The document contains the resume of Anil Kumar Lingala, who has over 16 years of experience in CAD, GIS, Lidar, BIM, industrial plant modeling, and laser scan modeling. He provides expertise in areas such as architecture, engineering, construction, mechanical engineering, geospatial technologies, and laser scanning. He is proficient in software such as ArcGIS, AutoCAD, Revit, and TerraScan. He seeks professional enrichment opportunities that allow him to continue working with and learning related technologies.
With urban populations expected to double by 2050, an increasingly urgent need exists for implementing sustainable urban design and infrastructure rehabilitation initiatives. Digital 3D models of our urban infrastructure form part of the solution as engineers, architects and geospatial professionals collaborate and share information across the infrastructure lifecycle. This presentation explores the reasons behind developing such a model and examines the convergence of the information and technology needed to make it real such as Smart Infrastructure Modeling (SIM), CAD, GIS and BIM. Demonstrations and plenty of eye-candy will be used to highlight the benefits. The presentation concludes with an examination of today’s trends and future opportunities as they relate to the emerging digital cities phenomena.
Presentation from SPAR International 2013. More than 850 3D innovators from around the world gathered at the 10th annual SPAR International to discuss the state of the industry,
Unmanned aerial vehicles UAVs for the Construction IndustrySue McKinney
The potential for using UAVs within the construction and civil engineering industry is significant yet their use is currently relatively limited. The main reason behind this is a lack of awareness of their potential and the range of benefits that they can bring, even though, right through from planning to final construction, nearly every stage of the engineering process can benefit from the use of a UAV.
See how to perform more sophisticated CAD-GIS transformations with FME 2016. We’ll look at topics like attribute validation, automated AutoCAD layout creation for tiled datasets, and more.
With urban populations expected to double by 2050, an increasingly urgent need exists for implementing sustainable urban design and infrastructure rehabilitation initiatives. Digital 3D models of our urban infrastructure form part of the solution as engineers, architects and geospatial professionals collaborate and share information across the infrastructure lifecycle. This presentation explores the reasons behind developing such a model and examines the convergence of the information and technology needed to make it real such as Smart Infrastructure Modeling (SIM), CAD, GIS and BIM. Demonstrations and plenty of eye-candy will be used to highlight the benefits. The presentation concludes with an examination of today’s trends and future opportunities as they relate to the emerging digital cities phenomena.
Presentation from SPAR International 2013. More than 850 3D innovators from around the world gathered at the 10th annual SPAR International to discuss the state of the industry,
Unmanned aerial vehicles UAVs for the Construction IndustrySue McKinney
The potential for using UAVs within the construction and civil engineering industry is significant yet their use is currently relatively limited. The main reason behind this is a lack of awareness of their potential and the range of benefits that they can bring, even though, right through from planning to final construction, nearly every stage of the engineering process can benefit from the use of a UAV.
See how to perform more sophisticated CAD-GIS transformations with FME 2016. We’ll look at topics like attribute validation, automated AutoCAD layout creation for tiled datasets, and more.
Field Activity Planner - A cloud based digital energy platformFutureOn
Field Activity Planner offers a cloud based digital platform for enabling rapid visual workflows for your offshore engineering work. The platform allows you to easily integrate with other backend systems and offshore engineering software already in use in your organization either for field design, field planning, or activity scheduling to name a few key areas.
If you are looking at different offshore software solutions to improve your day to day activities we use modern browser and cloud technology to deliver a state of the art collaborative field planning software platform that excels in easy to use 2D and 3D field layout and design of your subsea and topside projects. By using a real-time database, we ensure that you can collaborate on field design and planning with your colleagues around the globe to save both time and money by avoiding multiple revisions of proposed layouts.
We also support the most common data sources, and formats used for typical offshore software solutions e.g. bathymetry, reservoir, and well paths. Using our SaaS software, you can direct from your browser quickly design a field layout where you load up your bathymetry and/or survey data. Then simply add 3D reservoir and well data for a complete overview and start to finalize you subsea layout by placing generic or company specific subsea and topside assets in the correct locations. And while you design, modify, and collaborate on possible field layouts you will see that cost calculations are constantly updated when the design changes.
All this data is securely uploaded and processed in our cloud service and is viewable in both 2D and 3D, and you can invite coworkers into you project, and directly create a shareable URL for view only purposes that can be sent outside your organization to prospective clients and partners.
ArcGIS Data Interoperability: Tips for LiDAR, 3D, and BIMSafe Software
Discover how to master 3D data and ArcGIS using the Data Interoperability extension. Learn more about transforming LiDAR point clouds, creating 3D buildings from 2D geometries, and converting BIM data formats in ArcGIS for optimal visualization and analysis.
This presentation shows the use of FME technology in complex data model transformation tasks such as the creation of CityGML from diverse data inputs as well as transformation of data out of the CityGML format into industry standards.
Diamond West 3D Laser Scanning Presentationdustinwoomer
3D Survey and Visualization
Diamond West utilizes LIDAR (Light Detection and Ranging) 3D scanning technology to digitally reconstruct an existing environment in a 3D digital model with sub-centimeter accuracy.
Digitally scanned data can be modeled in 3D or converted to 2D drawings (plan view, elevation cross section, and topography) for export to any standard CADD platform. Scanned information is linked together to form a comprehensive digital image.
Applications include:
Architectural as-builts, historic preservation/archive, structural steel mapping/cataloging, conceptual design and interference checking, fabrication and construction inspection, manufacturing and reverse engineering, topographic mapping, accessibility renovations, civil traffic and utility planning, as-builts for plant facilities, movie industry; the list goes on. If you can see it, you can scan it.
Advantage to using LIDAR 3D Scanning Technology:
Reduces field work, reduces risk of liability for field crews, competitive cost to conventional surveying, dramatically increases available information without multiple site visits, creates (sub-centimeter) accurate 3D models, remote sensing/minimizes need for access to structures.
High-definition 3D scanning provides: more accurate base mapping, detailed information along structural facades from the ground to the sky, documentation of not only surface conditions but also building conditions. Due to the potential for design and construction abutting building façades, the sub-centimeter accuracy will be a vital design and construction quality control tool.
The scanned 3D model can also be used in the future as a visualization tool by generating “fly-by” animated movies and still frames from any requested vantage point.
In summary, the use of sub-centimeter accurate 3D survey data will provide the design team with the accuracy needed to ensure proper quality control for design and construction activities. This technology will also provide the community and decision-makers with an extremely useful visual aid tool in evaluating the proposed design against existing conditions.
PREVENTING OF TECHNOGENIC RISKS IN THE FUNCTIONING OF AN INDUSTRIAL ENTERPRISEIAEME Publication
Providing safety of human life is inextricably linked to the study and analysis of the various emergency situations. At the same time a special place in this analysis is given to research the effect of the natural diseases on th ability of the possibility of occurrence and spread of the technogenic risk in the functioning of the industrial enterprise. To solve a problem The paper considers the basic principles of construction of distributed geographic information system for the management of technological risks in the functioning of industrial enterprise in case of natural emergencies. Disclosed some issues of functioning of specialized geo information systems preventing of technogenic risks in the functioning of an industrial enterprise.
Field Activity Planner - A cloud based digital energy platformFutureOn
Field Activity Planner offers a cloud based digital platform for enabling rapid visual workflows for your offshore engineering work. The platform allows you to easily integrate with other backend systems and offshore engineering software already in use in your organization either for field design, field planning, or activity scheduling to name a few key areas.
If you are looking at different offshore software solutions to improve your day to day activities we use modern browser and cloud technology to deliver a state of the art collaborative field planning software platform that excels in easy to use 2D and 3D field layout and design of your subsea and topside projects. By using a real-time database, we ensure that you can collaborate on field design and planning with your colleagues around the globe to save both time and money by avoiding multiple revisions of proposed layouts.
We also support the most common data sources, and formats used for typical offshore software solutions e.g. bathymetry, reservoir, and well paths. Using our SaaS software, you can direct from your browser quickly design a field layout where you load up your bathymetry and/or survey data. Then simply add 3D reservoir and well data for a complete overview and start to finalize you subsea layout by placing generic or company specific subsea and topside assets in the correct locations. And while you design, modify, and collaborate on possible field layouts you will see that cost calculations are constantly updated when the design changes.
All this data is securely uploaded and processed in our cloud service and is viewable in both 2D and 3D, and you can invite coworkers into you project, and directly create a shareable URL for view only purposes that can be sent outside your organization to prospective clients and partners.
ArcGIS Data Interoperability: Tips for LiDAR, 3D, and BIMSafe Software
Discover how to master 3D data and ArcGIS using the Data Interoperability extension. Learn more about transforming LiDAR point clouds, creating 3D buildings from 2D geometries, and converting BIM data formats in ArcGIS for optimal visualization and analysis.
This presentation shows the use of FME technology in complex data model transformation tasks such as the creation of CityGML from diverse data inputs as well as transformation of data out of the CityGML format into industry standards.
Diamond West 3D Laser Scanning Presentationdustinwoomer
3D Survey and Visualization
Diamond West utilizes LIDAR (Light Detection and Ranging) 3D scanning technology to digitally reconstruct an existing environment in a 3D digital model with sub-centimeter accuracy.
Digitally scanned data can be modeled in 3D or converted to 2D drawings (plan view, elevation cross section, and topography) for export to any standard CADD platform. Scanned information is linked together to form a comprehensive digital image.
Applications include:
Architectural as-builts, historic preservation/archive, structural steel mapping/cataloging, conceptual design and interference checking, fabrication and construction inspection, manufacturing and reverse engineering, topographic mapping, accessibility renovations, civil traffic and utility planning, as-builts for plant facilities, movie industry; the list goes on. If you can see it, you can scan it.
Advantage to using LIDAR 3D Scanning Technology:
Reduces field work, reduces risk of liability for field crews, competitive cost to conventional surveying, dramatically increases available information without multiple site visits, creates (sub-centimeter) accurate 3D models, remote sensing/minimizes need for access to structures.
High-definition 3D scanning provides: more accurate base mapping, detailed information along structural facades from the ground to the sky, documentation of not only surface conditions but also building conditions. Due to the potential for design and construction abutting building façades, the sub-centimeter accuracy will be a vital design and construction quality control tool.
The scanned 3D model can also be used in the future as a visualization tool by generating “fly-by” animated movies and still frames from any requested vantage point.
In summary, the use of sub-centimeter accurate 3D survey data will provide the design team with the accuracy needed to ensure proper quality control for design and construction activities. This technology will also provide the community and decision-makers with an extremely useful visual aid tool in evaluating the proposed design against existing conditions.
PREVENTING OF TECHNOGENIC RISKS IN THE FUNCTIONING OF AN INDUSTRIAL ENTERPRISEIAEME Publication
Providing safety of human life is inextricably linked to the study and analysis of the various emergency situations. At the same time a special place in this analysis is given to research the effect of the natural diseases on th ability of the possibility of occurrence and spread of the technogenic risk in the functioning of the industrial enterprise. To solve a problem The paper considers the basic principles of construction of distributed geographic information system for the management of technological risks in the functioning of industrial enterprise in case of natural emergencies. Disclosed some issues of functioning of specialized geo information systems preventing of technogenic risks in the functioning of an industrial enterprise.
GIS App- Industrial city selection -Jordan Industrial City Najed Hanahnah
Industrial Jo is one of the products produced by our company and used for analyses industrial Region by using scientific criteria build based on Mathematical Model integrated with Geographic location , Our product included charting output and reports output the chart drew based on different parameter and different calculation.
This study was carried out to identify suitable sites for Industrial development at Giridih District in Jharkhand state using GIS-based multi-criteria evaluation (MCE) such as landuse/landcover, groundwater, geomorphology, slope, road proximity, rail proximity, river proximity factors. High resolution spatial data (Landsat7 ETM+) and seven thematic information layers were analyzed using ArcGIS 9.3 and ERDAS Imagine 9.2 softwares to identify suitable areas for establishing an industry in Giridhi District. The entire study focuses on GIS based Overlay Weight Ages. In this study landuse/landcover, groundwater, geomorphology, slope, road proximity, rail proximity, river proximity are the factors that were identified for the multi-criteria evaluation. Various thematic maps were generated using visual interpretation of Landsat7 ETM+ satellite data for every variable showing site suitability measured on a size of 1-10. Weights for every criterion are created by contrasting with one another based on their significance. The final suitability map was obtained using weighted overlay techniques and Spatial Analyst Tool. Outcome generated through the GIS analysis shows that 160.85 km2 areas is very highly suitable, 407.85 km2 area is moderately suitable; 4398.30 km2 area is less suitable, for industrial development.
A study Report on Implementation of GIS in Solid Waste ManagementAM Publications
Increasing human population and economic development and urbanization has resulted in generation of huge quantities of municipal solid waste (MSW). It involves many activities like collection, transportation and disposal of wastes. There is tremendous amount of loss in terms of environment degradation, health hazards and economic descend, due to direct disposal of waste. It is better to segregate waste at initial stages where it is generated. Planners are thus forced to consider alternate and available means of disposal, especially by minimizing damage to the ecosystem and human population. GIS has proved to be boon to such planners by visualizing the real solid waste situations and facilitating route analysis through mapping. A Geographic Information System (GIS) is a computer system for capturing, storing, checking and displaying data related to positions on Earth’s surface.
Creating, Managing and Sharing 3D Cities with FMESafe Software
Decades after GIS went 3D for the first time, currently there is an enormous hype on creating and managing smart 3D Virtual Cities. Driven by the ongoing integration of BIM, CAD and GIS data, data transformation capabilities are more important than ever before. This presentation will examine basic concepts on 3D Data modelling and data standards like CityGML, Esri’s 3D City Information Model and IFC (Industry Foundation Classes). Examples illustrate how LiDAR data sets can be used to generate terrain models and 3D Data Models in combination with 2D GIS and CAD data. In addition, strategies for sharing and publishing 3D content will be demonstrated. Attendees will get an understanding of how 3D data integration tasks can be solved with FME.
FULL PROJECT MANAGEMENT AND CONSULTANCY
- Single-point responsability;
- Improved schedule and performance;
- Cost control and value engineering;
- Enhanced client risk management;
- Coordination of global participation.
3D LASER SCANNING
- Consistent as-built documentation for CAD specifications of the plant layout;
- Monitoring installation behavior over time;
- Prefabrication purposes;
- Deformation analysis and tridimensional positioning.
CLASH DETECTION AND REPORTING
- Clash / Inter ference check between existing conditions and new designed elements.
DIMENSION CONTROL
- Dimensional assessments for installations, equipments and structures;
- Correspondence check between CAD project and point clouds;
- Tank / vessel volumetric information;
3D MODELLING
- Complete 3D CAD models based on 3D point clouds.
2D DRAWINGS
- P&IDs, isometrics, sections, elevations, plans.
DATA CONVERSION
- Point clouds conversion to various data formats to meet client ’s requirements.
FULL PROJECT MANAGEMENT AND CONSULTANCY
- Single-point responsability;
- Improved schedule and performance;
- Cost control and value engineering;
- Enhanced client risk management;
- Coordination of global participation.
3D LASER SCANNING
- Consistent as-built documentation for CAD specifications of the plant layout;
- Monitoring installation behavior over time;
- Prefabrication purposes;
- Deformation analysis and tridimensional positioning.
CLASH DETECTION AND REPORTING
- Clash / Inter ference check between existing conditions and new designed elements.
DIMENSION CONTROL
- Dimensional assessments for installations, equipments and structures;
- Correspondence check between CAD project and point clouds;
- Tank / vessel volumetric information;
3D MODELLING
- Complete 3D CAD models based on 3D point clouds.
2D DRAWINGS
- P&IDs, isometrics, sections, elevations, plans.
DATA CONVERSION
- Point clouds conversion to various data formats to meet client ’s requirements.
GeoCentroid Private limited a consulting firm offering Geospatial, Engineering and BIM related Services for the Infrastructure, GIS, Civil (AEC), Urban planning, Utility, and Geomatics industry.
Do you want to get a quick measurement? Seek 3D Laser Scanning for quick data capture, making it possible to record millions of data points in seconds, reducing risk in the long run. For dangerous or difficult-to-reach regions, the 3D scanner's remote documentation is perfect. To get more information about laser 3D scanning or implement laser scanning 3D services, contact the top BIM consultants in USA at 240-899-7711 or info@topbimcompany.com. Take a look at the PPT for more details.
Cadeyes Research & Entrepreneurship Day PresentationProvost Staff
CADeyes blends state-of-the-art scanning technology with an innovative service model to deliver accurate, rapid turn-around drawings and 3-D models that can save construction and renovation costs and time.
Cadeyes Research & Entrepreneurship Day Presentation
Anil Kumar_profile
1. Anil Kumar Lingala
aneel.lingala@gmail.com
91-9849549121
In quest of Professional Enrichment opportunities in CAD/ GIS /Lidar/ BIM /Industrial Plant
Modeling/HD Laser Scan Modeling with growth oriented organization.
over 16+ years of experience in CAD/ GIS/ Lidar / BIM( Arch, MEP) /Industrial plant Modeling/ HD Laser
Scan Modeling / TS/GPS/ DGPS Topographic Survey Mapping verticals.
• Architecture, Engineering & Construction (AEC) Solutions: CAD / BIM / Industrial plant Modeling
• Mechanical (Industrial & Product) Engineering Solutions: Autocad 3D, Inventor, Microstation
• HD Laser Scan Modeling: Scan to CAD, BIM ( Terrestrial /Static/ Mobile/ Aerial Laser scanning/Lidar
mapping & Modeling Solutions)
• Parametric / Intelligent Modeling BIM - Revit / Autocad Plant 3D : Residential, commercial, industrial/
Plant Modeling
• Geospatial: GIS, LIDAR, Mobile Mapping,3D City gml, TS/GPS/ DGPS/ Topographic Survey
Mapping- Land base & utilities: Power/Telecom/ Water/ Oil/Gas
Professional Synopsis
An incisive professional with over 16+ years of experience in handling:
Engineering – CAD, BIM, Industrial plant Modeling, HD Laser Scan Modeling(Terrestrial /Static/ Mobile/
Aerial Laser scanning Based 3D Asbuilt modeling.
Geospatial : GIS, Lidar, Mobile mapping, 3D City Gml conversion. TS/GPS/ DGPS/ Topographic Survey
Mapping- Land base & utilities: Power/Telecom/ Water/ Oil/Gas
Academic Credentials
AMIE- Mechanical From Institute of Engineers, Kolkatta. In 2000
Diploma in Mechanical Engineering from SBTET Hyderabad in 1995
Occupational Contour
Since Dec '13 to till date Marvel Geospatial Solutions Pvt. ltd Project Manager
Since may ’11 to Oct 13 Symbiosys Technologies Visakhapatnam Sr. Project Lead
Since Aug ’10 to Apr ’11 Navayuga Spatial Technologies, Hyderabad Project Lead
Since Jan ’02 to July ’10 Mapworld Technologies Ltd, Hyderabad Team Lead
Since Feb ’01 to Dec ’01 Soham Software services, Hyderabad Gis Engg
Software Skills:
2. GIS sw:
Arcgis Server, Arcgis Desktop
Autocad, Autocad map 3D
Erdas Imagine
MicroStation
Mapinfo professional 10
Global mapper, Google Sketchup, FME Conversion
Lidar:
Terrascan, TerraModeler (Aerial Lidar)
Trident Analysis ( Mobile mapping)
Cyclone, Recap, Point Tools ( Terrestrial)
Engineering :
Autocad, Autocad-MEP, MicroStation, Revit Architecture, Revit-MEP
Autocad Plant 3D, Inventor,
Navisworks, Civil 3D, Recap
Cyclone 8,
Kubit Pointsense plant, Pointsense Building
Project execution SkillS
liDAr SkillS
Airborne Laser Terrain Mapping:
• Data Classification
• Bare earth Extraction
• Building Extractions
• Contour Generation
• Advanced as-built 3D Modeling
• Plan metric Mapping
Mobile/Fixed Terrestrial LiDAR:
Expertise in Processing Terrestrial LiDAR data for As Built Modeling and Extraction of Value added products.
Expertise in the Integration of Airborne and Terrestrial LiDAR data for Extracting High-resolution Virtual
Reality Content
Expertise:
• Extraction of Corridor/Industrial Plant Assets – 2D/ 3D As built
• Detailed 3D Planimetry
• 3D Building Restitution
• Profiling , Volumetrics and Ground Surface modeling
• High resolution As Built Models of Structures/Plants
• Scan to BIM/Revit / Inventor / Autocad Plant 3d/Microstation
Software : Terrascan, Terramodel, Microstaion, Civil 3D, Cyclone, Recap.
GiS SkillS
3. Has extensive experience in dealing with issues associated with Land base, utility/facility database conversion
Geospatial / GIS Data Conversions Expertise including
• User Needs Assessment and Requirements Specification
• Project Planning
• System and Database Design
• Database Design & Development
• Data Modeling
• Quality Assurance
• Project Management
• Documentation
• Map Production and Analysis
• 3D Modeling and Visualization for GIS Mapping
• GIS Mapping :
o GIS data Capture from various inputs- Satellite, Aerial images, Lidar etc.
o Topography Mapping
o Utility/ Facility Mapping : oil, gas, power, Telecom, water
o Asset & Network Mapping
o Municipal GIS
o Cadastral mapping
o Parcel Mapping
o LULC, Cluster Classification
o Geology / Mining Mapping
o Mobile Laser Cloud /GPS / TS Survey mapping
o 3D City GML conversions Level 1 to 4
o BIM models to 3D City GML conversions Level 1 to 4
Software : Arcgis, Autocad Map, Erdas Imagine, Mapinfo, Global mapper, Trident analysis, Civil 3D
CAD SkillS
• 2D/3D Autocad / Microstation drafting Arch, MEP
• Legacy data conversion
Multi-CAD and non-CAD (JPEG, PDF, …) to standard CAD platform
Paper to digital format – digitization or scanning services
Raster to vector conversion
• Electrical schematics
• Redrafting
• 3D modeling
• Rendering
Software : Autocad, Microstation,
4. BIM
1: Complete 3D models of the project from Existing 2d inputs/Laser point clouds
2: MEP modeling and conflict detection
3: Material take-offs MTO and Quantification
4: Energy Analysis and Simulations
5: Cost Estimation
6: BIM coordination
7: Family Content Creation
8: Modeling 3D, 4D, 5D, 6D
9: Level of detail LOD 100 to 500
10. BIM Execution Plan BEP
11. Project Planning & Estimations
13. Client / Team Cordination
Scan to BIM/Intelligent 3d modeling - utilizing point cloud and laser survey data into sophisticated 3D BIM
/PDS models.
Scan to 2d/3d As built models, Plans, Elevations, Sections, Schedules, BOQ/ BOM – Architectural, MEP
Conversion of as built data to GIS Format for Utility / Facility / Asset Management.
Software : Autocad MEP, Revit: Arch- MEP, Archicad, Navisworks,
Plant ModelIng
Piping Layout Designs -2D & 3D
Equipment Layout Designs -2D & 3D
Orthographics
Isometrics
PFD
P&ID
BOM
MTO
Fabrication drawings
Data sheets
Software :Autocad plant 3D, Inventor, Revit –MEP, Microstation
Personal Dossier
Date of Birth : 27 July1975
Present Address : H. No: 16-2-755/3/1 Gaddiannaram, Dilsukhnagar, Hyderabad- 500060, TG.
Languages Known : English, Telugu & Hindi.
Email : aneel.lingala@gmail.com