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PENERAPAN KONTROL POC TEKNOLOGI NANO DENGAN SMARTPHONE BERBASIS IoT DI ANDALAS HIDROPONIK FARM -, Vauzia -; -, Yulkifli -; Razak, Abdul; Fevria, Resti; Mutiar, Sri
Pelita Eksakta Vol 8 No 01 (2025): Pelita Eksakta, Vol. 8, No. 1
Publisher : Fakultas MIPA Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/pelitaeksakta/vol8-iss01/264

Abstract

Budidaya hidroponik merupakan solusi dari lahan pertanian yang terbatas. Tanaman hidroponik dapat tumbuh optimal jika mendapatkan nutrisi yang cukup dan media tanam yang sesuai, sehingga produktivitasnya dapat dimaksimalkan. Teknologi kontrol dalam aplikasi budidaya hidroponik dari jarak jauh dengan smart phone yang berbasis IoT, termasuk dalam bidang pertanian dan hidroponik yang diterapkan. Teknologi ini dapat diandalkan untuk efisiensi dan efektifitas budidaya hidroponik, karena dengan adanya Teknologi ini pelaku hidroponik menjadi terbantu dalam pengontrolan pemberian nutrisi. Andalas Hydroponik Farm adalah kelompok mitra tempat dilaksanakan PKM ini. Hasil pelaksanaan PKM memberikan manfaat bagi mitra karena menjadi lebih efektif dan efisien dengan mengaplikasikan teknologi pengontrolan POC teknologi nano dengan sensor berbasis IoT produksi sayuran yang lebih baik, produktif, ramah lingkungan
Making Organic Aloe Vera Soap to Improve Bundo Kanduang Skills in Producing Environmentally Friendly Local Products DI Nagari Padang Sibusuk -, Vauzia -; Fevria, Resti; Supriyanti, Juli; Hendrita, Vivi; Putri, Santi Diana; Jarlis, Roni; Syuhada, Fildza Arief; Alatas, Andi
Pelita Eksakta Vol 8 No 01 (2025): Pelita Eksakta, Vol. 8, No. 1
Publisher : Fakultas MIPA Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/pelitaeksakta/vol8-iss01/268

Abstract

Soap has an important role in daily life, especially for cleaning hands from dirt, bacteria and germs caused by various activities. One plant that has great potential in making soap is Aloe vera (aloe vera). The saponin content in Aloe vera has natural antibacterial properties, making it the right choice as a raw material for making soap. Apart from being beneficial for skin health, the use of Aloe vera can also contribute to preserving the environment. In Sijunjung Regency, the use of Aloe vera-based soap is still not popular, especially among the public. Therefore, this service program aims to introduce the benefits of Aloe vera to the community and Bundo Kanduang, so that they care more about health and the environment. Developing skills in utilizing the potential of Aloe vera for making soap can be the right choice to improve the household economy. The methods used in this activity include lectures, demonstrations, questions and answers, and guided practice. Evaluation of the results of the activity showed an increase in participants' knowledge, skills and motivation in preserving the environment by using Aloe vera as a natural soap base that is environmentally friendly and has economic value
Application of IoT-Based pH and TDS Sensors for Optimization of Hydroponic Vegetable Production at Blasta Hidroponik -, Vauzia -; Yulkifli, Yulkifli; Fevria, Resti; Jarlis, Roni
Pelita Eksakta Vol 8 No 2 (2025): Pelita Eksakta, Vol. 8, No. 2
Publisher : Fakultas MIPA Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/pelitaeksakta/vol8-iss2/296

Abstract

The implementation of IoT-based technology in hydroponic cultivation has become increasingly important to optimize vegetable production and ensure food security. This community service activity aimed to implement pH and TDS (Total Dissolved Solids) sensors based on Internet of Things (IoT) technology at Blasta Hidroponik, Padang City. The method involved four stages: socialization, technology design, implementation assistance, and monitoring evaluation. The target partner was Blasta Hidroponik, a hydroponic business located on Jl. Sumatera No. 1 Ulak Karang, Padang City, with a cultivation area of ±200 m². The implemented system included pH sensors with 0-14 pH measurement range (±0.1 accuracy), TDS sensors with 0-9999 ppm range (±2% accuracy), ESP32 microcontroller for WiFi connectivity, and Android-based mobile application for real-time monitoring. Results showed significant improvements in productivity (44% increase), cultivation cycle acceleration (8%), resource efficiency (25% water savings, 30% nutrient reduction), and labor optimization (reduced monitoring time from 3 hours to 30 minutes daily). Knowledge transfer was successful with 78% improvement in partner's understanding through pre-test and post-test evaluation. The IoT-based monitoring system proved effective in maintaining parameter stability with pH fluctuation reduced from ±1.2 to ±0.3 units, supporting optimal nutrient absorption and plant growth consistency
Co-Authors -, Yulkifli - Abdul Razak Andi Alatas, Andi Fevria, Resti Putri, Santi Diana Roni Jarlis Sri Mutiar, Sri Supriyanti, Juli Syuhada, Fildza Arief Vivi Hendrita Yulkifli Yulkifli