Autonomous mobile robots move inventory along their own routes — no driver, no fixed track — coordinated by fleet software that dispatches the nearest free unit and slows automatically the instant a worker enters the aisle.
Book a PilotEvery pick and put-away in a manual warehouse waits on a person walking the aisles. A short shift, a resignation or a sick day cuts throughput directly — not because the inventory isn't there, but because there aren't enough hands to move it. A fleet of robots that coordinate themselves breaks that dependency.
Every pick and put-away waits on a person walking the aisles, multiplying the time each order takes.
A short shift or a resignation cuts throughput directly when the work depends entirely on people on the floor.
A single robot on a fixed track can't adapt to demand. Tasks need to be dispatched to whichever unit is free, in real time.
Robots and workers need to share the floor safely — which means the robot has to sense a person and slow down, not the other way round.
Recorded Gazebo AMR footage overlaid with live fleet telemetry — watch robots pick their own routes, get dispatched to the nearest task, and slow the instant a worker enters their aisle. This is the same engine and scenario running at demos.barquecontech.com, embedded live below.
From a task in the queue to a robot on the move — the same path the live demo above runs on.
Pick and put-away tasks generated by the WMS
Dispatches the nearest free robot to each task
Robot plans its own route, senses obstacles
Auto-slows when a worker enters the aisle
Live position, task status and utilisation
The building blocks we combine to fit how your floor actually runs.
Robots that pick, carry and put away stock along their own routes, no driver and no fixed track.
Orchestrates every robot in real time, dispatching tasks to whichever unit is free and closest.
Proximity sensing that slows or stops a robot the instant a worker shares its aisle.
Turns orders into optimised robot moves and keeps pickers and robots working the same task list.
Live map of every robot, task status and utilisation for the team managing the floor.
Model the floor and fleet to test layouts and staffing before committing capital.
Fleet data is only useful where your team already works — we integrate rather than replace.
Feed live robot task status and completion into the warehouse system your team already runs.
Tie robot-fulfilled picks back to the order, so customer service has one source of truth.
Push fleet exceptions and safety events to SMS, email or a channel your ops team already watches.
Concrete outcomes from taking the walking out of picking and put-away.
picks per hour once walking time is replaced by robots bringing stock to the person.
throughput through shift gaps and absenteeism, since robots keep moving stock when people can't.
shared aisles once robots sense and slow for people automatically, rather than relying on paint lines.
Directional outcomes based on what autonomous fleet coordination makes possible — we'll size the specific case against your floor and volumes during a pilot.
Watch the fleet coordinate itself live, or tell us about your floor and we'll shape a pilot around it.