Qubex Advanced Systems

The brain inside every drone.

We build two things: the small, powerful computer that goes inside a drone — and the ground software that commands entire fleets. Engineered in India, by people who build and fly what they ship.

In plain words

What does Qubex build?
Two things.

A computer that goes inside the drone

Most drones today fly on imported electronics that nobody here can open, repair, or improve. The QX mission computer replaces that — a small, powerful brain, built in India, that lets a drone see, think, and act on its own.

The software that commands it from the ground

One operator, an entire fleet. Type what you need in plain language and watch the mission unfold live on the map — the drones handle the rest, even far beyond the operator's line of sight.

Why we exist

Autonomy has a
dependency problem.

We started Qubex because we lived this problem on real aircraft: an industry scaling fast on top of a core it doesn't control — imported, closed, outdated systems at the heart of nearly every UAV flying today.

  1. India's drone industry is crippled by over-reliance on imported flight controllers.
  2. Drones today lack the sophisticated intelligence of modern AI.
  3. Advanced swarm technology is complex — and nowhere near user-friendly.
  4. Long-range operations are held back by the lack of true BVLOS control.
  5. Drones are dangerously dependent on a single point of failure: GPS.
  6. Innovation is stifled by a monopoly on drone flight controllers.

The answer

New-age autonomy.
Built from the core.

From assemblers To core builders

No one is building the brains and backbone of autonomy — mission computers, FPV systems, and control software. Qubex is.

From manual control To true autonomy

5G and onboard NPUs now enable real-time decision-making and swarm intelligence.

From fragmented systems To one autonomy stack

Qubex unifies hardware, software, and communication into one coherent, integrated ecosystem.

Mission Computer

The brain,
onboard.

A next-generation mission computer running ROS on Docker, with a dedicated NPU for onboard AI — 5G-enabled for BVLOS control, with native swarm capability out of the box.

ROS on Docker

A containerized autonomy stack. Deploy, swap, and update AI modules the way modern software teams already work.

Dedicated NPU

A neural processing unit purpose-built for running custom onboard AI modules — intelligence at the edge, not in the cloud.

5G BVLOS control

Integrated 5G for beyond-visual-line-of-sight command and real-time data streaming. Long range is no longer the limit.

Native swarm capability

Swarm coordination out of the box — not a research project. Multi-vehicle missions become a configuration, not a rebuild.

EW resistant

Anti-jamming GNSS and fail-safe navigation modes. Built to keep flying when the electromagnetic environment turns hostile.

Precision, then scale

Designed for military precision. Built for civil scalability. One compute core, engineered for both worlds.

Ground Control Software

Command at the
speed of thought.

An intelligent command suite with LLM-level autonomy and effortless swarm coordination — planning, live visualization, and analytics for every drone and every mission, in one interface.

LLM-level autonomy

Speak the mission. The command suite translates natural-language intent into coordinated, adaptive mission logic across the fleet.

Effortless swarm coordination

One operator, many aircraft. Formations, task-splitting, and mid-mission changes are handled automatically across the fleet.

One intuitive interface

Planning, monitoring, and analytics unified in a single view. Swarm coordination that finally feels effortless.

Enabling technologies

Four technologies.
One stack.

ROS

The robotics industry standard, containerized on Docker for modular, updatable autonomy.

NPU

Dedicated neural compute for onboard AI — perception, navigation, and decision-making at the edge.

5G

Ultra-low-latency connectivity unlocking true BVLOS control and real-time streaming.

Swarm

Native multi-vehicle coordination — collective intelligence without the research-lab complexity.

The opportunity

A $0 billion sky.

The global UAV market will exceed $90 billion by 2030 — and the core intelligence layer is still open for disruption.

Total addressable market, 2030 · FPV systems, flight control, GC software, and AI in drones

The world is moving beyond pilots

From war zones to warehouses, machines are taking flight — and autonomy is no longer optional.

The market is exploding

A $90B+ market by 2030, with the core intelligence layer still unclaimed.

Technology has caught up

5G and edge NPUs — what was once research is now ready for real missions.

Security can't wait

Global supply chains are fragile, and defence systems can't rely on black-box imports.

Who it's for

Built for the builders.

Drone OEMs and system integrators building UAVs for government tenders and civil applications — today forced onto imported controllers that are expensive, non-serviceable, and slow to adapt to changing regulation.

Government tenders

  • Defence
  • Surveillance
  • Mapping
  • Disaster management

Civil sectors

  • Agriculture
  • Logistics
  • Inspection
  • Industrial security
  • Lower cost, higher reliability than imported alternatives — with local service instead of overseas RMA.
  • Simpler certification and compliance with evolving defence norms.
  • More uptime through serviceable, upgradeable architecture.
  • Future-proof fleets — designed for next-gen autonomy, 5G, and swarm from day one.

The platform

Open. Modular. Yours.

Unlike locked foreign systems, Qubex hardware is built to be modular, repairable, and easily updated — reducing downtime and replacement cost across the life of a fleet.

QX-F

For FPV systems

Ultra-light. Ultra-low latency. Precision control for first-person-view platforms, with an integrated AI processor.

Modular

Swap subsystems, not aircraft.

Repairable

Serviced locally, in days not months.

Upgradeable

New capability ships as an update.

EW-resistant

Anti-jam GNSS, fail-safe navigation.

Capability DJI / CUAV SpeedyBee Pixhawk Qubex
Onboard AI features Partial
Open ecosystem Partial
EW resistance
Manufactured in India

The people

Machines with a
human story.

Qubex is built by two founders — one who has spent years with soldering iron and flight logs, and one who has spent decades turning workshops into factories.

Mukul R

Founder · Mission computers, AI systems & integration

Has built and flight-tested 50+ prototypes across drones, IoT, and control systems. Two patents filed, and a national Junior Scientist Award for the Quintuple Ground Control Station. Hands-on manufacturing and integration experience in unmanned systems and autonomy modules.

Vidhya V

Co-Founder · Operations, vendor strategy & scale

A serial MSME entrepreneur with 25+ years of operations and business management — including pioneering the world's first completely automatic cotton-bag making machine. Leads commercialization, supply chain, and production scaling.

0+

prototypes built & flight-tested

0

patents filed

0+

years of manufacturing & operations

0

national science award

“Qubex isn't another drone assembler. We're engineering the core intelligence layer — the part everyone said had to be imported.”
— Mukul R, Founder

Dual use by design

One platform.
Two worlds.

Defence

Surveillance, security, and mission-critical operations — with EW resistance, fail-safe navigation, and compliance built for evolving defence norms.

  • Border & perimeter security
  • ISR & surveillance
  • Disaster response

Civil

The same intelligence layer, scaled for industry — dependable autonomy for the missions that keep the economy moving.

  • Agriculture & spraying
  • Industrial inspection
  • Logistics & mapping

Let's build this
together.

Phase 1 starts now: an affordable mission computer and ground-control software for drone manufacturers. If you're building UAVs — for a tender, a farm, or a factory — we'd love to talk. A founder reads every email.

director@qubexsystems.com +91 94438 16654