Networks
Remote operations depend on hybrid connectivity: fiber, LTE/5G, LEO/MEO/GEO satellite, private networks, and edge systems. Quatro links network events to operational impact and routes response through governed workflows.
What Your Team Gets
One command center across terrestrial towers, satellite ground segments, and multi-orbit constellations. 8,000+ pre-built integrations normalize data from Nokia, Ericsson, Cisco, iDirect, Newtec, Comtech, and every other vendor into a single operational view. Connect and get intelligence: cross-domain correlation, root cause diagnosis, and operator guidance, spanning your entire network infrastructure.
5-15 vendor tools → Single unified intelligence stack. Every domain. Every orbit.
End-to-end SLA management across terrestrial and satellite transport layers, your operational intelligence stack monitors every link, every orbit, every service. Real-time SLA breach prediction 24+ hours in advance. Automated billing correlation between transponder utilization and terrestrial capacity. When traffic shifts from terrestrial to satellite (or between orbits), SLA tracking follows automatically.
Unified SLA intelligence across terrestrial, satellite, and hybrid services.
Predictive failure detection 2-4 weeks in advance across both terrestrial equipment (towers, cabinets, power) and satellite assets (GEO, LEO, MEO fleet health). Your operational intelligence stack surfaces cross-domain cascade risks that siloed tools cannot detect, a terrestrial backhaul degradation that will trigger satellite capacity overload, identified and prevented in advance.
2-4 week advance warning. Autonomous cascade detection across domains.
The Structural Problem
Telco runs Nokia NSP, Ericsson OSS, and Cisco Crosswork. Satellite runs iDirect, Newtec, and Comtech consoles. Nobody has a unified view. Operators toggle between 5-15 separate platforms to diagnose a single service degradation, and that's before they check which orbit the traffic was on.
What Operators Face
01
When a customer loses service, was it the terrestrial tower, the backhaul link, the satellite gateway, or an orbital anomaly? Each NMS sees only its domain. Manual alarm correlation across 3-4 dashboards means MTTR of 4-6 hours when it should be 30 minutes.
02
GEO is static. LEO passes every 10-15 minutes with 1,000+ simultaneous satellites. MEO sits between. Operators managing hybrid constellations need ephemeris-aware capacity planning and predictive routing, not static monitoring dashboards built for GEO-only operations.
03
Transponder utilization is tracked manually or lags 24+ hours in billing systems. Terrestrial SLA compliance is measured separately from satellite SLAs. E2E service assurance doesn't exist when operational and financial data live in different worlds.
04
3GPP NTN standardizes the UE side. But the operations side, provisioning, monitoring, fault management, capacity planning, remains fragmented across terrestrial and satellite toolchains. Standards don't solve operations fragmentation. You need an operational intelligence stack that bridges the gap.
Full Capability Set
04
Faster MTTR. Human-approved workflow automation. Institutional expertise embedded.
05
Intelligent capacity planning across every orbit and transport layer.
06
Sub-minute detection. Faster failover. Complete ground segment visibility.
07
Threat-to-impact-to-response unified in one operational picture.
08
Complete sovereignty. Full data control. No external dependencies.
The Integrator Approach
We don't replace your systems. We connect them. Hardware, software, and the people who run them, in one operational model your team works from.
How It Works
01
8,000+ integrations with protocol-native adapters, SNMP, NETCONF, TL1, gRPC, iDirect DVB-RCS, Newtec Dialog, satellite telemetry, GPS/telematics. Edge processing at tower sites, satellite gateways, and network nodes. Sub-minute data ingestion from every vendor across every domain.
02
Operational intelligence across cross-domain alarm correlation, root cause analysis spanning terrestrial and satellite, and operator guidance. Reduces false alarm noise. Predictive failure models trained on operational telemetry across orbits and transport layers. Real-time fleet health scoring, transponder utilization, tower performance, SLA tracking, and breach prediction.
03
Governed autonomous orchestration for failover across ground stations and terrestrial infrastructure. Provisioning and service activation workflows. Revenue assurance correlation with billing systems. Coordinated response playbooks that span terrestrial NOC, satellite operations, and space domain awareness.
From Our Thinking
platform · 7 min read
Every vendor promises visibility. But when your operation runs 15-30 disconnected systems, visibility isn't a dashboard, it's a structural engineering problem.
industry trends · 7 min read
Remote operations need connectivity for telemetry and monitoring. Remote communities need connectivity for basic services. When these two requirements are funded, deployed, and managed separately, both cost more and deliver less than they should.
industry trends · 7 min read
3GPP NTN standardizes the subscriber side. But on the operations side (monitoring, fault management, capacity planning) terrestrial and satellite toolchains remain completely separate. Standards don't solve operations fragmentation.
See what industrial AI integration looks like on your networks & satcom overlay infrastructure.
Tell us the outcome that matters. We connect the systems that hold the answer. Your team starts working from the model.
Intelligence in weeks · Your team owns it from day one