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SF-CNN: Deep Text Classification and Retrieval for Text Documents 被引量:2
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作者 R.Sarasu k.k.thyagharajan N.R.Shanker 《Intelligent Automation & Soft Computing》 SCIE 2023年第2期1799-1813,共15页
Researchers and scientists need rapid access to text documents such as research papers,source code and dissertations.Many research documents are available on the Internet and need more time to retrieve exact documents... Researchers and scientists need rapid access to text documents such as research papers,source code and dissertations.Many research documents are available on the Internet and need more time to retrieve exact documents based on keywords.An efficient classification algorithm for retrieving documents based on keyword words is required.The traditional algorithm performs less because it never considers words’polysemy and the relationship between bag-of-words in keywords.To solve the above problem,Semantic Featured Convolution Neural Networks(SF-CNN)is proposed to obtain the key relationships among the searching keywords and build a structure for matching the words for retrieving correct text documents.The proposed SF-CNN is based on deep semantic-based bag-of-word representation for document retrieval.Traditional deep learning methods such as Convolutional Neural Network and Recurrent Neural Network never use semantic representation for bag-of-words.The experiment is performed with different document datasets for evaluating the performance of the proposed SF-CNN method.SF-CNN classifies the documents with an accuracy of 94%than the traditional algorithms. 展开更多
关键词 SEMANTIC classification convolution neural networks semantic enhancement
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Image Manipulation Detection Through Laterally Linked Pixels and Kernel Algorithms 被引量:1
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作者 k.k.thyagharajan G.Nirmala 《Computer Systems Science & Engineering》 SCIE EI 2022年第4期357-371,共15页
In this paper,copy-move forgery in image is detected for single image with multiple manipulations such as blurring,noise addition,gray scale conver-sion,brightness modifications,rotation,Hu adjustment,color adjustment,... In this paper,copy-move forgery in image is detected for single image with multiple manipulations such as blurring,noise addition,gray scale conver-sion,brightness modifications,rotation,Hu adjustment,color adjustment,contrast changes and JPEG Compression.However,traditional algorithms detect only copy-move attacks in image and never for different manipulation in single image.The proposed LLP(Laterally linked pixel)algorithm has two dimensional arrays and single layer is obtained through unit linking pulsed neural network for detec-tion of copied region and kernel tricks is applied for detection of multiple manip-ulations in single forged image.LLP algorithm consists of two channels such as feeding component(F-Channel)and linking component(L channel)for linking pixels.LLP algorithm linking pixels detects image with multiple manipulation and copy-move forgery due to one-to-one correspondence between pixel and neu-ron,where each pixel’s intensity is taken as input for F channel of neuron and connected for forgery identification.Furthermore,neuron is connected with neighboringfield of neuron by L channel for detecting forged images with multi-ple manipulations in the image along with copy-move,through kernel trick clas-sifier(KTC).From experimental results,proposed LLP algorithm performs better than traditional algorithms for multiple manipulated copy and paste images.The accuracy obtained through LLP algorithm is about 90%and further forgery detec-tion is improved based on optimized kernel selections in classification algorithm. 展开更多
关键词 Machine learning copy move forgery support vectors KERNEL feature extraction
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Diagnosis of Neem Leaf Diseases Using Fuzzy-HOBINM and ANFIS Algorithms
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作者 k.k.thyagharajan I.Kiruba Raji 《Computers, Materials & Continua》 SCIE EI 2021年第11期2061-2076,共16页
This paper proposes an approach to detecting diseases in neem leaf that uses a Fuzzy-Higher Order Biologically Inspired Neuron Model(F-HOBINM)and adaptive neuro classifier(ANFIS).India exports USD 0.28-million worth o... This paper proposes an approach to detecting diseases in neem leaf that uses a Fuzzy-Higher Order Biologically Inspired Neuron Model(F-HOBINM)and adaptive neuro classifier(ANFIS).India exports USD 0.28-million worth of neem leaf to the UK,USA,UAE,and Europe in the form of dried leaves and powder,both of which help reduce diabetesrelated issues,cardiovascular problems,and eye disorders.Diagnosing neem leaf disease is difficult through visual interpretation,owing to similarity in their color and texture patterns.The most common diseases include bacterial blight,Colletotrichum and Alternaria leaf spot,blight,damping-off,powdery mildew,Pseudocercospora leaf spot,leaf web blight,and seedling wilt.However,traditional color and texture algorithms fail to identify leaf diseases due to irregular lumps and surfaces,and rough ridges,as the classification time involved takes as long as a week.The proposed F-HOBINM algorithm recognizes the leaf intensity through the leaky capacitor,and uses subjective intensity and physical stimulus to interpret the diagnosis.Further,the processed leaf images from the HOBINM algorithm are applied to the ANFIS classifier to identify neem leaf diseases.The experimental results show 92.18%accuracy from a database of 1,462 neem leaves. 展开更多
关键词 Higher-order neural network fuzzy c-means clustering Mamdani fuzzy inference system adaptive neuro-fuzzy classifier
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H.264/SVC Mode Decision Based on Mode Correlation and Desired Mode List
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作者 L.Balaji k.k.thyagharajan 《International Journal of Automation and computing》 EI CSCD 2014年第5期510-516,共7页
Design of video encoders involves implementation of fast mode decision(FMD) algorithm to reduce computation complexity while maintaining the performance of the coding. Although H.264/scalable video coding(SVC) achieve... Design of video encoders involves implementation of fast mode decision(FMD) algorithm to reduce computation complexity while maintaining the performance of the coding. Although H.264/scalable video coding(SVC) achieves high scalability and coding efficiency, it also has high complexity in implementing its exhaustive computation. In this paper, a novel algorithm is proposed to reduce the redundant candidate modes by making use of the correlation among layers. A desired mode list is created based on the probability to be the best mode for each block in base layer and a candidate mode selection in the enhancement layer by the correlations of modes among reference frame and current frame. Our algorithm is implemented in joint scalable video model(JSVM)9.19.15 reference software and the performance is evaluated based on the average encoding time, peak signal to noise ration(PSNR)and bit rate. The experimental results show 41.89% improvement in encoding time with minimal loss of 0.02 dB in PSNR and 0.05%increase in bit rate. 展开更多
关键词 H.264 scalable video coding mode decision mode correlation rate distortion cost
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