Faculty Publications

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Publications by NITK Faculty

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Author: search.filters.author.Nagaraj, M.K.Subject: search.filters.subject.India

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    Impact assessment of watershed development programme - A case study of Itagi watershed
    (2010) Palakshappa, K.; Nagaraj, M.K.; Shivapur, A.V.
    Soil, water and vegetation are the important gifts of nature to mankind. Welfare and development of mankind and its civilization revolves around conservation and development of these vital natural resources, which are so interdependent that one can not be managed efficiently without the other two. Watershed Development Programs (WDP) going on in India basically as soil and water conservative programs (as a policy response to the increasing environmental crisis and non-sustainability of agriculture especially in the dry land/semi-arid regions) has modified substantially with the introduction of watershed guidelines in 1994 by the Government of India. In the present study the area considered for assessment is Itagi sub watershed in Ranebennur taluk, Haveri district, Karnataka. During the watershed development programme soil and water conservation structures were constructed in the study area in the year 2004. The analysis of data reveals that there is an improvement in the groundwater recharge, increase in yield of the wells, increase in agricultural production, reduction in soil erosion and many other tangible and intangible benefits as a result of this watershed development programme. © 2010 CAFET-INNOVA TECHNICAL SOCIETY. All rights reserved.
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    Planning, designing and performance evaluation of gravity based water distribution network - a case study
    (2012) Sanjay Kumar, G.R.; Prithviraj, H.K.; Yaragal, S.C.; Nagaraj, M.K.
    Water distribution network system is an essential component of an urban town planning. Engineers can use available public domain software, Environmental Protection Agency Network (EPANET), which runs hydraulic simulations to design a minimal cost Water Distribution Network (WDN) system. National Institute of Technology Karnataka (NITK) Surathkal campus was selected as study area which is located at Srinivasanagar, Surathkal in Dakshina Kannada District of Karnataka State, 22 kms North of Mangalore. The area to be served is 300 acres. The water demand at the end of design period of 20 years would be around 12 lakh liters per day for the NITK campus. Pertinent information and data required for the design was gathered for analysis. Owing to the increasing water demand in the future, the capacities of the existing distribution network would be insufficient to provide adequate supply of water to the whole campus. The existing water supply is inadequate and the details of current WDN system are not available with NITK authorities. This necessitates augmentation of water supply by rehabilitating the existing systems and expansion of the system to meet the future requirements. The total campus area has been divided into 4 water supply distribution system zones. Computer aided design has been adopted for the design of distribution network for various distribution zones. The required data were provided and analyzed for each nodal point (junction) as well as for each pipeline. The analysis ensured that, sufficient supply of water to each building in all zones was satisfied with minimum required pressure and head. © 2012 CAFET-INNOVA TECHNICAL SOCIETY. All rights reserved.
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    Ground water potential assessment of Haladi River basin in Westernghat of Udupi district, Karnataka, India
    (2013) Mahadeve Gowda, S.K.; Nagaraj, M.K.
    For a sustainable development of water resources, it is imperative to make a quantitative estimation of the available water resources. It is necessary to maintain the groundwater reservoir in a state of Dynamic equilibrium over a period of time and the water level fluctuations have to be kept within a particular range over the monsoon and non-monsoon seasons. Groundwater is a dynamic system. The total annual replenishable resource is around 43 M ha-m. The development and over-exploitation of groundwater resources have raised the concern and need for judicious and scientific resource management and conservation. Among the two major water resources, surface and ground water, it is the ground water resource, which needs to be managed carefully, especially in drought prone areas. To assess the groundwater potential, a suitable and accurate technique is required for a meaningful and objective analysis. A critical study is carried out on the different methods of estimating the groundwater potential and compared to arrive the most suitable technique for practical utility. In this work, five methods of estimating groundwater recharge were studied viz., 1. Yearly water level fluctuation 2. Ten year average water level fluctuation 3. Fluctuation between the lowest and highest water levels over ten years 4. Relationship between rainfall and recharge Method. The results of this study helps in accurate prediction of groundwater availability, which in turn may avoid groundwater over exploitation and help to restore the eco-systems. © 2013 CAFET-INNOVA TECHNICAL SOCIETY.
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    Age-based classification of arecanut crops: a case study of Channagiri, Karnataka, India
    (Taylor and Francis Ltd. michael.wagreich@univie.ac.at, 2016) Bhojaraja, B.E.; Shetty, A.; Nagaraj, M.K.; Manju, P.
    Arecanut is one of the predominant plantation crop grown in India. Yield of this crop depends upon age of the crop and there is no information on the spectral behaviour of arecanut crops across its ages. In this study popular supervised classification algorithms were utilized for age discrimination of arecanut crops using Hyperion imagery. Arecanut plantations selected for the study are located in Channagiri Taluk, Davanagere district of Karnataka state, India. Ground truth information collected involves: (i) GPS coordinates of selected plots, (ii) spectral reflectance of arecanut crops with age ranging from 1 to 50 years, using handheld spectroradiometer with 1 nm spectral resolution. These spectral measurements were made close in time to the acquisition of Hyperion imagery to build age-based spectral library. It is observed from the analysis that crops of ages below 3, 3–7, 8–15 and above 15 years were showing distinct spectral behaviour. Accordingly, crops age ranging from 1 to 50 were grouped into four classes. Classification of arecanut crops based on age groups was performed using methods like spectral angle mapper, support vector machine and minimum distance classifier, and were compared to find the most suitable method. Among the classification methods adopted, support vector machine with linear kernel function resulted in most accurate classification method with overall accuracy of 72% for within class seperability. Individual age group classification producer’s accuracy varied minimum of 12.5% for 3–7 years age group and maximum of 86.25% for above 15 years age group. It may be concluded that, not only age- based arecanut crop classification is possible, but also it is possible to develop age-based spectral library for plantation crop like arecanut. © 2015 Taylor & Francis.