Proprietary Software Solutions
CivilGeo Solutions is not only a user of technology but a developer of it. Our practical experience has led to the creation of powerful, intuitive software tools designed to solve real-world engineering problems.
💻 GeoFlex-PAS
An advanced software solution for the flexible pavement design and analysis of roads and airfields, optimizing material selection and structural performance
🧱 GeoConPave Pro
A dedicated tool for the design and analysis of rigid concrete pavements, ensuring durability and longevity for heavy-load infrastructure
GeoFLEX-PAS
GeoFLEX-PAS: Advanced Design for Flexible Pavements GeoFLEX-PAS is an advanced engineering software application that automates the design and analysis of flexible pavements. It provides a robust, multi-faceted methodology by integrating the established AASHTO 1993 empirical guide with modern Mechanistic-Empirical (M-E) principles. The software is continuously refined with the latest research, state DOT recommendations, and agency best practices. This ensures engineers can develop optimized, reliable, and cost-effective asphalt pavement designs backed by the most current industry standards.
GeoCONPAVE Pro
GeoCONPAVE Pro: Advanced Mechanistic-Empirical Design for Rigid Pavements GeoCONPAVE Pro is an advanced engineering software solution dedicated to the analysis and design of rigid pavements. It automates the methodologies outlined in the 1998 Supplement to the AASHTO Guide for the Design of Pavement Structures, providing a robust, mechanistic-empirical (M-E) approach. Leveraging long-term performance data from the FHWA’s Long-Term Pavement Performance (LTPP) program, the software enables engineers to create more reliable, durable, and cost-effective concrete pavement designs. GeoCONPAVE Pro transforms complex calculations into an efficient, accurate, and standardized workflow.
GeoMLEA
PrecisionPave – Multilayered Elastic Pavement Analysis provides the mechanistic core for predicting the structural response of complex pavement systems, enabling the rational, performance-driven design and evaluation of flexible and semi-rigid pavements.
