Applications and
Use Cases
Autonomous Counter-EW Operations Demonstrate Next-Generation Battlefield AI
In-field commander provides mission intent to “hunt jammers and neutralize electronic warfare threats” to distributed M5NS-JCP network during routine patrol operations in contested territory. Within seconds, ground-based M5NS-JCP units automatically initiate RF spectrum monitoring while coordinating with overhead UAV assets equipped with the same intelligent communication platform.
At 14:32 local time, an M5NS-JCP-equipped reconnaissance drone detects hostile jamming signatures emanating from a treeline 2.3 kilometers northeast of friendly positions. Phoenix Engine immediately adapts the drone’s communication protocols, switching to spread-spectrum anti-jam waveforms while autonomously redirecting the UAV’s flight path to triangulate the jammer’s precise location.
As the drone approaches the target area, integrated electro-optical sensors identify three enemy personnel operating mobile jamming equipment alongside what appears to be a concealed command post. Phoenix Engine simultaneously processes this intelligence and, based on the commander’s original intent, automatically executes a coordinated response: the system notifies a nearby UAV swarm to converge on the target while transmitting high-resolution imagery and RF signatures to both the field commander and supporting artillery units.
“The entire sequence—from initial detection to target prosecution—took less than four minutes with zero human intervention beyond the original mission intent,” reported the battalion communications officer. “Phoenix Engine not only countered their jamming attempt but turned their electronic attack into actionable intelligence that led to the destruction of an entire enemy EW cell.”
The engagement concluded when Phoenix-coordinated artillery strikes, guided by continuous UAV-provided targeting data, successfully neutralized the hostile jamming position while M5NS-JCP systems maintained secure communications throughout the operation despite continued enemy EW attempts.
Munitions
Next-generation precision munitions require real-time connectivity for mid-course corrections, target updates, and enhanced accuracy. M5NS-JCP enables guided munitions to maintain secure, high-bandwidth datalinks throughout their flight profile, supporting multiple guidance modes and real-time target intelligence updates. Phoenix Engine ensures mission-critical connectivity even under intense electronic warfare conditions, automatically adapting communication protocols and frequencies to counter jamming attempts. This intelligent communication backbone transforms conventional munitions into smart, networked weapons capable of engaging moving targets and responding to dynamic battlefield conditions with unprecedented precision.
UAS & HAPS
Unmanned systems demand robust, multi-domain connectivity spanning terrestrial, aerial, and space-based networks. M5NS-JCP delivers seamless integration across 5G NTN, satellite communications, and tactical waveforms, enabling UAVs and high-altitude platforms to serve as both communication endpoints and aerial relays. Phoenix Engine provides autonomous network healing that maintains connectivity despite equipment failures, atmospheric interference, and hostile actions. From tactical drones requiring low-latency control links to strategic HAPS providing wide-area coverage, these platforms ensure continuous operations across all flight profiles and mission requirements.
Last Mile Fiber to Home
Rural communities deserve high-speed broadband without the infrastructure costs of traditional fiber deployment. M5NS-JCP provides wireless “fiber-equivalent” speeds of 100+ Mbps at ranges up to 30km, delivering true broadband to previously unreachable locations. Phoenix Engine ensures consistent service quality through self-healing network architecture that automatically compensates for weather conditions, equipment aging, and service disruptions. This solution bridges the digital divide with enterprise-grade reliability at consumer-friendly economics, enabling rural communities to access the same digital opportunities as urban areas.
Private Networks
Enterprises require secure, dedicated 5G networks that align with their specific operational needs and security requirements. M5NS-JCP enables complete private 5G ecosystems with full spectrum control, customizable coverage patterns, and seamless integration with existing enterprise infrastructure. Phoenix Engine provides intent-based network management that continuously optimizes performance based on business priorities—whether maximizing throughput for manufacturing operations or ensuring ultra-low latency for autonomous systems. These private networks deliver the security, control, and performance that enterprises demand for their most critical applications.
Small Cells/Pico Cells (gNBs)
Network densification requires intelligent, cost-effective solutions that maximize capacity while minimizing deployment complexity. M5NS-JCP enables rapid deployment of 5G small cells with multi-spectrum support, dynamic beamforming, and seamless integration into existing macro networks. Phoenix Engine provides autonomous optimization that continuously balances load, manages interference, and adapts to changing traffic patterns without manual intervention. This intelligent small cell architecture delivers the capacity and coverage density required for 5G services while reducing operational costs and accelerating deployment timelines.
Tactical
Modern warfare demands communications that adapt faster than threats can evolve. M5NS-JCP provides tactical units with multi-waveform radios capable of seamless transitions between 5G, MANET, SINCGARS, and emerging waveforms based on mission requirements. Phoenix Engine delivers autonomous anti-jam capabilities that detect, characterize, and counter electronic threats in real-time while maintaining secure communications. From dismounted soldiers to armored formations, these platforms ensure that tactical communications remain resilient, secure, and mission-focused regardless of environmental or threat conditions.
Test Ranges
Military test ranges require instrumentation networks that capture critical data from high-speed, high-value test assets under extreme conditions. M5NS-JCP enables real-time telemetry collection from supersonic aircraft, missiles, and autonomous systems with ultra-low latency and guaranteed reliability. Phoenix Engine ensures continuous data collection throughout test scenarios, automatically adapting to Doppler shifts, rapid range changes, and electromagnetic interference. This intelligent instrumentation backbone maximizes the value of expensive test programs by ensuring that critical performance data is never lost.
Hypersonic
Hypersonic vehicles operate in the most challenging communication environments, requiring connectivity solutions that function at extreme speeds, altitudes, and temperatures. M5NS-JCP enables real-time control and telemetry for hypersonic platforms through advanced beamforming, frequency agility, and plasma-resistant communication protocols. Phoenix Engine provides autonomous link management that compensates for rapid Doppler shifts, atmospheric attenuation, and extreme vehicle dynamics without human intervention. This cutting-edge communication system ensures that hypersonic assets remain connected and controllable throughout their entire flight envelope, enabling the full potential of hypersonic technologies.