Abstract
Abstract
The purpose of this study is to developing smart environment systems model for optimization in agriculture is to monitor soil, water, pollution levels, and weather conditions in farming. The monitoring process is carried out to increase the level of agricultural productivity. The model can be used to assist farmers in the decision-making process to cultivate the land and determine the types of commodities to be planted. The method used to develop the model is a descriptive qualitative. The result of the research is a model. Poor pollution levels and relatively erratic weather can worsen the productivity of agricultural land. These conditions make it difficult for farmers to determine the right seeds and fertilizers to use, as well as the right time to start the planting period. Thus the model is expected to support farmers in increasing the quantity and quality of their agricultural products. The model is developed as a part of the implementation of the smart city and internet of things (IoT) concepts which specialize in creating smart environments in agriculture.
Reference29 articles.
1. Photovoltaic Power Potential Analysis in Equator Territorial: Case Study of Makassar City, Indonesia;Sihotang;Journal of Power and Energy Engineering,2017
2. Impact of climate change on streamflow in the tropical lowland of Kapuas River, West Borneo, Indonesia;Herawati;Procedia Engineering,2015
3. Agricultural land conversion, land economic value, and sustainable agriculture: A case study in East Java, Indonesia;Rondhi;Land,2018
4. Small-scale vegetable farmers’ participation in modern retail market channels in Indonesia: the determinants of and effects on their income;Slamet;Agriculture,2017
5. Revenue management for foodstuff production to secure domestic supply in Indonesia;Hisyam;AIP Conference Proceedings,2017
Cited by
2 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献