Services
What We Do
Structural Designs
We deliver structural design solutions that combine strength, stability, durability, and efficiency to create safe, functional, and sustainable buildings. Our approach is driven by engineering precision, code compliance, and practical construction methodology to ensure long-term performance and value.
Principles:
- Strength
Designing structures capable of safely resisting gravity, wind, seismic, and other external loads. - Stability
Ensuring structural integrity against collapse, overturning, and lateral forces through robust engineering systems. - Durability
Creating buildings that maintain performance and reliability throughout their intended lifespan with minimal deterioration. - Serviceability
Delivering comfortable and functional spaces by controlling deflection, vibration, and cracking. - Economy
Optimizing structural systems for cost-effective construction and long-term operational efficiency. - Sustainability
Incorporating efficient materials and environmentally responsible design practices wherever possible. - Aesthetics with Engineering Excellence
Integrating structural efficiency with architectural vision to achieve elegant and practical built forms.
Approach
Designs that are developed at Innotech is with a comprehensive understanding of structural behaviour, material performance, environmental forces, and construction feasibility. We adhere to national and international codes and collaborate closely with architects and consultants to deliver safe, innovative, and buildable solutions.
Reinforced Concrete Structures – Conventional framed buildings, shear wall systems, flat slabs, post-tensioned slabs, and high-rise developments.
Structural Steel Systems – Long-span structures, industrial facilities, commercial buildings, steel trusses, and composite construction.
Composite Structures – Efficient integration of steel and concrete for high-rise, commercial, and mixed-use developments requiring speed and performance.
Precast & Modular Construction – Accelerated construction solutions with enhanced quality control and reduced site activities.
Tall Building Systems – Core wall structures, outrigger systems, tube structures, and lateral load-resisting systems designed for wind and seismic performance.
Special Structures – Large-span roofs, atriums, transfer structures, cantilevered elements, podiums, and architecturally complex buildings.
Deep Excavation:
Retention Systems
Earth retention engineering deals with designs and constructs systems to stabilize soil and prevent landslides, erosion, and collapse. It is used for projects with deep excavations, top-down constructions, slope stabilization, and constructing retaining walls to support different ground levels. These systems are essential for protecting adjacent structures and ensuring the longevity of infrastructure.
Excavation support: Systems that prevent soil from falling into an excavation, protecting nearby buildings and roads. This is often called shoring or support of excavation.
Slope stabilization: Structures built to prevent landslides or erosion on slopes, ensuring the stability of the ground.
Retaining walls: Permanent structures that hold back a difference in ground elevation, used for embankments, bridge approaches, and other infrastructure projects.
Cost Estimation
Cost estimation involves determining the probable civil and structural design cost by considering the project scale, structural system, material requirements, detailing complexity & site conditions. It facilitates effective budgeting, planning, and decision-making throughout all design stages.
At Innotech, we can provide accurate, stage-wise cost estimation services to support informed decision-making from concept to construction, tailored to project-specific requirements.
Services:
- Concept Stage Budgeting
Preliminary cost assessments are carried out to establish project feasibility and guide financial planning during the early stages of design. - Tender Estimate
A detailed estimate of the anticipated project cost is prepared from design development drawings, specifications, scope of work, market rates, and technical requirements to support the commencement of the tendering process. - Good for Construction (GFC) Estimates
A detailed final construction cost estimate is prepared as needed based on approved GFC drawings and finalized design decisions, with a comparison against the tender estimate to understand variances
Approach
By integrating technical expertise, historical project data, current market intelligence, and detailed quantity analysis, we develop cost projections that are both accurate and dependable. This enables us to assess design alternatives, identify cost drivers early, control uncertainty, and support value engineering at the appropriate stage. The outcome is improved budget reliability, better risk management, and more efficient project execution from planning through delivery.
Value Engineering
We provide value engineering solutions that optimize structural performance, construction efficiency, and overall project cost without compromising safety, quality, or design intent. Our approach focuses on identifying practical alternatives that enhance functionality, reduce material consumption, and improve constructability.
Services:
- Structural system optimization
- Material and cost efficiency studies
- Alternative design and construction solutions
- Foundation and framing optimization
- Construction methodology reviews
- Lifecycle cost evaluation
- Execution-focused feasibility & recommendations
Approach
Through detailed technical analysis and collaborative engineering, we identify opportunities to improve project value at every stage of design and construction. Our solutions aim to achieve the right balance between performance, economy, sustainability, and architectural vision.
Re- Engineering
Urban densification and land scarcity are increasing the demand for building interventions such as upgradation, extension, adaptive reuse, and performance enhancement. These interventions require a rigorous assessment of the existing structure, its constraints, and the coordination of operational, maintenance, and service systems to ensure safety, functionality, and continuity of use
Services:
- Preliminary Assessment
- Guidance on detailed investigation required.
- Audit report of the existing structure
- Identification of deficiencies
- Structural Analysis & Re modelling
- Development of Re engineering solutions based on the reports & analysis.
Approach
Through a detailed assessment of the building’s structural condition, inherent constraints, and the feasibility of interventions within the existing framework, and leveraging our extensive experience, we develop practical solutions in coordination with operational, maintenance, and service systems, especially where the building remains occupied during execution. This approach provides an effective strategy for extending the service life of buildings while maintaining safety, efficiency, and long-term sustainability.
Peer Review
We offer independent peer review services to selective clientele to evaluate structural designs for safety, compliance, efficiency, and overall engineering performance. Our reviews provide an additional layer of technical assurance by identifying potential risks, optimization opportunities, and constructability considerations at various stages of the project.
Services:
- Independent structural design review
- Code compliance verification
- Identify potential risk areas (foundation–soil structure interaction, wind induced motion, seismic detailing, fire resistance detailing)
- Analysis model and calculation review
- Structural system evaluation and optimization
- Constructability assessment
- Third-party technical validation for critical structures
Approach:
At Innotech we follow a systematic process by conducting independent reviews by inhouse experts evaluating the structural design, calculations, drawings, and assumptions of the principle structural engineer or design team and providing an independent report on the findings.
We work collaboratively with design teams to provide clear, constructive, best industry practices and practical solution-oriented recommendations ensuring reliable, efficient, and resilient structural solutions that strengthen overall project delivery.
Civil Engineering
Infrastructure development within a land parcel is the systematic provision of civil engineering and utility infrastructure necessary to prepare the site for development and operation, ensuring functional performance, serviceability, and compliance with planning and engineering requirements.
Services:
- Site development and grading design
- Roads, pavements, and access planning
- Stormwater drainage and water management systems
- Utility coordination and infrastructure planning
- Sustainable site engineering solutions
- Construction support and technical coordination
- Regulatory and code compliance review
- Waterproofing solutions
- Landscape related services
- Swimming Pools
Approach
Our civil engineering solutions are developed through careful analysis of site conditions, project requirements, and long-term performance objectives. We work closely with architects, services consultants, and project teams to deliver designs that elevate & enhance the experience of outdoors for successful project outcome.
Innovations
Innovation is essential to deliver efficient, sustainable, and future-ready engineering solutions. With advances in designs software, materials & technology, modern construction having access to these technologies, has evolved in our country thereby increasing the quality, competitiveness, cost-time optimizations, and speedy delivery.
Our Focus Areas
- Innovative structural systems and optimized designs
- Advanced analysis and performance-based engineering
- Steel, composite, and hybrid construction solutions
- Modular and prefabricated construction methodologies
- Efficient solutions for deep basements and long-spans
- Sustainable and material-efficient engineering practices
- Digital coordination and BIM-integrated workflows
- Constructability-driven engineering solutions
Approach
We constantly pursue innovative technologies, advanced materials, and effective engineering strategies to address complex challenges. By embracing collaboration and continuous improvement, we develop solutions that evolve through every project. Working closely with architects, consultants, and contractors’ enables us to achieve efficient, sustainable, and high-quality outcomes that enhance overall project success and client satisfaction.
Some of such approaches has led to the following innovations;
- Bracketed Flat Plate – Patented by Mr. Gururaj S Thali
- Void slab system for large spans
- Waffle slab system
- Voided slab as transfer medium
- Partial Precast slabs