Riverine flood is a major disaster faced by most countries and has significant adverse effect on long term economic growth of affected regions and their environments. Several systems have previously employed different technologies to monitor riverine flood but are expensive with low accuracy and consumes high amount of energy. In this paper, we proposed an energy efficient and accurate flood monitoring system. The system leverages on Internet Protocol Version 6 over Low Power Wireless Personal Area Network (6loWPAN) technology to construct a Wireless Sensor Network (WSN) comprising of two XM1000 motes and a rule-base water level monitoring application. The motes were configured using NesC programming for flood monitoring with Basestation and water level sensing applications. The water level sensing mote samples and transmits real-time water level information to the Basestation mote which interfaces with a rule-based water level monitoring application. The application compares current water level with a predetermined threat level and alerts relevant agencies when flood is imminent via an email. The results obtained from the emulation of the developed system showed that, it achieved an accuracy of 95.3% in water level monitoring with a Mean Squared Error of 5.1. The power consumed in transmitting a packet of 2 bytes payload plus other overhead was 0.4µJ and 0.0396mJ with and without 6loWPAN configuration respectively.

. WMO (2011), “Manual on flood forecasting and warning”, Geneva, Switzerland, retrieved at http://www.wmo.int/pages/prog/hwrp/publications/flood_forecasting_warning/WMO%201072_en.pdf

. Bariweni P. A., Tawari C. C. & Abowei J. F. N. (2012), “Some Environmental Effects of Flooding in the Niger Delta Region of Nigeria”, International Journal of Fisheries and Aquatic Sciences, Vol. 1, Issue 1, pp35-46, 2012.

. Adedeji, A. A., & Salami, A. W. (2011), “Environmental hazard: Flooding and Its Effects on Residential Buildings in Ilorin, Nigeria”, Department of Civil Engineering, University of Ilorin, PMB 1515, Ilorin, Nigeria.

. Chanin Jonathan Isaac & Andrew R. Halloran (2010), “Wireless sensor network for monitoring applications”, A major qualifying project report, submitted to the University of Worcester polytechnic institute United Kingdom.

. Daily news report of 24th September, 2012 from: http://www.sunnewsonline.com/new/cover/river-niger-sacks-332-villages-renders-2-million-homeless/

. Edward N. Udo & Etebong B. Isong (2013), “Flood monitoring and detection system using wireless sensor network”, Asian journal of computer and information systems, Vol. 01, Issue 04, pp108-113.

. Jaehyoung Y. & Hernsoo H. (2010), “Remote detection and monitoring of a water level using narrowband channel”, Journal of information science and engineering, Vol. 26, pp71-82

. Keoduangsine Sayaoth & Robert Goodwin (2012), “A GPRS-based data collection and transmission for flood warning system: The case of the lower Mekong river basin”, International journal of innovation, management and technology, Vol. 3, No. 3, pp217-220.

. Khedo Kavi Kumar (2008), “Real-time flood monitoring, using wireless sensor networks”, The journal of the institution of engineers Mauritius, pp59-69.

. Krishnamachari, B. (2005), “Networking wireless sensors”, Cambridge University Press.

. Rafael Marin-Perez, Javier Garcıa-Pintado & Antonio Skarmeta Gomez (2012), “A real-time measurement system for long-life flood monitoring and warning applications”, Sensors 2012, pp4213-4236

. Seal Victor, Arnab Raha, Shovan Maity, Souvik Kr Mitra, Amitava Mukherjee & Mrinal Kanti Naskar (2012), “A simple flood forecasting scheme using wireless sensor networks”, International Journal of Ad hoc, Sensor & Ubiquitous Computing (IJASUC), Vol.3, No.1, pp45-60

. Shelby, Z., & Bormann, C. (2011), “6LoWPAN: The wireless embedded Internet”, (Vol. 43), John Wiley & Sons.

. Sunkpho Jirapon & Chaiwat Ootamakorn (2011), “Real-time flood monitoring and warning system”, Songklanakarin Journal of Science and Technology, Vol. 33, No. 2, pp227-235.

. Yamut C. & Kilaso S., (2011), “A wireless sensor network for weather and disaster alarm systems”, International Conference on Information and Electronics Engineering, IPCSIT, Vol.6, pp155-159