks and gaps were replaced to further enhance the pedestrian experience.

Mid-Size Collectors and Corridors

Mid-size collectors and corridors serve as vital connections between neighborhoods and larger roadways. This roadway type supports moderate traffic volumes and often incorporates improvements that enhance transportation operations and facilitate flow between developing areas.

Corridors generally aim to improve access to commercial areas, parks, and transit hubs in response to increasing traffic demand. As part of planning efforts, these improvements are sometimes made in anticipation of future development. The larger scope often involves coordination with utility companies and various agencies, as they can have a substantial impact on not only the community but the surrounding environment.

Silverdale, WA Sees Reduced Congestion and an Enhanced Waterfront

The community of Silverdale had long looked to improve on poor waterfront access. Where the Clear Creek Estuary crosses under Bucklin Hill Road and meets Dyes Inlet, high traffic was common which was especially problematic considering its semi-rural setting. Altogether, the area represented a missed opportunity to create an appealing place for recreation, community connections, and growth for local businesses.

Improvements to Bucklin Hill Road and Bridge changed that. Two additional travel lanes eliminated congestion while new bike lanes and facilities were added where there had been none. Widened sidewalks and new trail connections added to new active transportation opportunities for the community. Extensive public outreach, including the “Scout Your Route” campaign to keep the public informed of closures, minimized disruption while reducing construction duration. These improvements had a direct, broad impact on all community members, including residents at senior living facilities in the area that now benefit from greater accessibility to their local businesses.

Large Arterials and Highways

Large arterials and highways are critical for regional mobility, commerce, and overarching economic development. Linking rural and urban areas, these roadways provide communities of all sizes access to important resources like employment and healthcare in metropolitan centers, while supporting the social and cultural networks between different areas. The scale of large highway upgrades can lead to wider improvements to transit-oriented development that diversify modes of transportation and maximize project value.

These roadways often present unique engineering challenges and draw from multiple funding sources, requiring close coordination with agencies to ensure regulatory compliance. As long-term, high-visibility projects, managing timelines and minimizing construction impacts is essential to minimizing disruptions that, at this scale, can be especially costly. This includes effectively communicating project updates with the surrounding community through informational websites, local representatives, and other channels to provide clarity and achieve buy-in.

Salem, OR Supports Rapid Growth and Underserved Areas

In a historically underserved area of Salem, Oregon, where 36% of parcels are underutilized, the McGilchrist Complete Street Project is designed to enhance business development, job creation, and multimodal transportation options for members of the community. It’s part of a 20-year vision for economic growth as well as transportation safety and environmental sustainability.

Considering the large and lasting impact of this work on the community, it was imperative to include them. Extensive stakeholder engagement went above and beyond, working directly with property owners, businesses, and local agencies to ensure the project addressed real community needs. These efforts led to the incorporation of refinements such as the protected cycle track and intersection realignments.

Based on feedback from public outreach, 74% of the corridor features protected bike lanes and new sidewalks. The design aims to significantly improve pedestrian accessibility while minimizing pedestrian-vehicle conflicts, resulting in fewer severe crashes and lives lost. The inclusion of $15 million of stormwater infrastructure upgrades also means this work plays a critical role in not only reducing future flooding for the community but improving habitat for fish.

Making the Complete Connection

Roadways are essential to creating vibrant, connected, and equitable communities. Because of their widespread impact, roadway projects of any size involve a diverse set of considerations to ensure that impact is comprehensive and long lasting. Through thoughtful planning, collaboration, and public engagement, Otak’s multidisciplinary teams take a cohesive approach to designing more connected communities that address current and future needs.