8/19/2019 Development of Effective Wireless Sensor Network System for Water Quality and Quantity Monitoring

1/1

Development of effective Wireless Sensor Network system for water quality and

quantity monitoring

ABSTRACT:

 The project aims to study and develop a suitable model for monitoring both thequantity and quality of water in dierent water bodies and water ow in the

public distribution system. This project aims to identify source of water pollution,

to detect water leakage, to meter the water supply remotely with the help of a

wireless sensor network zone. t proposes a novel, scalable, intelligent and

incremental architecture which is adaptive to the environmental parameters,

quality perception that incorporates intelligence for monitoring the quantity and

quality of water and generate alerts in terms of mails! messages! alarms

following violation of safety norms as per "#$ standard or according to the local

sensitivity. %any water supply boards in ndia do not have any online or real time

remote monitoring capabilities of water supply or computation capabilities. Therefore, there is a real need for online decision support systems based on real

time continuous remote monitoring of hydraulic and water quality parameters

within the water system

 The main objective of this project is to develop an indigenous, intelligent andadaptive decision support system for on&line monitoring of the remote waterquality and quantity of ow across a wireless sensor zone and raising alerts interms of mails!sms!alarms following any violation of the safety norms of thewater quality and!or quantity by remote detection of leaks and pipe burstevents. ' real&time pressure and ow measurements from the sensor networkshall be assimilated into hydraulic models. The e(pected outcome shall be a newmodel for online, real&time water monitoring system that shall be used toimprove e)ciency of the water supply distribution network. This proposedresearch project refers to technologies in the move towards ne(t generationwater quality and quantity monitoring to provide simple, e)cient, cost eectiveand socially acceptable means to detect and analyze water bodies anddistribution regularly and automatically. The deliverables mainly include theprototype system, a dataset to be used as a benchmark, a new rule&base for thequality adaptive to the user group, season, time and standard.