DEEP Robotics LYNX M20vsUnitree Go1
DEEP Robotics LYNX M20 leads on 5 of 7 dimensions — strongest on deployment readiness.
LYNX M20
3 wins
Go1
0 wins
Category breakdown
Deploy & operate
Readiness, uptime, navigation & connectivity
- 72Deployment readiness25
- 60Maintenance confidence60
- Vision-led navigation (estimated)NavigationVision-led navigation (estimated)
- Wi-Fi / cloud fleet management (estimated)ConnectivityWi-Fi / cloud fleet management (estimated)
Cost & ROI
Price accessibility and ROI clarity
- 51Price accessibility94
- 58ROI clarity15
Capability
Payload, speed, runtime & labor replacement
- 65Labor replacement10
- 15 kg effective payload, 50 kg maximum load capacityPayload3–5 kg depending on gait and task
- Maximum tested speed 5 m/s; maximum operating speed 2 m/sSpeed4.7 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 timeBattery1–2.5 hours (lithium-ion 6000mAh)
Fit & future
Environment fit, footprint & long-term upside
- 78Environment fit40
- 76Future potential20
- 820 × 430 × 570 mm (W × D × H)Footprint645 × 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.

