Temperature and Humidity Monitoring in Hydroponic Cultivation Based on Internet of Things: Dataset Development for Smart Agriculture
This research is a continuation of the previous research, entitled "Development of Hydroponic Application based on Web and Internet of Things for the Community to Monitor pH and Total Dissolved Solids." Not only pH and Total Dissolved Solids (TDS) need to be monitored, but also temperature...
Saved in:
| Main Authors: | , |
|---|---|
| Format: | Article |
| Language: | English |
| Published: |
LPPM ISB Atma Luhur
2025-01-01
|
| Series: | Jurnal Sisfokom |
| Subjects: | |
| Online Access: | https://jurnal.atmaluhur.ac.id/index.php/sisfokom/article/view/2346 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| _version_ | 1823856527790833664 |
|---|---|
| author | Simon Prananta Barus Jeriko Ichtus Seo |
| author_facet | Simon Prananta Barus Jeriko Ichtus Seo |
| author_sort | Simon Prananta Barus |
| collection | DOAJ |
| description | This research is a continuation of the previous research, entitled "Development of Hydroponic Application based on Web and Internet of Things for the Community to Monitor pH and Total Dissolved Solids." Not only pH and Total Dissolved Solids (TDS) need to be monitored, but also temperature and humidity. This research aims to produce a temperature and humidity monitoring application (in addition to pH and TDS which already exist) in hydroponic cultivation and complete the dataset that supports smart agriculture. The research method includes literature study, hardware development using NodeMCU ESP8266 microcontroller and DHT11 sensor, web-based software development with JavaScript on the Front-End side, PHP on the Back-End side, Apache as Web Server, and MySQL as database management system (DBMS), as well as the implementation stage, integration, system testing and report writing. The results of the research show that the developed system can monitor temperature and humidity in real-time with a good level of accuracy. Not only that, this system can produce a hydroponic dataset that includes temperature and humidity parameters, which can be used for data analysis and improvement of hydroponic management. Thus, this study successfully expanded the scope of the hydroponic monitoring system by adding temperature and humidity parameters. This study contributes to optimizing the hydroponic cultivation system and supporting the development of data-based smart agriculture. Further research will integrate more monitoring parameters, conduct direct hydroponic cultivation trials, and apply artificial intelligence such as machine learning and deep learning to improve efficiency and effectiveness in hydroponic cultivation. |
| format | Article |
| id | doaj-art-b97e996fa4c94af29330297a67d1c028 |
| institution | Kabale University |
| issn | 2301-7988 2581-0588 |
| language | English |
| publishDate | 2025-01-01 |
| publisher | LPPM ISB Atma Luhur |
| record_format | Article |
| series | Jurnal Sisfokom |
| spelling | doaj-art-b97e996fa4c94af29330297a67d1c0282025-02-12T07:27:38ZengLPPM ISB Atma LuhurJurnal Sisfokom2301-79882581-05882025-01-01141636810.32736/sisfokom.v14i1.23462009Temperature and Humidity Monitoring in Hydroponic Cultivation Based on Internet of Things: Dataset Development for Smart AgricultureSimon Prananta Barus0Jeriko Ichtus Seo1Informatics Study Program, Faculty of Science, Computers and Mathematics, Matana UniversityInformatics Study Program, Faculty of Science, Computers and Mathematics, Matana UniversityThis research is a continuation of the previous research, entitled "Development of Hydroponic Application based on Web and Internet of Things for the Community to Monitor pH and Total Dissolved Solids." Not only pH and Total Dissolved Solids (TDS) need to be monitored, but also temperature and humidity. This research aims to produce a temperature and humidity monitoring application (in addition to pH and TDS which already exist) in hydroponic cultivation and complete the dataset that supports smart agriculture. The research method includes literature study, hardware development using NodeMCU ESP8266 microcontroller and DHT11 sensor, web-based software development with JavaScript on the Front-End side, PHP on the Back-End side, Apache as Web Server, and MySQL as database management system (DBMS), as well as the implementation stage, integration, system testing and report writing. The results of the research show that the developed system can monitor temperature and humidity in real-time with a good level of accuracy. Not only that, this system can produce a hydroponic dataset that includes temperature and humidity parameters, which can be used for data analysis and improvement of hydroponic management. Thus, this study successfully expanded the scope of the hydroponic monitoring system by adding temperature and humidity parameters. This study contributes to optimizing the hydroponic cultivation system and supporting the development of data-based smart agriculture. Further research will integrate more monitoring parameters, conduct direct hydroponic cultivation trials, and apply artificial intelligence such as machine learning and deep learning to improve efficiency and effectiveness in hydroponic cultivation.https://jurnal.atmaluhur.ac.id/index.php/sisfokom/article/view/2346datasethumidityinternet of thingsmonitoringtemperature |
| spellingShingle | Simon Prananta Barus Jeriko Ichtus Seo Temperature and Humidity Monitoring in Hydroponic Cultivation Based on Internet of Things: Dataset Development for Smart Agriculture Jurnal Sisfokom dataset humidity internet of things monitoring temperature |
| title | Temperature and Humidity Monitoring in Hydroponic Cultivation Based on Internet of Things: Dataset Development for Smart Agriculture |
| title_full | Temperature and Humidity Monitoring in Hydroponic Cultivation Based on Internet of Things: Dataset Development for Smart Agriculture |
| title_fullStr | Temperature and Humidity Monitoring in Hydroponic Cultivation Based on Internet of Things: Dataset Development for Smart Agriculture |
| title_full_unstemmed | Temperature and Humidity Monitoring in Hydroponic Cultivation Based on Internet of Things: Dataset Development for Smart Agriculture |
| title_short | Temperature and Humidity Monitoring in Hydroponic Cultivation Based on Internet of Things: Dataset Development for Smart Agriculture |
| title_sort | temperature and humidity monitoring in hydroponic cultivation based on internet of things dataset development for smart agriculture |
| topic | dataset humidity internet of things monitoring temperature |
| url | https://jurnal.atmaluhur.ac.id/index.php/sisfokom/article/view/2346 |
| work_keys_str_mv | AT simonpranantabarus temperatureandhumiditymonitoringinhydroponiccultivationbasedoninternetofthingsdatasetdevelopmentforsmartagriculture AT jerikoichtusseo temperatureandhumiditymonitoringinhydroponiccultivationbasedoninternetofthingsdatasetdevelopmentforsmartagriculture |