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a more human set of values, would not have put that burden on her.

Biased Language

      As an engineer, I have worked on any number of improvement projects. I've improved roads. I've improved streets. I've improved parking lots, frontage roads, and alleys. Like King Midas, everything I and my fellow engineers work on, we seem to improve.

At least that is how we describe what we do. As I write this, my city is seeking bids for what they say in the official notice is a “street improvement project.” It does not seem like an improvement to me, nor to many people who unsuccessfully fought against it, yet formally it is called an improvement.

The project involves the widening of a residential street. The many young families who live there believe that the changes will dramatically increase automobile speeds, which already seem too fast. To widen the street, quite a few mature trees will be removed, and the city has acquired part of the front yards of many of these neighbors, often against their will. To add insult to injury, to help fund the project, these aggrieved property owners are being forced to pay the city a special assessment fee of thousands of dollars. This is the kind of experience that makes my “Conversation with an Engineer” video seem universal.³

      What makes this project an improvement? In my eyes, it is a diminishment. Yet, from beginning to end, it has been presented by the city engineer as an improvement project. The subtle bias of this language provides another glimpse at the values embedded within the engineering profession.

      From the perspective of the design professional, the current street is “substandard” because, given the design speed the professional has chosen and the number of vehicles they want to accommodate, it does not meet the recipe in the design cookbook. The way to “fix” the “substandard” street is to “improve” it to be consistent with the recipe.

      This is merely a reinforcement of the underlying values already discussed, but in a way that manipulates the conversation in favor of the engineer's perspective. Who would want something to be substandard? Who could possibly be against improving things? Yet, obviously, whether a project makes things better depends entirely on a person's perspective.

      Instead of a “street improvement project,” why not just call it a “street project.” Or, if we need an adjective, how about a “street modification project.” If the profession is free of values, as its practitioners claim, such a change in language should not be the least bit threatening.

      The same goes for the word “enhancement.” For example, when we “enhance the clear zone,” what we really mean is that we are removing all of the trees within a certain distance of the roadway edge. This may indeed be an enhancement to the person wanting to drive quickly through that area, but it may also be a huge diminishment for the person who uses those trees as a sound and visual buffer between their home and the traffic. Why don't we just say, “remove the trees”?

I think the reason is abundantly clear. For the design professional with speed of travel as the highest value, removing the trees from alongside the road is an enhancement. It allows traffic to move at higher speeds. In the eyes of the traffic engineer, “remove the trees” focuses on a negative, and “enhance the clear zone” focuses on a positive, all while being an equally valid yet still value-free, description.

      Even deeply technical terms like “Level of Service” are projections of the underlying value system. When evaluating the performance of a street using Level of Service, the traffic engineer will consider how well things are operating from the perspective of the driver. The street is then given a grade, like an academic course, with A being the best and F signifying failure. Level of Service A means that traffic flows freely with no hindrance, while Level of Service F merely means that travel time for the driver is not predictable.

Never mind that Level of Service A is often horrific for people trying to cross a street on foot. And never mind that a high level of service generally means a lower level of financial productivity for the community (higher costs, lower financial return), especially on local streets.⁴ For the engineer who values traffic speed above all else, there is no conflict in using this grading system to prioritize “improvements.”

      When engineers do not recognize their own values and how they are being projected in the words they use, we must do that for them by correcting their language to remove the bias.

Understanding the Bias

      One of my colleagues who has repeatedly done that is Ian Lockwood. Ian is a transportation engineer with Toole Design, one of the country's leading engineering firms working outside of the current transportation paradigm. His work on changing the language within the profession has inspired and informed me and many others. In a 2017 essay for the ITE Journal, he wrote:

      The field of transportation engineering and planning has its own biased language. Much of the technical vocabulary regarding transportation and traffic engineering was developed between 1910 and 1965. The foreword of the Highway Capacity Manual, first published in 1965, states, “Knowledgeable professionals, acting in concert, have provided the value judgements needed to…and have established the common vocabulary…”

Notice the acknowledgment of making “value judgments” and the purposeful development of a “common vocabulary.” The period prior to 1965 was the golden age of the automobile in the United States. Automobiles were equated to freedom, mobility, and success. Accommodating automobiles at high speeds became a major priority in society and, thus, a major priority for the transportation engineering profession. It is no coincidence that these values were built into the transportation vocabulary.⁵

      While civil engineering itself is one of the oldest professions, with techniques and insights dating back thousands of years, the subspecialty of traffic engineering is very young. Some of its earliest practitioners are still alive today. This was an entirely new pursuit, developed on the fly, in a period of tumultuous change.

      Coming out of the Great Depression and World War II, the United States desperately needed a program that would keep the economy going. While the war had created jobs and economic output, demobilization threatened to shift the economy right back into depression. The redirection of American industry and capital from war-making into suburbanization created a kinetic growth machine that fueled a postwar boom.

      We built a new version of America, one centered around the automobile, transforming an entire continent in a generation. Traffic engineers were tasked with making transportation in this newly imagined approach work. To do that, they needed to standardize nearly every component of this system so that it could be recreated, at scale and with urgency, across a vast continent. It is difficult to overstate how monumental an undertaking this was, nor how astounding their success was in accomplishing it.

      In those early days, significant gain in travel speed could be achieved merely by improving driving surfaces and roadway conditions. With new highways connecting distant places, an increase in speed also meant an increase in overall mobility; people could reach more places with the same amount of time investment. Distances previously unheard of were now being routinely traveled by millions of Americans. Under these conditions, focusing on increasing speed was an easy proxy for increasing mobility.

      In the decades immediately after World War II, increased mobility was driving economic growth. Whether it was families living in new housing in the suburbs, the ability of employees to switch jobs more easily, or the capacity for farmers, loggers, and miners to get their materials to distant markets, the fact that Americans could reach more places in less time provided accelerating levels of prosperity.

This notion became a self-evident truth embedded within the traffic engineering

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