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PANINIAN
THE UNIFIED PLATFORM FOR AUTONOMOUS SYSTEMS
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SVAYATT
SVAYATT
SVAYATT-M1 is a Collaborative Combat Aerial Vehicle [CCAV] designed to operate alongside manned aircraft, enhancing mission effectiveness in high-threat environments. Developed with a focus on affordability, modularity, and adaptability, it can be configured to execute ISR, air-to-surface, and anti-ship missions in contested battlespaces.
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PANINIAN
THE UNIFIED PLATFORM FOR AUTONOMOUS SYSTEMS
Digital Engineering Platform
Autonomous Mission Platform
1 . Autonomous Mission Platform
At the core of our autonomous capabilities is Kalman Intel, our AI-driven mission intelligence system. Kalman Intel fuses data from multiple onboard and offboard sensors using advanced filtering and predictive algorithms, enabling real-time decision-making in dynamic and contested environments.
From precise navigation in GPS-denied zones to adaptive threat response, Kalman Intel enhances mission autonomy by optimizing flight paths, minimizing detection, and executing complex maneuvers with high reliability. Designed for multi-agent collaboration, it enables swarm coordination and synchronized operations across multiple unmanned platforms.
2 . Avionics and Control
Avionics and Control
The avionics and control systems are engineered for precision, reliability, and seamless integration across unmanned platforms. Our modular architecture incorporates advanced flight computers, sensor fusion, and real-time data processing to ensure optimal performance in complex mission scenarios.
The fully digital flight control system, enables autonomous navigation, adaptive control in high-G maneuvers, and real-time health monitoring. Built with multiple layers of redundancy and cybersecurity safeguards, our avionics suite ensures mission resilience in contested environments while maintaining compliance with global aviation standards.
3 . Modular Airframe
Modular Airframe
Designed for versatility and scalability, our modular airframe architecture enables rapid adaptation to a wide range of mission profiles. With a plug-and-play design, it supports easy integration of different payloads, propulsion systems, and avionics, making it ideal for various unmanned applications—from ISR and strike missions to electronic warfare and decoy operations.
Built using advanced composite materials, the airframe offers a high strength-to-weight ratio while ensuring durability in extreme operational conditions. Its modularity reduces maintenance time, enhances upgradeability, and allows for cost-effective production across multiple platform variants.
4 . Power
Power
Our advanced Aero-Engine solutions are designed to power a diverse range of unmanned platforms, delivering high thrust-to-weight ratios with optimized fuel efficiency. Our engine family covers a spectrum of thrust classes, supporting applications from high-speed target and decoy systems to long-endurance combat air systems.
Engineered for reliability, these propulsion systems incorporate cutting-edge materials, thermal management, and intelligent control systems to enhance performance in demanding environments. Scalable and modular by design, they enable seamless integration across different airframe architectures, ensuring adaptability for next-generation aerial platforms.
Reaching New
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Digital Twin
Digital Design Assistant
The Digital Design Assistant module consists of many applications software such as Multi- Disciplinary Optimization (MDO), Topology Optimization using Deep Neural Network (ToDNN), Model Based System Engineering (MBSE), Lattice Boltzmann Solver (LBM) and Design of Experiments (DoE) based structural or aerodynamic optimization (DoEOp).It will reduce design cycle time as well as cost significantly to make the time-to-market shorter which is especially very critical for new products in competitive markets.
Long-Range Land Attack Cruise Missiles
Long-Range Land Attack Cruise Missiles
Digital Twin
Performance Monitoring
A model-based data-driven completely digital Aerodynamic Performance Deck is being developed along with Control-system Hardware in Loop (HIL) simulation capability which can aid in fully digital evaluation as well as Engine Test-bed run capability. Performance Trend Reports can be visualized for Total Service Life of an individual Engine and compared with fleet trends to detect/predict anomalies using Artificial Intelligence.
Digital Twin
Integrated Vehicle Health Monitoring
The IVHM module leverages real-time sensor data, AI-driven diagnostics, and predictive analytics to ensure optimal platform performance and reliability. By continuously monitoring structural integrity, propulsion systems, and avionics, IVHM enables early fault detection, proactive maintenance, and enhanced mission availability.
IVHM creates a virtual replica of the vehicle, allowing for simulation-based analysis, lifecycle optimization, and data-driven decision-making. This reduces downtime, lowers operational costs, and ensures sustained performance across a wide range of aerial platforms
SVAYATT
SVAYATT-M1
SVAYATT-M1 is a Collaborative Combat Aerial Vehicle [CCAV] designed to operate alongside manned aircraft, enhancing mission effectiveness in high-threat environments. Developed with a focus on affordability, modularity, and adaptability, it can be configured to execute ISR, air-to-surface, and anti-ship missions in contested battlespaces.
About us
Physical Products
Digital Products
Our Services
Contact Us
Careers
01.
Mission Definition – Define operational objectives, constraints, and execution parameters for autonomous missions.
02.
Target Selection – Identify and prioritize mission targets based on predefined criteria and real-time intelligence.
03.
Route Planning & Terrain Analysis – Optimize flight paths considering terrain elevation, obstacles, and fuel efficiency.
04.
Threat Analysis & Avoidance – Detects and mitigate threats using AI-driven risk assessment and evasive maneuvers.
05.
Mission Simulation & Visualization – Provide interactive 3D mission previews for strategy validation and operator training.
06.
Communication & Coordination – Enable secure, real-time coordination between multiple assets in contested environments.
Autonomous Mission Platform
1 . Autonomous Mission Platform
At the core of our autonomous capabilities is Kalman Intel, our AI-driven mission intelligence system. Kalman Intel fuses data from multiple onboard and offboard sensors using advanced filtering and predictive algorithms, enabling real-time decision-making in dynamic and contested environments.
From precise navigation in GPS-denied zones to adaptive threat response, Kalman Intel enhances mission autonomy by optimizing flight paths, minimizing detection, and executing complex maneuvers with high reliability. Designed for multi-agent collaboration, it enables swarm coordination and synchronized operations across multiple unmanned platforms.
2 . Avionics and Control
4 . Power
3 . Modular Airframe
Autonomous Mission Platform
1 . Autonomous Mission Platform
At the core of our autonomous capabilities is Kalman Intel, our AI-driven mission intelligence system. Kalman Intel fuses data from multiple onboard and offboard sensors using advanced filtering and predictive algorithms, enabling real-time decision-making in dynamic and contested environments.
From precise navigation in GPS-denied zones to adaptive threat response, Kalman Intel enhances mission autonomy by optimizing flight paths, minimizing detection, and executing complex maneuvers with high reliability. Designed for multi-agent collaboration, it enables swarm coordination and synchronized operations across multiple unmanned platforms.
2 . Avionics and Control
Avionics and Control
The avionics and control systems are engineered for precision, reliability, and seamless integration across unmanned platforms. Our modular architecture incorporates advanced flight computers, sensor fusion, and real-time data processing to ensure optimal performance in complex mission scenarios.
The fully digital flight control system, enables autonomous navigation, adaptive control in high-G maneuvers, and real-time health monitoring. Built with multiple layers of redundancy and cybersecurity safeguards, our avionics suite ensures mission resilience in contested environments while maintaining compliance with global aviation standards.
4 . Power
3 . Modular Airframe
Autonomous Mission Platform
1 . Autonomous Mission Platform
At the core of our autonomous capabilities is Kalman Intel, our AI-driven mission intelligence system. Kalman Intel fuses data from multiple onboard and offboard sensors using advanced filtering and predictive algorithms, enabling real-time decision-making in dynamic and contested environments.
From precise navigation in GPS-denied zones to adaptive threat response, Kalman Intel enhances mission autonomy by optimizing flight paths, minimizing detection, and executing complex maneuvers with high reliability. Designed for multi-agent collaboration, it enables swarm coordination and synchronized operations across multiple unmanned platforms.
2 . Avionics and Control
Avionics and Control
The avionics and control systems are engineered for precision, reliability, and seamless integration across unmanned platforms. Our modular architecture incorporates advanced flight computers, sensor fusion, and real-time data processing to ensure optimal performance in complex mission scenarios.
The fully digital flight control system, enables autonomous navigation, adaptive control in high-G maneuvers, and real-time health monitoring. Built with multiple layers of redundancy and cybersecurity safeguards, our avionics suite ensures mission resilience in contested environments while maintaining compliance with global aviation standards.
3 . Modular Airframe
Modular Airframe
Designed for versatility and scalability, our modular airframe architecture enables rapid adaptation to a wide range of mission profiles. With a plug-and-play design, it supports easy integration of different payloads, propulsion systems, and avionics, making it ideal for various unmanned applications—from ISR and strike missions to electronic warfare and decoy operations.
Built using advanced composite materials, the airframe offers a high strength-to-weight ratio while ensuring durability in extreme operational conditions. Its modularity reduces maintenance time, enhances upgradeability, and allows for cost-effective production across multiple platform variants.
4 . Power
Autonomous Mission Platform
At the core of our autonomous capabilities is Kalman Intel, our AI-driven mission intelligence system. Kalman Intel fuses data from multiple onboard and offboard sensors using advanced filtering and predictive algorithms, enabling real-time decision-making in dynamic and contested environments.
From precise navigation in GPS-denied zones to adaptive threat response, Kalman Intel enhances mission autonomy by optimizing flight paths, minimizing detection, and executing complex maneuvers with high reliability. Designed for multi-agent collaboration, it enables swarm coordination and synchronized operations across multiple unmanned platforms.
1 . Autonomous Mission Platform
2 . Avionics and Control
Avionics and Control
The avionics and control systems are engineered for precision, reliability, and seamless integration across unmanned platforms. Our modular architecture incorporates advanced flight computers, sensor fusion, and real-time data processing to ensure optimal performance in complex mission scenarios.
The fully digital flight control system, enables autonomous navigation, adaptive control in high-G maneuvers, and real-time health monitoring. Built with multiple layers of redundancy and cybersecurity safeguards, our avionics suite ensures mission resilience in contested environments while maintaining compliance with global aviation standards.
4 . Power
Power
Our advanced Aero-Engine solutions are designed to power a diverse range of unmanned platforms, delivering high thrust-to-weight ratios with optimized fuel efficiency. Our engine family covers a spectrum of thrust classes, supporting applications from high-speed target and decoy systems to long-endurance combat air systems.
Engineered for reliability, these propulsion systems incorporate cutting-edge materials, thermal management, and intelligent control systems to enhance performance in demanding environments. Scalable and modular by design, they enable seamless integration across different airframe architectures, ensuring adaptability for next-generation aerial platforms.
3 . Modular Airframe
The next generation platform for affordable autonomous aerial systems
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The next generation platform for affordable autonomous aerial systems
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MEDIA
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The next generation platform for affordable autonomous aerial systems
CAREERS
MEDIA