TY  - JOUR
A1  - Band, Shahab S.
A1  - Janizadeh, Saeid
A1  - Chandra Pal, Subodh
A1  - Chowdhuri, Indrajit
A1  - Siabi, Zhaleh
A1  - Norouzi, Akbar
A1  - Melesse, Assefa M.
A1  - Shokri, Manouchehr
A1  - Mosavi, Amir Hosein
T1  - Comparative Analysis of Artificial Intelligence Models for Accurate Estimation of Groundwater Nitrate Concentration
JF  - Sensors
N2  - Prediction of the groundwater nitrate concentration is of utmost importance for pollution control and water resource management. This research aims to model the spatial groundwater nitrate concentration in the Marvdasht watershed, Iran, based on several artificial intelligence methods of support vector machine (SVM), Cubist, random forest (RF), and Bayesian artificial neural network (Baysia-ANN) machine learning models. For this purpose, 11 independent variables affecting groundwater nitrate changes include elevation, slope, plan curvature, profile curvature, rainfall, piezometric depth, distance from the river, distance from residential, Sodium (Na), Potassium (K), and topographic wetness index (TWI) in the study area were prepared. Nitrate levels were also measured in 67 wells and used as a dependent variable for modeling. Data were divided into two categories of training (70%) and testing (30%) for modeling. The evaluation criteria coefficient of determination (R2), mean absolute error (MAE), root mean square error (RMSE), and Nash–Sutcliffe efficiency (NSE) were used to evaluate the performance of the models used. The results of modeling the susceptibility of groundwater nitrate concentration showed that the RF (R2 = 0.89, RMSE = 4.24, NSE = 0.87) model is better than the other Cubist (R2 = 0.87, RMSE = 5.18, NSE = 0.81), SVM (R2 = 0.74, RMSE = 6.07, NSE = 0.74), Bayesian-ANN (R2 = 0.79, RMSE = 5.91, NSE = 0.75) models. The results of groundwater nitrate concentration zoning in the study area showed that the northern parts of the case study have the highest amount of nitrate, which is higher in these agricultural areas than in other areas. The most important cause of nitrate pollution in these areas is agriculture activities and the use of groundwater to irrigate these crops and the wells close to agricultural areas, which has led to the indiscriminate use of chemical fertilizers by irrigation or rainwater of these fertilizers is washed and penetrates groundwater and pollutes the aquifer.
KW  - Grundwasser
KW  - Nitratbelastung
KW  - Künstliche Intelligenz
KW  - ground water contamination
KW  - machine learning
KW  - big data
KW  - hydrological model
KW  - OA-Publikationsfonds2020
Y1  - 2020
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20210122-43364
UR  - https://www.mdpi.com/1424-8220/20/20/5763
VL  - 2020
IS  - Volume 20, issue 20, article 5763
SP  - 1
EP  - 23
PB  - MDPI
CY  - Basel
ER  - 
TY  - JOUR
A1  - Homaei, Mohammad Hossein
A1  - Soleimani, Faezeh
A1  - Shamshirband, Shahaboddin
A1  - Mosavi, Amir
A1  - Nabipour, Narjes
A1  - Varkonyi-Koczy, Annamaria R.
T1  - An Enhanced Distributed Congestion Control Method for Classical 6LowPAN Protocols Using Fuzzy Decision System
JF  - IEEE Access
N2  - The classical Internet of things routing and wireless sensor networks can provide more precise monitoring of the covered area due to the higher number of utilized nodes. Because of the limitations in shared transfer media, many nodes in the network are prone to the collision in simultaneous transmissions. Medium access control protocols are usually more practical in networks with low traffic, which are not subjected to external noise from adjacent frequencies. There are preventive, detection and control solutions to congestion management in the network which are all the focus of this study. In the congestion prevention phase, the proposed method chooses the next step of the path using the Fuzzy decision-making system to distribute network traffic via optimal paths. In the congestion detection phase, a dynamic approach to queue management was designed to detect congestion in the least amount of time and prevent the collision. In the congestion control phase, the back-pressure method was used based on the quality of the queue to decrease the probability of linking in the pathway from the pre-congested node. The main goals of this study are to balance energy consumption in network nodes, reducing the rate of lost packets and increasing quality of service in routing. Simulation results proved the proposed Congestion Control Fuzzy Decision Making (CCFDM) method was more capable in improving routing parameters as compared to recent algorithms.
KW  - Internet der dinge
KW  - IOT
KW  - Internet of things
KW  - wireless sensor network
KW  - congestion control
KW  - fuzzy decision making
KW  - back-pressure
Y1  - 2020
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20200213-40805
UR  - https://ieeexplore.ieee.org/document/8967114
IS  - volume 8
SP  - 20628
EP  - 20645
PB  - IEEE
ER  - 
TY  - JOUR
A1  - Saadatfar, Hamid
A1  - Khosravi, Samiyeh
A1  - Hassannataj Joloudari, Javad
A1  - Mosavi, Amir
A1  - Shamshirband, Shahaboddin
T1  - A New K-Nearest Neighbors Classifier for Big Data Based on Efficient Data Pruning
JF  - Mathematics
N2  - The K-nearest neighbors (KNN) machine learning algorithm is a well-known non-parametric classification method. However, like other traditional data mining methods, applying it on big data comes with computational challenges. Indeed, KNN determines the class of a new sample based on the class of its nearest neighbors; however, identifying the neighbors in a large amount of data imposes a large computational cost so that it is no longer applicable by a single computing machine. One of the proposed techniques to make classification methods applicable on large datasets is pruning. LC-KNN is an improved KNN method which first clusters the data into some smaller partitions using the K-means clustering method; and then applies the KNN for each new sample on the partition which its center is the nearest one. However, because the clusters have different shapes and densities, selection of the appropriate cluster is a challenge. In this paper, an approach has been proposed to improve the pruning phase of the LC-KNN method by taking into account these factors. The proposed approach helps to choose a more appropriate cluster of data for looking for the neighbors, thus, increasing the classification accuracy. The performance of the proposed approach is evaluated on different real datasets. The experimental results show the effectiveness of the proposed approach and its higher classification accuracy and lower time cost in comparison to other recent relevant methods.
KW  - Maschinelles Lernen
KW  - Machine learning
KW  - K-nearest neighbors
KW  - KNN
KW  - classifier
KW  - big data
KW  - clustering
KW  - cluster shape
KW  - cluster density
KW  - classification
KW  - reinforcement learning
KW  - data science
KW  - computation
KW  - artificial intelligence
KW  - OA-Publikationsfonds2020
Y1  - 2020
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20200225-40996
UR  - https://www.mdpi.com/2227-7390/8/2/286
VL  - 2020
IS  - volume 8, issue 2, article 286
PB  - MDPI
ER  - 
TY  - JOUR
A1  - Abbaspour-Gilandeh, Yousef
A1  - Molaee, Amir
A1  - Sabzi, Sajad
A1  - Nabipour, Narjes
A1  - Shamshirband, Shahaboddin
A1  - Mosavi, Amir
T1  - A Combined Method of Image Processing and Artificial Neural Network for the Identification of 13 Iranian Rice Cultivars
JF  - agronomy
N2  - Due to the importance of identifying crop cultivars, the advancement of accurate assessment of cultivars is considered essential. The existing methods for identifying rice cultivars are mainly time-consuming, costly, and destructive. Therefore, the development of novel methods is highly beneficial. The aim of the present research is to classify common rice cultivars in Iran based on color, morphologic, and texture properties using artificial intelligence (AI) methods. In doing so, digital images of 13 rice cultivars in Iran in three forms of paddy, brown, and white are analyzed through pre-processing and segmentation of using MATLAB. Ninety-two specificities, including 60 color, 14 morphologic, and 18 texture properties, were identified for each rice cultivar. In the next step, the normal distribution of data was evaluated, and the possibility of observing a significant difference between all specificities of cultivars was studied using variance analysis. In addition, the least significant difference (LSD) test was performed to obtain a more accurate comparison between cultivars. To reduce data dimensions and focus on the most effective components, principal component analysis (PCA) was employed. Accordingly, the accuracy of rice cultivar separations was calculated for paddy, brown rice, and white rice using discriminant analysis (DA), which was 89.2%, 87.7%, and 83.1%, respectively. To identify and classify the desired cultivars, a multilayered perceptron neural network was implemented based on the most effective components. The results showed 100% accuracy of the network in identifying and classifying all mentioned rice cultivars. Hence, it is concluded that the integrated method of image processing and pattern recognition methods, such as statistical classification and artificial neural networks, can be used for identifying and classification of rice cultivars.
KW  - Maschinelles Lernen
KW  - Machine learning
KW  - food informatics
KW  - big data
KW  - artificial neural networks
KW  - artificial intelligence
KW  - image processing
KW  - rice
Y1  - 2020
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20200123-40695
UR  - https://www.mdpi.com/2073-4395/10/1/117
VL  - 2020
IS  - Volume 10, Issue 1, 117
PB  - MDPI
ER  -