Browse > Article
http://dx.doi.org/10.15207/JKCS.2018.9.6.061

The Development of Remote Monitoring System for Storm Overflow Chamber Device  

Jeon, In-Jae (Hye Sung New Technologe)
Kim, Ki-Bong (Dept. of Computer Information, Daejeon Health Institute of Technology)
Publication Information
Journal of the Korea Convergence Society / v.9, no.6, 2018 , pp. 61-68 More about this Journal
Abstract
This paper propose the remote monitoring system using LoRa networks about storm overflow chamber, which is a device designed to discharge rainwater directly to a sewage treatment plant when it reaches a certain amount of rainfall during precipitation. In this system, when the information produced by the sensor is transmitted to the LoRa network server and updated, the application server can automatically receive data through the implemented communication interface. The application server carries out management functions of storm overflow chamber devices and subscription information, collects measured flow rate and opening-closing information, and provides statistical information using the collected data. The android app performs a firebase-based notification function to prompt the user of malfunctioning of the storm overflow chamber device.
Keywords
storm overflow chamber; sewer pipes; flow rate; remote monitoring; LoRa; IoT;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
연도 인용수 순위
1 HyeSung New Technology. (2017). YouTube, https://www.youtube.com/watch?v=mhVaF3rPkDE
2 R. S. Sinha, Y. Wei & S. H. Hwang. (2017). A survey on LPWA technology: LoRa and NB-IoT. ICT Express, 3(1), 14-21. DOI : 10.1016/j.icte.2017.03.004   DOI
3 N. Ducrot, D. Ray, A. Saadani, O. Hersent, G. Pop & G. Remond. (2016). LoRa Device Developer Guide. Orange, Connected Objects and Partnership. Technical Document.
4 L. Vangelista., A. Zanella., & M. Zorzi. (2015). Long-Range IoT Technologies: The Dawn of LoRa. Future Access Enablers for Ubiquitous and Intelligent Infrastructures, Fabulous 2015, 159, 51-58. DOI : 10.1007/978-3-319-27072-2_7
5 S. K. Park. (2017). A Design and Implementation of an Integrated Gateway for Stand-alone LoRa Wide Area Network. Master's thesis. Incheon National University, Incheon.
6 X. Wang, M. Fei & X. Li. (2008). Performance of chirp spread spectrum in wireless communication systems. 11th IEEE Singapore International Conference on. DOI : 10.1109/ICCS.2008.4737227
7 J. M. Jacobsmeyer. (1992). Adaptive data rate modem. US Grant, US5541955A.
8 W. Giezeman. (2017). The Things Network, https://www.thethingsnetwork.org/docs/lorawan/adr.html
9 SK telecom. (2015). ThingPlug Platform, https://sandbox.sktiot.com/
10 SK telecom. (2015). ThingPlug API Document For LoRa-Based & IoT Application Development, https://lora.sktiot.com/api/common/file/download?fileId=00EWD6NXQNNCA8CC28BB
11 Google. (2011). Firebase Platform, https://firebase.google.com/?hl=ko
12 B. S. Lim, Y. H. Park & T. E. Kim. (2015). Improvements of Inflow Controller Installed in Storm Overflow Diverging Tank for CSOs Control. Journal of Korean Society on Water Environment, 31(4), 428-435. DOI : 10.15681/KSWE.2015.31.4.428   DOI
13 Ministry of Environment, Korea. (2011). PRISM, http://www.prism.go.kr/homepage/entire/retrieveEntireDetail.do;jsessionid=9A97EF8ECD7CBE9FFB7E811E4E9344F9.node02?cond_research_name=&cond_research_start_date=&cond_research_end_date=&research_id=1480000-201100275&pageIndex=1167&leftMenuLevel=160
14 J. Gubbi, R. Buyya, S. Marusic & M. Palaniswami. (2013). Internet of Things (IoT): A vision, architectural elements, and future directions. Future Generation Computer Systems, 29(7), 1645-1660. DOI : 10.1016/j.future.2013.01.010   DOI
15 Y. J. Nam, J. W. So, M. S. Na & C. S. Choi. (2016). Coverage Class Adaptation Schemes Considering Device Characteristics in a 3GPP Narrowband IoT System. The Journal of Korean Institute of Communications and Information Sciences, 41(9), 1026-1037. DOI : 10.7840/kics.2016.41.9.1026   DOI