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Completed and Ongoing Projects

COMPLETED AND ONGOING PROJECT

1. PROJECT (Irrigation and water Supply)
2. PIPE LINE PROJECTS
3. IRRIGATION PROJECTS
    a. Open Canal System
    b. Piped System
4. ROAD PROJECTS
5. UGD PROJECTS
6. DGPS SURVEY PROJECTS
7. FOREST SURVEYS
8. FIBER DUCT LAYING AS-BUILT SURVEY AND DOCUMENTATION

1. PROJECT (Irrigation and water Supply)

Name of Project: Investigation and preparing of detailed Project Report to provide Drinking water and irrigation facilities to the upland areas in the Jurisdiction of MI (W) Division of Kurnool through HNSS Project in Kurnool District.

Scope of work: Performing comprehensive surveys for the planned alignments aimed at connecting tanks in and around Kurnool district to facilitate water lifting from the HNSS Canal to the tanks. This involves establishing control points using DGPS, conducting longitudinal and cross-sectional surveys, fixing DCBM stones along the alignment, and preparing necessary designs and drawings as per departmental requirements.

2. PIPE LINE PROJECTS:

Name of Project: Performing comprehensive surveys for planned alignments aimed at connecting tanks in and around Kurnool district to facilitate water lifting from the HNSS Canal involves several key steps:

1. Planning and Coordination: Begin by coordinating with relevant authorities and stakeholders to understand the project requirements, objectives, and timelines. This includes liaising with the department overseeing water management and infrastructure development.

2. Site Reconnaissance: Conduct thorough site visits to identify the locations of tanks and the proposed alignment route. Assess terrain conditions, existing infrastructure, and any potential obstacles that may affect the alignment.

3. Establishing Control Points using DGPS: Utilize Differential Global Positioning System (DGPS) equipment to establish precise control points along the alignment route. These control points serve as reference markers for accurate survey measurements.

4. Longitudinal and Cross-Sectional Surveys: Perform longitudinal surveys along the alignment route to capture elevation profiles and gradients. Additionally, conduct cross-sectional surveys to obtain detailed information about the terrain, including slopes, contours, and ground features.

5. Fixing DCBM Stones: Install Distance Chainage Bench Mark (DCBM) stones at specified intervals along the alignment route. These stones serve as permanent reference points for future surveys and construction activities.

6. Preparation of Designs and Drawings: Based on the survey data collected, prepare detailed designs and drawings for the proposed alignments. This includes alignment profiles, cross-sections, and any necessary structural specifications.

7. Compliance with Departmental Requirements: Ensure that all surveying activities and design preparations adhere to the guidelines and standards set by the relevant department or regulatory authority. This may involve obtaining approvals and permits as required.

8. Documentation and Reporting: Maintain comprehensive documentation of survey findings, design documents, and any correspondence with stakeholders. Prepare detailed reports summarizing survey results, methodology, and proposed alignment plans.

9. Quality Assurance and Quality Control (QA/QC): Implement QA/QC measures throughout the surveying and design process to ensure accuracy, reliability, and compliance with project requirements.

10. Continuous Monitoring and Updates: Regularly monitor the project progress, address any challenges or deviations from the plan, and incorporate necessary adjustments to the designs or survey methodologies as needed.

By following these steps meticulously, the comprehensive surveys for planned alignments connecting tanks in and around Kurnool district can be effectively executed to facilitate water lifting from the HNSS Canal, ensuring the successful implementation of the project.

Scope of work: Performing survey tasks for the RWS&S Department, as well as catering to corporate clients such as Megha Engineering Pvt Ltd, Indian Hume Pipes, GVPR, and SK Associates, involves a comprehensive approach. Here's how it can be executed effectively:

1. Understanding Project Requirements: Begin by thoroughly understanding the requirements of the RWS&S Department and corporate clients. This includes identifying the scope of work, project objectives, timelines, and budget constraints.

2. Survey Planning and Execution: Plan and execute surveys for main trunk lines, secondary lines, and intra-village lines according to the specifications provided by the RWS&S Department and corporate clients. Utilize advanced surveying techniques and equipment to ensure accurate data collection.

3. Preparation of Hydraulic Statements: Generate hydraulic statements based on the survey data collected. These statements provide vital information about water flow, pressure, and distribution within the water supply network, helping in the design and optimization of the system.

4. Intra-Village Surveys: Conduct detailed surveys within villages to assess existing water supply infrastructure, identify areas for improvement, and propose solutions for optimizing water distribution and access.

5. Design using Epanet: Utilize Epanet, a widely-used software for modeling water distribution systems, to create hydraulic models and design layouts for water supply networks. This includes designing main trunk lines, secondary lines, distribution points, and storage facilities while ensuring optimal flow and pressure levels.

6. Estimation and Costing: Generate accurate estimates for the proposed water supply projects in Karimnagar, Warangal, Nalgonda, Nizamabad, Adilabad, Medak, Mahaboobnagar, and Hyderabad Districts. Consider factors such as material costs, labor costs, equipment rental, and overhead expenses to provide realistic project budgets.

7. Client Coordination and Collaboration: Maintain regular communication and coordination with the RWS&S Department and corporate clients throughout the project lifecycle. Address any concerns, incorporate feedback, and ensure alignment with client expectations.

8. Compliance and Regulatory Approval: Ensure that all survey tasks, designs, and estimates adhere to relevant regulations, standards, and guidelines set forth by government authorities and regulatory bodies.

9. Quality Assurance and Quality Control (QA/QC): Implement QA/QC measures to verify the accuracy and reliability of survey data, design outputs, and cost estimates. This includes conducting site inspections, peer reviews, and validation checks.

10. Documentation and Reporting: Maintain comprehensive documentation of survey findings, design documents, hydraulic statements, estimates, and other project deliverables. Prepare detailed reports summarizing project progress, challenges, and outcomes.

By following these steps diligently, survey tasks for the RWS&S Department and corporate clients can be effectively executed, ensuring the successful implementation of water supply projects across various districts.

1. Warangal Segment Survey (2015 December to 2016 March):
• Survey conducted for approximately 2300 kilometres in the Warangal segment.

2. Kotutla, Jagityal Segment Survey (2016 March to June):
• Survey conducted for approximately 1200 kilometres in the Kotutla, Jagityal segment.

3. Bhoopalpally Segment Survey (2016 April to May):
• Survey conducted for approximately 500 kilometres in the Bhoopalpally segment.

4. Jadcharla Segment Survey (2016 May to June):
• Survey conducted for approximately 500 kilometres in the Jadcharla segment.

5. Balkonda Segment Survey (2016 May to August):
• Survey conducted for approximately 1200 kilometres in the Balkonda segment.

6. Nalgonda Segment Survey (2016 May to June):
• Survey conducted for approximately 1200 kilometres in the Nalgonda segment.

7. Intra-Village Surveys in Telangana:
• Surveys conducted in 150 mandals across various districts in Telangana to assess intra-village infrastructure and requirements.

8. Single Village Schemes in Sultanpur and Barabanki:
• Surveys conducted for 200 villages covering 1500 kilometres of road infrastructure for Vama Engineers and Inas Infra.

9. Survey for Drinking Water Supply Network in Paithan Tehsil, Aurangabad District, Maharashtra:
•  Survey conducted for approximately 650 kilometres of proposed water supply network for Vensar Construction Company Limited.

10. Survey for Drinking Water Supply Network in Ali Rajpur District, Madhya Pradesh:
• Survey conducted for approximately 1590 kilometres of proposed water supply network for Megha Engineering and Infrastructures Limited (MEIL).

Each of these surveys involves comprehensive data collection, analysis, and planning to support infrastructure development and improvement projects in the respective regions. These surveys play a crucial role in ensuring the efficient and sustainable utilization of resources and the development of essential infrastructure for communities.

3. IRRIGATION PROJECTS:

a. Open Canal System
To execute the comprehensive tasks outlined, S.R. CONSULTANCY employs a systematic approach integrating cutting-edge technology, meticulous fieldwork, and thorough documentation. Below is a breakdown of the process:

1. In-Depth Topographic Survey:
• Utilize advanced surveying equipment such as total stations and GPS receivers to capture precise elevation data and land features.
• Conduct detailed field surveys covering the entire project area to ensure comprehensive data collection.

2. Contour Mapping with 1.0 Meter Intervals:
• Process survey data to generate contour maps with 1.0-meter intervals, accurately representing the terrain's elevation variations.

3. Acquisition of Village Maps and BC Maps:
• Obtain existing village maps and revenue records to understand land ownership patterns and administrative boundaries.
• Generate Base Contour (BC) maps integrating topographic data with village and administrative boundaries.

4. Alignment Establishment for Minors, Sub-Minors, and DP's:
• Establish alignments for irrigation channels (minors), sub-minors, and distributary points (DP's) based on hydraulic requirements and topographic constraints.
• Ensure alignment optimization to minimize land acquisition and environmental impact.

5. Delineation of Ayacut Boundaries:
• Delineate ayacut boundaries to define the areas served by the irrigation network, incorporating land parcels and water distribution zones.

6. Longitudinal and Cross-Section Surveys:
• Conduct longitudinal surveys along alignment routes to capture elevation profiles and hydraulic gradients.
• Perform cross-sectional surveys at regular intervals to gather detailed terrain data and assess land characteristics.

7. Benchmark Installation:
• Establish benchmarks at multiple points across the project area to provide reference elevations for surveying and construction activities.

8. Compilation of HP's, Ayacut Registers, and LP Schedules:
• Compile Hydraulic Particulars (HP's) detailing the hydraulic characteristics of the irrigation network.
• Prepare Ayacut registers documenting land parcels and water entitlements within the ayacut area.
• Develop Land Possession (LP) schedules outlining land acquisition requirements and compensation details.

9. Site Surveys for Structures:
• Conduct site surveys to assess suitable locations for irrigation structures such as weirs, regulators, and sluice gates.
• Ensure alignment compatibility and hydraulic efficiency for structure placement.

10. Design Development for Majors, Minors, and Sub-Minors:
• Develop detailed designs for major canal systems, minors, sub-minors, and associated structures.
• Incorporate hydraulic principles, alignment specifications, and safety standards into the design process.

11. Preparation of Detailed Estimates and DPR:
• Prepare detailed estimates for individual minors, sub-minors, and structures, accounting for material quantities, labour costs, and project overheads.
• Develop Detailed Project Reports (DPR) outlining project objectives, methodology, design specifications, and financial considerations.

By meticulously executing these tasks, S.R. CONSULTANCY ensures the successful planning, design, and implementation of irrigation infrastructure projects, contributing to enhanced water management and agricultural productivity in the region

For the mentioned projects, S.R. CONSULTANCY undertakes a comprehensive range of tasks to facilitate the planning, design, and implementation of irrigation infrastructure. Here's how we approach each project:

1. Gandak Phase-II in Muzaffarpur, Vishali District, Bihar:
• Conduct detailed surveys and data collection in the project area.
• Analyze topographic data and hydraulic requirements for designing irrigation channels.
• Prepare design plans and layouts for the irrigation network.
• Compile project reports and estimates for implementation.

2. Sangambanda Balancing Reservoir Micro Network Survey in Mahaboobnagar District, Telangana:
• Conduct micro-level surveys for the reservoir and its surrounding area.
• Develop detailed topographic maps and hydraulic profiles.
• Design micro-networks for water distribution within the ayacut area.
• Prepare cost estimates and project schedules.

3. Kaleswaram Project Package-14 in Medak District, Telangana:
• Conduct surveys and data collection for the designated area.
• Design irrigation channels, reservoirs, and distribution networks.
• Integrate alignment planning with hydraulic considerations.
• Develop project plans, estimates, and reports for approval.

4. Vedavathi Lift Irrigation Project:
• Conduct feasibility studies and site assessments for lift points and reservoir locations.
• Design lift stations, pipelines, and reservoirs for water conveyance and storage.
• Prepare detailed engineering drawings and specifications.
• Estimate project costs and prepare funding proposals.

5. Sangameshswara Lift Irrigation Project:
• Conduct extensive surveys to assess the terrain and water availability.
• Design lift stations, canals, and distribution systems to serve the ayacut area.
• Incorporate environmental considerations and regulatory requirements into the design process.
• Prepare comprehensive project documentation including technical reports and environmental impact assessments.

6. Basaweshwara Lift Irrigation Project:
• Conduct surveys and geological investigations to inform the design process.
• Develop hydraulic models to optimize water distribution and maximize efficiency.
• Design lift stations, aqueducts, and control structures for the irrigation system.
• Prepare detailed construction plans, schedules, and cost estimates.

Throughout each project, S.R. CONSULTANCY ensures adherence to regulatory standards, environmental sustainability, and stakeholder engagement. Our multidisciplinary team of engineers, surveyors, and project managers collaborate closely to deliver innovative solutions that meet the water resource needs of the communities served by these irrigation projects.

b. Piped System
For each of the listed lift irrigation projects in Madhya Pradesh and the anicut project in Banswara, Rajasthan, S.R. CONSULTANCY follows a structured approach to conduct detailed topographic surveys and prepare necessary documentation. Here's how we handle these tasks:

1. Detailed Topographic Survey:
• Deploy skilled survey teams equipped with advanced surveying instruments to the project sites.
• Conduct comprehensive topographic surveys to gather elevation data, land contours, and other terrain features.
• Ensure precise measurements and accurate data collection to support subsequent planning and design activities.

2. Preparation of Contour Maps:
• Process survey data to generate contour maps with 1.0-meter interval contours.
• Create detailed maps depicting the topography of the project area to facilitate design and analysis.

3. Procurement of Village Maps:
• Obtain village maps from relevant government agencies or authorities.
• Incorporate village map data into project planning to understand land ownership patterns and administrative boundaries.

4. Preparation of Base Contour (BC) Maps:
• Develop Base Contour (BC) maps integrating topographic data with village and administrative boundaries.
• Use BC maps as a reference for designing irrigation infrastructure and establishing project boundaries.

5. Preparation of Chalks:
• Prepare chalks as per tender requirements, incorporating project scope, timelines, and deliverables.
• Ensure that chalks accurately reflect project specifications and comply with tendering regulations.

6. Design and Planning Support:
• Utilize topographic survey data to inform the design of lift irrigation systems and anicut structures.
• Optimize alignment, elevation, and hydraulic parameters to maximize water distribution efficiency and minimize energy consumption.

7. Estimation and Tendering Assistance:
• Prepare detailed project estimates, including material quantities, labor costs, and project overheads.
• Assist in tendering processes by providing technical specifications and documentation support.

8. Construction Oversight:
• Provide construction supervision and quality control to ensure adherence to design specifications and standards.
• Conduct regular site inspections and monitor progress to identify and address any issues promptly.

9. Commissioning and Handover:
• Coordinate with stakeholders to commission the completed irrigation projects.
• Conduct testing and verification to ensure functionality and performance meet project requirements.
• Facilitate project handover and provide necessary documentation and training to operating teams.

By meticulously executing these tasks, S.R. CONSULTANCY ensures the successful implementation of each lift irrigation and anicut project, contributing to improved water availability and agricultural productivity in the respective regions

1. BBLIS (Bhikangaon Binjalwara Lift Irrigation Project, Madhya Pradesh):
• Conduct a detailed topographic survey and prepare contour maps.
• Procure village maps and prepare BC maps.
• Prepare chalks and other documentation as per tender requirements.

2. SSMLIS (Shamgarh Suwasra Lift Irrigation Project, Madhya Pradesh):
• Similar surveying and mapping activities as above, but scaled up for a larger area.

3. Chanderi Lift Irrigation Project, Madhya Pradesh:
• Repeat the process for this project, tailoring designs and documentation to fit the specific area and requirements.

4. Wardha & Ghogri Lift Irrigation Project, Madhya Pradesh:
• Similar to the Chanderi project but for a different area.

5. Kalisind Lift Irrigation Project, Madhya Pradesh:
• Continue the trend of comprehensive surveying and documentation for lift irrigation projects.

6. Runj & Majgaon Project, Madhya Pradesh:
• Follow the established procedures for surveying, mapping, and documentation.

7. Sadharu Lift Irrigation Project, Madhya Pradesh:
• Conduct surveying and documentation tailored to the project's scope and scale.

8. Menda Lift Irrigation Project, Madhya Pradesh:
• Repeat the process for this project, ensuring all necessary documentation is prepared.

9. Lower ORR Project, Madhya Pradesh:
• Continue the established procedures, adapting as necessary for the project's specific requirements.

10. Kotha Lift Irrigation Project, Madhya Pradesh:
• Similar to previous lift irrigation projects, but adjusted for the project's unique characteristics.

11. Maa Ratangarh Lift Irrigation Project, Madhya Pradesh:
• Continue the process, ensuring consistency and quality across all projects.

12. Gond Major Irrigation Project, Madhya Pradesh:
• Conduct surveying and documentation for this major irrigation project.

13. Suthatliya Project, Madhya Pradesh:
• Repeat the process, ensuring accuracy and completeness in all documentation.

14. Parbathi Project, Madhya Pradesh:
• Carry out surveying, mapping, and documentation as per the project's requirements.

15. Morand and Ganjal Project, Madhya Pradesh:
• Continue the established procedures for these projects, adjusting as necessary for the specific area and scope.

16. Khalwa Project, Madhya Pradesh:
• Conduct surveying, mapping, and documentation for this lift irrigation project.

17. Bisaniya and Ragahvpur Projects, Madhya Pradesh:
• Repeat the process for these projects, ensuring all documentation is prepared accurately and on time.

18. Handiya Barrage Project and Khalwa Extension Project, Madhya Pradesh:
• Conduct surveying, mapping, and documentation for both projects, ensuring adherence to project timelines and specifications.

19. Kayampura Major Irrigation Project, Rajasthan:
• Tailor surveying and documentation activities for this major irrigation project in Rajasthan.

20. Munjhari and Khatan Projects, Rajasthan:
• Conduct surveying, mapping, and documentation for these projects in Rajasthan.

21. Khamera Anicut Project, Rajasthan:
• Carry out surveying, mapping, and documentation for this anicut project in Rajasthan.

Each project will involve a systematic approach to surveying, mapping, and documentation, ensuring that all necessary steps are taken to support the successful implementation of the irrigation projects.

4. ROAD PROJECTS

For conducting a survey and preparing a longitudinal survey for upgrading existing single-lane roads to double-lane projects, S.R. CONSULTANCY follows a systematic approach tailored to the specific requirements of the project. Here's an outline of the key steps involved:

1. Site Assessment and Preliminary Survey:
• Conduct an initial site assessment to understand the existing road conditions, traffic patterns, and terrain characteristics.
• Carry out a preliminary survey to gather baseline data, including road dimensions, alignment, and elevation profiles.

2. Longitudinal Survey and Alignment Design:
• Utilize advanced surveying techniques, such as total stations and GPS, to conduct a detailed longitudinal survey along the road corridor.
• Design vertical and horizontal alignments for the upgraded double-lane road, considering factors such as terrain elevation changes, curves, and sight distances.
• Ensure compliance with relevant design standards and regulations governing road construction.

3. Cross-Section Quantities Estimation:
• Derive cross-section quantities for all layers of the road structure, including the road pavement, sub-base, and base layers.
• Calculate material volumes for earthwork, aggregates, asphalt, and other construction materials required for the road widening and upgrading.

4. Profile Correction Quantities:
• Identify areas along the road corridor where profile corrections are needed to achieve the desired road alignment and grades.
• Calculate the quantities of material to be excavated or filled for profile corrections, taking into account cut and fill slopes, embankments, and drainage considerations.

5. Design Optimization and Cost Estimation:
• Optimize the road design to minimize earthwork volumes, construction costs, and environmental impacts.
• Prepare detailed cost estimates for the road widening and upgrading project, including labor, materials, equipment, and overhead costs.

6. Preparation of Design Drawings and Documentation:
• Develop detailed design drawings, including plans, profiles, cross-sections, and construction details, to guide the construction process.
• Prepare comprehensive documentation, including technical specifications, design reports, and quantity calculations, to support project implementation and procurement activities.

7. Stakeholder Consultation and Approval:
• Engage with relevant stakeholders, including government agencies, local communities, and utility providers, to obtain necessary approvals and permits for the road improvement project.
• Address any concerns or feedback from stakeholders and incorporate necessary revisions into the design and documentation.

8. Construction Supervision and Quality Assurance:
• Provide construction supervision and quality assurance services during the implementation phase to ensure that the road works are carried out in accordance with the approved design and specifications.
• Conduct regular inspections, testing, and monitoring to verify compliance with quality standards and performance requirements.

By following this comprehensive approach, S.R. CONSULTANCY ensures the successful upgrading of single-lane roads to double-lane projects, enhancing road safety, capacity, and connectivity for the communities served by these transportation corridors.

For each of the listed projects, S.R. CONSULTANCY would approach them with tailored methodologies and procedures to ensure accurate surveying, design, and planning. Here's how we would handle each project:

1. Jankampet-Basar Road:
• Conduct a comprehensive topographic survey along the entire road stretch.
• Prepare detailed longitudinal and cross-sectional surveys to assess the existing road conditions and terrain.
• Design road improvements, including widening, realignment, and pavement rehabilitation, as necessary.
• Prepare detailed construction plans, specifications, and cost estimates for the proposed road upgrades.
• Coordinate with relevant authorities for necessary approvals and permits.

2. R&B roads in Karimnagar district:
• Conduct surveys to assess the condition of existing R&B roads in Karimnagar district.
• Identify sections requiring maintenance, repair, or rehabilitation based on condition assessments.
• Develop maintenance plans and schedules to address identified issues and improve road performance.
• Provide technical assistance and support to the Roads & Buildings department in implementing maintenance works.
• Monitor project progress and ensure compliance with quality standards and specifications.

3. Site Surveys and Hydraulic Particulars for Bridges in Telangana:
• Conduct site surveys for more than 400 bridges across Telangana, including LS and cross-section surveys.
• Utilize area velocity and catchment methods to calculate hydraulic parameters such as flow rates, velocities, and water levels.
• Prepare hydraulic particulars for each bridge, including hydraulic design calculations, flood analysis, and scour assessment.
• Ensure that bridge designs meet safety, durability, and hydraulic performance requirements.
• Coordinate with relevant agencies and stakeholders to obtain necessary approvals and clearances.

4. Survey for Proposed Bridges Across Sircilla Right Side Bypass:
• Conduct boundary surveys to establish the precise locations and extents of proposed bridge sites.
• Take detailed LS and cross-section surveys to understand the topography and hydrology of the project area.
• Conduct site surveys to assess ground conditions, geotechnical properties, and other relevant factors.
• Prepare design proposals for the proposed bridges, including alignment, dimensions, and structural components.
• Coordinate with project stakeholders, including local authorities and landowners, to address any concerns or issues related to the proposed bridge locations.

In all these projects, S.R. CONSULTANCY prioritizes accuracy, efficiency, and adherence to regulatory requirements to ensure the successful completion of surveying and design tasks, ultimately contributing to improved infrastructure and transportation networks in Telangana.
 
5. UGD PROJECTS

For the survey and preparation of a Detailed Project Report (DPR) for an Underground Drainage System using Electronic Total Station/DGPS RTK, S.R. CONSULTANCY would follow a systematic approach tailored to the specific requirements of the project. Here's an outline of the key steps involved:

1. Preliminary Site Assessment:
• Conduct a preliminary assessment of the project area to understand the existing drainage infrastructure, road network, and topographic features.
• Identify key locations for the installation of underground drainage components, including main lines, manholes, and outfall points.

2. Survey Planning and Setup:
• Plan the survey layout and establish control points using Electronic Total Station/DGPS RTK technology.
• Deploy survey teams equipped with the necessary instruments and equipment to collect accurate measurements and data.

3. Field Surveying:
• Conduct detailed field surveys to collect data on the entire road network where the underground drainage system will be installed.
• Use Electronic Total Station/DGPS RTK to collect spot levels at regular intervals along the centreline of existing roads, at junctions, and areas with significant changes in ground levels.
• Record measurements of road width, length, road type, L.S. (Land Survey) number, and other relevant road details.

4. Data Collection and Processing:
• Process survey data to generate comprehensive drawings and reports for the DPR.
• Incorporate spot levels, road details, junction chainages, and other measurements into detailed drawings showing the existing roads, important structures, benchmark locations, and drainage system components.

5. Preparation of Detailed Project Report (DPR):
• Compile all collected data, measurements, and survey findings into a comprehensive DPR document.
• Include detailed descriptions of the proposed underground drainage system, including design parameters, materials specifications, and construction methodologies.
• Provide cost estimates, project timelines, and implementation schedules for the construction of the underground drainage system.

6. Review and Approval:
• Review the DPR internally to ensure accuracy, completeness, and compliance with project requirements and specifications.
• Present the DPR to relevant authorities for approval and clearance before proceeding with the implementation of the underground drainage system.

7. Documentation and Reporting:
• Prepare detailed documentation, including survey reports, drawings, and supporting documentation, to accompany the DPR submission.
• Provide regular progress reports to stakeholders and project management teams throughout the surveying and DPR preparation process.

By following this structured approach, S.R. CONSULTANCY ensures the accurate surveying and preparation of a comprehensive DPR for the proposed underground drainage system, facilitating effective planning and implementation of the project

1. Detailed Project Report (DPR) in Madanapalle PRI Division covering B. Kothakota, Kurabalakota, Mulakalacheruvu, PTM, and Thamballapalli Mandals in Andhra Pradesh State

6. DGPS SURVEY PROJECTS

DGPS (Differential Global Positioning System) survey projects involve the use of high-precision GPS technology to accurately determine the positions of points on the Earth's surface. S.R. CONSULTANCY has extensive experience in conducting DGPS surveys for various applications. Here are some examples of DGPS survey projects:

1. Road Network Mapping and Management:
• Conducting DGPS surveys to map road networks, including highways, urban streets, and rural roads.
• Collecting data on road geometries, alignments, intersections, and roadside features for transportation planning and management.

2. Utility Infrastructure Mapping:
• Surveying utility infrastructure such as pipelines, cables, and transmission lines using DGPS technology.
• Mapping the precise locations and alignments of underground and overhead utilities to support infrastructure planning, maintenance, and asset management.

3. Land Parcel Mapping:
• Conducting cadastral surveys using DGPS to accurately delineate property boundaries and land parcels.
• Supporting land administration, land use planning, and land development projects with precise cadastral mapping data.

4. Topographic Surveys:
• Performing DGPS surveys to create detailed topographic maps and terrain models.
• Collecting elevation data, contour lines, and terrain features to support engineering design, construction planning, and environmental assessments.

5. Hydrographic Surveys:
• Conducting DGPS surveys of water bodies, rivers, lakes, and coastal areas to map bathymetry and shoreline features.
• Supporting hydrographic mapping, navigation, and coastal zone management projects with accurate spatial data.

6. Agricultural Mapping and Precision Farming:
• Using DGPS technology to map agricultural fields, crop boundaries, and soil properties.
• Supporting precision farming practices such as variable rate application, yield monitoring, and crop management.

7. Environmental Monitoring and Natural Resource Management:
• Conducting DGPS surveys for environmental monitoring, habitat mapping, and ecosystem assessments.
• Mapping vegetation, land cover, and natural resources to support conservation, biodiversity assessments, and land management initiatives.

8. Urban Planning and Development:
• Using DGPS surveys to collect spatial data for urban planning, land use zoning, and infrastructure development projects.
• Supporting city planning, urban renewal, and smart city initiatives with accurate geospatial information.

9. Disaster Response and Emergency Management:
• Deploying DGPS technology for rapid mapping and assessment of disaster-affected areas.
• Supporting emergency response efforts, search and rescue operations, and disaster recovery planning with up-to-date spatial data.

These are just a few examples of DGPS survey projects that S.R. CONSULTANCY has expertise in. Our team is equipped with the latest DGPS technology and skilled professionals to deliver accurate and reliable surveying services for a wide range of applications and sectors

For the mentioned DGPS survey projects undertaken by S.R. CONSULTANCY, here's a breakdown of the process and tasks involved:

1. APCRDA Layout Markings at Amaravati, Andhra Pradesh State:

• Project Scoping: Understand the requirements and scope of the layout markings project in Amaravati, as per the directives of the Andhra Pradesh Capital Region Development Authority (APCRDA).
• Survey Planning: Develop a comprehensive survey plan detailing the methodology, equipment, and timeline for the DGPS survey.
• Ground Control Point Establishment: Use DGPS technology to establish precise ground control points across the designated layout areas.
• Layout Markings: Utilize the established control points to accurately mark the layout boundaries, roads, plots, and other features as per the approved layout plan.
• Quality Assurance: Implement stringent quality control measures to ensure accuracy and reliability of the survey data and markings.
• Documentation: Prepare detailed reports, drawings, and documentation of the survey findings, control point coordinates, and layout markings for record-keeping and future reference.

2. APMDP Towns Survey for Establishing Ground Control Points and Topographical Survey:

• Project Initiation: Initiate the survey project in coordination with the Andhra Pradesh Municipal Development Project (APMDP) for designated towns.
• DGPS Ground Control Points: Use DGPS technology to establish accurate ground control points at strategic locations within the towns.
• Topographical Survey with Total Station: Conduct a detailed topographical survey using total station instruments to capture terrain features, elevation data, and infrastructure details.
• Permanent Benchmark Stones: Install permanent benchmark stones at key locations to serve as reference points for future surveys and infrastructure development.
• Data Processing and Analysis: Process the survey data collected from DGPS and total station instruments to generate accurate topographic maps, contour lines, and spatial data layers.
• Reporting and Deliverables: Compile survey findings, maps, and reports detailing the ground control points, topographical survey results, and benchmark locations for submission to APMDP authorities.
• Project Management: Oversee all aspects of the survey project, including planning, fieldwork, data processing, and reporting, to ensure timely and successful completion.

By following a systematic approach and leveraging advanced surveying technologies such as DGPS and total station instruments, S.R. CONSULTANCY ensures the accuracy and reliability of survey data for layout markings and town surveys, contributing to effective urban planning and development initiatives in Andhra Pradesh State.

7. FOREST SURVEYS

Forest surveys play a crucial role in the management, conservation, and sustainable utilization of forest resources. S.R. CONSULTANCY has extensive experience in conducting forest surveys for various purposes. Here's an overview of the process and objectives of forest surveys:

1. Forest Inventory:
• Conducting forest inventories to assess the composition, structure, and health of forest ecosystems.
• Inventory methods may include field sampling, remote sensing, and GIS analysis to quantify forest attributes such as tree species, density, age, height, volume, and biomass.

2. Biodiversity Assessment:
• Surveying and documenting biodiversity within forested areas, including flora, fauna, and microbial communities.
• Identifying rare, threatened, and endangered species, as well as key habitats and ecosystems for conservation planning.

3. Forest Health Monitoring:
• Assessing the health and vitality of forest ecosystems by monitoring indicators such as tree mortality, disease prevalence, insect infestations, and environmental stressors.
• Utilizing field observations, remote sensing data, and ecological modeling to detect changes in forest health over time.

4. Carbon Stock Assessment:
• Estimating carbon stocks and sequestration rates in forested landscapes to support climate change mitigation efforts.
• Using forest inventory data and carbon accounting methodologies to quantify carbon storage in biomass, soil, and woody debris.

5. Natural Resource Management:
• Surveying forest resources and land uses to inform sustainable management practices, including timber harvesting, fuelwood collection, non-timber forest products, and ecotourism.
• Assessing land use conflicts, illegal logging activities, and encroachments on forest lands.

6. Fire Risk Assessment:
• Mapping and assessing fire risk and vulnerability within forested areas using GIS, remote sensing, and field surveys.
• Identifying factors contributing to fire ignition and spread, as well as implementing strategies for fire prevention and suppression.

7. Forest Rehabilitation and Restoration:
• Surveying degraded or deforested areas for rehabilitation and restoration projects, including reforestation, afforestation, and agroforestry initiatives.
• Assessing soil conditions, hydrology, and site suitability for tree planting and ecosystem restoration activities.

8. Community Participation and Stakeholder Engagement:
• Involving local communities, indigenous peoples, and stakeholders in forest surveys and monitoring efforts.
• Incorporating traditional knowledge, cultural values, and community perspectives into forest management and conservation strategies.

By conducting comprehensive forest surveys, S.R. CONSULTANCY contributes to evidence-based decision-making, sustainable forest management, and biodiversity conservation efforts, ultimately promoting the long-term health and resilience of forest ecosystems.
 
8. FIBER DUCT LAYING AS-BUILT SURVEY AND DOCUMENTATION

For fiber duct laying projects, conducting as-built surveys and documentation is essential to ensure accuracy, compliance, and maintenance of records. Here's an outline of the process involved in conducting fiber duct laying as-built surveys and documentation:

1. Pre-Survey Preparation:
• Review project plans, engineering drawings, and specifications to understand the scope and layout of the fiber duct network.
• Coordinate with project managers, engineers, and contractors to schedule the survey and identify key personnel involved in the project.

2. Field Survey:
• Deploy survey teams equipped with GPS/GNSS receivers, total stations, and other surveying instruments to the project site.
• Conduct field surveys to verify the location, alignment, depth, and dimensions of fiber ducts laid during construction.
• Collect accurate measurements of duct lengths, bends, junctions, and terminations using survey-grade equipment.

3. Data Collection:
• Record field observations, measurements, and annotations on survey field notes, sketches, or digital data collectors.
• Capture GPS coordinates or total station readings at key points along the fiber duct route, including manholes, access points, and intersections.

4. Documentation and Recording:
• Transfer field survey data to digital mapping software or GIS platforms for processing and analysis.
• Generate as-built drawings, maps, and diagrams depicting the actual layout and configuration of the fiber duct network.
• Document any deviations or modifications from the original design plans, including changes in alignment, depth, or materials used.

5. Quality Assurance and Validation:
• Conduct internal quality checks and validation procedures to ensure the accuracy and completeness of survey data.
• Verify survey results against project specifications and industry standards to identify any discrepancies or errors.

6. Reporting and Deliverables:
• Prepare comprehensive as-built survey reports summarizing survey findings, observations, and recommendations.
• Compile digital and hardcopy documentation, including annotated maps, CAD drawings, and survey data files, for submission to project stakeholders.

7. Archiving and Recordkeeping:
• Maintain organized records of as-built survey data, documentation, and correspondence for future reference and management.
• Archive survey records in a centralized database or document management system for easy retrieval and accessibility.

8. Post-Survey Review and Feedback:
• Review survey results with project stakeholders to address any discrepancies, issues, or corrective actions required.
• Incorporate feedback and lessons learned from the survey process into future project planning and execution.

By following these steps, S.R. CONSULTANCY ensures the accurate and comprehensive documentation of fiber duct laying projects, facilitating effective management, maintenance, and expansion of telecommunications infrastructure.

Here's a breakdown of the specific tasks involved in conducting the Fiber Duct laying as-built survey and documentation for each project:

1. AKBR Segment at Nalgonda district:
• Conducting a detailed survey of the fiber duct laying activities in the AKBR Segment.
• Verification of the location, alignment, depth, and dimensions of the fiber ducts.
• As-built documentation including mapping of manholes, access points, and junctions.
• Coordination with Megha Engineering Infrastructures Ltd. for project alignment and specifications.

2. PALERU WATER GRID in Warangal district:
• Surveying and documenting the fiber duct laying activities in the PALERU WATER GRID project.
• Verification of the fiber duct layout, alignment, and depth.
• As-built documentation of manholes, access points, and junctions.
• Collaboration with Megha Engineering Infrastructures Ltd. to ensure compliance with project requirements.

3. Nalgonda and Suryapet Municipalities:
• Conducting a survey of fiber duct laying activities in both municipalities.
• Verification of the fiber duct routes, alignments, and dimensions.
• As-built documentation of key infrastructure elements such as manholes and junctions.
• Coordination with municipal authorities and contractors for data collection and validation.

4. Nizamabad District for Indian Hume Pipes Pvt Ltd:
• Surveying and documenting the fiber duct laying activities in Nizamabad District.
• Verification of the fiber duct alignment, depth, and specifications.
• As-built documentation of infrastructure components including manholes and access points.
• Collaboration with Indian Hume Pipes Pvt Ltd. to ensure accurate documentation of the project.

5. Nalgonda and Mancherial Municipalities:
• Conducting surveys to document fiber duct laying activities in both municipalities.
• Verification of fiber duct routes, alignments, and dimensions.
• As-built documentation of infrastructure features such as manholes and junctions.
• Coordination with municipal authorities and contractors to gather accurate survey data.

6. Nalgonda and Kamareddy Municipalities:
• Surveying and documenting fiber duct laying activities in Nalgonda and Kamareddy Municipalities.
• Verification of fiber duct routes, alignments, and depths.
• As-built documentation of infrastructure elements such as manholes and access points.
• Collaboration with municipal authorities and contractors to ensure completeness of survey data and documentation.

Each of these projects involves meticulous surveying, documentation, and collaboration with relevant stakeholders to accurately capture the as-built conditions of the fiber duct infrastructure 

 

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