Design of IoT-Based Automatic Rain-Gauge Radar System for Rainfall Intensity Monitoring-Reference-Cited by-同舟云学术

Design of IoT-Based Automatic Rain-Gauge Radar System for Rainfall Intensity Monitoring

Published:2023-11-27 Issue: Volume: Page:215-230
ISSN:2326-6139
Container-title:Innovations in Machine Learning and IoT for Water Management
language:
Short-container-title:

Author:

Setiawan Ahmad Budi¹,Ruhiyat Danny Ismarianto²,Syamsuddin Aries³,Waluyo Djoko¹,Ardison Ardison¹

Affiliation:

1. The Institute of Public Governance, Economy, and Community Welfare, Indonesia

2. South Tangerang Institute of Technology, Indonesia

3. Distric Government of Blitar, Indonesia

Abstract

The occurrence of climate change has become a global problem. These environmental problems then cause many problems for human life such as crop failure in the agricultural sector, the loss of many animal species that are beneficial to human life either directly or indirectly, seasonal changes, and even the occurrence of droughts and irregular season, so this will be difficult activity of human life. Therefore, a rain gauge is needed, which is a tool used to measure rainfall in a location at a certain period of time. This information can be used for various purposes in the community. However, the information generated by these devices also affects the quality of wireless signal transmissions such as free space optics (FSO), GSM, satellite, and outdoor WiFi. This research project aims to create prototypes of IoT-based devices and systems to detect and record rainfall that occurs using a tool created in this research project. The resulting data can be utilized by the community through the website and mobile application.

Publisher

IGI Global

Reference24 articles.

1. Aryastana, P., & Tasuku, T. (2010). Characteristic of Rainfall Pattern Before Flood Occur in Indonesia Based on Rainfall Data. GSMaP, 7, 1–4.

2. Chui, M., Löffler, M., & Roberts, R. (2015). The Internet of Things. McKinsey Quarterly.

3. Preface

4. Daucik, K. (2011). Revised Release on the Pressure along the Melting and Sublimation Curves of Ordinary Water Substance. The International Association for the Properties of Water and Steam. IAPWS R14-08.

5. EmamA. R.MishraB. K.KumarP.MasagoY.FukushiK. (2016). Impact assessment of climate and land-use changes on flooding behavior in the upper ciliwung river. Indonesia Water.