Geotechnical • Structural • Modeling and Analysis Solutions
We provides comprehensive Geotechnical Engineering services that pioneer our commitment to deliver innovative, sustainable, resilient, and cost-effective solutions to our clients, including:
We provide comprehensive site investigation services to evaluate subsurface conditions and identify potential geotechnical risks that may affect project performance and safety. Our services include drilling and borehole logging, test pit excavations, soil and rock sampling, and installation of monitoring wells and piezometers. We conduct a full suite of in-situ testing such as Standard Penetration Tests (SPT), Cone Penetration Tests (CPT), vane shear tests, and permeability testing, along with advanced laboratory analysis for soil classification, strength, compressibility, and durability.
Our geotechnical team integrates field and laboratory data to deliver robust analysis and interpretation, including bearing capacity evaluation, settlement analysis, slope stability modeling, groundwater assessment, and liquefaction potential studies. The outcomes directly support foundation and earthworks design, retaining structures, pavement design, and overall site suitability assessments. This ensures that clients receive reliable, cost-effective, and practical recommendations to reduce risk and optimize design and construction.
We provide advanced 2D and 3D finite element modeling to simulate soil-structure interaction and evaluate the performance of geotechnical and structural systems under complex loading conditions. Our expertise covers linear and nonlinear analysis, staged construction modeling, consolidation and seepage analysis, and dynamic/seismic response assessments.
Using state-of-the-art software, we model foundations, retaining walls, tunnels, embankments, slopes, excavations, and ground improvement techniques to capture realistic ground behavior and structural performance. The results allow for accurate prediction of stresses, deformations, pore pressure changes, and potential failure mechanisms.
Our finite element analyses support the optimization of design solutions, verification of conventional methods, and assessment of safety factors under challenging soil and loading conditions. This approach ensures more reliable, cost-effective, and resilient designs tailored to project-specific ground conditions and performance requirements.
We deliver specialized soil–structure interaction (SSI) analyses to evaluate how ground conditions influence the performance and stability of foundations and structures. Our services cover shallow and deep foundations, retaining walls, basements, embankments, tunnels, pipelines, and ground improvement systems. By integrating geotechnical data with advanced numerical modeling techniques, we provide accurate predictions of structural response under static, dynamic, and seismic loading conditions.
Our expertise includes nonlinear soil modeling, load-transfer analyses, foundation settlement and rotation assessment, lateral pile-soil interaction, and ground-structure system dynamics. This enables us to assess potential risks such as excessive settlement, differential movement, and vibration impacts, while also optimizing foundation design to achieve both safety and cost efficiency.
Through SSI analyses, we help clients make informed design decisions, validate conventional design methods, and ensure that structures perform reliably under real-world ground and loading conditions.
We provide specialized earthquake engineering services to evaluate the effects of seismic loading on soil and structural systems, ensuring projects are designed to withstand earthquake hazards. Our expertise includes seismic site response analysis, ground motion characterization, dynamic soil-structure interaction, and assessment of foundation and retaining structure performance under earthquake conditions.
A key focus of our services is liquefaction assessment, where we analyze soil susceptibility to strength loss and settlement during seismic shaking. Using field data (SPT, CPT, shear wave velocity) and advanced numerical modeling, we assess triggering potential, estimate lateral spreading and settlement, and recommend mitigation measures such as soil improvement, foundation modifications, or seismic design adaptations.
Our earthquake engineering studies provide clients with reliable design parameters, performance-based evaluations, and practical solutions to reduce seismic risk and enhance the resilience of infrastructure, buildings, and critical facilities.
We provide comprehensive design services for earthworks and retaining structures, ensuring stability, safety, and cost efficiency across a wide range of projects. Our expertise covers site grading, cut-and-fill analysis, slope design, excavation support, and ground improvement techniques to optimize construction efficiency and reduce geotechnical risks.
For retaining structures, we design solutions tailored to project-specific conditions, including gravity walls, cantilevered and anchored retaining walls, sheet piles, secant piles, mechanically stabilized earth (MSE) walls, and soil nail systems. Each design considers geotechnical data, structural requirements, groundwater conditions, and long-term performance under static and seismic loads.
Our design process integrates advanced analytical and numerical methods to evaluate stability, earth pressures, drainage, and deformation, while also considering constructability and cost-effectiveness. This approach ensures durable and reliable solutions that meet both engineering standards and project goals.
We provide specialized design services for temporary and permanent excavation support systems, ensuring safety, stability, and efficiency during construction. Our expertise includes soldier pile and lagging walls, sheet pile walls, secant and tangent pile walls, braced excavations, tieback and anchored systems, and soil nail walls. Each solution is tailored to ground conditions, excavation depth, adjacent structures, and groundwater control requirements.
Our design process integrates geotechnical investigation results with advanced analytical and numerical methods to evaluate earth pressures, wall deflections, structural demands, and ground movements. We also assess potential impacts on nearby utilities, buildings, and infrastructure, ensuring risk is minimized during excavation.
By combining engineering innovation with constructability considerations, we deliver cost-effective and reliable shoring system designs that support safe excavation, protect adjacent assets, and facilitate efficient construction sequencing.
We provide advanced slope stability assessments to evaluate natural and man-made slopes, embankments, and excavations under varying ground and loading conditions. Our services include limit equilibrium analysis, finite element modeling, and probabilistic methods to assess global stability, factor of safety, and potential failure mechanisms.
We consider the influence of soil and rock strength, groundwater fluctuations, surcharge loading, seismic effects, and construction activities on slope performance. Our analyses cover both short-term and long-term conditions, including rapid drawdown, rainfall infiltration, and earthquake loading scenarios.
Based on our findings, we develop practical and cost-effective stabilization solutions such as regrading, drainage improvements, retaining structures, soil nailing, ground anchors, or ground improvement methods. This ensures slope safety, minimizes risk of failure, and enhances long-term performance of infrastructure and development projects.
We provide design and implementation strategies for ground improvement to enhance the engineering performance of soils and ensure safe, cost-effective construction on challenging sites. Our expertise covers a wide range of methods, including soil compaction, vibro-replacement (stone columns), vibro-compaction, dynamic compaction, deep soil mixing, grouting, jet grouting, and geosynthetic reinforcement.
We assess site-specific soil conditions, loading demands, and project requirements to determine the most suitable ground improvement approach. Our services include evaluation of settlement reduction, bearing capacity enhancement, liquefaction mitigation, slope stabilization, and control of lateral spreading and ground deformation.
By integrating geotechnical investigation data with advanced modeling and field verification, we deliver optimized solutions that improve soil strength, stiffness, and permeability. This ensures reliable foundation performance, reduced construction risk, and long-term resilience of infrastructure and development projects.
We provide engineering solutions using geosynthetics and soil reinforcement systems to improve the stability, strength, and durability of civil and geotechnical structures. Our expertise covers geotextiles, geomembranes, geogrids, geocells, and other reinforcement materials for applications such as retaining walls, slopes, embankments, roadways, and erosion control.
Our services include design selection, performance evaluation, and installation guidance based on project-specific soil conditions, loading requirements, and environmental considerations. We analyze interactions between soil and reinforcement materials using advanced analytical and numerical methods to optimize stability, deformation control, and long-term performance.
By integrating geosynthetic solutions with conventional and innovative engineering techniques, we deliver cost-effective, sustainable, and reliable reinforcement strategies that enhance project safety, extend service life, and reduce maintenance needs.
We provide comprehensive solutions for managing groundwater, controlling seepage, and designing effective drainage systems to ensure site stability and protect structures. Our expertise includes dewatering design for excavations, tunnels, and deep foundations, seepage analysis through soils and retaining structures, and surface and subsurface drainage system design.
Using advanced modeling and field data, we evaluate groundwater flow, pore pressure distribution, and potential seepage-related risks. Our services cover selection and design of wellpoint systems, sump pumps, cutoff walls, drainage blankets, interceptor drains, and permeable backfills to control water infiltration and manage hydrostatic pressures.
By integrating geotechnical and hydrological data, we deliver solutions that mitigate groundwater-related risks, maintain excavation stability, protect adjacent structures, and optimize construction efficiency and long-term performance of civil and geotechnical projects.
We provide specialized design and analysis services for tunnels, underground facilities, and subterranean structures, addressing both geotechnical and structural challenges. Our expertise covers tunnel alignment and profile design, excavation support systems, ground stabilization, and interaction with existing infrastructure.
Our services include assessment of soil and rock behavior, groundwater conditions, settlement and deformation analysis, and structural lining design for tunnels, shafts, and underground chambers. We utilize advanced numerical modeling and finite element techniques to evaluate stress distribution, deformation, and stability under both static and dynamic loading conditions.
By integrating site investigation data with innovative design solutions, we deliver safe, efficient, and cost-effective underground structures. Our approach ensures long-term performance, minimizes construction risks, and supports complex infrastructure projects in challenging geotechnical environments.
We provide comprehensive geotechnical instrumentation and monitoring services to track ground and structural behavior during construction and throughout the service life of projects. Our expertise includes installation, calibration, and interpretation of instruments such as inclinometers, piezometers, settlement gauges, extensometers, load cells, and pressure cells.
Our monitoring programs are designed to capture real-time data on soil movement, pore water pressures, structural loads, and deformation, enabling proactive management of geotechnical risks. Data is analyzed to verify design assumptions, assess construction impacts, detect early warning signs of instability, and support adaptive mitigation measures.
By integrating instrumentation with geotechnical and structural analyses, we provide clients with accurate, actionable information to ensure safety, optimize construction sequences, and maintain long-term performance of foundations, slopes, retaining structures, tunnels, and other infrastructure.
We provide comprehensive geotechnical risk assessment services to identify, evaluate, and mitigate potential subsurface hazards that could affect the safety, performance, and cost of construction projects. Our expertise includes assessing risks related to soil and rock conditions, groundwater, slope stability, liquefaction, seismic hazards, and site-specific geotechnical uncertainties.
We integrate field investigation data, laboratory testing, numerical modeling, and historical records to quantify geotechnical risks and their potential impact on foundations, earthworks, retaining structures, tunnels, and other infrastructure. Our assessments include identification of high-risk areas, evaluation of likelihood and consequences, and recommendations for mitigation strategies or design modifications.
By providing clear, actionable insights, we help clients make informed decisions, reduce project uncertainties, ensure regulatory compliance, and optimize the safety, reliability, and cost-effectiveness of geotechnical designs and construction activities.