Laserfiche WebLink
meter control data, and the appropriate calibration values. Verify that the network data <br />has been coded con'ectty and develop a freeway quality control worksheet and an arterial <br />quality control worksheet that lists link information. For each time period, perform five <br />runs on each model using a different random seed number for each run. Develop arterial <br />and freeway measure of effectiveness tables and graphics. <br /> <br />Openinj~ Year Traffic Analysis.: <br />The modeling for the opening year will include the preferred build scenario. Develop a <br />link-node diagram and lane schematic of the network. Convert the year 2010 forecasted <br />traffic data into AM and PM 15-minute volume data, balance the volume data and check <br />the volume data for capacity constraints. Develop AM and PM design year (20'10) <br />origin-destination matrices for all freeway entrances and exits. Build the AM and PM' <br />design year models to reflect the build scenario. This includes entering volume data, <br />traffic signal and ramp meter control data and the appropriate calibration values. Verify <br />that the network data has been coded correctly and develop a freeway quality control <br />worksheet and an arterial quality control worksheet that lists link information. For each <br />time period, perform five runs on each model using a different random seed number for <br />each run. Develop arterial and freeway measures of effectiveness tables and graphics. <br /> <br />Documentation: <br /> <br />Prepare and submit CORSIM models and supporting information. Prepare draft and final <br />report summarizing ail findings. <br /> <br />Project Management: <br />Prepare for and attend one kick off meeting and up to two technical meetings with State <br />technical staff. <br /> <br />-52'1- <br /> <br /> <br />