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Jason R. Cummins 14 <br />Cummins Cederberg, Inc. South Miami, Florida <br />M.Sc., Coastal Engineering <br />B.Sc., Civil Engineering <br />Professional Engineer, Florida <br />Member of Urban Land Institute, Member of Florida Association of Environmental Professionals <br />Member of American Society of Civil Engineers <br /> North Bay Road Pedestrian Road Coastal Design Conditions <br />Sunny Isles Beach, Miami-Dade County <br />Hallandale / Hollywood Beach Nourishment <br />Dade Boulevard Seawall Replacement, Miami Beach <br />Marine engineering and construction drawings for 2,670 linear feet of shoreline stabilization <br />associated with a linear park and bike pth. Structural design of steel sheet pile and reinforced <br />concrete cap, including barrier wall connection, and utility crossover detail for FPL 69KV <br />oil-filled transmission line. <br /> <br /> <br /> <br /> <br />8 <br />Hillsboro / Deerfield Beach Restoration, Broward County <br />1 <br /> <br />Coastal engineering and environmental permit processing for 400k cubic yard beach fill project. <br />Engineering design of beach fill template. Cross-shore sediment transport modeling. Geotechnical <br />investigations and dredge plan for offshore borrow source. Construction drawings and technical <br />specifications. <br />Senior Coastal & Marine Engineer <br />Conducted pre-construction transect installation and biological monitoring including hardbottom mapping. <br />Acropora cervicornis health tracking, and assessment of the nearshore reef using BEAMR, and conducted post <br />construction hardbottom and epifaunal edge surveys. Monitoring reports were prepared per the project <br />specific permit conditions. <br />Bakers Haulover Inlet, Village of Bal Harbour <br />Conducted a marine resource assessment of the existing jetty and proposed footprint of the reconfigured jetty <br />as required by the environmental regulatory agencies to evaluate impacts related to the proposed Project and as <br />required to secure permits for the proposed Project. A Field Observation Report was prepared documenting the <br />extent, species, and density of existing marine resources. <br />2013 <br />dHydraulic and scour analysis of the proposed Bridge relative to storm surge and current speeds, which will affect both scour an <br />hydrodynamic forces. Tide and current measurements for input and calibration of a numerical hydrodynamic model. Statistical <br />ratedanalysis to determine the extreme conditions for various return periods. A hydrodynamic numerical model was developed and calib <br />oto simulate the flow under various conditions. The hydrodynamic flow various return periods and storm durations was evaluated t <br />ddetermine the design current speed(s). Utilizing the design current speed(s) and water levels(s), a scour analysis was conducte <br />and hydrdynamic loadings determined. <br />2010 N/A <br />2017 <br />2010 2012 <br />2010 2011 <br />2014 2014