StreetMapper to Laser Map Indian Infrastructure
StreetMapper is being deployed to laser map city centres and transportation networks across India. The world’s most accurate mobile laser mapping system StreetMapper has been purchased by Geokno, a technology company specialising in Geographical Information Systems (GIS) following the recent announcement of another 400 million dollars of funding to boost investment in Indian infrastructure.
The specially customised StreetMapper was selected for its proven accuracy, reliability and quality of support and service from developer 3D Laser Mapping and IGI. The system will be immediately deployed on two highway projects before being showcased for the first time ever in India at the India Geospatial Forum taking place at the Hyderabad International Convention Centre from the 5-7th February 2014.
Geokno is a spin-off company from the Indian Institute of technology Kanpur specialising in GIS and related technologies such as LiDAR based surveying. Recognising the technical strengths of the company and the potential of the technology the GMR Group – one of the fastest growing infrastructure enterprises in the country, acquired a majority stake in Geokno.
Developed by UK based 3D Laser Mapping and German guidance and navigation specialists IGI, the StreetMapper system purchased by Geokno included two high speed, non-contact laser scanners specifically designed for mobile mapping as well as an export licence free fibre optic based Inertial Measurement Unit (IMU). The unique pod system also included a high resolution camera, specially designed lifting platform and a custom designed canopy. The newly supplied StreetMapper system can also be used for aerial projects with an airborne mount for the laser scanners and IMU.
StreetMapper has been specifically designed for the rapid 3D mapping of highways, runways, railways, infrastructure and buildings. Using vehicle-mounted lasers offering a 360-degree field of view, StreetMapper enables high precision mapping to a range of 800 metres and recorded accuracies in independent real world projects of better than 10 millimetres.