10 Drones. One Open Platform.
Every drone in the Komikaze fleet shares the same open hardware standard, the same AI flight stack, and the same mesh networking protocol. From a $200 expendable swarm unit to a $10,000 autonomous combat UCAV — they all talk to each other, they all learn from each other, and they all fight as one.
KOMIKAZE FLYING WING DNA
Every fixed-wing drone in the fleet shares our proprietary flying wing planform — zero vertical surfaces, blended body, minimal radar cross-section. We designed the most lethal low-observable geometry in small-drone aviation and made it buildable with a 3D printer and commodity parts. Open hardware means builders across America can manufacture, modify, and improve these platforms. Stealth geometry at $1,000 instead of $700M. That's the Komikaze difference.
Our foundational interceptor. A purpose-built flying wing with a 3-foot wingspan engineered from the ground up for low observability and lethality. Solid-fuel rocket booster accelerates to Mach 1.5 for direct kinetic kill against hostile drones and cruise missiles. AI-guided proportional navigation with terminal maneuver prediction. At $1,000 per unit, it inverts the cost equation — defenders outspend attackers for the first time.
ENGINEERING
Flying wing planform — zero vertical surfaces for minimal radar cross-section
3D-printed carbon fiber composite airframe — 2.4 kg empty weight
Solid-fuel rocket motor: 12 kN thrust, 8-second burn to Mach 1.5
Multi-mode seeker: visual (CMOS) + infrared (uncooled microbolometer) + RF homing
AI terminal guidance: neural network trained on 500K simulated intercept scenarios
Kinetic kill — no warhead needed. Impact energy at Mach 1.5 = 380 kJ
SPECIFICATIONS
First-person view precision strike platform for high-value targets. Flying wing configuration with electric ducted fan propulsion for 30 minutes of loiter time before terminal dive. Onboard AI handles target lock and terminal guidance autonomously — the operator designates, the drone executes. Modular warhead bay accepts fragmentation, shaped charge, or thermobaric payloads from 1-3 kg.
ENGINEERING
Delta flying wing — 1.2m span, foldable for tube launch from vehicles or containers
Electric ducted fan: 15 kW brushless motor, 8-cell LiPo, 30 min loiter + terminal sprint
AI target lock: computer vision with onboard NVIDIA Jetson Orin Nano (40 TOPS)
Terminal dive speed: 250 km/h with GPS/INS + visual terminal guidance
Modular warhead interface: quick-swap bays for mission-specific payloads
Operator interface: tablet-based with AI-assisted target designation
SPECIFICATIONS
The multi-role backbone of the fleet. A 6-foot flying wing with twin electric ducted fans providing 2 hours of endurance. Internal modular bay accepts ISR sensor pods, electronic warfare payloads, communications relay equipment, or strike munitions. One airframe, every mission. The open architecture means builders across the country can develop custom payload modules and extend what this platform can do.
ENGINEERING
Blended wing body — 1.8m span, composite skin over 3D-printed structural frame
Twin 10 kW ducted fans with differential thrust for yaw control (no rudder needed)
Internal bay: 250mm x 150mm x 100mm — accepts standardized payload modules
Onboard compute: dual Jetson Orin (80 TOPS combined) for AI autonomy + sensor processing
Encrypted mesh radio: 50 km range, auto-relay through other KX-3 units
SATCOM backup: Iridium SBD for beyond-line-of-sight command
SPECIFICATIONS
Ultra-quiet multi-rotor surveillance platform designed for covert intelligence gathering. Four ducted rotors recessed into an angular stealth body reduce acoustic signature to under 45 dB at 100m — quieter than ambient urban noise. Multi-spectral sensor suite: daylight camera, thermal FLIR, SIGINT receiver, and LiDAR. Autonomous patrol with AI-driven anomaly detection — the drone decides what's worth reporting.
ENGINEERING
Ducted quad-rotor in angular stealth body — 450mm diameter, sub-45 dB acoustic
Sensor suite: 4K EO + uncooled FLIR + wideband RF receiver (20 MHz - 6 GHz) + LiDAR
AI anomaly detection: onboard neural network flags unusual activity autonomously
72-minute flight time on 6-cell LiPo with hot-swap battery system
Encrypted video downlink: AES-256, mesh relay capable
Perch-and-stare mode: lands on structures, powers down rotors, runs on battery for 12+ hours
SPECIFICATIONS
The big brother of the KX-1, purpose-built to intercept cruise missiles in flight. Dual-pulse solid rocket motor provides Mach 2.5 terminal velocity with enough energy to hit maneuvering targets at 30 km range. The flying wing body provides lift-augmented range that pure missiles can't match — it glides between rocket burns, extending effective range 3x beyond comparable interceptors. This is the $5,000 answer to the $1.5M cruise missile.
ENGINEERING
Scaled flying wing — 1.5m span, high aspect ratio for glide efficiency (L/D > 12)
Dual-pulse solid rocket: boost phase to Mach 2.0, coast/glide, terminal pulse to Mach 2.5
Active radar seeker (Ka-band AESA) + IR terminal for all-weather engagement
Proportional navigation with AI-predicted terminal maneuver — handles evasive targets
Proximity fuse with directed fragmentation ring — 3m kill radius
Total engagement time: boost to impact in < 45 seconds at 30 km
SPECIFICATIONS
The apex of the product line. A 12-foot flying wing UCAV with internal weapons bay, turbine propulsion, and full autonomous combat capability. Carries 4 KX-1 interceptors internally for air-to-air defense or 2 precision strike munitions. 4-hour endurance at 15,000 ft. Operates as a loyal wingman to manned aircraft or leads autonomous hunter-killer packs. This is what happens when AI designs a combat aircraft unconstrained by legacy thinking.
ENGINEERING
Komikaze flying wing planform — 3.6m (12ft) span, all-composite construction
Micro-turbine engine: 500N thrust, JP-8 fuel, 4-hour endurance at cruise
Internal weapons bay: 4x KX-1 interceptors OR 2x precision guided munitions
Sensor fusion: AESA radar + distributed aperture IR + ESM/ELINT
Autonomous mission planning: AI generates and adapts flight plans in real-time
Loyal wingman protocol: integrates with manned aircraft via open interoperability API
SPECIFICATIONS
The brain of the swarm. A flying wing C2 platform that coordinates up to 500 autonomous drones simultaneously. Carries high-bandwidth mesh radios, edge AI for swarm optimization, and SATCOM for beyond-line-of-sight control. Doesn't carry weapons — it makes every other drone in the network 10x more effective. Deploy 20 KX-8s and you control 10,000 drones as a single organism.
ENGINEERING
Flying wing C2 platform — 2.4m span, optimized for loiter at 3,000m altitude
Mesh radio array: 4x software-defined radios covering 400 MHz - 6 GHz
Edge compute: NVIDIA Jetson AGX Orin (275 TOPS) running swarm optimization AI
Coordinates 500 drones per unit — 20 KX-8s = 10,000 drone swarm
SATCOM uplink: real-time swarm status to ground command via Starlink/Iridium
Auto-succession: if a KX-8 is destroyed, remaining units redistribute coordination load
SPECIFICATIONS
The expendable swarm unit designed for mass deployment. Palm-sized, 100g, 15-minute flight time. Individually weak. Collectively overwhelming. Deploy 10,000 from a single container launcher. Each unit carries a micro-EFP (explosively formed penetrator) warhead OR electronic warfare jammer payload. Mesh-networked through KX-8 Nexus controllers. The cost per unit is so low they're treated as ammunition, not aircraft.
ENGINEERING
Micro quad-rotor — 100mm diameter, 100g total weight, injection-molded body
Brushless micro-motors: 8-minute sprint mode or 15-minute loiter
Micro-EFP warhead (50g) effective against light armor, sensors, antennas
Alternative: RF jammer payload disrupts communications in 5m radius
Mesh networking via KX-8 Nexus — no individual operator needed
Container launch: 500 units per standard tube launcher, pneumatic deployment
SPECIFICATIONS
The persistent eye in the sky. A 20-foot solar-electric flying wing that stays airborne for 72+ hours. Covers 500 km² with multi-spectral sensors. Acts as the elevated node for ORACLE intelligence fusion — ingesting and relaying data from every KX drone in the theater. Situational awareness that legacy systems charge 1,000x more to deliver. We do it for $10K.
ENGINEERING
High-aspect-ratio flying wing — 6m (20ft) span, ultra-lightweight composite (8 kg)
Solar-electric: monocrystalline cells on upper surface + lithium-sulfur batteries
Endurance: 72 hours at 6,000m altitude (above weather, below commercial traffic)
Sensor suite: wide-area motion imagery + synthetic aperture radar + SIGINT
ORACLE node: fuses data from all KX drones within 200 km radius
SATCOM relay: extends mesh network range to over-the-horizon
SPECIFICATIONS
The invisible weapon. A flying wing electronic warfare platform that jams enemy communications, spoofs GPS, intercepts signals intelligence, and injects cyber payloads into hostile drone control links. Operates silently alongside KX swarms to blind the enemy before kinetic engagement begins. Non-kinetic force multiplication — one KX-EW Shade can disable an entire enemy drone fleet without firing a shot.
ENGINEERING
EW-optimized flying wing — 1.2m span, antenna arrays integrated into wing structure
Wideband SDR: 20 MHz - 6 GHz simultaneous receive + selective jamming
GPS spoofing: redirects enemy drones by broadcasting false navigation signals
SIGINT collection: intercepts, demodulates, and catalogs hostile communications
Cyber payload: injects malformed packets into enemy C2 datalinks
Low probability of intercept: frequency-hopping transmission avoids detection
SPECIFICATIONS
10,000 Drones. One Mind.
The fleet isn't 10 products. It's one integrated organism. Every drone communicates, coordinates, and fights as part of a unified mesh. Here's how 10,000 units operate as a single swarm.
Mesh Protocol
Every KX drone runs the same open mesh protocol. They form ad-hoc networks automatically. No configuration. No central server. Drop 10,000 into an area and they self-organize in seconds.
Hierarchical AI
KX-8 Nexus controllers coordinate 500 units each. 20 controllers manage 10,000 drones. If a controller goes down, others absorb its flock. The swarm degrades gracefully — it never fails completely.
Mixed-Type Operations
KX-10 provides surveillance. KX-EW blinds defenses. KX-9 Hornets swarm the target. KX-1 Phantoms intercept counter-attacks. KX-8 coordinates everything. Different drones, different roles, one mission.
Build On Our Platform
Every drone here is open hardware + open software. If you have an idea for a payload, a sensor, a mission profile, or an entirely new variant — build it on the Komikaze stack. The platform is yours.