Underground mining, first and deliberately
Kilometers of drifts, no positioning, no coverage, ground that moves. The environment that breaks every connected inspection platform is the one Sarthi's stack grew up in.
Why the usual platforms stop at the portal
Fleet software that assumes a network. Docked drones that assume connectivity. Survey scanners that assume a person carries them. Each works well exactly until the infrastructure ends, and in an underground mine it ends a few hundred meters in.
Sarthi assumes nothing from the site. Missions run to schedule in unconnected workings, and the data walks itself out when the robot reaches comms.
Numbers a mine already tracks
Re-entry time after every blast, several times a day. Exposure hours logged walking inspection rounds through active headings. Days of production lost to a post-event area nobody can enter until it is assessed.
Sarthi missions attack those three numbers directly. That is the entire pitch, and your own operations data will price it.
Built where mining technology is built
Sarthi comes out of years of underground field research in northern Sweden, inside the densest mining-technology ecosystem in the world, with trials in operating Nordic and European mines behind it.
World-first lava-tube exploration
Iceland
A drone explored and mapped more than 1 km of a naturally formed lava tube, fully autonomously: no GPS, no link, no pilot. The first mission of its kind anywhere.
Talk to us about your mine
A discovery conversation, not a sales call: what does re-entry cost you per blast, and who signs the ground-control log?