The Platform

The orchestration layer your private 5G has been missing

Coverage modeling, real-time interference control, and per-flow SLA enforcement — unified across all your RAN vendors in a single control plane built for industrial operations.

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Multi-cell private 5G orchestration concept showing three factory zones with coverage layers and signal monitoring

Pillar 1

Coverage Planning

Import your facility floor plan. Define ceiling height, wall materials, and obstructions. Signalweft's predictive RF engine generates signal heat maps and identifies dead zones before a single antenna is mounted.

Adjust cell placement in the model, re-run the simulation in seconds, and export the optimized placement guide for your installation team. No RF consultant required for the planning phase.

Import DXF/DWG or JPG floor plans
Per-material attenuation profiles (concrete, steel rack, glass)
SINR prediction per cell, overlaid on floor plan
Exportable placement guide for installation teams

coverage-model.yaml

site: north-assembly-building
floor_plan: ./plans/north-asm-v3.dxf
ceiling_height_m: 9.4
materials:
  exterior_walls: reinforced_concrete
  interior_walls: steel_stud_drywall
  rack_rows: steel_shelving
cells:
  - id: cell-a1
    position_m: [12.0, 8.5]
    band: CBRS_3.6GHz
  - id: cell-a2
    position_m: [38.2, 8.5]
    band: CBRS_3.6GHz
target_sinr_db: 15
# Result: 98.2% floor coverage above target SINR

Pillar 2

Interference Management

Industrial environments are interference-hostile. Forklift charger banks, plasma cutters, overhead crane motors — all of them leak RF into your 3.5 GHz band. Signalweft monitors SINR per cell per device class on a continuous basis and triggers automated rebalance actions before your SLA threshold is breached.

No waiting for a ticket queue. The system detects, diagnoses, and rebalances in under 90 seconds for most interference events.

5-minute rolling SINR heatmap, auto-refreshed
Source-of-interference classification (industrial EMI vs. adjacent cell)
Automated cell power rebalance and handoff steering
Alert escalation via Slack, Teams, email, or webhook

SINR Dashboard — North Assembly Live

cell-a1

18.4 dB

SINR · 3 devices

cell-a2

11.2 dB

⚠ Near threshold

cell-b1

22.1 dB

SINR · 7 devices

cell-b2

19.7 dB

SINR · 5 devices

Pillar 3

SLA Enforcement

Define per-device-class QoS policy in a plain-language YAML-like editor. Signalweft translates policy into 5G NR QoS Identifier (5QI) mappings, enforced at the RAN level — not just logged in a dashboard.

Separate guaranteed bit rates for your AGV control channel, sensor polling loops, and operator tablet traffic. When cell load spikes, your critical traffic is protected.

Up to 8 SLA policy classes (Standard tier)
Per-device-group guaranteed bit rate (GBR)
SLA breach alerts with 5-second detection latency
Compliance report export for OT audits

sla-policy.yaml

policy_name: north-assembly-v2
site: north-assembly-building
classes:
  - name: agv-control
    device_groups: [agv-fleet-a, agv-fleet-b]
    5qi: 82
    guaranteed_bitrate_kbps: 512
    max_latency_ms: 10
    priority: 1
  - name: sensor-polling
    device_groups: [iot-sensors]
    5qi: 65
    guaranteed_bitrate_kbps: 128
    max_latency_ms: 100
    priority: 2
  - name: operator-tablets
    device_groups: [field-tablets]
    5qi: 9
    policy: best-effort
    priority: 8

Integrations

Connect to your existing RAN infrastructure

Pre-built adapters for major private LTE/5G vendors. Full ONAP and O-RAN R1 interface support for open-architecture deployments.

Celona

RAN Vendor

Ericsson DAC

RAN Vendor

Nokia DAC

RAN Vendor

O-RAN R1

Open Interface

ONAP

Orchestration

REST API

Northbound

SCADA Bridge

OT Integration

Webhook

Alerts

View all integrations

See the platform in your environment

Book a technical walkthrough with one of our engineers. Bring your floor plan and we'll run a live coverage simulation during the call.

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