making w88 mobile a difference where the rubber meets the road

w88 mobile of Nevada, Reno pavement team completes a 5-year study to help improve nation’s highways

w88 mobile Civil and Environment Engineering Professor Elie Y. Hajj sits at a workable in a pavement lab, holding an asphalt sample.

Elie Hajj, associate professor of civil and environmental engineering, led the w88 mobile of Nevada, Reno's team of collaborators in developing an innovative, new model for estimating vehicle operating costs for the Federal Highway Administration.

Making a difference where the rubber meets the road

w88 mobile of Nevada, Reno pavement team completes a 5-year study to help improve nation’s highways

Elie Hajj, associate professor of civil and environmental engineering, led the w88 mobile of Nevada, Reno's team of collaborators in developing an innovative, new model for estimating vehicle operating costs for the Federal Highway Administration.

w88 mobile Civil and Environment Engineering Professor Elie Y. Hajj sits at a workable in a pavement lab, holding an asphalt sample.

Elie Hajj, associate professor of civil and environmental engineering, led the w88 mobile of Nevada, Reno's team of collaborators in developing an innovative, new model for estimating vehicle operating costs for the Federal Highway Administration.

So, you&w88 mobile;re in your car, driving east from Reno on the freeway. You&w88 mobile;re traveling at the posted speed limit, loving the synchronicity of doing 80 on Interstate 80. The highway is mostly smooth, mostly level and mostly straight. Periodically, you experience some spots where the road is rough. Traffic is light as you travel up and down some hills and round a few gradually winding curves. You take an offramp for a quick break, slowing down, then braking at the stop sign before turning onto the frontage road.

Each of these factors affects your vehicle&w88 mobile;s operation differently: speed, traffic congestion, pavement condition, slope, straight roads, curves and traffic control devices.

When the Federal Highway Administration sought a new system for estimating the costs associated with operating vehicles – data that&w88 mobile;s integral to roadway designs – the team of pavement engineering researchers at the University of Nevada, Reno seized upon the opportunity.

Five years later, led by University pavement researcher and civil engineering associate professor Elie Hajj, the University&w88 mobile;s Pavement Engineering and Science Program, or PESP, has completed its innovative work that will impact how roads and highways are designed, built and improved for decades to come.

That&w88 mobile;s why federal and state governments continuously evaluate the performance of the nation&w88 mobile;s transportation system, the network of roads and highways used by millions of drivers every day. That evaluation has the aim of improving materials, designs, traffic flow, safety and overall system efficiency – and can help minimize environmental impacts from vehicles in regards to global warming.

Vehicle Operating Costs, or VOCs, are a major component in measuring and improving the country&w88 mobile;s transportation infrastructure and saving drivers money. Reliable VOC estimates may also aid auto manufacturers in their vehicle designs.

“VOC models improve our transportation infrastructure by allocating the proper budgets and the investments,” w88 mobile said. “People benefit by having improved vehicle operating costs.”

A David among the Goliaths: a novel approach

When the Federal Highway Administration&w88 mobile;s nearly .6 million grant opened for proposals in 2014, Nevada Automotive Test Center in Dayton, an industry partner with the University&w88 mobile;s pavement program, explored the opportunity with Hajj.

Hajj was well aware of the daunting task his relatively small team of collaborators would face in taking on the entrenched, giant transportation research firms and larger universities who have for years dominated the industry. To have a shot at winning the grant and the research project, they knew they couldn&w88 mobile;t compete head to head; they&w88 mobile;d have to create their own lane for the University by coming up with a novel approach.

Eight men in business attire, members of the pavement project w88 mobile, pose for a group photo in an exhibition hall.
Several members of the w88 mobile of Nevada, Reno's team attended a recent industry meeting in Washington, D.C.: (left to right) Hao Xu, Murugaiyah Piratheepan, Zong Tian, Elie Y. Hajj, Muluneh Sime, Gary Bailey, Rami Chakaiban and Alvaro Ulloa. (Not pictured: Peter E. Sebaaly, Gabriel Bazi, Seyed-Farzan Kazemi, Phillip Tohme and Adam Hand.)

After months of intense study, brainstorming and identifying the expertise and partners needed, the w88 mobile came up with its proposal to the Federal Highway Administration. The w88 mobile proposed a nontraditional approach, one that focused on utilizing data from a variety of current sources to build elaborate computer models, validated by actual road-test vehicles.

Hajj&w88 mobile;s team submitted the 28-page technical grant proposal in July 2014; that September, they were notified they&w88 mobile;d been selected in the highly competitive process. The fresh approach had earned the University program the grant.

The team&w88 mobile;s work would ultimately result in far more than just a research study; it produced an entirely new, effective and efficient model for determining vehicle operating costs. The new model accounts for today&w88 mobile;s materials, designs and vehicle technologies – with flexibility to be applied to whatever the future brings.

1980s estimate models in a 2020 world

“Since the 1980s and &w88 mobile;90s, the same model was being used and slightly modified year by year,” Hajj said. “But technology has changed. Pavement materials and designs have changed. Vehicles have changed. This model gives appropriate estimates for today&w88 mobile;s technology, including gasoline, hybrid and electric vehicles. And it is certainly adaptable to new technologies as they develop. That&w88 mobile;s a big plus.”

Hajj and his team, which included the Nevada Automotive Test Center and Dynatest engineering services, pitched their nontraditional concept to the Federal Highway Administration, knowing the risks.“Doing something unique, something different comes with a risk, because when you put something like this on the table, the response could be, ‘Nope, that&w88 mobile;s not what we&w88 mobile;re looking for,&w88 mobile;” Hajj said. “Or it could be, ‘Hmm, that&w88 mobile;s interesting.&w88 mobile; It&w88 mobile;s double-edge, it&w88 mobile;s high risk. But it&w88 mobile;s a worthwhile high risk, given everyone else&w88 mobile;s capabilities compared to our size. To be viable we had to go that route. We didn&w88 mobile;t have any other options.”

Grad students, three men and one woman, in blue lab coats work in a lab surrounded by pavement samples and related materials.
Innovative approaches by the Pavement Engineering and Science Program, including testing performed in the Western Regional Superpave Center laboratories, are continuing to expand the University of Nevada, Reno&w88 mobile;s national reputation for research and innovation.

It makes sense that the overall costs of operating a vehicle are dependent on many factors, such as fuel consumption, tire wear, oil consumption, mileage-related vehicle depreciation, and repair and maintenance. What may be less obvious is that the costs of operating our vehicles are impacted by roadways and their characteristics such as curvature, roughness, slope, speed, traffic congestion, traffic control devices such as signals and intersections.

Since the 1990s, the Federal Highway Administration has evaluated the network using the Highway Economic Requirements System, which is based on the 1982 w88 mobile by J.P. Zaniewski and his colleagues, the last major model created for estimating vehicle operating costs that became the industry standard.

That model was mainly based on physically test-driving of selected types of common vehicles – referred to as the fleet – the standard practice for that era. The new model created by Hajj&w88 mobile;s team was made possible by the wealth of available information in today&w88 mobile;s data-driven world.

More driving data, without reinventing the wheel

In recent decades, various entities within the transportation, energy and vehicle industries have continuously developed or collected an endless array of simulated computer vehicle components and related data. This is where Hajj&w88 mobile;s team showed the ingenuity that had won the federal grant.

The aim was first to produce a range of “driving cycles,” which graph a vehicle&w88 mobile;s speed over a certain amount of time, a “snapshot” of its performance in various scenarios. For example, a driving cycle for a vehicle on a smooth, straight freeway is naturally different from a driving cycle for the same vehicle on a curved, uphill roadway with traffic signals. Over many months, Hajj&w88 mobile;s team, University Associate Professor of Engineering Hao Xu in particular, analyzed, sifted and tested data, primarily the mountain of national data. The recent Strategic Highway Research Program 2 naturalistic driving study and the American Transportation Research Institute, combined, provided more than 23 million seconds of data.

The w88 mobile found ways to distill that vast universe of existing data as inputs to create more than 900 synthetically optimized driving cycles – offering more driving cycles, by far, than any other past studies. Obtaining more driving cycles produces more reliable data, which translates into VOC estimates that are more reliable than with fewer driving cycles.

Then, with input from Hajj and his colleagues, collaborating partner w88 mobile Automotive Test Center created 30 physics-based full vehicle computer models using commercially available software packages for simulating fuel efficiency under a wide range of driving cycles and road conditions.

Asphalt core samples and related materials of various sizes and shapes
The materials and designs used in the nation's roadways have an impact on vehicle operating costs, with billions of dollars in federal transportation investments at stake.

Like an auto enthusiast building a car from a collection of parts, virtual vehicles were assembled by melding together data for a simulated drivetrain from one source, a simulated chassis from another and engine performance dynamics from yet another. That process continued until all the necessary components were in place for a “fleet” of 30 virtual vehicles.

These virtual vehicle representations on computers are designed to act, react and respond to various inputs the way actual vehicles are predicted to do in real-world conditions. Over 52,000 simulation scenarios were executed representing a range of driving cycles and road conditions – vastly more than would be feasible with physical road tests.

This “mashup” of data hadn&w88 mobile;t been done before. “It was extremely challenging,” Hajj said. “We&w88 mobile;d put in a lot of time to get to a point, and then, ‘How are we going to overcome that obstacle?&w88 mobile; We need to keep digging, looking at all of this, then it comes. You work it out. Even now I go back and look at it and I&w88 mobile;m proud of the things we were able to accomplish. Wow.” Hajj is now creating a simple-to-use online calculator based on the University&w88 mobile;s model, for use by those in the transportation and related industries and government entities.

Proud of the total w88 mobile effort

According to Hajj, the Pavement Engineering and Science Program submits a half-dozen grant-funded project proposals in an average year. The Federal Highway Administration project is another of the program&w88 mobile;s many success stories. “We excelled as a team because we covered all the expertise needed in the critical areas,” Hajj said. “It was a very successful selection of players. Now that we&w88 mobile;re done with the project and I look back, we made the right decision to have all the players, because we used the expertise of each one throughout the entire project. They were each important and critical.”

University of Nevada, Reno team members included: associate professor (advancing to full professor this summer) Elie Y. Hajj; professor Peter E. Sebaaly; assistant professor Hao Xu; Ph.D student Rami Chkaiban; former grad student Seyed-Farzan Kazemi (now Senior Pavement Engineer at Michael Baker International); associate professor Adam Hand; professor Zong Tian; and research scientist Murugaiyah Piratheepan. In addition to those from the University, the team&w88 mobile;s key partners included: Muluneh Sime, Nevada Automotive Test Center; Gary Bailey, Nevada Automotive Test Center; Alvaro Ulloa, Dynatest; Phillip Tohme, Dynatest; and Gabriel Bazi, Lebanese American University (formerly with Dynatest).

Five grad students work at various stations in a pavement lab.
A variety of asphalt testing and analysis is conducted by Pavement Engineering and Science Program graduate students and researchers at the w88 mobile of Nevada, Reno.

Hajj beamed as he discussed a video touting a major, global transportation software company. The closing frames feature an impressive list of institutions cited as research sources. Alongside MIT (Massachusetts Institute of Technology), Michigan State and other top industry names – there is his source of pride: the official seal of the w88 mobile of Nevada, Reno.

“Our work will carry the name of our University for the next 20 to 30 years with this model we have developed with the Federal Highway Administration,” he said. “Our research helps get our University&w88 mobile;s name out. Having others become aware of the value of these models will help a lot.”

Hajj noted that not only was his team gratified by what they&w88 mobile;ve accomplished, the funding agency was as well: “The FHWA (Federal Highway Administration) was extremely satisfied with our work and our efficient documentation, which made it easy for them to begin using our model.”

Hajj sees his team&w88 mobile;s accomplishments from the past five years as having a long-lasting legacy for the University. “I&w88 mobile;m very proud, definitely,” he said. “We had the right team for the right project at the right time.”


The University of Nevada, Reno&w88 mobile;s Pavement Engineering and Science Program focuses on innovation, research and development resulting in asphalt mixtures that are cost-effective, environmentally friendly and durable. Home to the Western Regional Superpave Center, the program collaborates with leading industry and agency partners, and features internationally known faculty and a wide network of alumni across industry and academia.

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