Saudi Arabia Programme · Via Project Partner

Turnkey Smart Farming Solutions
Water Management & Agrometeorological Monitoring

Field hardware + client-owned cloud platform · Turnkey supply through our project partner.

Water management and agrometeorological monitoring supplied for Saudi Arabia through our project partner.
Phase 1 is in operational use at the end user.
Phase 2 upgrade is complete and released to our partner;
Phase 3 end-user deployment is pending while irrigation scope is negotiated.

P1Live at end user
P2With partner pre-deploy
P3Irrigation in discussion
🇸🇦 Saudi Arabia — Phase 1 in use
  • Water Management — Solar self-powered LoRa field nodes (Phase 1, in use at end user)
  • Agrometeorological Monitoring — Solar self-powered station (Phase 1)
  • Dashboard with Saudi Arabia farm map — natively localised (Phase 1 fixed-scale view)
  • 10 LoRa soil sensors: temp, humidity, pH, EC, N, P, K
  • PC + Tablet + Mobile tri-terminal remote control
  • Real-time alerts & historical data reporting

Phase 2 upgrade (with project partner)

  • Interactive zoomable farm map — replaces Phase 1 fixed-scale map view
  • Five-layer soil profile — 20 / 40 / 60 / 80 / 100 cm (100 cm total)
  • Redesigned water-management & agrometeorological dashboards
🎓
Xi'an Blaze Automation Technology × Xi'an Jiaotong University Research-backed engineering · Academic credibility for government procurement

Standard turnkey scope covers equipment, wireless field network, gateway uplink and cloud commissioning. Civil works, earthworks and power/cable trenching are generally by the client or local contractor unless explicitly added to the contract. Illustrations in the technical sections below were captured during trial operation and acceptance at our Xi'an facility — the same hardware and software supplied to the programme.

P1
Operational at end user
P2
Upgrade with project partner
P3
Irrigation — in discussion
24/7
Cloud access & alerts
System Architecture — Concept & Design

How the Platform Connects Field, Network & Cloud

High-level view of the intelligent agriculture stack: a LoRa Self-organizing Network, secure uplink to the client-owned cloud, and layered monitoring for water-management automation plus environmental sensing — engineered for remote farms with minimal cabling.

📡 System Architecture — LoRa · Cloud · Multi-Terminal
🌦️ Agrometeorological Monitoring — 12+ Parameters
Intelligent Agriculture Smart Water Management Architecture
Agrometeorological Monitoring — 12+ environmental parameters
Complete LoRa transmission chain: 10 solar-powered wireless soil collectors → LoRa Gateway → Ethernet → Client-owned Cloud Platform → operator clients (PC, tablet, mobile). Automation with optional electromagnetic valve control across zones — one logical system from edge to dashboard.
Air temperature & humidity · Wind speed & direction · Rainfall & snow · Light intensity · Atmospheric pressure · CO₂ · O₃ · UV · Evaporation · Total irradiation. Solar-powered stations — zero wiring to the grid — suited to desert and open-field deployments.

Diagrams and product views from trial operation and acceptance at Blaze Xi'an facility — same systems supplied for the Saudi Arabia programme.

Phase 1 Platform — Operational Configuration

Operator Dashboards — Saudi Arabia Configuration

Water management and agrometeorological monitoring on one platform — PC, tablet, and mobile stay synchronised. These are not mock-ups or renders.

Water Management — Phase 1
Saudi Arabia Smart Agriculture Water Management Dashboard
Saudi Arabia map configuration — soil and irrigation-related signals with real-time data and alerts (Phase 1: fixed-scale map view). Captured during Xi'an facility acceptance; same platform in use at the end user.
Agrometeorological Monitoring — Phase 1
Saudi Arabia Agricultural Meteorological Station Dashboard
Same deployment — meteorological parameters and alarm thresholds. Captured during Xi'an facility acceptance; same platform in use at the end user.

Genuine product interfaces and hardware, photographed during trial operation and acceptance at Blaze Xi'an facility. Same systems supplied for the Saudi Arabia programme; Phase 1 is in operational use at the end user.

System Components

Every Component, Engineered & Tested

Field hardware for Phase 1 — photographed during trial operation and acceptance at our Xi'an facility. Same equipment supplied for the Saudi Arabia open-field programme.

Water Management Field Hardware
💧 Water Management — Field Sensor Units
Each unit is solar self-sufficient in the field: LoRa wireless module + solar panel + lithium battery + multi-parameter soil detector (temperature, humidity, pH, EC, N, P, K) at a single measurement depth (Phase 1 baseline). No mains power or cable trenching to nodes. Deploy as cluster networks in days. Weatherproof — operates in full sun and rain; photos from Xi'an facility acceptance testing.
Smart agriculture system field hardware — complementary view
🔧 Field Hardware — Companion View
Companion hardware from the same Phase 1 system — Xi'an facility acceptance; supplied for the Saudi Arabia programme.
Phase 2 — Client-Commissioned Upgrade

Upgrade Platform — Saudi Arabia Configuration

After Phase 1, the end user commissioned a full system upgrade on the same client-owned cloud platform. Development is complete; these screens show the rebuilt operator experience — an interactive zoomable farm map (replacing the Phase 1 fixed-scale view), five-layer soil sensing at 20 / 40 / 60 / 80 / 100 cm and redesigned dashboards. Formal upgrade for the same Saudi open-field programme; demonstrated and released to our project partner — end-user deployment pending, irrigation scope under discussion.

Software Dash Board - Water Management (P2)
Saudi Arabia Smart Agriculture Soil Parameters Monitoring Dashboard — Phase 2
Map & soil UI. Interactive zoomable Saudi Arabia farm map (Phase 2) with per-node drill-down; dashboard shows five soil layers at 20 / 40 / 60 / 80 / 100 cm — temperature, humidity and SWS curves plus real-time alerts. Phase 2 upgrade platform; with project partner, pending end-user rollout.
Software Dash Board - Agrometeorological Monitoring (P2)
Saudi Arabia Agricultural Meteorological Station Dashboard — Phase 2
Agrometeorological dashboard. Same programme — redesigned station view with rainfall, wind, temperature, humidity and alert thresholds aligned to the Phase 2 platform. With project partner, pending end-user rollout.
Phase 2 — Field Hardware

Upgrade Components — Engineered & Tested

Phase 2 field hardware photographed during trial operation and acceptance at our Xi'an facility — including multi-layer soil nodes (five depths, 100 cm profile) supplied for the Saudi Arabia open-field programme. Release is with our project partner; end-user field deployment is pending.

Hardware - Water Management (P2)
Phase 2 Water Management — multi-node soil monitoring field units
💧 Water Management — Multi-Node Soil Monitoring Units
Cluster of solar-powered LoRa soil monitoring nodes with five-layer soil profiling — measurements at 20 / 40 / 60 / 80 / 100 cm depth (20 cm layer spacing, 100 cm total) for temperature, humidity and derived soil-water storage (SWS) per layer. Numbered field units for scalable open-field deployment; replaces Phase 1 single-depth sensing. No mains power or cable trenching to each node. Photographed during Xi'an facility acceptance testing; supplied as part of the Phase 2 upgrade for the Saudi Arabia programme.
Hardware - Agrometeorological Monitoring (P2)
Phase 2 Agrometeorological Monitoring — solar meteorological station
🔧 Agrometeorological Monitoring — Solar Meteorological Station
Solar self-powered agrometeorological station with integrated sensor suite and wireless uplink — rainfall, wind, temperature, humidity and related parameters for field alarm thresholds. Same Phase 2 upgrade line; photographed during Xi'an facility acceptance; with project partner, pending end-user rollout.
China · Facility-Proven Greenhouse Line

Turnkey Smart Greenhouse Solutions
RS485 In-Greenhouse · 4G to Cloud

Integrated environmental control for protected cultivation — engineered and demonstrated in China.

Blaze delivers smart greenhouse systems for domestic farms and demonstration facilities: multi-parameter sensing, fertigation and climate coordination, and stage-matched lighting — RS485 / Modbus RTU inside each greenhouse, 4G to a client-owned cloud platform, one integrator from design through commissioning.

🏠Smart Greenhouse — China
  • RS485 / Modbus RTU device network inside the greenhouse
  • 4G uplink to client-owned cloud platform
  • Fertigation, climate and stage-matched grow lighting
  • PC, tablet and mobile dashboards
  • Xi'an Jiaotong University R&D partnership
🎓
Xi'an Blaze Automation Technology × Xi'an Jiaotong University Research-backed engineering · Domestic demonstration & project delivery
1Integrator
turnkey
RS485In-greenhouse
Modbus RTU
4GSite to
remote link
CloudClient-owned
cloud platform

Illustrations in this brochure were captured during trial operation, acceptance and reference deployments at our Xi'an facility and partner sites in China — not overseas field programmes unless stated.

20
Green Houses
4+1
Climate · water · light · air
Stages
Adaptive grow lighting
4G
Site → remote cloud
Smart Greenhouse — System Overview

What We Integrate Inside the Greenhouse

Under cover, water, nutrition, temperature, humidity, CO₂, light quality and airflow are managed as one stack. Inside the greenhouse: sensors, actuators and controllers on RS485 / Modbus RTU. From site to remote: on-site gateway/controller reaches the client-owned cloud over 4G — operators access dashboards from anywhere.

Irrigation
Valves and moisture loops on the in-greenhouse RS485 bus; schedules and alarms via 4G to cloud.
Climate
Ventilation and humidity actuators on RS485; unified controller, 4G backhaul to one cloud tenant.
Lighting
Stage-matched spectra on RS485; multi-bay programmes, remote view/control over 4G.

Xi'an Blaze partial product introduction (April 2022) + in-house demonstration material.

Greenhouse Environment

Greenhouse Growth Environment

This system can intelligently regulate water, fertilizer, temperature, light, and air required for plant growth, meeting the optimal growth needs of plants at different stages of development, thus realizing intelligent control of the plant growth environment.

Greenhouse growth environment control Smart Agriculture Cloud Control System
Automated Greenhouse — controlled climate and autonomous environmental control Automated Greenhouse

Photographed during trial operation and acceptance at Blaze Xi'an facility — in-house demonstration material.

Supplemental Grow Lighting

Stage-Matched Lighting — Intensity & Spectrum

Building on the system overview above, this section focuses on supplemental grow lighting — often quoted and commissioned as its own subsystem next to the wider climate / fertigation stack. The idea is straightforward: adjust both light intensity and spectral composition so illumination tracks each plant growth stage — not one fixed recipe for the full cycle.

Greenhouse lighting — intensity and spectrum settings by growth stage
Growth-stage lighting profiles — spectral mix reference

Figures from our product introduction deck. Other greenhouse readouts may appear in the same frames, but the story is stage-adaptive photometrics, separate from the China greenhouse

Reference Portfolio

Protected Cultivation — Reference Portfolio

Portfolio stills — capability references from our technical library, domestic greenhouse and demo-facility references — a total of 20 greenhouses.

Reference — open-field scale project
Reference — greenhouse cropping and product portfolio

Civil works, greenhouse shells and mains distribution follow the same division of responsibility as stated in the hero section unless the contract expands our scope.