Specialist Topographic Survey for Rail Electrification
The scope for this project involved a specialized topographic survey to support a railway electrification upgrade. A major challenge was working within a live rail corridor, where restricted access and strict safety protocols made traditional ground-based methods hazardous.
We deployed a drone topographic survey to capture the site without entering the tracks. The final solution provided engineers with a precise topo survey dataset, accurately mapping the alignment to support the placement of new overhead equipment.
Precision Photogrammetry and CAD Data
The objective was to create a digital twin to identify structural clearances and vegetation encroachment. The challenge was ensuring the data was accurate enough to design gantry foundations using photogrammetry.
We processed high-definition drone photography into a measurable 3D model. The final solution included detailed 2d cad drawings, providing the design team with the critical geometric information needed to streamline the electrification scheme.
Remote Site Access via Virtual Tour
To improve safety, the project required a method for stakeholders to inspect the railway corridor remotely. The specific challenge was minimizing "boots on ballast" while still allowing for detailed visual assessment.
Our solution was an interactive Virtual Tour created using 360 photography. This allowed the team to navigate the site virtually, reviewing specific details captured by drone photography to enhance planning safety.
Specialist Topographic Survey for Rail Electrification
The scope for this project involved a specialized topographic survey to support a railway electrification upgrade. A major challenge was working within a live rail corridor, where restricted access and strict safety protocols made traditional ground-based methods hazardous.
We deployed a drone topographic survey to capture the site without entering the tracks. The final solution provided engineers with a precise topo survey dataset, accurately mapping the alignment to support the placement of new overhead equipment.
Precision Photogrammetry and CAD Data
The objective was to create a digital twin to identify structural clearances and vegetation encroachment. The challenge was ensuring the data was accurate enough to design gantry foundations using photogrammetry.
We processed high-definition drone photography into a measurable 3D model. The final solution included detailed 2d cad drawings, providing the design team with the critical geometric information needed to streamline the electrification scheme.
Remote Site Access via Virtual Tour
To improve safety, the project required a method for stakeholders to inspect the railway corridor remotely. The specific challenge was minimizing "boots on ballast" while still allowing for detailed visual assessment.
Our solution was an interactive Virtual Tour created using 360 photography. This allowed the team to navigate the site virtually, reviewing specific details captured by drone photography to enhance planning safety.
Specialist Topographic Survey for Rail Electrification
The scope for this project involved a specialized topographic survey to support a railway electrification upgrade. A major challenge was working within a live rail corridor, where restricted access and strict safety protocols made traditional ground-based methods hazardous.
We deployed a drone topographic survey to capture the site without entering the tracks. The final solution provided engineers with a precise topo survey dataset, accurately mapping the alignment to support the placement of new overhead equipment.
Precision Photogrammetry and CAD Data
The objective was to create a digital twin to identify structural clearances and vegetation encroachment. The challenge was ensuring the data was accurate enough to design gantry foundations using photogrammetry.
We processed high-definition drone photography into a measurable 3D model. The final solution included detailed 2d cad drawings, providing the design team with the critical geometric information needed to streamline the electrification scheme.
Remote Site Access via Virtual Tour
To improve safety, the project required a method for stakeholders to inspect the railway corridor remotely. The specific challenge was minimizing "boots on ballast" while still allowing for detailed visual assessment.
Our solution was an interactive Virtual Tour created using 360 photography. This allowed the team to navigate the site virtually, reviewing specific details captured by drone photography to enhance planning safety.
Specialist Topographic Survey for Rail Electrification
The scope for this project involved a specialized topographic survey to support a railway electrification upgrade. A major challenge was working within a live rail corridor, where restricted access and strict safety protocols made traditional ground-based methods hazardous.
We deployed a drone topographic survey to capture the site without entering the tracks. The final solution provided engineers with a precise topo survey dataset, accurately mapping the alignment to support the placement of new overhead equipment.
Precision Photogrammetry and CAD Data
The objective was to create a digital twin to identify structural clearances and vegetation encroachment. The challenge was ensuring the data was accurate enough to design gantry foundations using photogrammetry.
We processed high-definition drone photography into a measurable 3D model. The final solution included detailed 2d cad drawings, providing the design team with the critical geometric information needed to streamline the electrification scheme.
Remote Site Access via Virtual Tour
To improve safety, the project required a method for stakeholders to inspect the railway corridor remotely. The specific challenge was minimizing "boots on ballast" while still allowing for detailed visual assessment.
Our solution was an interactive Virtual Tour created using 360 photography. This allowed the team to navigate the site virtually, reviewing specific details captured by drone photography to enhance planning safety.
