Advanced Autonomous Systems
Advanced Autonomous Systems
Next-generation unmanned platforms engineered for precision, autonomy, and mission-critical operations
Next-generation unmanned platforms engineered for precision, autonomy, and mission-critical operations
PhantomEdge Technologies is building a new generation of autonomous defence systems designed for modern, high-intensity conflict environments.
Our platforms span land, air, and maritime domains, delivering persistent surveillance, autonomous operations, and scalable strike capabilities.
We focus on cost-effective, high-impact systems that enable continuous operations without reliance on expensive, limited assets. By combining autonomy, AI-driven perception, and modular architectures, our solutions are engineered to perform reliably across contested and diverse operational environments.
From border security to deep-strike and maritime denial, our systems are designed to enhance situational awareness, reduce risk to personnel, and provide force-multiplying capability at scale.
PhantomEdge Technologies
AutonomousDefence Systems
Intelligent platforms across land, air, sea, and underwater domains — engineered for precision, resilience, and next-generation mission autonomy.
UGV
UAV
USV
UUV
SYSTEM GRID // ACTIVE
MULTI-DOMAIN // LINKED
SIGNAL // STABLE
AUTONOMY // ENABLED
RaudramX-TJ UAV
RaudramX-TJ is a high-speed, long-range autonomous strike UAV engineered for asymmetric warfare and deep-penetration missions in contested environments. Designed to deliver precision effects at scale, it enables cost-effective saturation of enemy air defences while striking high-value targets deep within adversary territory.
Powered by a micro-turbojet propulsion system, RaudramX-TJ achieves high subsonic sprint speeds, significantly reducing interception windows and compressing the kill chain. Its layered navigation architecture combines GNSS, inertial sensing, cellular triangulation, and anti-jamming systems to maintain mission continuity under electronic warfare conditions. In the terminal phase, onboard AI-driven multi-spectral target recognition enables autonomous precision engagement, fully decoupled from external navigation signals.
Built around decentralized swarm intelligence, RaudramX-TJ operates collaboratively through mesh networking, enabling dynamic target allocation, real-time threat sharing, and coordinated multi-vector attacks. The platform supports mixed strike-decoy deployments to overwhelm adversary defences through cost-exchange advantage, providing a scalable and economically sustainable deep-strike capability for modern high-intensity conflict scenarios.
MakaraX is an autonomous underwater system designed for stealth and persistence in contested seas.
It performs covert surveillance and multi-role missions using AI-driven acoustic perception. Its modular architecture enables flexible deployment across ISR and strike roles.
KshetrapalaX UGV
KshetrapalaX is an autonomous ground system built for persistent border surveillance across all terrains. It delivers 24/7 monitoring using multi-sensor perception and resilient navigation. Designed for scalability and human-in-the-loop control, it enhances security while reducing risk to personnel.
KshetrapalaX UGV
KshetrapalaX is a next-generation autonomous unmanned ground system engineered for persistent border security.
Designed for India’s diverse frontiers, it delivers continuous 24/7 surveillance across desert, mountain, riverine, and coastal terrains.
Its advanced multi-sensor perception suite ensures reliable detection and situational awareness in all weather and visibility conditions.
A resilient multi-layer navigation stack enables mission continuity even in GNSS-denied and contested environments.
The hybrid-electric architecture provides silent operation with extended endurance for long-duration patrols.
Built for scalable deployment with human-in-the-loop control, KshetrapalaX enhances mission effectiveness while minimizing risk to personnel.
KshetrapalaX is a next-generation autonomous unmanned ground system engineered for persistent border security. Designed for India’s diverse frontiers, it delivers continuous 24/7 surveillance across desert, mountain, riverine, and coastal terrains.
Its advanced multi-sensor perception suite ensures reliable detection and situational awareness in all weather and visibility conditions. A resilient multi-layer navigation stack enables mission continuity even in GNSS-denied and contested environments.
The hybrid-electric architecture provides silent operation with extended endurance for long-duration patrols.
Built for scalable deployment with human-in-the-loop control, KshetrapalaX enhances mission effectiveness while minimizing risk to personnel.
MakaraX UUV
MakaraX UUV
MakaraX is an advanced autonomous unmanned underwater system engineered for stealth, persistence, and sea denial operations in contested maritime environments. Designed to operate across littoral and deep-sea domains, it enables covert surveillance, target tracking, and multi-role mission execution while minimizing platform detectability.
The system integrates an AI-driven acoustic perception stack with layered navigation combining inertial systems, Doppler velocity sensing, and acoustic positioning to ensure reliable operation in GPS-denied underwater environments. Its low-observable electric propulsion architecture reduces acoustic signature, enabling stealthy ingress, endurance-driven missions, and survivability against adversary anti-submarine warfare systems.
Built on a modular and scalable architecture, MakaraX supports ISR, decoy, and strike configurations with minimal reconfiguration effort. The platform is optimized for cost-effective deployment, swarm-enabled operations, and mission autonomy, providing a force-multiplying capability for modern naval operations while reducing dependence on high-cost manned platforms.
MakaraX is an autonomous underwater system designed for stealth and persistence in contested seas. It performs covert surveillance and multi-role missions using AI-driven acoustic perception. Its modular architecture enables flexible deployment across ISR and strike roles.
Makshika-N Nano Drone
Makshika-N is a nano UAV that gives soldiers instant situational awareness in close combat. It enables real-time reconnaissance in urban and confined environments. Lightweight, silent, and intuitive, it acts as a disposable “flying eye” at the squad level.
Makshika-N Nano Drone
Makshika-N is an ultra-lightweight nano unmanned aerial system designed to provide every infantry soldier with instant, organic reconnaissance capability. Engineered for close-quarters battle and urban operations, it enables soldiers to see beyond line-of-sight—around corners, inside structures, and across obstacles—before exposing themselves to threats.
The system integrates a stabilized EO/IR micro-sensor payload with ultra-quiet propulsion and GNSS-denied navigation using optical flow and inertial sensing. Its encrypted, low-latency datalink streams real-time video directly to a chest-mounted tactical device, where edge-based AI highlights human presence and thermal signatures without adding onboard computational weight. This “smart screen, lightweight drone” architecture ensures high capability within extreme size, weight, and power constraints.
Built for rapid deployment and seamless soldier integration, Makshika-N operates as a wearable subsystem with sub-30 second launch capability and intuitive one-handed control. Its compact, cost-effective design enables scalable deployment at the squad level, delivering a stealthy, disposable “flying eye” that enhances situational awareness while minimizing risk to personnel in high-threat environments.
Makshika-N is an ultra-lightweight nano unmanned aerial system designed to provide every infantry soldier with instant, organic reconnaissance capability. Engineered for close-quarters battle and urban operations, it enables soldiers to see beyond line-of-sight—around corners, inside structures, and across obstacles—before exposing themselves to threats.
The system integrates a stabilized EO/IR micro-sensor payload with ultra-quiet propulsion and GNSS-denied navigation using optical flow and inertial sensing. Its encrypted, low-latency datalink streams real-time video directly to a chest-mounted tactical device, where edge-based AI highlights human presence and thermal signatures without adding onboard computational weight. This “smart screen, lightweight drone” architecture ensures high capability within extreme size, weight, and power constraints.
Built for rapid deployment and seamless soldier integration, Makshika-N operates as a wearable subsystem with sub-30 second launch capability and intuitive one-handed control. Its compact, cost-effective design enables scalable deployment at the squad level, delivering a stealthy, disposable “flying eye” that enhances situational awareness while minimizing risk to personnel in high-threat environments.
VarunaX - USV
VarunaX - USV
VarunaX is a next-generation semi-submersible unmanned surface system engineered for stealth, persistence, and asymmetric maritime strike operations. Designed for highly contested naval environments, it operates in a low-observable “dark mode,” remaining nearly invisible to radar while transiting deep into denied waters.
The platform integrates a variable-buoyancy architecture with hybrid navigation and AI-driven mission control, enabling long-range autonomous operation even under electronic warfare conditions. Its semi-submerged transit profile minimizes detectability, while onboard sensor fusion and SATCOM connectivity support real-time target identification and human-in-the-loop decision-making. Upon engagement, VarunaX transitions into a high-speed surface sprint, executing precision terminal maneuvers against high-value targets.
Built around a modular payload architecture, VarunaX supports heavy strike, naval mining, and integrated air-defense roles, including a unique anti-air ambush capability against maritime patrol aircraft. Optimized for scalable deployment and cost-effective force multiplication, it provides a disruptive sea-denial capability while reducing reliance on high-value manned naval platforms.
VarunaX is a next-generation semi-submersible unmanned surface system engineered for stealth, persistence, and asymmetric maritime strike operations. Designed for highly contested naval environments, it operates in a low-observable “dark mode,” remaining nearly invisible to radar while transiting deep into denied waters.
The platform integrates a variable-buoyancy architecture with hybrid navigation and AI-driven mission control, enabling long-range autonomous operation even under electronic warfare conditions. Its semi-submerged transit profile minimizes detectability, while onboard sensor fusion and SATCOM connectivity support real-time target identification and human-in-the-loop decision-making. Upon engagement, VarunaX transitions into a high-speed surface sprint, executing precision terminal maneuvers against high-value targets.
VarunaX is a stealth semi-submersible unmanned surface system for maritime strike and sea denial. Its low-observable profile and hybrid autonomy enable deep penetration into contested waters. Built for modular payloads, it delivers scalable and cost-effective naval capability.
Partner With PhantomEdge Technologies
Collaboration for future defense innovation in India.
Let’s Innovate Together
PhantomEdge Technologies invites collaboration with leading global defense companies and technology partners. For partnerships, email us at vishruth.reddy@rajivgandhiaviation.com.