JURNAL SOSIAL HUMANIORA (JSH)

Batu City, which is famous as a tourist city, is not only an urban area. Most of the Batu city area is a rural area, especially the northern area which is included in the Bumiaji sub-district. As a tourist area, Batu City has a large enough economic potential to improve the welfare of its people. Most of the people of Batu city who live in rural areas are fruit and vegetable farmers. Pandanrejo village in Bumiaji sub-district is an example of a strawberry-producing village in Batu city. Various problems are faced by strawberry farmers in Pandanrejo village. One of them is related to the uncertain weather conditions in their village. The ITS Physics department team provides solutions related to these weather conditions with an innovative climate conditioning technology that can be applied in agriculture. This technology is a smart greenhouse in which there is control of environmental conditions for strawberry plants. With the application of smart greenhouse technology, it is expected to increase the productivity of strawberries and the welfare of the farming community of Pandanrejo village, Batu city.

Angelopoulos, C. M., et al (2021), Keeping Data at the Edge of Smart Irrigation Networks: A Case Study in Strawberry Greenhouses, Preprint submitted to Computer Networks.

Aurel, G. I. (2021), Arduino Platform for Optimized Irrigation in Strawberries Fields, 9th International Conference on Modern Power Systems (MPS). DOI:10.1109/MPS52805.2021.9492687

Bona, R., et al (2014), AM fungi and PGP pseudomonads increase flowering, fruit production, and vitamin content in strawberries grown at low nitrogen and phosphorus levels, Mycorrhiza. DOI 10.1007/s00572-014-0599-y

Cecatto, A. P., et al (2013), Culture systems in the production and quality of strawberry cultivars, Acta Scientiarum, Agronomy Maringá, 35(4), 471-478.

Elenzano, J. J., et al (2021), Smart Farming for Lowland Strawberry (Fragaria x Ananassa) Production, Turkish Journal of Computer and Mathematics Education, 12(3), 1797-1804.

Elijah, O., et al (2019), Production of strawberry using internet of things: a review, Indonesian J Elec Eng & Comp Sci, 15(3), 1621-1628.

Fallovo, C., et al (2009), Nutrient solution concentration and growing season affect yield and quality of Lactuca sativa L. var. acephala in floating raft culture, Journal of the Science of Food and Agriculture, 89, 1682-1689.

Indarto, B., dkk (2020), Rancang Bangun Greenhouse dengan Pengondisi Suhu dan Kelembaban Tanah untuk Tanaman Kangkung Berbasis Micro Controller, Penelitian Mandiri Departemen Fisika FSAD ITS (unpublished).

Jeong, Y. K., et al (2019), Analysing the Performance of a Temperature and Humidity Measuring System of a Smart Greenhouse for Strawberry Cultivation, Protected Horticulture, and Plant Factory, 28(2), 117-125. DOI https://doi.org/10.12791/KSBEC.2019.28.2.117

Jones, Jr. and Benton, J. (2004), Hydroponics: A Practical Guide for the Siless Grower, 2nd Ed., CRC Press. Florida. ISBN 9780849331671

Kim, N., et al (2022), Prediction of Greenhouse Strawberry Production Using Machine Learning Algorithm, Journal of Bio-Environment Control, 31(1), 1-7. https://doi.org/10.12791/KSBEC.2022.31.1.001

Kim, S., Lee, M., and Shin, C. (2018), IoT-Based Strawberry Disease Prediction System for Smart Farming, Sensors, 18, 4051. DOI: 10.3390/s18114051

Kruger, E., et al (2012), Influence of growing conditions at different latitudes of Europe on strawberry growth performance, yield, and quality, Journal of Berry Research, 2, 143–157. DOI: 10.3233/JBR-2012-036

Lee, D. and Kim, K. (2022). National Investment Framework for Revitalizing the R&D Collaborative Ecosystem of Sustainable Smart Agriculture, Sustainability, 14, 6452. DOI https://doi.org/10.3390/su14116452

Schattman, R. E., et al (2022), Strawberry Growth under Current and Future Rainfall Scenarios, Water, 14, 313. DOI https://doi.org/10.3390/w14030313

Singh, R., et al (2008), Vermicompost substitution influences growth, physiological disorders, fruit yield and quality of strawberry (Fragaria x ananassa Duch.), Bioresource Technology, 99, 8507–8511.

Tripathy, P. K., et al (2021), MyGreen: An IoT Enabled Smart Greenhouse, IEEE Consumer Electronics Magazine. DOI: 10.1109/mce.2021.3055930

UMM (2018), Bab 3: Deskripsi Wilayah Desa Pandanrejo, Universitas Muhammadiyah Malang (UMM). http://eprints.umm.ac.id/54921/41/BAB%203.pdf

Wahyu, S., Yuliana, A., and Syafaat, M. (2022), Efficiency Testing Of Solar-Powered Smart Green House Systems For Plant Culture, Jurnal Teknik Elektro dan Komputer, 11(1), 9-14

Woo, S., et al (2020), Analyses of Work Efficiency of a Strawberry-Harvesting Robot in an Automated Greenhouse, Agronomy, 10, 1751. DOI: 10.3390/agronomy10111751