Smart Data Monitoring Solution of Indoor Farms

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Smart Data Monitoring Solution of Indoor Farms
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Aquaponics
Team Organizations LATERAL
Team Leaders Ed Lisle
Participating Municipalities Portland OR
Status Development
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Description

LATERAL.systems LLC, an AgTech startup, has developed the LATERAL Edge Platform, an edge-based monitoring system designed to enhance the efficiency and sustainability of commercial indoor farms. By continuously monitoring water quality and atmospheric conditions, the platform helps farmers detect and respond to potential imbalances before they cause significant crop damage, reducing waste and increasing yields. The system offers customizable Grow Profiles for various crops and provides real-time alerts, alarms, and actionable mediation options, making it particularly valuable for addressing the challenges faced by novice farm workers. Unlike cloud-based solutions, LATERAL’s edge-based approach ensures reliable data processing even in areas with limited internet connectivity, lowers operational costs, and improves data security. With its innovative tools, LATERAL aims to democratize access to smart monitoring solutions, support food security, and advance the growing indoor farming industry.

Challenges

The LATERAL Edge Platform addresses challenges in the commercial indoor farming industry, including the rapid onset of imbalances that can damage crops within hours, a largely inexperienced workforce struggling to interpret and act on monitoring data, and the lack of reliable internet connectivity on many farms. Traditional manual monitoring methods are inadequate for detecting early warning signs, leading to unnecessary food waste in an industry critical to addressing global food insecurity. Furthermore, the high cost and data latency of existing cloud-based solutions create barriers to widespread adoption, particularly for smaller or resource-constrained farms. Overcoming these challenges requires not only developing accessible, edge-based technology but also designing intuitive systems that train workers to understand data patterns, make informed decisions, and retain knowledge to improve long-term farm productivity.

Solutions

The LATERAL Edge Platform provides a cutting-edge solution to the challenges faced by commercial indoor farms through an edge-based monitoring system that continuously tracks water quality and atmospheric conditions in real time. By locating data collection, storage, and analytics at the source, the platform eliminates the need for high-speed internet, reduces data latency, and ensures cost-effective and secure operations. Its customizable Grow Profiles enable farmers to tailor monitoring parameters to specific crops, offering early alerts and actionable mediation options to prevent crop damage and optimize yields. Additionally, the platform incorporates intuitive dashboards with visual data trends and scaffolding tools to support worker training and retention, fostering a skilled workforce capable of making data-driven decisions. This comprehensive approach not only reduces waste and increases farm efficiency but also democratizes access to advanced AgTech solutions for farms of all sizes.

Major Requirements

The LATERAL Edge Platform requires the development and deployment of modular, interoperable sensor hardware and software capable of continuously monitoring water quality and atmospheric conditions in commercial indoor farms. It necessitates an edge-computing framework to process, store, and analyze data locally, ensuring functionality in environments with limited or unreliable internet connectivity. The system must support customizable Grow Profiles for various crops, provide real-time alerts and mediation options, and feature an intuitive dashboard with visual data trends to assist farmers and train novice workers. Additionally, the project demands a secure and cost-effective design that minimizes operational costs while addressing scalability to meet the needs of diverse indoor farming operations.

Performance Targets

Key Performance Indicators (KPIs) Measurement Methods
  • System Uptime
  • Alert Responsiveness
  • Crop Yield Improvement
  • Waste Reduction
  • Worker Retention Rate
  • Adoption of Custom Grow Profiles
  • System Cost Efficiency
  • Farmer Satisfaction
  • Data Accuracy
  • Market Penetration
  • Percentage of time the monitoring system operates without failure (target: 99.9% uptime).
  • Average time from detection of an anomaly to delivery of an alert to the farmer (target: < 2 seconds for critical alerts).
  • Percentage increase in crop yield per unit area compared to farms using manual monitoring (target: 10–20% improvement).
  • Reduction in the percentage of crop loss due to imbalances or undetected issues (target: 30–50% reduction).
  • Percentage of new farm workers retained beyond 90 days (target: increase from 60% to 80%).
  • Number of new Custom Grow Profiles created by farmers within six months of deployment (target: >50 profiles).
  • Total operational cost savings compared to cloud-based solutions (target: 20–30% reduction in data storage and analytics costs).
  • Percentage of surveyed users reporting improved ease of farm management and decision-making (target: 85% satisfaction rate).
  • Percentage accuracy of sensor data readings compared to laboratory-calibrated instruments (target: >95% accuracy).
  • Number of farms adopting the system within the first year post-launch (target: 50–100 farms).

Standards, Replicability, Scalability, and Sustainability

The hardware components comply with environmental durability standards such as IP65 for water and dust resistance, while the sensors align with ISO calibration standards for accuracy in water quality and atmospheric monitoring. The edge computing framework incorporates software architecture that follows IoT interoperability standards like MQTT and OPC-UA for seamless integration with existing farm systems. Usability design standards, including ISO 9241 for ergonomics, guide the development of intuitive dashboards that support user training and operational efficiency. Together, these standards ensure a robust, secure, and user-friendly system tailored to the unique demands of indoor farming.

Cybersecurity and Privacy

The LATERAL Edge Platform's cybersecurity requirements focus on ensuring the confidentiality, integrity, and availability of critical farm data.

Impacts

The LATERAL Edge Platform has transformative impacts on commercial indoor farming, enhancing food security and sustainability. By providing real-time monitoring and early alerts, the system reduces crop losses, minimizes waste, and increases yields, contributing to more efficient food production. Its edge-based design democratizes access to advanced AgTech solutions, enabling farms in remote or underserved areas to benefit from automated monitoring without reliance on high-speed internet. The platform also fosters workforce development by equipping novice workers with tools and insights to interpret data, improving retention rates and cultivating a skilled agricultural workforce. Additionally, the reduction in water and fertilizer usage aligns with environmental sustainability goals, while cost savings from local data processing and increased farm efficiency improve profitability. Overall, the project supports resilient food systems, reduces food waste, and contributes to the economic viability of indoor farming.

Demonstration/Deployment

A demonstration could involve showcasing these features in a controlled indoor farming environment, illustrating how the platform detects and resolves imbalances, improves crop yields, and supports worker training. To confirm whether a formal demonstration exists, interested parties are encouraged to contact LATERAL.systems LLC through their website