DEEP Robotics LYNX M20vsUnitree Go1

DEEP Robotics LYNX M20 leads on 5 of 7 dimensions — strongest on deployment readiness.

LYNX M20
3 wins
vs
Go1
0 wins

Category breakdown

Deploy & operate

Readiness, uptime, navigation & connectivity

LYNX M20
  • 72
    Deployment readiness
    25
  • 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

Even
  • 51
    Price accessibility
    94
  • 58
    ROI clarity
    15

Capability

Payload, speed, runtime & labor replacement

LYNX M20
  • 65
    Labor replacement
    10
  • 15 kg effective payload, 50 kg maximum load capacity
    Payload
    3–5 kg depending on gait and task
  • Maximum tested speed 5 m/s; maximum operating speed 2 m/s
    Speed
    4.7 m/s max; routine 3.5 m/s (Pro variant)
  • 3 hours unloaded (15 km range) or 2.5 hours fully loaded (12 km range); 1.5 h charging time
    Battery
    1–2.5 hours (lithium-ion 6000mAh)

Fit & future

Environment fit, footprint & long-term upside

LYNX M20
  • 78
    Environment fit
    40
  • 76
    Future potential
    20
  • 820 × 430 × 570 mm (W × D × H)
    Footprint
    645 × 280 × 400 mm (W × D × H at stand)
LYNX M20 · Best for

Autonomous power substation patrol in rain/snow, avoiding high-voltage contact hazard

Go1 · Best for

Classroom SLAM, gait-control curriculum in robotics programs for undergraduate labs

Final judgment

If immediate deployment is the priority, choose LYNX M20. If the goal is to be ready when Go1's capabilities mature, track it.

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