MROOJX / SAUDI AGTECH

The Future of Smart Hydroponics Starts Here

MroojX is building an intelligent automation platform that redefines hydroponic farming through IoT, edge computing, automation, real-time monitoring, and AI-powered decision making.

5Sensor Domains
24/7Autonomous Monitoring
KSA · GCCFocus Region
MroojX CoreAI ENGINE
pH Level
6.1 optimal
EC
1.8 mS/cm
Water Temp
21.4 °C
Dissolved O₂
8.2 mg/L
Light
640 µmol
Vision

Building the Operating System for Smart Agriculture

Agriculture is entering a new era — one where farms behave less like fixed infrastructure and more like intelligent, responsive ecosystems.

Real-Time Data

Continuous signal from every corner of the farm, not periodic snapshots.

Automation

Systems that act on conditions directly, closing the loop without delay.

Precision Agriculture

Every input — water, nutrients, light — tuned to what the crop actually needs.

Food Security

Resilient, resource-efficient production for a water-scarce region.

The Challenge

Modern Hydroponics Still Depends on Manual Operations

Even advanced hydroponic setups still lean heavily on human judgment — a gap that costs water, nutrients, and time.

Manual pH & EC Adjustment

Technicians test and correct nutrient chemistry by hand, several times a day.

01 · Human Intervention

Water & Nutrient Waste

Without precise feedback, over-dosing and run-off are the default, not the exception.

02 · Resource Loss

Delayed Problem Detection

Issues surface only on the next manual inspection — often after the crop is affected.

03 · Limited Visibility

High Operational Costs

Labor-intensive monitoring scales linearly with farm size — a ceiling on growth.

04 · Operational Cost

Fragmented Visibility

Data lives in disconnected gauges and logbooks instead of one coherent picture.

05 · Data Silos

Inconsistent Yield

Manual variance in inputs translates directly into variance in harvest quality.

06 · Yield Variance
Our Approach

Engineering Intelligence Into Every Farm

A single closed loop connects the physical greenhouse to a decision-making layer — each stage feeding the next.

IoT Sensors

Distributed sensors capture pH, EC, temperature, humidity, light, and flow across every growing zone.

Edge Computing

Raw signals are processed on-site, filtering noise and enabling sub-second local response.

Automation Controllers

Pumps, dosing systems, and climate actuators execute corrections the moment they're needed.

Cloud Platform

Every reading and action is synchronized into a unified, farm-wide operating layer.

AI Analytics

Models learn crop-specific patterns, forecasting issues before they become visible.

Healthier Plants

Consistent, precisely-tuned conditions reduce stress and improve crop uniformity.

Smarter Farms

The loop compounds — every cycle makes the next decision better informed.

Four Intelligence Loops

Four Systems, One Coordinated Farm

Water Intelligence

pH, EC, water level, dissolved oxygen, flow rate, and nutrient dosing — monitored continuously.

Climate Intelligence

Temperature, humidity, air flow, cooling, and ventilation, optimized in tandem.

Lighting Intelligence

Intensity, photoperiod, and LED spectrum tuned for growth stage and energy efficiency.

Operations Intelligence

Live dashboards, alerts, reports, historical trends, and remote monitoring, all in one view.

Platform Overview

A Live Operating View of the Farm

Every sensor, actuator, and model feeds one coherent interface — built for the pace of real decisions.

LIVE · GREENHOUSE 02
pH
0.0
Target range 5.8–6.3
EC
0.0 mS/cm
Stable · last dose 12m ago
Dissolved O₂
0.0 mg/L
Aeration nominal
Water Level
0%
Reservoir B
Temperature
0.0°C
Zone average
Humidity
0%
Within setpoint
Light Intensity
0 µmol
Photoperiod 16h
Flow Rate
0.0 L/min
Main circulation loop
Nutrient Trend — 24H
AI Insights
Nutrient uptake trending 6% above baseline — model suggests holding EC steady.
Predicted humidity drift in Zone 3 within 40 minutes; ventilation pre-adjusted.
Pump 2 duty cycle nominal — no maintenance flag this week.
Technology

The Engineering Underneath

Microcontrollers & IoT Sensors
Dense, distributed sensing across pH, EC, climate, and light — every zone reporting continuously.
Edge Computing
Local inference for real-time response.
Cloud Infrastructure
A unified backbone for every site.
AI Analytics
Pattern recognition across every cycle.
Data Visualization & Mobile Dashboard
The same live picture of the farm, from the control room or a phone in the field.
Automation Controllers
Direct actuation of pumps and dosing.
Wireless Connectivity
Resilient mesh across the greenhouse.
Predictive Intelligence
Forecasting issues before they surface.
Why It Matters

Impact Beyond the Greenhouse

Vision 2030
Aligned with Saudi Arabia's push toward sustainable, technology-driven food systems.
Water
Closed-loop precision dosing reduces water and nutrient consumption at the source.
Yield
Consistent conditions translate into more predictable, higher-quality harvests.
Efficiency
Lower operational overhead and environmental footprint per unit produced.
Roadmap

From Research to a Farm-Wide Ecosystem

Phase 01

Research

Studying crop physiology, sensor accuracy, and control theory for hydroponic systems.

Phase 02

Prototype

Building the first closed-loop sensor and controller stack in a working test cell.

Phase 03

Pilot Deployment

Running the platform in a live commercial greenhouse environment.

Phase 04

Commercial Platform

Hardening the stack for multi-site, production-grade operation.

Phase 05

AI Optimization

Deepening predictive models with data gathered across live sites.

Phase 06

Smart Farm Ecosystem

A fully connected network of intelligent farms, learning from one another.

Future Vision

MroojX is not building another automation controller — it's building the intelligence layer for entire hydroponic ecosystems.

AI Crop Recommendations Predictive Maintenance Computer Vision Autonomous Greenhouse Management Digital Twins Farm-Wide Analytics Multi-Site Management
About MroojX

An AgTech Initiative for the Region's Next Growing Season

MroojX is an AgTech initiative focused on building intelligent technologies that make hydroponic farming more autonomous, efficient, and sustainable — across Saudi Arabia and the wider GCC. We're engineers and growers working at the intersection of embedded systems, cloud infrastructure, and artificial intelligence, building toward farms that manage themselves as well as they manage their yield.