Pakistan Journal of Science (Vol. 68 No. 1 March, 2016) 31 GRAPHICAL USER INTERFACE OF FUZZY LOGIC BASED DISTRIBUTED FLOOD ADAPTIVE CONTROL SYSTEM FOR AGRICULTURAL LAND AND POWER GENERATION IN PUNJAB, PAKISTAN S. Naseem, M.I. Abid * , A.A. Butt ** , F. Ahmad, W. A. Khan and T. Alyas *** National College of Business Administration and Economics, Lahore, Pakistan; * Riphah International University, Faisalabad, Pakistan; ** UCEST, Lahore Leads University, Lahore, Pakistan; *** Lahore Garrison University, Lahore, Pakistan Corresponding Author’s Email: shahid.naseem@gmail.com ABSTRACT: The paper suggested a fuzzy logic based flood adaptive control system for flood water management and to use this water for agriculture and generating electric power in Punjab, by using an online survey conducted in the month of August, 2013. The online survey, data about soil and water was collected in flood areas i.e. Mianwali, Chiniot and Bahawalpur. The collected data was in the form of soil which included EC, P, S and PH and samples of water included ECw, SAR and RSE. In fuzzy logic based flood adaptive control system, two spilled fuzzy logic controller, fuzzy logic controller-1 and fuzzy logic controller-2 were used. Fuzzy logic controller -1 was used to take four input parameters i.e. reservoir opening, reservoir opening time, water flow rate and water pressure to generate one output i.e. reservoir depth. Similarly, Fuzzy logic controller-2 was used to take three input parameters from fuzzy logic controller-2 i.e. reservoir depth, reservoir depth output and reservoir depth output time to generate two output variables i.e. cultivation and power generation. For validation of flood adaptive control system data, we developed a graphical user interface. Key words: Flood disaster management; flood adaptive control system, fuzzy logic controller, graphical user interface, cultivation; power generation. (Received 02-12-2014 Accepted 11-02-2016) INTRODUCTION In Pakistan, flood of 2013 badly affected the human lives, houses, industries, agricultural land and animals in rural and urban areas. It damaged a number of houses, agricultural land, animals in Sialkot, Narowal, Mandi Bahauddin, Sheikhupura, Multan areas and distorted them into lagoon. Distributed Flood Adaptive Control System would be instigated in local and distributed areas in Pakistan to save houses, agriculture land and animals from huge flood water and further to make it useful for other purposes like farming and power production. The fuzzy logic based distributed flood adaptive control system would be embedded to manage the flood disasters in Pakistan especially in Punjab province as has been reported by (Faizan, 2013). In fuzzy based model, Chuntian explained the idea of multi reservoirs. In his model, he arranged the basin and downstream to handle the flooded water in the river of Yangtaze (Chuntian , 1999). Karaboga used different fuzzy logic controlling techniques to control the spillway gates of dams during floods by using best rules. (Karaboga, et al., 2008). Chang discussed the idea of if- then rules for mining the flood control knowledge and city flood adaptive system to solve the high non-linear control problems like human intelligence to logical operating system in his Counter Propagation Fuzzy Neural Network (CPFNN). CFNN simulates human-like knowledge in the form of fuzzy if-then rules. In this model, the Chang, used the storm and operating record to train and verify the model’s performance. The results of the model indicate that network has a simple basic structure with efficient learning ability to construct a human-like-operating strategy and has the potential to automatically operate the flood control system as has been reported by (Chang, et al., 2008). Khan et al. described four inputs in his fuzzy time control discrete event model. He then formulated, tested and applied four inputs using MATLAB simulations (Khan, et al., 2009). MATERIALS & METHODS The present study discussed the Fuzzy Logic based Flood Adaptive Control System for flood disaster management according to the needs of surrounding areas. Most of the countries in the world, have set the flood organization by changing the direction of flood water by storing the flood water in the reservoirs for agriculture and power generation to make the country progress, benign and affluent. All the previous researches were based upon its circumstances, land capabilities and suitability. In this paper, fuzzy logic based distributed flood adaptive control system was suggested for the Punjab, because Punjab was recently affected badly by