GREENHOUSE

We provide vision-based phenotyping tools for seedlings and a wide range of ornamental and vegetable crops. These tools can be used for breeding trials, production monitoring, yield prediction, sorting, location-specific fertilization, and more

AI-based computer vision is a powerful tool for greenhouse breeders and growers, offering growth monitoring, quality assurance, resource optimization, disease and pest control, and automated sorting and harvesting. Leading to higher yields and quality with reduced costs and environmental impact

Computer vision systems continuously monitor plant growth, providing data on health, size, and development stages. This information assists in making informed decisions about irrigation, nutrition, and harvesting times
Automated systems evaluate the quality and uniformity of flowers and plants, ensuring consistent product standards. This is particularly valuable for meeting customer expectations and market demands
By monitoring environmental conditions and plant responses, growers can optimize the use of resources like water, nutrients, and energy, leading to sustainable and cost-effective practices
Deep learning algorithms can identify diseases and pests early on by analyzing images of plants. This early detection helps in applying targeted treatments, reducing both cost and environmental impact
Computer vision aids in developing robotic systems for high-throughput sorting machines and precision harvesting, minimizing damage to plants, flowers and fruits

Seedling Measurement Service

The Track32 Seedling Measurement Service is used by breeders and propagators worldwide to count and measure seedlings. You can contact us today for a subscription of your own!

Our Seedling Measurement Service is typically used for breeding trials, production monitoring, and yield prediction. The service provides objective 100% inspection instead of subjective sample measurements, at a fraction of the cost. It can be used with any camera carrier: autonomous greenhouse drones, spraying boom mounts, handheld devices, etc.

The high-end, most scalable option is an autonomous greenhouse drone by Corvus which is visualized here. After each drone flight, the seedling trays are segmented and within each tray, the individual seedlings are counted and measured by size. The output can be used by other software and agronomists to assess seedling performance and optimize production

Drone flight

Tray segmentation

Seedling segmentation

Tray map

Leaf areas and germination rates

flower Growth monitoring

Growth monitoring of flowering plants to predict yield and optimize labor and logistics

Lettuce growth monitoring

We provide lettuce growth monitoring using an autonomous greenhouse drone. This service is used to measure lettuce heads by size and compare that to their expected size. And for anomaly detection: extraordinarily small plants, leaf discoloration, and damage from caterpillars