Browse our library of planning courses
This virtual panel discussion focuses on the potential for the COVID-19 pandemic to influence the development, demographic, and environmental trends of the future. Speakers: Allison Arieff, William Fulton, Scott Frazier, and Mariela Alfonzo. Moderator: James Brasuell.
This fifth and final course of the "Introduction to City Planning" series discusses the key challenges facing cities in the future, as well as some potential solutions.
Why aren’t more cities implementing placemaking strategies, which are proven to expand economic activity, increase mobility, protect the environment, and create more equitable places? CNU’s Project for Code Reform seeks to streamline the code reform process by providing local governments place-specific incremental coding changes that address the most problematic barriers first, build political will, and ultimately create more walkable, prosperous, and equitable places.
Yes In My Backyard (YIMBY) is a relatively new movement, but YIMBYs are quickly gaining political power and numbers. This course discusses the origins, goals, and tactics of the YIMBY movement.
This course explains principles of transportation finance and reviews the general structure for funding transportation projects. Learn about the history of U.S. funding, from strong local funding to state and federal involvement to regional funding sources.
This course explains the major forms of planning applicable to transportation, including rational comprehensive planning, strategic planning, policy analysis, incremental planning, advocacy planning, and communicative planning.
This course explains the menu of contemporary approaches to modifying or adding to transportation capacity. It provides examples of capacity responses to regional mobility for commuters and local accessibility for communities.
This course reviews the efficacy of regulatory strategies (such as prohibitions and mandates), pricing strategies (such as peak period pricing), and education and information strategies (such as real-time ride-hailing apps).
This course provides an overview and critique of the four-step model used in transportation planning. By the end of this course, viewers will be able to conceptualize how transportation models can address contemporary problems in transportation planning, such as transit-oriented development.
This course includes a brief history of how land use and transportation have co-evolved over the last 150 years and reviews the roles of transportation systems and technology in influencing land value and locational decision.
This course discusses the local and global impacts of transportation systems and the mitigation of those impacts. The course also identifies prospects for change, as achieved by technology, transportation management, and pricing.
By the end of this course, you will have a strong understanding of the way in which transportation systems interact with society and the economy.
Learn how to identify thoroughfares where traffic calming is a high priority, identify desired thoroughfare dimensions based on urban context, and create a redesigned thoroughfare.
The purpose of this course is to show how neighborhoods can increase in density in keeping with their character. Students will learn how to find areas that are close to civic uses, commercial areas, and public transit; propose a level of urban intensity (transect zone) for each area; determine what kinds of units would be appropriate in each location; and create a Sketchup model with varying density layers.
This course demonstrates how to delineate a set of neighborhoods and neighborhood centers for a given area and suggests design improvements that enhance neighborhood centers.
The second course in the Urban Design for Planners series provides training on two important tools: SketchUp and QGIS.
This six-course series explores essential urban design concepts using open source software and equips planners with the tools they need to participate fully in the urban design process. The first course introduces the software you’ll use to create analytical maps, 3D models, and 2D graphic designs.