Will a Mobile Robot Hit People? How Reeman AMR Achieves Industry-Leading Safety

Will an AMR Hit People? Understanding the Safety Behind Reeman’s Industry-Leading Design

For many factory owners, the first question when considering robots is always：
“Will the robot hit people?”
“Is it safe in narrow aisles with workers walking around?”

These concerns come from past experiences with traditional AGVs. AGVs rely on magnetic strips or QR codes, cannot “see” their surroundings, and struggle with unexpected obstacles—leading to collisions, scraping, or complete shutdown.

Modern AMRs are completely different.
Reeman AMR takes safety to an industry-leading standard, far beyond AGVs or basic autonomous carts.

1. Whether a Robot Hits People Depends on What It Can See

① AGVs Cannot See the Real World

A traditional AGV:

• Follows a magnetic or QR path

• Cannot identify people or pallets

• Reacts slowly

• Often shuts down when obstacles appear

This is why AGVs frequently bump into goods or freeze in place.

② Reeman AMR Truly “Sees the World”

Reeman AMR uses LiDAR + 3D depth cameras for full 3D perception.
It can recognize:

• Workers walking

• Forklifts

• Dollies and carts

• Pallet edges

• Low-lying objects

• Temporary obstructions

Anything an AGV would hit—Reeman AMR can detect early and avoid automatically.

2. It Doesn’t Just See — It Predicts and Avoids Danger in Advance

Reeman AMR’s safety system uses predictive algorithms, similar to airline-grade navigation logic. The robot can:

1. Predict obstacle movement direction

2. Recalculate an optimal detour path

3. Bypass obstacles without stopping

4. Adjust braking distance based on speed

This means Reeman AMR doesn’t just avoid collisions—it proactively gives way to people.

3. Stable Operation Even in Human–Robot Mixed Environments

Real factories are chaotic：

• Crowded aisles

• Forklifts passing through

• Temporary pallet storage

• Workers walking across routes

AGVs collapse in such environments.
Reeman AMR, however, has been tested and deployed in thousands of factories and runs reliably even in ultra-narrow aisles.

Verified results:
Reeman AMRs safely pass workers in aisles as narrow as 90 cm, even 70 cm in certain scenarios.

4. Why Reeman Achieves Top-Level Industrial Safety

Reeman’s safety architecture includes：

• Dual-layer perception：LiDAR + 3D vision

• Dynamic multi-level safety zones

• Obstacle prediction algorithms

• Adaptive speed control

• Soft-stop + hard-stop mechanisms

• Proactive rerouting and anti-collision logic

• Multi-robot anti-congestion coordination

This combination ensures the robot avoids not only people but also minimizes collisions, inventory damage, and accidental scrapes common in manual operations.

5. True Safety Isn’t “Stopping in Time”—It’s “Avoiding in Advance”

That’s why Reeman AMR has become the preferred choice in:

• Electronics

• 3C manufacturing

• New energy

• Home appliances

• High-density workshops

Factories trust Reeman because it delivers the highest level of autonomous safety—predictive, intelligent, and reliable.


Article Source: Reeman