CEA Control Platform

One Platform.

Total Control.

Say goodbye to scattered monitoring tools and manual inspections — Syncea CEA Platform lets you manage your entire greenhouse environment, equipment, crops, and robots from a single screen.

⏱️

<1s

Anomaly Response

🔄

24/7

Unattended Operation

🌡️

±0.5°C

Climate Precision

📉

>30%

Efficiency Gain

Request Demo

Core Value

Six Capabilities, Six Pain Points Solved

Operations Dashboard: Full Picture at a Glance

💥 Data scattered across multiple systems — managers need to switch back and forth to understand greenhouse status

✅ Unified dashboard integrates climate trends, alarm summaries, device status, energy consumption, and automation timelines — key metrics at a glance.

Fragmented Data

Real-time environmental data collection, centralized storage, trend visualization, and full history traceability

Tedious Manual Control

One-click control of all equipment from phone or computer with sub-second status sync

High Manual Labor Cost

Automation strategies run 24/7 — condition-based, scheduled, and curve-following modes

Late Anomaly Detection

Dual-layer alerts with sub-second response — hard safety limits plus flexible custom rules

Repetitive Labor Shortage

Unified robot fleet scheduling — automated task planning for harvesting, spraying, and inspection

System Reliability

Your System, Always Online

Even during management interface maintenance, automated control continues uninterrupted — zero production impact.

Fault Isolation

Control engine runs independently from the web interface — neither affects the other

Millisecond Sync

Management interface always shows the latest state — zero-delay decision making

Elastic Scaling

Scale web services on demand as your business grows — zero downtime

WEB LAYER

Next.js · PM2 Cluster

Redis Sync

AUTOMATION WORKER

Independent Process · Never Stops

MQTT v5

EDGE GATEWAY

BLE Mesh · Local Fallback

Seamless Control

One Tap, Precise Execution

From a single tap on your phone to a fan speed adjustment in the greenhouse — all the complexity in between is completely transparent to you.

STEP 01

Operate

USER

Tap "Turn on Fan 80%" on phone/computer

SYS

UI shows change instantly (optimistic update)

STEP 02

Send

USER

Operation confirmation

SYS

System translates to IoT standard command

STEP 03

Deliver

USER

— (transparent)

SYS

Command delivered to edge gateway via secure MQTT channel

STEP 04

Execute

USER

Device status updates to "Running"

SYS

Physical relay actuates, gateway confirms

Anti-Rollback

Dual-write mechanism ensures UI state never reverts after refresh

Offline Protection

Edge gateway automatically switches to local conservative control

Full Audit Trail

Every command is logged for complete operational traceability

Digital Twin

Validate in Virtual Greenhouse First, Then Deploy to Reality

The digital twin engine simulates your greenhouse environment and robot operations 1:1 — every strategy adjustment is evidence-based.

Environment Simulation

Want to test an "auto-start heater when night temperature drops to 18°C" strategy? Run it in the digital twin, observe real-time temperature curve response, and deploy with one click after confirmation.

28.3°C

72%

850 lux

0.8 m/s

Temperature · Humidity · CO₂ · Light

Heater warming · Fan cooling · Humidifier moisturizing

WebSocket real-time simulation state push

Robot Simulation

Adding two new harvesting robots — will paths conflict? Verify multi-robot coordination in simulation, optimize task allocation, then deploy.

Robot Path Dock

Grid-based greenhouse map + intelligent collision avoidance

Harvesting · Spraying · Inspection full-process rehearsal

Auto dock charging · Low-battery pause and resume

Enterprise Trust

From One Greenhouse to One Hundred — Architecture Scales with You

Offline Resilience

Cloud handles complex algorithms (PID control, curve tracking)
Edge gateway auto-takes over basic control after >30s without cloud heartbeat

✅ Crop safety is always guaranteed, even during network fluctuations

Data Isolation

Each organization's data is fully isolated and invisible to others
Role-based access: Admin / Operator tiered authorization

✅ Multiple greenhouse bases share one system without interference

Full Traceability

All operations, alarms, and device commands are fully recorded
Multi-dimensional energy analysis: identify high-consumption equipment, optimize energy costs

✅ Audit compliance worry-free, energy costs continuously optimized

Architecture

Engineered for Industrial-Grade Reliability

Dual-Process Fault Tolerance

PM2 Cluster + Isolated Worker · Redis Cross-Process State Snapshots

Hybrid Time-Series Storage Engine

InfluxDB High-Freq Ingestion · MySQL ACID Transactions · Redis Hot Cache

Triple-Redundant IoT Channels

MQTT v5 QoS2 · BLE Mesh Local Fallback · WebSocket Real-Time Push

Millisecond Control Loop

Optimistic Updates · Dual-Write Flash Prevention · Hardware ACK Receipts

End-to-End Type Safety

TypeScript Strict · Drizzle ORM · Compile-Time i18n Validation

Zero-Trust Multi-Tenant Isolation

JWT Org-Scoped Auth · Row-Level Data Isolation · 46 FK Constraints

Ready to Experience Next-Gen Greenhouse Management?

Schedule Platform Demo