Reliability assessment of agricultural sensors evaluated through algal coverage in hydroponic tomato production systems
Saksonita Khoeurn, No Hyeon Park, Hye Kyoung Jahng, Jaehyuk Jeon, Seungback Jung, Wan-Sup Cho, Yumin Joung, Eunji Lee, Dong Sub Kim

TL;DR
This study explores how algal growth on sensors in hydroponic tomato systems affects sensor data reliability and environmental monitoring.
Contribution
The study introduces algal coverage as a novel indicator for assessing sensor reliability in hydroponic agriculture.
Findings
Sensors with high algal coverage showed higher relative humidity and EC values compared to those with minimal coverage.
Algal coverage may indirectly reflect environmental parameters like relative humidity and EC in hydroponic systems.
Tomato productivity was not significantly affected by algal coverage, suggesting plant adaptation to varying conditions.
Abstract
In modern agricultural systems, hydroponics represents a crucial advancement in integrating digital technologies and precision farming practices for sensor-mediated cultivation. These systems employ continuous environmental monitoring to enhance operational efficiency and promote plant growth. However, environmental factors and technical issues can undermine data integrity because of faulty sensor performance. Detecting sensor malfunctions during cultivation is challenging. This study investigated whether algal coverage patterns on sensor surfaces could explain observed variations in sensor-recorded environmental parameters in rockwool-based hydroponic tomato systems. In a controlled greenhouse setting, 117 environmental sensors continuously monitored root-zone temperature, relative humidity, pH, and electrical conductivity (EC). Despite uniform conditions, substantial sensor data…
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Taxonomy
TopicsInnovations in Aquaponics and Hydroponics Systems · Analytical Chemistry and Sensors · Smart Agriculture and AI
