SBL Geomatics, the GIS wing of SBL, which plays a major role in the GIS outsourcing services in India, provides a accurate and customized leading-edge GIS solutions for the retrieval, projection, transformation and analysis of both spatial and non-spatial data which allows the users to manage and manipulate location wise co-ordianates and thematic attributes of data and produce necessary reports and this makes geospatial mapping easier. SBL Geomatics offers an array of GIS services that helps its clients to benefit in the planning, generation and dexterous implementation of prospective GIS services.
Field Activity Planner 2018 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.
SBL Geomatics, the GIS wing of SBL, which plays a major role in the GIS outsourcing services in India, provides a accurate and customized leading-edge GIS solutions for the retrieval, projection, transformation and analysis of both spatial and non-spatial data which allows the users to manage and manipulate location wise co-ordianates and thematic attributes of data and produce necessary reports and this makes geospatial mapping easier. SBL Geomatics offers an array of GIS services that helps its clients to benefit in the planning, generation and dexterous implementation of prospective GIS services.
Field Activity Planner 2018 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.
Capture and Use of Geo-Located Asset Information using Reality Capture Techno...David Males
Convergence of technology (lower-cost terrestrial scanners), government regulation (UAVs) and qualified service providers supports cost-effective capture of reality data for a much greater range of municipal assets – both linear and vertical.
Adjusting primitives for graph : SHORT REPORT / NOTESSubhajit Sahu
Graph algorithms, like PageRank Compressed Sparse Row (CSR) is an adjacency-list based graph representation that is
Multiply with different modes (map)
1. Performance of sequential execution based vs OpenMP based vector multiply.
2. Comparing various launch configs for CUDA based vector multiply.
Sum with different storage types (reduce)
1. Performance of vector element sum using float vs bfloat16 as the storage type.
Sum with different modes (reduce)
1. Performance of sequential execution based vs OpenMP based vector element sum.
2. Performance of memcpy vs in-place based CUDA based vector element sum.
3. Comparing various launch configs for CUDA based vector element sum (memcpy).
4. Comparing various launch configs for CUDA based vector element sum (in-place).
Sum with in-place strategies of CUDA mode (reduce)
1. Comparing various launch configs for CUDA based vector element sum (in-place).
Techniques to optimize the pagerank algorithm usually fall in two categories. One is to try reducing the work per iteration, and the other is to try reducing the number of iterations. These goals are often at odds with one another. Skipping computation on vertices which have already converged has the potential to save iteration time. Skipping in-identical vertices, with the same in-links, helps reduce duplicate computations and thus could help reduce iteration time. Road networks often have chains which can be short-circuited before pagerank computation to improve performance. Final ranks of chain nodes can be easily calculated. This could reduce both the iteration time, and the number of iterations. If a graph has no dangling nodes, pagerank of each strongly connected component can be computed in topological order. This could help reduce the iteration time, no. of iterations, and also enable multi-iteration concurrency in pagerank computation. The combination of all of the above methods is the STICD algorithm. [sticd] For dynamic graphs, unchanged components whose ranks are unaffected can be skipped altogether.
1. RESUME
Arslan Ahmad
arslan_ahmad4982@hotmail.com
13A/DilkushahGarden,S-Block,Model Town,Lahore
Cell #: +923214982844
PERSONAL INFORMATION
Father’sName: Lal Hussain
Date of birth: 10/4/1989
CNIC: 35201-1701935-5
Research experience:2+years of work experience inthe fieldofGIS
The Urban Unit |GIS Professional|
Feb,2016
Project: Land RecordManagementSystem (LRMIS)
Scope ofWork: Mosaicingand Geo-referencingof RasterData.
Amana Mantika Asir (Bladiaof Abha) |GISEngineer|
November2014 to November2015
Responsibilities: MaintainingGeo-Database,Conversionof spatial datafromAUTOCADto GIS byusingdifferenttools
and techniquesandAnalysiswork.Qualityassurance andqualitycontrol (QA/QC) of Mapsand spatial datasetof Al -Asir
Regionof Kingdomof Saudi Arabia.
The Urban Unit |GISProfessional|
May, 2014
Project: Land RecordManagementSystem (LRMIS)
Scope ofWork: Parcel Mapping,Attribute Entry,Update and MaintainGeo-Database.
Responsibilities:Supervisor+Team Leader Downloadingbase maps,digitizationandparcel mapping,attributeentry
and maintainingfile basedGeo-Databases,Conversionof data to appropriate classes.Attribute entryindomainof Geo-
Database.
CITY SURVEY-AbuDhabi |GISEngineer|
September,2013
Project: TopographicSurveyof All the UtilitiesinWesternRegionAbuDhabi.
Client:- AbuDhabi Municipality.
Scope ofWork: Designing,DevelopmentandMaintenance of Technical InformationSystem&Geographical Information
Systemsof AbuDhabi WesternandEastern Regions.
Responsibilities:Collecting,Storing,Manipulating,AnalyzingandPresentingcomplex GeographicInformationfrom
Surveyorsbyusingdifferentequipments.AutoCADconvertedDatatoGIS. Implementing,Deploying,Coordinating,
Training,IntegratingandMaintainingfile basedGeo-DatabasesandTechnologiestocreate an Enterprise GIS,Converted
data to appropriate classes.Attribute entryindomainof Geo-Databaseusingcodesof all utilities,managing all datain
Oracle Database.
Projects:
1. Land Record ManagementSystem ( LRMIS )
The higherlevel objectiveof the Projectwastoimprove landrecordsservice deliveryinthe Province of Punjab,
contributingtolong-lastingtenure security.The outcomes,expectedtoresultfromthe Projectwere:Increasedaccessto
landrecordsat lowertransactioncostforbeneficiariesthroughaclient-responsiveservice.Increasedlevelof tenure
securityof land-rightsholders
2. UTILITY MAPPING (WesternRegionMunicipality- WRM,ABUDHABI)
Managing,maintainingandpresentingcomplex GeographicInformationfromsurveyingdata.AutoCADconverteddata
to GIS. Implementing,Deploying,Coordinating,Training,IntegratingandMaintainingfile basedGeo-Databasesand
Technologiestocreate an Enterprise GIS.Attribute entryindomainof Geo-Databaseusingcodesof all utilities.
Managing all data inOracle Database.
3. UTILITY MAPPING (AMANAMANTKAASIR, KSA)
MaintainingGeo-Database,Conversionof spatial datafromAUTOCADtoGIS byusingdifferenttoolsandtechniques and
Analysis workqualityassurance andqualitycontrol (QA/QC) of mapsandspatial dataset.
2. Final Project during Masters:
SolarRadiationEstimationbyDevelopinganApplicationforGIS
My MSc final projectwason developinganapplicationforsolarradiationestimationapplicationwhichwouldimplement
Hemispherical ViewshedAlgorithmandcalculatedsolarradiationreachingspecificlocations.Forthispurpose eitherthe
Digital ElevationModel orDigital Surface Model wasgivenasaninputand points were specifiedatwhichthe solar
energywasto be calculated.
Alsodone Parcel Mappingondifferentdistrictsof Punjab,Pakistan.
Presentations Computerskills
Spatial Data Visualization MS OFFICE
Spatial Data Infrastructure Typing
Statistical Analysis Software handling
Digital Image Processing Software Troubleshooting
Land InfoSystem LAN NetworkingandTroubleshooting
Workingskills:
WorkingwithArcGIS ArcGIS 10x
Mappingand Planning Digitization
Geo-referencing Erdas Imagine
Spatial Database GIS Data HandlingandManipulation
Experience withOpenSource Software asQuantumGIS Adobe Photoshop
Software handling MS Office
Java AutoCAD
Map 3D
Global Mapper
Google Earth
Matlab
Academic Qualifications:
Degree / Certificate Institution Passing year
MSGIS PunjabUniversityCollegeof InformationTechnology 2013
B.Sc. GovernmentCollege TownshipLahore 2011
F.Sc. GovernmentCollege TownshipLahore 2007
Matriculation B.I.S.ELahore 2005
Certificatesand Achievements:
Computerbasics& troubleshootingbyAuspakInstitute
Windowsinstallation&networkingPunjabUniversity,Collegeof InformationTechnology
MS Office &Adobe PhotoshopbyAuspakInstitute
3rd positioninSoftexpo ProjectEvaluation
References:
Mr. HamidChaudhryHOD, GIS Center,PunjabUniversity,College of InformationTechnology.
Mr. MuhammadUmar, GIS Engineer,CitySurveyAndMapping,AbuDhabi,UAE(Previously) GISEngineerAtDEWA
(Current)
Mr. HameedUllahLRMIS ProjectManagerat The Urban Unit( USPMU), Lahore
Eng. Fathey,GISSpecialistatAmanaMantka Asir, Municipalityof ABHA, KSA