In this study, the morphology and antioxidant content of shiitake mushrooms (Lentinula edodes) cultivated in smart farms and general farms have been compared. With regard to morphology, mushrooms produced in the smart farm system exhibited a slightly thicker and wider pileus and thicker and longer stipe than those in the general farm system. The stipe in the mushrooms from moderate-sized farms was harder, because the low relative humidity of cultivation rooms could induce mushroom tissue to harden. With regard to the antioxidant content, the free radical scavenging activity was evaluated by the DPPH assay. Among the various treatments, hot water extracts of freeze-dried shiitake produced from smart farms exhibited the highest DPPH value of 37.8%. In contrast, the lowest activity of 12.2% was observed in a 70% fermented alcohol extract of shiitake that was dried by hot air. The polyphenol content was higher in hot water extracts than in 70% fermented alcohol extracts. Additionally, the polyphenol content was higher in the freeze-dried samples than in hot-air dried ones. The smart-farm system was preferred over the general cropping system for cultivating shiitake mushrooms, because the antioxidant activity and polyphenol content of mushrooms from the smart-farm system was better; the functionality of this system was more improved than that of the general cropping system, and it enables mushrooms to be cultivated more efficiently. The antioxidant content is represented as the mean±SD of three replicates. Different letters indicate significant differences among samples, i.e., p<0.05.

In this study, shiitake mushrooms (Lentinula edodes) cultivated in smart-farm and general farm were compared in morphology and physiology. In morphology, mushrooms produced in smart farm system showd a little bit thicker and wider pileus and thicker and longer stipe compared with those produced from general farm. The hardness of stipe was higher in the mushrooms from moderate farm, since low relative humidity in cultivation rooms can induce the mushroom tissue harder. In the aspect of physiology, the free radical scavenging activity was evaluated by DPPH assay. Among the various treatments, hot water extracts of freeze-dried shiitake produced from smart farm represented the highest DPPH value as 37.8%. In contrast, 70% ferment alcohol extract of shiitake which was dried by hot air showed the lowest activity value of 12.2%. The hot water extracts showed higher polyphenol contents than 70% ferment alcohol extracts. And the freeze-dried samples showed higher polyphenol contents than hot-air dried ones. When cultivating the shiitake by the smart was sold rather than cultivating with the general cropping system, using the system, the antioxidant activity and polyphenol content makes the mushroom in which the functionality improves more highly than me and general cropping system and it will be helpful.

As IoT(Internet of Things) technology evolves and spreads, various applications for remote sensing and controlling have emerged. Among them, smart farm is an example of applying IoT technology to agriculture. It is a technology to enhance the competitiveness of agriculture by informing the process of production, distribution and consumption of various crops. In particular, micro smart farm which applies the automatic control technology of the production process to home gardening also appeared. In this paper, a method of developing a serious game system for cultivating that integrates reality and virtual by combining smart farm technology and game is proposed. By changing automatic control of smart farm to user control using game interface, user participation and immersion for cultivating can be induced.