Stay online when failure isn’t an option.
When packets carry orders, telemetry, or alerts, latency spikes and dropped frames cost more than a pixel. NanoPing keeps mission-critical traffic flowing across hostile RF, congested cells, and degraded backhaul, with deterministic delivery, end-to-end encryption, and per-path health you can audit.
Why this is hard
Mission-critical traffic has to arrive, intact, in order, and in time, over exactly the networks least likely to cooperate: contested RF, saturated cells, and backhaul that degrades without notice.
- A dropped or late packet can mean a missed order, a stale alert, or lost telemetry.
- Hostile RF, congestion, and jamming make any single link untrustworthy.
- Failures must be survived automatically: there’s rarely time to re-establish a session.
- Everything must be encrypted, and every path must be auditable after the fact.
The protocol does the hard part for you
NanoPing bonds your links, recovers loss in flight, and holds latency to a budget you set, so Mission-critical traffic stays reliable on networks that aren’t.
Deterministic, guaranteed delivery
RAFT combines adaptive FEC and ARQ to provide guaranteed, ordered delivery and fault tolerance through distributed-consensus principles, built for traffic that simply has to get through.
Survive any single link
Bond heterogeneous links (cellular, satellite, radio, wired) and keep traffic moving over the survivors when one path is jammed, congested, or cut.
Loss recovery over hostile RF
RAFT reconstructs lost packets in flight with Forward Error Correction that adapts as link quality collapses and recovers, holding latency and integrity steady.
Encrypted and authenticated
End-to-end encryption with per-packet authentication keeps orders and telemetry confidential and tamper-evident across untrusted infrastructure.
Per-path health you can audit
Continuous latency, loss, and bandwidth telemetry per path gives operators a defensible, auditable record of how every link performed.
Bounded latency under stress
Set an explicit latency budget and let NanoPing hold to it, trading paths in real time rather than letting delay drift as conditions change.
The outcomes that matter
- Deterministic delivery
- End-to-end encryption
- Per-path health
- Automatic failover
How it works under the hood
Each NanoPing node runs the RAFT reliable transport, which bonds your links and recovers lost packets in flight with adaptive Forward Error Correction, continuously tuned to match the condition of the underlying network. Traffic is encrypted end to end while a hub control plane keeps the fleet in sync. It installs and comes up in two commands.
Explore the architecture
Reliable real-time connectivity in just a few steps
Every signup includes 30 days of full Pro access, no credit card. Spin up NanoPing on your device in just two commands and watch your traffic become reliable and stable right away.
Explore what else NanoPing powers
Tele-operation
NanoPing keeps tele-operated machinery responsive over 5G, LTE, and satellite, even when one link drops mid-maneuver. Frame-perfect video, tight control loops, and observability operators can trust.
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Remote production
Move production crews out of the truck and into a central control room. NanoPing carries broadcast-quality feeds, intercom, and tally between venue, gallery, and home-based commentators with deterministic latency, so REMI workflows feel local, even when the talent is on another continent.
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SD-WAN
Use the NanoPing protocol to power your SD-WAN with any number and type of network links, whether cellular, Wi-Fi, satellite, or wired. Adaptive load balancing increases bandwidth and reliability, drives down latency, and cuts network cost with cost-optimized adaptive technology, all on your own hardware, with no lock-in.
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