UNWAVERING DEDICATION TO EXCELLENCE
AND SERVICE
ENGINEERING TOMORROW'S LEGACY, TODAY.
OUR MISSION
Our mission is to deliver innovative, sustainable, and efficient transportation solutions that enhance connectivity and safety for our communities while meeting the needs of today and the challenges of tomorrow. We are committed to excellence in civil engineering and leveraging our expertise to address the evolving needs of our clients while upholding the highest standards of quality.
OUR EXPERTISE
TRANSPORTATION ENGINEERING & DESIGN
Transportation engineering and design focus on the planning, design, and implementation of transportation systems, including roads, bridges, public transit, and pedestrian pathways. It involves analyzing traffic patterns, developing infrastructure plans, and using engineering principles to create safe, efficient, and sustainable transportation networks that meet the needs of communities and enhance mobility. The field integrates aspects of civil engineering, urban planning, and environmental considerations to optimize the movement of people and goods.
TRAFFIC IMPACT ANALYSIS (TIA)
Traffic Impact Analysis (TIA) is a study that assesses the potential effects of a proposed development or land use change on the existing and future transportation network. It evaluates how the development will affect traffic flow, road capacity, safety, and overall mobility in the area. The analysis identifies potential issues, such as increased congestion or safety concerns, and recommends mitigation measures, such as road improvements, signal modifications, or new traffic controls, to ensure that the transportation system can accommodate the projected changes efficiently and safely.
TRAFFIC
OPERATIONS
Traffic operations involve the planning, management, and optimization of traffic flow on roadways to ensure safety, efficiency, and mobility. This includes activities such as traffic signal control, traffic monitoring, incident management, road maintenance coordination, and the implementation of traffic regulations and technologies to reduce congestion and improve transportation systems.
UTILITY
COORDINATION
Utility coordination involves managing and coordinating the relocation, installation, and maintenance of utility infrastructure—such as water, sewer, gas, electric, and telecommunications—during construction or development projects. This process ensures that utility services are not disrupted and that conflicts between utilities and other project elements are minimized. Effective utility coordination requires collaboration among utility providers, contractors, and project managers to plan schedules, resolve conflicts, and comply with regulations, ultimately ensuring that all utilities are safely and efficiently integrated with new or existing infrastructure.
GEOGRAPHIC INFORMATION SYSTEMS (GIS)
Geographic Information Systems (GIS) are frameworks that enable the collection, management, analysis, and visualization of geographic data. GIS integrates various types of data, such as maps, satellite imagery, and demographic information, to create detailed spatial representations and analyze spatial relationships and patterns. By providing a powerful tool for spatial analysis and decision-making, GIS helps organizations solve complex problems, improve planning, and manage resources more effectively.
DRONE
TECHNOLOGY
At Legacy, we utilize unmanned aerial vehicles (UAVs) to capture high-resolution imagery, collect data, and perform aerial surveys and inspections. Drones provide a cost-effective, efficient, and safe way to gather information from hard-to-reach areas, monitor progress, create 3D models, and assess site conditions. By offering real-time data and enhanced perspectives, drone technology services help improve decision-making, reduce risks, and optimize project outcomes.