This course is an application of civil engineering including highway pavement structure planning, geometric design of highways and bridges. Inventory secondary data needs according to planning requirements, identify road alignment conditions, location of complementary buildings and location of material sources, technical and environmental conditions, verification of land use conditions, base/topographic maps and geotechnical, geological and hydrological data. Hydrological and hydraulic analysis for drainage system design. Analysis of soil mechanics and geotechnical data is accommodated in the design of road complementary buildings (filling, excavation, slope stability, retaining walls). Traffic surveys, Traffic Engineering, RKL (Environmental Management Plan) and RPL (Environmental Monitoring Plan), landscape design, AMDAL, types of pavement are determined according to the established plans. The appropriate calculation method is determined according to established standards, Heaviest Axle Load, design age of the road, road materials used, climate data and road technical data, Highway pavement planning, Determination of the system, function and class of the road, Determination of Rumaja, Rumija and Ruwasja, Criteria design: plan speed, slope, minimum radius, technical geometric calculations, draft situation drawings (plans) and longitudinal cuts (profiles) made taking into account earthworks and applicable regulations, data calculations and plan drawings, situation drawings (plans) , longitudinal sections (profiles) and cross sections (cross sections), detailed drawings in accordance with applicable regulations and standards, design drawings of complementary buildings, road equipment and drainage systems in accordance with design criteria. Learning is carried out by applying a constructivist approach. The learning activity ends with planning the road pavement structure, road and bridge geometry.