Realtime Monitoring Dashboard

Plate preparation line overview

One screen for customer demo: system status, ASRS occupancy, AMR mission queue, station layout, current AMR position and live traceability events.

Plant Layout / Machine Call Points

Clickable demo machine map based on BCL, 3G AFL and 4G AFL process names. IDs shown here are demo IDs and can be replaced with official customer IDs.

Layout Ready

Active Mission

Current AMR mission state machine.

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Mission Queue

Demo dispatch queue created by ASRS or AMR GUI.

ASRS Bay Occupancy

Occupancy by bay.

ASRS GUI

Scan QR / open drawer / register plate

Operator-facing flow for incoming plates: scan router or QR, select/open drawer, confirm plate load, register slot in database, then request AMR pickup for laser or process station.

Incoming Scan & Plate Registration

Supports scanner wedge input, manual key-in, or future camera QR integration.

Waiting Scan

Plate / QR ID

Router / Traveler

Route

Laser Required?

Priority

Operator ID

ASRS Drawer / Slot Layout

Select a drawer, then open / load / register. Green means occupied, amber means reserved for AMR.

Selected Drawer Detail

Drawer state, plate record and available actions.

No drawer selected

Destination Selection

For POC, dispatch can be triggered from this web app. Phase 2/3 can trigger from machine HMI or MES.

Target Process / Machine

POC logic: operator selects drawer + destination, then creates a mission. Future logic: machine can request pickup/dropoff directly through machine interface, then the same dispatch API is called automatically.

ASRS Checklist

Demo validation gates before a plate can be released.

AMR Onboard GUI

Call AMR / pickup / dropoff / add machine

Tablet-style AMR GUI for proof-of-concept operation. It can call a mission, choose a machine, run pickup/dropoff steps, and maintain AMR rack or drawer load status.

AMR-01Onboard HMI

Idle

Robot Status

Battery--

Location--

Mode--

Load--

Current Mission Steps

Onboard Rack / Drawer Slots

Touch Controls

Manual Mission Command

Select plate, source, destination and action. This is the POC screen for customer demo.

Plate ID

Action

Source

Destination

Priority

Requested By

AMR / ASRS Options

Switch demo mode to match package discussion.

AMR Option

Mission Queue

Option 1 — Drawer AMR

For higher plate carrying capacity; demo rack view changes to larger drawer capacity.

Option 2 — Compact Rack AMR

Compact blue-base rack concept; demo capacity capped at 4 plate positions.

Add / Edit Machine Call Point

For customer review: add missing machine ID or temporary station without changing source code.

Machine ID

Machine Name

Zone

Call Type

Control Architecture & Flow

Graphical demo logic for software discussion

These diagrams show how the Web App HMI, ASRS, AMR fleet layer, laser/scanner, machine interface, MES and traceability database connect.

Proposed Control Architecture

POC uses this Web App as the main command HMI. Later phases replace manual button triggers with machine / MES interface events.

Plate Handling Flow Chart

Demo logic from incoming plate to ASRS registration, laser decision, AMR pickup and delivery to process station.

POC Demo

Web App and AMR GUI create missions manually. Operator chooses drawer, plate and machine. Good for customer demo and UAT discussion.

Phase 2 Integration

Machine HMI exposes pickup/dropoff call point. Same dispatcher receives machine request and updates machine availability/interlock status.

Phase 3 Integration

MES/WMS schedule controls job priority, recipe route and automatic release. AMR/ASRS events close the traceability loop.

Traceability / Audit Log

Event history and demo database

Every button press writes a timestamped event to show how customer traceability can be presented.

Audit Events

Latest event first.

Demo Plate Database

Current simulated records.

Machine Directory

Source + user-added machine call points.