Technology

Engineered for the edge cases
others design around

AXIOM's stack is built on a single continuous decision loop — perception, cognition, motion control, actuation, and fleet orchestration running in lockstep, entirely on-device. No cloud round-trip sits between a robot and a safety-critical decision.

0 Hz
DECISION CYCLE RATE
0 ms
PERCEPTION-TO-ACTUATION LATENCY
0%
FLEET UPTIME, TRAILING 12 MO.
System Architecture

Five layers, one continuous decision loop

Every AXIOM unit runs the full stack locally — from raw sensor fusion to actuation — and mesh-syncs with the fleet layer for coordination, not for control. That separation is what keeps latency low and uptime high at scale.

LIDAR / STEREO 40 Hz fusion THERMAL / IMU 200 Hz inertial FORCE / TACTILE 1 kHz sampling PERCEPTION MESH 99.7% classification COGNITION ENGINE on-device inference MOTION CONTROL <15ms replan ACTUATION LAYER 0.5mm repeatability FLEET ORCHESTRATION 500+ units/site
Spec Panels

Subsystem specifications

Each subsystem is engineered, tested, and versioned independently — then validated as a whole against live warehouse conditions before any fleet-wide rollout.

SYS.01 — PERCEPTION

Multi-modal sensor fusion

LiDAR, stereo vision, and thermal imaging fused at 40Hz into a unified occupancy model, with tactile and force feedback layered in for close-quarters manipulation.

99.7%
Obstacle classification @ 12m
40 Hz
Fusion refresh rate
SYS.02 — MOTION PLANNING

Reactive path re-planning

Dynamic obstacle avoidance recomputes trajectories on-device without pausing throughput — trained against millions of logged warehouse-floor interactions.

<15 ms
Re-plan latency
360°
Field of awareness
SYS.03 — MANIPULATION

Precision grasping

Force-feedback grippers adapt in real time to payload geometry and weight distribution, covering irregular SKUs without manual profile tuning.

0.5 mm
Repeatability
35 kg
Rated payload
SYS.04 — FLEET ORCHESTRATION

Distributed task allocation

A self-healing mesh coordinates real-time task assignment across hundreds of units per site — with no single controller as a point of failure.

500+
Units per site mesh
<20 ms
Mesh sync latency
SYS.05 — SAFETY

Redundant safety circuits

Dual-redundant e-stop paths, certified emergency braking, and continuous self-diagnostics run independently of the primary decision loop.

ISO 3691-4
Compliance standard
R15.08
ANSI/RIA rated
SYS.06 — LEARNING PIPELINE

Fleet-wide model updates

Edge-collected interaction data trains updated perception and planning models nightly, validated in simulation before staged fleet rollout.

24 hr
Model refresh cycle
42M+
Hours logged
Differentiation

Why this architecture holds up at scale

These are the structural decisions that separate a lab demo from a fleet that runs 42 million hours without a controlling data center.

On-device inference

Safety-critical decisions never leave the unit. No cloud round-trip sits in the loop between sensing and stopping.

Self-healing fleet mesh

Coordination is peer-to-peer. Any single unit or gateway can drop out without stalling the rest of the fleet.

Continuous learning pipeline

Every unit contributes interaction data nightly; validated model updates roll out fleet-wide without floor downtime.

Modular hardware

Sensor payloads and end-effectors swap in the field without re-certifying the whole unit against safety standards.

Reliability at scale
0%
Fleet uptime, trailing 12mo
0Hz
Decision cycle rate
0ms
Perception-to-actuation latency
0+
Units coordinated per site
0M+
Autonomous hours logged
0%
Unplanned downtime incidents

See the architecture run in your facility

Walk through live telemetry, fleet dashboards, and the decision loop in action with our engineering team.