PAL Robotics TIAGo ProvsUnitree Aliengo

Unitree Aliengo leads on 3 of 7 dimensions — strongest on labor replacement.

TIAGo Pro
0 wins
vs
Aliengo
2 wins

Category breakdown

Deploy & operate

Readiness, uptime, navigation & connectivity

Even
  • 72
    Deployment readiness
    72
  • 60
    Maintenance confidence
    60
  • Vision-led navigation (estimated)
    Navigation
    Vision-led navigation (estimated)
  • Wi-Fi / cloud fleet management (estimated)
    Connectivity
    Wi-Fi / cloud fleet management (estimated)

Cost & ROI

Price accessibility and ROI clarity

Aliengo
  • 40
    Price accessibility
    59
  • 58
    ROI clarity
    62

Capability

Payload, speed, runtime & labor replacement

Even
  • 45
    Labor replacement
    55
  • 3 kg (6.6 lbs) per arm
    Payload
    up to 13 kg
  • 1.5 m/s (4.9 ft/s)
    Speed
    >1.5 m/s max walking speed
  • 4 to 5 hours on single 36V 20Ah battery; up to 10 hours with dual batteries
    Battery
    2.5–4.6 h operating time

Fit & future

Environment fit, footprint & long-term upside

Aliengo
  • 68
    Environment fit
    78
  • 78
    Future potential
    75
  • Base height 1.2 m (3.9 ft), extending to 1.5 m (4.9 ft) with lifting torso
    Footprint
    650 × 310 × 600 mm (stand); 600 × 310 × 150 mm (fold)
TIAGo Pro · Best for

Bin picking and assembly in flexible manufacturing cells where force-feedback arms reduce collision damage

Aliengo · Best for

University SLAM and robotics coursework: 4.6 h endurance, developer-friendly I/O (GbE, USB 3.0), and ROS support enable weeks of lab experiments and student projects without infrastructure lock-in.

Final judgment

Both are credible picks. Decide on cost and supplier proximity, not capability — the gap is small.

More head-to-head