Your search found 2 records
1 Singh, N. B.; Singh, D. N.; Ahmad, Z.. 2000. Seed water uptake as an index for evaluating seedling vigour in wheat cultivars under receding soil moisture conditions. In Singh, K.; Purohit, S. S. (Eds.), Plant productivity under environmental stress. Jodhpur, India: Agrobios (India) pp.215-217.
Wheat ; Soil moisture ; Experiments / India
(Location: IWMI-HQ Call no: 631.7.2 G000 SIN Record No: H027937)

2 Ahmad, Z.; Asad, E. U.; Muhammad, A.; Ahmad, Waqas; Anwar, Arif. 2013. Development of a low-power smart water meter for discharges in Indus Basin irrigation networks. In Shaikh, F. K.; Chowdhry, B. S.; Ammari, H. M.; Uqaili, M. A.; Shah, A. (Eds.). Wireless sensor networks for developing countries. Revised selected papers of the 1st International Symposium on Wireless Sensor Networks for Developing Countries (WSN4DC) 2013, Jamshoro, Pakistan, 24-26 April 2013. New York, NY, USA: Springer. pp.1-6. (Communications in Computer and Information Science 366)
River basins ; Hydrometry ; Sensors ; Water management ; Irrigation development / Pakistan / Indus Basin
(Location: IWMI HQ Call no: e-copy only Record No: H046217)
https://vlibrary.iwmi.org/pdf/H046217.pdf
(2.84 MB)
To improve the sampling frequency of water diversion to distributary canals and to improve equity of distribution and data handling we have developed a smart electronic water meter based on ultrasonic sensors and GPRS modem to frequently record and transmit the water diversion data to a centralized server. The server processes the data to extract useful information for example seasonal cumulative water deliveries and discharge time series. The Wireless Sensor Node (WSN) inspired design is extremely low-power, field deployable and scalable with respect to cost and numbers. This paper, reports the first steps towards practical realization of a smart water grid in the Indus river basin, conceptualized by the authors in previous theoretical studies.

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