NGDW & NGDM
NEXT GENERATION
Drone assets
ONI – DDS – MICRO
Modular Interface for Compact Release Operations
The ONI – DDS – MICRO is a compact, ruggedized micro-payload interface designed to provide rapid, reliable payload delivery capability for Group 1 UAS platforms. As a Modular Interface for Compact Release Operations, DDS-MICRO enables operators to convert small commercial or tactical drones into payload-capable systems in seconds, expanding mission flexibility without increasing system complexity.
Engineered for speed, simplicity, and adaptability, DDS-MICRO integrates using established mounting and control standards to minimize training burden and sustainment overhead. The system attaches via a standard Picatinny rail interface and operates through a PWM control input, allowing true plug-and-play installation with no specialized tools or airframe modifications required.
The ultra-low-mass design ensures negligible impact on host aircraft endurance, handling, and acoustic signature while still supporting meaningful payload weights for operational use. DDS-MICRO is optimized for missions where rapid deployment, low visibility, and ease of reconfiguration are critical, including time-sensitive delivery, sensor emplacement, signaling, and lightweight modular payload applications.
Tool-less mounting enables installation and removal in austere environments, including gloved, low-light, or contaminated conditions. A reinforced lug and retention interface ensures secure payload carriage and consistent release performance across variable flight profiles and maneuvering regimes.
Designed for scalability across the ONI Drone Delivery System ecosystem, ONI – DDS – MICRO provides a mission-ready payload capability at the smallest UAS tier while maintaining commonality with larger DDS platforms.
Key Capabilities
Ultra-lightweight micro payload interface for Group 1 UAS
Rapid plug-and-play integration using PWM control
Standard Picatinny rail mounting for broad platform compatibility
Tool-less attachment for fast field installation
Secure lug design for reliable payload retention
Minimal impact on host aircraft endurance and flight characteristics
System Characteristics
System weight approximately 0.1 lb
Payload capacity up to 5 lb
Picatinny rail mounted
PWM control interface compatible
The ONI – DDS – MICRO delivers a low-profile, adaptable payload delivery solution for operators requiring speed, reliability, and flexibility at the micro-UAS level.
ONI – DDS -MRPS
Multi-Role Payload System**
The ONI – DDS – MRPS (Multi-Role Payload System) is a lightweight, modular payload interface designed to enable rapid payload integration and release on unmanned aerial systems. The system provides a standardized method for carrying and deploying mission payloads without requiring permanent modification to the host aircraft.
MRPS is designed to support a broad range of payload types including logistics resupply, medical delivery, and mission-specific equipment. The system interfaces with host platforms via a Picatinny rail mounting solution, allowing compatibility with a wide range of military and commercial UAS currently in service.
The payload attachment utilizes a single-lug interface, enabling fast installation and removal while maintaining secure retention during flight. This design supports quick mission reconfiguration and reduces turnaround time between sorties.
With a system weight of approximately 0.25 lb and a payload capacity of up to 40 lb, MRPS provides a favorable payload-to-weight ratio while maintaining a low-profile form factor. The design minimizes aerodynamic impact and preserves aircraft handling characteristics.
MRPS is suitable for use on Class 1 UAS and is scalable for integration on larger platforms. The system is intended for operations where flexibility, rapid reconfiguration, and reduced logistics complexity are required.
Key Characteristics
- Lightweight modular payload interface
- Approximate system weight: 0.25 lb
- Maximum payload capacity: 40 lb
- Picatinny rail mounting compatibility
- Single-lug quick-attach payload interface
- Low-profile, low-drag geometry
- No permanent aircraft modification required
- Supports logistics, medical, and mission-specific payloads
- Compatible with Class 1 UAS and scalable to larger platforms
ONI – DDS – HLPS (HEAVY LIFT PAYLOAD SYSTEM) SUMMARY
The ONI – DDS – HLPS (Heavy Lift Payload System) is a modular payload interface designed to support the carriage and controlled deployment of heavier mission payloads on unmanned aerial systems. The system is intended for use where increased payload mass, stability, and retention strength are required without permanent modification to the host aircraft.
HLPS provides a standardized payload mounting and release solution that integrates with a wide range of unmanned platforms through a Picatinny rail mounting interface. This allows rapid installation and removal while maintaining compatibility across multiple aircraft types and mission profiles.
The system is designed to support high-mass payloads while maintaining a compact, low-profile form factor to reduce aerodynamic impact. The structural design emphasizes secure payload retention during all phases of flight, including maneuvering and dynamic load conditions.
HLPS supports rapid mission reconfiguration by allowing payloads to be attached or removed at the operator or maintainer level without specialized tools. This reduces turnaround time and simplifies logistics planning in forward or distributed operating environments.
The system is suitable for missions including logistics resupply, heavy medical delivery, specialized equipment transport, and other payload-driven operations where payload mass exceeds the limits of lighter payload interfaces. HLPS is scalable and intended for integration on Class 1 through larger UAS platforms, depending on aircraft capacity.
Key Characteristics
- Modular heavy-lift payload interface
- Designed for higher-mass payloads than standard payload systems
- Picatinny rail mounting compatibility
- Secure, mission-rated payload retention architecture
- Rapid install and removal with no permanent aircraft modification
- Low-profile geometry to minimize aerodynamic impact
- Supports logistics, medical, and mission-specific payloads
NGM – ONI – 155mm M107/K307
We offer the next generation in artillery technology in these two configurations. Our rounds can be made more explosive, more accurate, more lethal and last longer.
NGM – ONI – 109APW
The 109APW is what the MOP whishes it was. Our 109 Advanced Penetrator Warhead is designed to go deeper than any munition before. If there is a bunker in your sights, the 109APW is your go to solution.
NGM – ONI – 581 DIGGER
Based off the GBU-58 we have developed an advanced guided munition that will change the battlefield forever. We have a stronger body that is lighter and more lethal and effective than ever before.
NGM – ONI – ATLATL
The ATALTL is a modular, expeditionary counter-UAS and sensing platform designed for rapid deployment in denied or edge environments. Built with a layered architecture, ATALTL fuses passive and active sensors (EO/IR, RF, acoustic) with onboard AI to autonomously detect, classify, and respond to drone threats. Engineered for small units, forward bases, or mobile assets, it delivers low-latency threat engagement and can operate standalone or networked within broader C2 ecosystems—making it a force multiplier for modern electronic warfare and base defense operations.
ONI – DWM – PDS
Payload Delivery System
The ONI – DWM – PDS is a compact, multifunction payload delivery and actuation system designed to provide controlled payload release or terminal delivery capability for Group 1 UAS platforms. Engineered for low mass, high reliability, and broad platform compatibility, PDS enables operators to rapidly convert small UAS into mission-specific delivery systems while maintaining strict safety and control standards.
Built around a multi-safety architecture, ONI – DWM – PDS incorporates redundant electro-mechanical safeties to ensure fail-safe operation during pre-flight, activation, and in-flight phases. The system supports a range of delivery and actuation modes, allowing operators to tailor payload behavior to mission requirements while maintaining positive control from the host aircraft.
The system’s compact form factor and lightweight construction allow integration on UAS platforms as small as 5-inch class aircraft, expanding operational utility without degrading flight performance. Standardized mounting and interface geometry enable rapid installation on both conventional and unconventional airframes, supporting rapid fielding and adaptation in austere environments.
ONI – DWM – PDS is optimized for operators requiring precision payload delivery, modularity, and dependable safety mechanisms in contested or time-sensitive operating environments.
Key Capabilities
- Compact payload delivery and actuation system for Group 1 UAS
- Multi-safety electro-mechanical design for fail-safe operation
- Supports multiple delivery and activation modes
- Compatible with standard and non-standard payload types
- Rapid integration with minimal training requirements
System Characteristics
- System weight approximately 0.25 lb
- Payload capacity up to 5 lb
- Picatinny rail mounted
- Supports proximity, impact, and remote actuation modes
- Standard lug-based payload interface
The ONI – DWM – PDS provides a scalable, mission-ready payload delivery capability for small UAS platforms, enabling controlled deployment while maintaining safety, adaptability, and operational reliability at the tactical edge.
ONI – DWM – 40EHE
40 mm Unmanned Aerial Munition System
The ONI – DWM – 40EHE is a 40 mm unmanned-deployable aerial munition engineered for integration with small and medium unmanned aircraft systems. Designed to provide scalable, precision-delivered effects from sUAS platforms, 40EHE delivers lethal capability against a broad range of targets while maintaining low system weight, simplified integration, and rapid manufacturability.
Built around a compact, low-part-count architecture, the 40EHE emphasizes operational simplicity and supply-chain resilience. The munition’s lightweight construction enables deployment from Group 1–3 UAS without materially degrading aircraft endurance or handling characteristics. Exchangeable fin assemblies and impact-detonation architecture support flexible mission planning and straightforward field configuration.
The ONI – DWM – 40EHE incorporates advanced fragmentation and energetic design optimized for aerial release, enabling effective target engagement from both small and larger unmanned platforms. The system is designed for scalable production, rapid fielding, and integration into existing UAS payload delivery architectures.
Variant Nomenclature (DWM-40 Family)
The ONI – DWM – 40EHE serves as the baseline high-explosive variant within a broader modular munition family, including:
- DWM – 40EHE – Enhanced High Explosive
- DWM – 40EF – Enhanced Fragmentation
- DWM – 40EW – Electronic Warfare Payload
- DWM – 40APW – Advanced Penetrator Warhead
This variant structure enables mission-tailored payload selection while maintaining common form factor, interfaces, and deployment procedures across the family.
Key Capabilities
- 40 mm unmanned-deployable munition optimized for sUAS platforms
- Lightweight design supporting deployment from Group 1–3 UAS
- Impact-detonation architecture
- Exchangeable fin assembly for mission adaptability
- Simplified construction enabling scalable, low-cost manufacturing
- Compatible with modular payload delivery systems
System Characteristics
- Caliber: 40 mm
- Length: approximately 22 cm
- Weight: approximately 600 g (1.3 lb)
- Detonation: impact-initiated
- Configuration: modular fin and payload architecture
The ONI – DWM – 40EHE provides a scalable, mission-ready unmanned munition capability designed to extend the operational reach of UAS platforms while preserving simplicity, adaptability, and manufacturability across the full DWM-40 family.
ONI – NGWSW – WM134
The ONI – NGCSW – WM134 is a networked, crew-served counter-UAS weapon system built around the M134 Minigun and designed to deliver sustained, high-volume kinetic defeat of small unmanned aerial systems across a 0–1,200-yard engagement envelope. Integrated into Project ONI’s Next Generation Crew-Served Weapons architecture, WM134 provides a rapid-response CUAS solution capable of engaging multiple aerial targets from point-blank range through extended standoff distances.
WM240 VARIANT COMMON ARCHITECTURE
The ONI – NGCSW family also includes the WM240 variant, which employs the same automated aiming, fire-control, C2, cryogenic treatment, advanced coatings, and CUAS-optimized ammunition architecture on a 7.62×51 mm crew-served platform. Like the WM134, WM240 operates across the full 0–1,200 yard engagement envelope, providing a complementary balance of precision, sustained fire, and logistical flexibility while remaining fully interoperable with ONI sensor networks and haptic cueing systems.