Traffic Modeling Essay Example

Traffic Modeling Essay Traffic Modeling Traffic modeling in a sense is an overview of general traffic flow calculations. It provides a blueprint and a layout of incoming and outgoing traffic with a formula to calculate the timing of overall cars involved within the traffic flow. With the vast roads and streets managing traffic can be difficult without the proper calculations. Mathematical functions can be ways to express simplicity with the eliminations of difficult equations through the use of practical formulas. Many can be used to resolve the model of how traffic flows, but Learning Team D has used the Gauss-Jordan Elimination technique to simplify and conclude the precise amount of car flow managed per street and per hour. Noticing that Elm Street and Maple Street can only handle 1500 cars per hour, and the other streets with the maximum of 1000 cars per hour handling capabilities, Gauss-Jordan Elimination came into effect. An augmented matrix took form to assist with the elimination and help create numeral systems of linear equations. These linear equations explain how the Gauss-Jordan Elimination technique is performed. With minimal information given from this equation this technique helped shaped an understanding of where numbers can be properly placed. There are seven total variables and six intersections in the equation with each variable representing the number one. Using the Gauss-Jordan Elimination technique, ones and zeros have to be placed in a precise order to result in perfect flow and manage accountability of vehicles coming in and out of the road. Solving the linear equations gave the total number of vehicles within the hour passing through each road which is represented by the variables. We will write a custom essay sample on Traffic Modeling specifically for you for only $16.38 $13.9/page Order now We will write a custom essay sample on Traffic Modeling specifically for you FOR ONLY $16.38 $13.9/page Hire Writer We will write a custom essay sample on Traffic Modeling specifically for you FOR ONLY $16.38 $13.9/page Hire Writer The result is as follows with the sum of the combined roads equaling out to the total vehicles per hour: Intersection 1 (f+a=1700), Intersection 2 (g+b=1600), Intersection 3 (c+b=1500), Intersection 4 (c+d=1600), Intersection 5 (d+g=1700), and Intersection 6 (e+f=1800). With these linear equations formulating the result and managing the constant flow of traffic was simple with the help of the Gauss-Jordan Elimination. One-way streets generally have higher motor vehicle capacity than two-way streets. Increasing a streets capacity induces more driving. One-way streets generally serve through-traffic first, local traffic second. One-way streets are oriented towards serving people driving through the neighborhood rather than people who live, work, shop, walk and bike in the neighborhood. While one-way streets can simplify crossing for pedestrians who only need to look in one direction, and some studies have shown that one-way streets tend to have fewer pedestrian crashes, one-way streets generally have faster vehicular speeds than two-way streets, making crashes deadlier and more destructive. Making a one-way street back to two-way would allow better local access to businesses and homes and to slow traffic. Two-way streets tend to be slower due to friction, especially on residential streets without a marked center line, and they may also eliminate the potential for multiple-threat crashes that exists on multi-lane, one-way streets Single or double traffic lanes, either face-to-face or with a median, sometimes flanked by parking. The benefits might be less driving, less confusion, and better traffic access. More might also be eliminates the need to drive blocks and blocks out of the way. You might not have a need to make extra turns to get to nearby destinations. In conclusion traffic modeling helps with maintain the roads and the traffic in a constant flow. It can tell you what the maximum amount of cars a street can handle without slowing down or restricting the access of the street. Solving these equations can accurately predict the impact that more traffic can cause on a street. These equations can be applied to any traffic flow model and give you an answer that you can work with.