INDIGENOUS UAV SYSTEMS · EST. INDIA

Engineering the Future of Defense Drone Technology

Fusionova Industries develops intelligent unmanned aerial systems for surveillance, reconnaissance, border security and tactical intelligence — built on advanced autonomous engineering and precision aerospace manufacturing.

100+
Prototype Flights
10+
UAV Platforms
10,000+
Testing Hours
INITIALIZING AIRFRAME…
DRAG TO INSPECT AIRFRAME
AUTONOMOUS FLIGHTISR OPERATIONSENCRYPTED DATA LINKSWARM RESEARCHEO/IR PAYLOADSGPS + INS NAVIGATIONEDGE COMPUTINGVTOL PLATFORMSCOMPUTER VISIONMISSION PLANNINGPRECISION MANUFACTURINGSENSOR FUSIONAUTONOMOUS FLIGHTISR OPERATIONSENCRYPTED DATA LINKSWARM RESEARCHEO/IR PAYLOADSGPS + INS NAVIGATIONEDGE COMPUTINGVTOL PLATFORMSCOMPUTER VISIONMISSION PLANNINGPRECISION MANUFACTURINGSENSOR FUSION
Who We Are

Built for Modern Defense Operations

Fusionova Industries Pvt. Ltd. develops advanced unmanned aerial systems designed for defense, homeland security and strategic surveillance applications. Our engineering combines aerospace design, artificial intelligence, autonomous navigation and precision manufacturing to create reliable UAV platforms capable of supporting demanding operational environments.

We focus on indigenous innovation, rigorous testing and scalable engineering — while maintaining the highest standards of safety, quality and mission reliability, in support of India's vision of self-reliance in defense technology.

Indigenous EngineeringMission ReliabilityResponsible Innovation
01

Aerospace Design

Airframes engineered for endurance, stability and demanding operational environments.

02

Artificial Intelligence

Onboard intelligence for navigation, perception and mission-level decision support.

03

Autonomous Navigation

GPS/INS-fused flight control with waypoint autonomy and terrain awareness.

04

Precision Manufacturing

Component traceability and rigorous quality assurance across every build.

Our Drone Systems

A Full Spectrum of UAV Platforms

From backpack-portable micro drones to long-endurance surveillance aircraft — every platform is engineered, built and flight-validated in-house.

0.62 M
FN-X1MICRO CLASS · MULTIROTOR

Micro Tactical Drone

Backpack-portable quad for close-range situational awareness. Deploys in under two minutes, flies near-silent, and streams encrypted video to the operator.

Perimeter securityClose reconnaissanceAsset protection
Endurance
45 min
Payload
0.5 kg
Range
5 km
Navigation
GPS + INS · Optical Flow
WINGSPAN 2.4 M
FN-R2SMALL CLASS · FIXED WING

Reconnaissance Drone

Catapult-launched fixed-wing platform for wide-area observation, mapping and route reconnaissance with stabilized EO/IR imaging.

Route reconnaissanceAerial mappingISR operations
Endurance
3 hr
Payload
2 kg
Range
40 km
Navigation
GPS/INS · Waypoint autonomy
WINGSPAN 4.8 M
FN-E5MEDIUM CLASS · TWIN BOOM

Long Endurance UAV

High-aspect twin-boom airframe engineered for persistent surveillance — extended station time with modular payload bays and BLOS-ready communications.

Persistent surveillanceStrategic monitoringMaritime patrol
Endurance
12+ hr
Payload
8 kg
Range
120 km
Navigation
Redundant GPS/INS · Terrain aware
WINGSPAN 3.2 M
FN-V4HYBRID CLASS · QUADPLANE

VTOL Tactical UAV

Runway-independent hybrid combining vertical launch with fixed-wing efficiency — built for operations from confined, unprepared terrain.

Forward operationsConfined-area launchTactical ISR
Endurance
6 hr
Payload
4 kg
Range
80 km
Navigation
Autonomous VTOL transition
WINGSPAN 3.6 M
FN-B3SMALL CLASS · SENSOR OPTIMIZED

Border Surveillance Drone

Purpose-built for long-line perimeter and border monitoring — thermal night imaging, geo-fenced patrol routes and automated anomaly alerts.

Border surveillanceCoastal watchInfrastructure corridors
Endurance
8 hr
Payload
3 kg
Range
90 km
Navigation
Corridor patrol autonomy
1.4 M ROTOR SPAN
FN-H6HEAVY CLASS · HEXAROTOR

Heavy Lift UAV

High-thrust hexarotor for logistics and heavy sensor carriage — precision cargo delivery to forward positions and disaster zones.

Forward logisticsDisaster responseHeavy sensor lift
Endurance
50 min loaded
Payload
25 kg
Range
15 km
Navigation
Precision-hold GPS/INS
SPAN 1.9 M
FN-L7RESEARCH PLATFORM · FLYING WING

Loitering Drone Platform

Low-signature flying-wing testbed for extended-loiter research — autonomy, target recognition studies and swarm coordination trials.

Autonomy researchSwarm trialsExtended loiter studies
Endurance
90 min
Payload
1.5 kg
Range
50 km
Navigation
Autonomous loiter patterns
CONFIGURED TO REQUIREMENT
FN-CXBESPOKE · MISSION CONFIGURED

Custom Military UAV

Requirement-driven platform development — airframe, propulsion, payload and autonomy stack configured around your operational specification.

Bespoke programsPayload integrationSpecial requirements
Endurance
Per requirement
Payload
Configurable
Range
Per requirement
Navigation
Full autonomy stack
Drone Response Network

Infrastructure that Arrives First

Every drone station is mounted on existing street light infrastructure — no new construction. Faster than any PCR van. Ready before help is asked.

No New ConstructionFaster Than PCR ResponseCity-Scale Coverage
Flight Time
15–20 min
Coverage
3–5 km radius
Camera
4K · IR Night
Mount
Existing street lights
DOCK · CHARGE · LAUNCHRESPONSE UNIT AIRBORNEFN-NET · STREET LIGHT DRONE STATION · NO NEW CONSTRUCTION

4K Night Vision

Records and streams in full detail regardless of lighting. Every frame timestamped and preserved.

100+ dB Siren

Immediate deterrence on arrival. The attacker, neighbours, everyone within 200 m knows help has arrived.

Two-Way Audio

An officer communicates directly at the scene through the drone speaker before ground units arrive.

Blockchain Evidence

All footage uploaded to a tamper-proof, court-admissible ledger. Solves India's prosecution gap.

Pursuit Tracking

Drone follows a fleeing suspect from above, streaming live coordinates to arriving officers in real time.

Autonomous Patrol

Between 10pm–4am, drones patrol pre-set GPS routes. AI flags suspicious activity across a 3–5 km radius.

Mission Applications

One Airframe Family. Every Mission Profile.

Fusionova platforms are configured per mission — payloads, autonomy behaviors and data links matched to the operational task.

MISSION 01

Persistent aerial watch across land borders with automated patrol corridors and night thermal imaging.

Core Technologies

The Stack Behind Autonomous Flight

Every subsystem — airframe, autopilot, perception, comms and ground control — is developed as one integrated engineering stack.

01

Artificial Intelligence

Onboard models for perception, classification and mission decision support.

02

Autonomous Flight Control

Waypoint autonomy, auto takeoff/landing and failsafe behaviors.

03

Computer Vision

Real-time detection, tracking and scene understanding at the edge.

04

GPS / INS Navigation

Fused satellite and inertial navigation with degraded-GNSS resilience.

05

Target Recognition

AI-assisted object recognition and operator cueing pipelines.

06

Swarm Coordination

Multi-agent flight research for cooperative area coverage.

07

Mission Planning Software

Route, corridor and coverage planning with terrain awareness.

08

Encrypted Data Link

AES-256 protected command, control and video transport.

09

Ground Control Station

Unified command interface for telemetry, payload and fleet ops.

10

Obstacle Avoidance

Sensor-driven detect-and-avoid for low-altitude flight.

11

Edge Computing

High-density onboard compute for real-time inference in the air.

12

Flight Controller Systems

In-house flight stacks with redundant sensing and health monitoring.

13

Payload Integration

Modular mounts and interfaces for EO/IR, mapping and custom sensors.

14

Real-Time Telemetry

Low-latency airframe health, position and mission-state streams.

15

Secure Communication

Frequency-agile, relay-capable links engineered for contested RF.

Why Fusionova

Engineered Differently. Proven Deliberately.

01

Indigenous Engineering

Airframes, autopilots and mission software designed and built in India — full control of the technology stack, no black boxes.

02

Mission-Centric Design

Every platform starts from the operational requirement, not the other way around. Form follows mission.

03

Modular UAV Platforms

Common cores with swappable payloads, wings and comms — one fleet, many configurations.

04

Advanced Flight Stability

Control laws tuned across wind, altitude and load envelopes, validated in thousands of test flights.

05

High Reliability

Redundant sensing, failsafe behaviors and component traceability engineered into every airframe.

06

AI-Driven Navigation

Perception-assisted flight that holds course when GNSS is degraded and terrain is unforgiving.

07

Scalable Payload Architecture

Standardized power and data interfaces so new sensors integrate in days, not months.

08

Continuous R&D

A dedicated research group pushing autonomy, swarm behavior and next-gen flight controllers forward.

Engineering Process

From Requirement to Runway

A disciplined eight-stage pipeline takes every platform from operational concept to supported fleet.

01

Research

Operational requirements and threat-environment analysis.

02

Concept Design

Airframe configuration, propulsion and payload trade studies.

03

Aerodynamic Simulation

CFD and flight-dynamics modeling across the envelope.

04

Prototype Development

Composite airframe build with in-house avionics.

05

Ground Testing

Static, vibration, thermal and endurance bench validation.

06

Flight Validation

Instrumented test-flight campaigns against spec.

07

Production

Precision manufacturing with full component traceability.

08

Lifecycle Support

Training, maintenance, upgrades and mission software updates.

SECTION A-A · COMPOSITE SPARFUEL CELL BAYSENSOR SPINEFN-LAB · AIRFRAME RESEARCH · REV 7
Research & Development

Where the Next Platform Is Already Flying

Our research group works one generation ahead of production — maturing autonomy, materials and secure communications before they reach the flight line.

Autonomous Navigation
Swarm UAV Research
Computer Vision
Thermal Imaging Integration
Next-Gen Flight Controllers
Secure UAV Communication
Lightweight Composite Structures
AI Decision Support
Sensor Fusion
Mission Computing
0+
Prototype Flights
0+
Engineers
0+
Drone Platforms
0+
Testing Hours
Quality & Reliability

Trust Is a Manufactured Property

Reliability isn't a claim we make — it's a process we run. Every airframe that leaves our facility carries a documented test history.

Zero-Compromise Release Policy
A platform flies for customers only after it has flown for us — repeatedly.

Military-Grade Processes

Engineering discipline modeled on aerospace and defense quality standards.

Rigorous Flight Testing

Instrumented campaigns across wind, altitude, temperature and load envelopes.

Precision Manufacturing

Tight-tolerance composite and CNC production with calibrated tooling.

Component Traceability

Every critical part serialized and tracked from supplier to airframe.

Mission Reliability

Redundancy and failsafe design validated against fault-injection testing.

Continuous QA

Inspection gates at every build stage — nothing ships on assumption.

Inside Fusionova

The Facility Feed

A look across the floor — from composite layup to the flight range.

CAM 01 · ASSEMBLY BAY
Drone Manufacturing
CAM 02 · AERO LAB
Wind Tunnel Testing
CAM 03 · BUILD CELL
Prototype Assembly
CAM 04 · AVIONICS
Electronics Lab
CAM 05 · OPS ROOM
Mission Planning
CAM 06 · GCS
Ground Control Station
TRACK LOCK · ALT 412 M
CAM 07 · TEST RANGE
Flight Testing
CAM 08 · DESIGN OFFICE
Engineering Team
Contact

Tell Us About Your Zone.

Police, campus, IT park, or other — we want to know your context. We respond within one working day.

ADDRESS
102, 1st Floor, #19A Street,
Bydarahalli, Benson Town Road,
Bangalore – 560046
“We don't sell gadgets. We build freedom.
— FUSIONOVA INDUSTRIES

Or email us directly — opens your mail client with the form pre-filled.

By sending, you agree to our privacy policy. Data stays on Indian servers. Always.