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management, and community planning. With new team member support, the team has the capacity to service the subject <br />project while simultaneously executing existing contracts. <br />INNOVATIVE/UNIQUE APPROACHES FOR FURNISHING SERVICES <br />Computer Modeling can be used as appropriate to assess existing and improved conditions on roadways and adjacent <br />land. Oceanit has used modeling for evaluating potential solutions for projects requiring flood mitigation or drainage <br />improvements and spillway adequacy studies for dams and reservoirs as well as design of temporary or permanent BMPs. <br />We have conducted numerous Hydrologic and Hydraulic (H&H) analyses using computer models to develop Emergency <br />Action Plans to simulate dam break scenarios and resulting flood inundation zones. GIS-based utility modeling was used <br />for evaluation and design of water, sewer and storm drain systems at a number of Army bases on Oahu. Modeling to <br />simulate high wave conditions and wave penetration has proven useful for design of harbor and coastal roadway <br />improvements. See below for Hilo Bayfront Highway screenshots of wave penetration animation. <br />3D Technology in Data Visualization. Oceanit engineers utilize 3D technology in data visualization. The technology helps <br />us clearly convey existing site conditions and proposed improvements to our clients and affected stakeholders. An example <br />of this capability was used for the Salt Lake Debris Basins BMP project to convert AutoCAD drawings to 3D renderings (see <br />below). For the Hilo Bayfront Highway project, oblique views of proposed improvements can be overlaid on Google maps <br />(bottom right) to provide a visual view of proposed improvements. In addition, Oceanit has an in-house 3-D printer that can <br />build scaled physical models to convey the project concepts or ideas interactively with stakeholders and the public. The <br />photos below show a 3-D model of the Ala Wai watershed, which flooding maps and animations can be projected onto. <br />Oceanit used this tool to present the flooding results in client and community meetings. <br />3D Model of Ala Wai Watershed Showing Flooding Animations Using 3D Watershed Model <br />Remote Monitoring. Our engineers and technicians can remotely transmit vital information to our office. For example, we <br />collected a years' worth of temperature and salinity data from acoustic doppler current profilers, thermistor strings, and <br />salinity sensors mounted on two deep sea ocean buoys. The data was remotely downloaded to a laptop on shore and used <br />to model the behavior of the plume created by Honouliuli Wastewater Treatment Plant (WWTP) effluent. A remote system <br />was also used to collect and transmit dust data generated at a bridge widening construction site in Wailua, Kauai. The <br />Contractor used the system to stay in compliance with State of Hawaii regulatory requirements. The instrument systems <br />included solar powered, real-time, continuous dust monitors and data recorders, a weather station to measure wind and <br />rainfall, and software for dust mass concentration analysis and report generation. An automatic alarm notification system <br />STANDARD FORM 330 (REV. 8/2016) PAGE 3 <br />