When analyzing roads, intersections, and traffic flow, engineers face a common challenge: vehicles are not all the same. A car, a motorcycle, a truck, and a rickshaw each take up different amounts of road space, move at different speeds, and influence congestion differently. To solve this, transportation engineers use the Passenger Car Unit (PCU) — […]
Traffic Impact Assessments (TIAs) are critical tools that help municipalities understand how new developments will affect local transportation networks. These TIA guidelines provide a practical framework for preparing and reviewing TIAs in municipalities that do not yet have their own standards. The intent is to balance technical credibility with simplicity, ensuring municipalities can review studies
Estimating ridership is the single most important early exercise in mass transit planning. A realistic ridership estimate tells you whether a scheme is worth designing, what level of service you should provide, and whether further investment in full demand modelling is warranted. This guide explains how to estimate ridership using both simple, defensible methods and
Annual Average Daily Traffic (AADT) is one of the most fundamental measures in traffic engineering and transportation planning. It represents the average number of vehicles that travel on a roadway segment each day over the course of an entire year. Put simply, it is a way to smooth out traffic variations across weekdays, weekends, and
Why Roads Must Adapt to a Changing Climate Roads and highways form the backbone of global transport networks. Yet, they are increasingly vulnerable to the impacts of climate change—flooding, extreme heat, erosion, and storm damage. As weather patterns intensify, traditional road designs are no longer sufficient. Engineers and planners must now integrate resilience strategies to
Why Climate Resilience Matters Climate change is no longer a distant risk—it is a present-day reality. Rising temperatures, heavier rainfall, stronger storms, and frequent flooding are directly affecting how transport systems operate. Road and rail networks, designed for “historical” weather conditions, are increasingly vulnerable to climate extremes that disrupt connectivity, raise maintenance costs, and endanger
Urban mobility is at the heart of sustainable city growth. Around the world, cities face the challenge of moving large numbers of people efficiently, affordably, and with minimal environmental impact. Three of the most common mass transit modes considered are Bus Rapid Transit (BRT), Light Rail Transit (LRT), and Metro (Heavy Rail/Underground Rail). Whatever mode
Traffic signals are at the heart of modern intersections. Their timing not only dictates how efficiently traffic flows but also affects safety, pedestrian accessibility, and overall network performance. To design or evaluate a signal plan, engineers rely on a set of technical terms that describe how green, yellow, and red indications are distributed across phases
A transportation (travel demand) model is a quantitative framework that forecasts how people and goods move through a region under different land-use and network scenarios. Done well, a model becomes a decision engine: it helps test road and transit projects, pricing policies, and growth plans before spending real money. This guide covers when you actually
Designing a parking lot requires attention to efficiency, safety, and accessibility. Below is a reference guide with parking space dimensions, aisle widths, clearances, layout types, and line-marking standards that designers can use when planning surface or structured parking facilities. Try our parking layout calculator to see how many space you need. Standard Parking Space Dimensions
