Maargin is building a multi-shell multi-orbit space communication network — a constellation of satellites in LEO interconnected via OISL — providing connectivity and integrated computing facility to enterprises, government agencies, aircrafts and maritime businesses, fellow satellites and deep-space missions.
The next generation of communication will not be tethered to towers, islands of coverage, or single-orbit constellations. It will move fluidly between ground, sky and space — routing packets across a continuously reconfiguring mesh. Maargin is building that highly connected mesh: a standards-compliant space network of satellites in LEO.
That same mesh — an ideal substrate for compute — is configured to form a micro data center grid. Every satellite is already solar-powered, radiatively cooled, and one hop from its neighbours, turning each node into a micro data centre. The sub-constellation becomes a highly connected compute grid in orbit, where workloads move as fluidly as packets.
A packet leaves its source — a user device, an enterprise gateway, an aircraft terminal, or an orbiting satellite.
It is acquired by the nearest layer of the network — UAV, HAPS, or a satellite in the optimal orbit — using 3GPP-compliant waveforms.
Inter-satellite links carry the packet through space itself — bypassing terrestrial bottlenecks and geographic limits.
As relative positions shift, the routing plane seamlessly hands over between orbits and layers with zero perceptible disruption.
The packet arrives at its endpoint — on Earth, in the air, or in orbit — delivered with carrier-grade integrity.
Maargin is led by a team with a decade-plus of work in the trenches of global wireless — contributions to IEEE, 3GPP and Wi-Fi standards; research at the University of Cambridge; engineering at Samsung and Qualcomm; and deep roots in the Indian space ecosystem.
To build an inclusive, standards-native space network that provides reliable communication services to every user, enterprise, aircraft, satellite and deep-space mission that needs one.
A future where satellites and space platforms connect to each other the way computers connect to the internet — over open, interoperable links — and where coverage is defined by intent, not geography.
We believe the most valuable networks are the ones that play well with others. Our infrastructure is designed to interoperate with existing terrestrial and space systems — not to replace them.
Headquartered in Bengaluru — India's space and deep-tech capital — with research lineage from the University of Cambridge and the IITs, and partnerships across the global standards community.
Communications engineer turned founder. Leading the design of Maargin's space network architecture and standards work.
Leads RF, payload and inter-satellite link engineering across the multi-orbit constellation.
Translates orbital capability into services — for enterprise, aviation, maritime and space-to-space customers.

Technology Advisor — CEO & Co-founder, GAIUS Networks. Former Director, Networking for Development Research Group, University of Cambridge. Pioneer in bridging the global digital divide.

Space & Orbital Mechanics — Senior advisor on constellation architecture, orbital dynamics and mission design. Profile to be confirmed publicly.

3GPP NTN · ITU — Expertise in non-terrestrial network standards, spectrum coordination and regulatory strategy across markets. Profile to be confirmed publicly.

Connected Mobility — Decades of leadership in in-flight and maritime connectivity, advising on commercial strategy and integration. Profile to be confirmed publicly.
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