The resilient communications layer that makes your existing infrastructure ready for autonomous operations. Redundant connectivity with no single point of failure, deployable in minutes, so your decision makers have the awareness they need to keep their teams operational.
Drones, distributed sensors, and AI-assisted operations all depend on connectivity that legacy networks were never built to carry. When a base tower fails or saturates, everything behind it goes dark, at the exact moment it matters most. The best network path shouldn't be chosen once. It should be chosen every second. Autonomy requires autonomous communications.
Unifies every available path (cellular, satellite, Wi-Fi-as-WAN, and wired uplink) into one resilient network with no single point of failure.
The call doesn't drop. The video stays live. The control link never skips a beat.
Integrates telemetry, sensor feeds, infrastructure visibility, and field operations into one shared, real-time operational picture.
One picture. Everyone. In real time. Across teams, agencies, and domains.
Resilient coordination for UAVs, distributed sensors, mobile command, and AI-assisted platforms: the bridge from legacy to autonomous.
Your infrastructure becomes ready for what's coming, not just what's here.
Ordinary failover waits for a link to fail, then reroutes, and by then packets are already lost. At the edge, DMPO provides sub-millisecond steering over the most efficient links. ARC Edge measures loss, latency, and jitter across every path continuously and moves traffic before degradation is ever felt.
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Dynamic Multi-Path Optimization is patented technology that manages every path across broadband, cellular, satellite, and MPLS in real time. Where traditional bonding statically duplicates or splits packets, DMPO continuously measures each link and steers traffic dynamically: better performance, tighter security, lower cost.
Continuously measures latency, loss, jitter, and bandwidth on every path, making split-second decisions about where traffic flows and when to drop a degraded link.
Bonding floods every link with duplicate packets, many later discarded, inflating bandwidth and cost. DMPO sends only what's needed, on the most optimal path.
Routing decisions stay isolated from user traffic, shrinking the attack surface. No single concentrator decrypting and reassembling everything in one place.
Degrade or drop a link and traffic reroutes instantly to healthy paths, with no interruption felt. Recovered links are reintegrated automatically.
Modular by design: add or remove paths and adapt policy across complex, multi-vendor environments, with no proprietary, monolithic bonding stack.
Per-link monitoring and alerting let operators catch problems proactively and hold service levels, not react after the damage is done.
01
Harden what you already have.
The resilient backbone layer that makes your existing infrastructure ready for autonomous operations: no single point of failure, capacity for autonomous data loads, the bridge to autonomous operations without rip-and-replace. Built for utilities, telecom, and critical-infrastructure operators, network ops, infrastructure leadership, and CTOs / CIOs.
02
A lifeline that goes where the mission goes.
When the network goes down, ARC Edge goes in with the responders. Built for public safety, emergency management, National Guard, Coast Guard, disaster response, incident commanders, EOCs, and comms officers. Comms that survive the moment they're needed most, deploying into the zone in minutes, off-grid, with one shared picture across every agency and domain.
03
Assured command & control.
Autonomous operations are only as reliable as the communications network behind them. With no single point of failure and seamless beyond-line-of-sight communications, operators can confidently deploy autonomous systems while retaining the awareness and control needed to keep the mission moving.
Resilient communications wherever the mission takes you. ARC Edge aggregates multiple independent networks into a single self-healing connection, with DMPO steering each flow over the most efficient links in real time: no operator intervention, no single point of failure.
ARC Edge integrates with the networks, vehicles, aircraft, sensors, and operational systems you already rely on, combining multiple communications paths into a single resilient layer for assured command and control.
ARC Edge is a deployable, resilient communications layer that unifies every available network path, including cellular, satellite, Wi-Fi-as-WAN, and wired uplink, into a single connection with no single point of failure. It keeps field teams, infrastructure, and autonomous operations online by continuously selecting the best path available, and it deploys in minutes wherever the mission goes.
DMPO is the patented technology at the core of ARC Edge. It intelligently manages multiple network paths in real time, constantly measuring latency, packet loss, jitter, and available bandwidth on every link, then steers traffic over the most efficient paths automatically. Rather than choosing a network path once, DMPO re-evaluates and optimizes it continuously, so connectivity adapts the instant conditions change.
Traditional bonding tends to split or duplicate packets across links in a static, opaque way, often sending redundant traffic that gets discarded, which inflates bandwidth usage and cost. DMPO takes a real-time, application-aware approach instead: it routes only the necessary traffic over the optimal links based on live path conditions. The result is seamless failover and load balancing without the wasted bandwidth or rigidity of conventional bonding.
No. Avoiding blind packet duplication is one of DMPO's core advantages. By steering traffic intelligently rather than copying it across every link, ARC Edge conserves bandwidth and significantly lowers operational costs, while still delivering the reliability and failover protection that mission-critical operations require.
ARC Edge is built for multi-vendor, multi-domain environments and works with the networks you already rely on, including:
Paths can be added or removed as conditions and requirements change, with no rip-and-replace of existing infrastructure.
ARC Edge doesn't wait for a link to fail. DMPO measures loss, latency, and jitter across every path continuously and steers traffic to a healthier link before degradation is ever felt. This is proactive optimization rather than reactive failover. When a degraded link recovers, it is reintegrated smoothly to maintain optimal utilization, with no operator intervention required.
ARC Edge enforces a strict separation between the control plane (which manages routing decisions) and the data plane (which carries user traffic). Isolating network management from user data reduces the attack surface, removes single points of failure, and improves resilience. This stands in sharp contrast to monolithic bonding stacks that decrypt and reassemble all traffic at a single concentrator.
In a monolithic stack, processing, encryption, and control functions are interwoven into one system, so a single vulnerability or failure can cascade across everything, and patching one component risks disrupting the rest. ARC Edge's modular, plane-separated architecture contains faults, enables targeted updates, and supports granular monitoring and auditing. That separation is what makes it suitable for enterprise and mission-critical environments where security and resilience are non-negotiable.
ARC Edge serves three primary mission contexts: hardening persistent infrastructure for utilities, telecom, and critical-infrastructure operators; providing a deployable lifeline for crisis response teams such as public safety, emergency management, and the National Guard; and assuring command and control for autonomous operations including UAVs, distributed sensors, and AI-assisted platforms. In each case, it bridges legacy networks to autonomous-ready connectivity without a full infrastructure overhaul.
The ARC Edge field kit is ruggedized to IP67 and designed to deploy in minutes, with no specialized setup and no operator intervention to keep it running. It fuses multiple independent networks into a single self-healing connection on arrival, so responders and operators have assured connectivity from the moment they reach the zone, including off-grid and beyond-line-of-sight environments.
See how ARC Edge delivers communications in environments where networks fail.
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