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Platform 04

Industrial arms

Production-grade industrial robot arms for pick-place, assembly, and high-throughput data collection.

12
Industrial models supported
200Hz
Control loop
6
Axes typical
INDUSTRIAL ARM (UR/FANUC)BIN200Hzcontrol loopJOINT STATE 200HzFORCE / TORQUEQUALITY LOGFACTORY TASK LOGBin pick #0047200Hz • 4.2sPASSPeg-in-hole #0048200Hz • 6.8sPASSSurface inspect #0049200Hz • 3.1sRETRYKitting run #0050200Hz • 12.4sPASS12 modelsindustrial arm types200Hzcontrol loopfactory-floorcollection ready

What is industrial arm data collection?

Industrial arms operate at high speed and precision in real factory environments. Collecting quality data at 200Hz control loops requires safety protocols, production-environment access, and operators trained for industrial settings.

Use cases we support:

  • Bin picking — unstructured parts at speed, variable pose and occlusion
  • Peg-in-hole assembly — sub-millimeter precision insertion tasks
  • Surface inspection — compliant tool paths, consistent contact force
  • Kitting — multi-part assembly sequencing with strict order and placement

Why teams partner with us:

  • 12 industrial arm models supported (UR, Fanuc, ABB, Kuka, and more)
  • 200Hz control loop logging — full joint state at industrial resolution
  • Factory-floor collection capability with safety-trained operators
  • Task-level QA with pass/fail flagging per trajectory

Factory data collection requires safety protocols and production-environment access.

We handle both — certified safety operators, on-site collection in live factory environments, and 200Hz logging that matches your control architecture.


12 industrial arm models
200Hz control loop logging
factory-floor collection ready

Models we support

Industrial arms across the field

From cobots to high-payload industrials. ROS bridges and proprietary drivers both supported.

KUKA KR

High payload

ABB IRB

Industrial

UR3 to UR16e

Collaborative

Franka Panda

Research

Fanuc CRX

Collaborative

Yaskawa Motoman

Industrial

What we capture

What we capture on industrial arms

Production cycle data that holds up under throughput pressure and edge case sweeps.

Pick-place trajectories

High-cycle pick and place with success/failure labels per cycle.

Assembly sequences

Multi-step assembly trajectories with goal-state annotations.

Industrial cycle data

Tact time, throughput, and per-cycle joint logs.

Failure modes

Mis-picks, drops, jams — captured deliberately for retraining.

How we integrate

From ROS bridge to production cycle data

A four-stage integration designed for high-throughput industrial settings.

1Step 1

ROS bridge

Driver bring-up via ROS or vendor SDK. Per-axis calibration captured.

2Step 2

Production setup

Workcell integration, safety verification, and operator station ready.

3Step 3

Cycle capture

Continuous logging during production shifts. Daily throughput and accuracy report.

4Step 4

Edge case sweeps

Targeted re-capture of failure modes flagged from your production policy.

What our partners say
We needed twenty thousand pick cycles on a KUKA workcell. Roborax ran the workcell in our facility for two weeks and delivered cycle-by-cycle data with failure labels.
Tomasz Mazur
Robotics Engineering, Linder Industrial

FAQ

Questions about industrial arm data collection

Yes, with proper access coordination and safety compliance. We have run programs in live manufacturing environments. All on-site work is preceded by a site safety assessment and operator briefing.
We follow ISO 10218 for industrial robot safety and client-specific site protocols. Our on-site leads are trained in industrial health and safety and carry relevant certifications.
From lightweight 3kg-payload collaborative arms to heavy industrial units over 100kg payload. We adapt operator tooling and safety protocols to the specific arm in your program.

Bring up an industrial workcell

Send us the arm model and the cycle spec. Two weeks to first production batch.