Surveying
EGSS has vast experience in Establishing GCP’s, conducting topographical surveys, Route Survey, Contour and Topographic Surveys for creating digital elevation model (DEM), Boundary survey, hydrographic survey works etc.
01.
Ground control points GCP ’s
Using Trimble 5700 and R3 we establish the GCP’s for satellite image geometric corrections and also to establish network of points. These points can be used for the subsequent measurements that are to be recorded at the site.
02.
Route Survey
To locate the alignment for oil pipe lines, Transmission lines, cable networking etc.
03.
Contour and Topographic Surveys
Contours are imaginary lines connecting the same height. The contour maps provide the condition of the existing terrain, which helps designing the drains etc. Topographical survey determines the characteristics details of the surface like Locations of the buildings, roads, etc.
04.
Boundary Surveys
To establish the forest boundaries / property corners of a piece of property and accurately define the limits of the subject property.
05.
Volume Calculation
To compute the volume of cutting and filling of the ground for developmental activities, ore minerals, roads, leveling or excavating the existing ground to the required depth etc.
06.
Hydrographic surveys
Nearshore bathymetric survey (up to 600m) using dual frequency echosounder, dispersion modeling etc.
Environmental
Training
Environmental software is used in impact assessments and in evaluation of air, noise, water and soil quality. It is useful for civil engineers, environmental engineers, chemistry and geology students.
Air pollution modelling – ISCST3 (Industrial Source Complex Short Term), SCREEN3 (Single source Gaussian plume model) and CALINE4 (California Line Source Dispersion model) for pollution from industrial stacks, WRPLOT (wind rose plotting software) for wind analysis.
Noise modelling – Theory and practice of noise monitoring and modelling, Dhwani software.
Groundwater modelling – ROCKWORKS software for block models and cross sections, Resistivity Software for locating potential ground water zones, SURFER 8 (Contouring and surface mapping).
GIS is useful for science, arts and engineering students, especially those in the fields of civil engineering, geology, forestry, environmental studies etc.
ArcGIS 9.3 – map and database creation and analysis, 2D and 3D map analysis, Case studies and use of GIS in planning, forest mapping, mineral mapping, disease analysis.
Mapinfo 9 – map and database creation, database analysis, Case studies and use of GIS in planning, environmental analysis.
EGSS provides a systematic and structured training in BOWTIE Risk Analysis Software.
The Bowtie methodology does more than just visually presenting all of the risks. It also provides a visual representation of your Safety Critical Elements. In Bowtie, the SCE is known as a Barrier or Control that prevents, controls or mitigates major accident scenarios. Besides identifying SCE’s, Bowties also look into the factors that might reduce or defeat their effectiveness (called Escalation Factors in Bowtie theory). This increases the awareness and insight into what factors might indirectly influence the safety performance, and also gathers the practical knowledge in the organisation and makes it explicit. This is also one of the reasons why Bowties are used for organisational learning. But even more important, it allows organisations to think one step ahead and foresee complex interactions without the need for an incident to occurs.
- Increase in competency skills
- Increase in focus and concentration
- Increase in sharpness and capacity of your memory
- Improves speed, hand, eye and brain coordination
- 3 dimensional Analysing Power
- Matching & Projection skills
Remote Sensing & GIS
EGSS’s experts have vast experience in developing, launching or implementing a Geographic Information System (GIS) using ARC GIS and MAPINFO for organizations and solutions that are applications-oriented. EGSS team can work on any GIS platform and provide final solutions. A strategic approach in meeting user needs can break-down tasks to just GIS database creation, GIS standards implementation, maintaining and updating GIS archives, implementing total systems design for organizational GIS and even building applications on GIS databases as per user requirements.
Taking a holistic approach of spatial data creation, GIS ingest GIS database organization and maintenance and GIS applications development can relieve users and organization of the “technology assimilation” curve and enable them to benefit from spatial technology solutions more effectively.