Manufacturing

The problem

What's actually breaking.

Modern plants live or die on the network. AGVs miss their handshakes and they stop. Andon doesn't reach the line supervisor and a defect propagates. A torque tool drops uplink and a chassis goes out with no record of who tightened what. The work has gotten more wireless faster than most plant networks were designed to handle.

What we see in the field

Wi-Fi installed for office workloads now propping up production-floor automation
Roaming failures on AGVs because the SSID design assumes laptops, not 25 mph forklifts
Interference from variable-frequency drives, welders, or RF-leaky machinery never modeled
Audit findings on data integrity tied directly to dropped scanner connections

How we help

Engineering that respects the operations.

We design networks that match production-floor physics, not office assumptions. That usually means private cellular for the mobile assets, Wi-Fi for the people, and a deliberate separation between the two so neither carries load it isn't suited for. We design against your line takt and reliability targets — not generic 'four bars everywhere' goals.

Relevant services

What we typically deploy here.

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A representative engagement.

Case study

Tier-1 automotive supplier replaces 1,400 Wi-Fi APs with a single CBRS network

Read the case study

Ready to find out what your network is actually doing?

A wireless assessment from DigiLux puts measured RF, an operations brief, and a vendor-neutral design on the table — usually in under five weeks.

Request an assessment

What's actually breaking.

Engineering that respects the operations.

What we typically deploy here.

Private 5G & LTE design

Wi-Fi & IoT connectivity

RF site surveys & audits

A representative engagement.

Tier-1 automotive supplier replaces 1,400 Wi-Fi APs with a single CBRS network

Ready to find out what your network is actually doing?