Performance Assessment of Multiple Classifiers Based on Ensemble Feature Selection Scheme for Sentiment Analysis

Sentiment classification or sentiment analysis has been acknowledged as an open research domain. In recent years, an enormous research work is being performed in these fields by applying various numbers of methodologies. Feature generation and selection are consequent for text mining as the high-dimensional feature set can affect the performance of sentiment analysis. This paper investigates the inability or incompetency of the widely used feature selection methods (IG, Chi-square, and Gini Index) with unigram and bigram feature set on four machine learning classification algorithms (MNB, SVM, KNN, and ME). The proposed methods are evaluated on the basis of three standard datasets, namely, IMDb movie review and electronics and kitchen product review dataset. Initially, unigram and bigram features are extracted by applying n-gram method. In addition, we generate a composite features vector CompUniBi (unigram + bigram), which is sent to the feature selection methods Information Gain (IG), Gini Index (GI), and Chi-square (CHI) to get an optimal feature subset by assigning a score to each of the features. These methods offer a ranking to the features depending on their score; thus a prominent feature vector (CompIG, CompGI, and CompCHI) can be generated easily for classification. Finally, the machine learning classifiers SVM, MNB, KNN, and ME used prominent feature vector for classifying the review document into either positive or negative. The performance of the algorithm is measured by evaluation methods such as precision, recall, and F-measure. Experimental results show that the composite feature vector achieved a better performance than unigram feature, which is encouraging as well as comparable to the related research. The best results were obtained from the combination of Information Gain with SVM in terms of highest accuracy.


Introduction
Expeditious growth of the user-generated content on the web requires the generation of an efficient algorithm for mining important information.This situation enhances the importance of text classification whose aim is to categorize the texts into relevant classes according to their contents.In current years sentiment mining has been receiving a lot of attention from researchers as a most active research area in natural language processing.Sentiment mining or analysis is the process of determining the emotional tones behind a series of words.
We were motivated to this work because researches on sentiment analysis are growing to a great extent and attracting wide ranges of attention from academics and industries as well.Understanding emotions, analyzing situations and sentiments linked with it, is human's natural ability.However, how to empower the machines to do the same thing remains a very crucial and important question to be explored and answered.Sentiment analysis offers a huge scope in effective analysis of the attitude, behavior, likes, and dislikes of an individual.Signal processing and AI both have conducted the evolution of advanced intelligent systems that aim to detect and process dynamic information contained in multimodal sources.
There are several areas such as marketing, politics, and news analytics which benefit from the result of sentiment analysis.These solutions can be roughly categorized into machine learning approach and lexicon-based approach to solve the problem of sentiment classification.The former approach is applied to classify the sentiments based on trained as well as test datasets.The second category does not require any prior training dataset as it performs the task by identifying a list of words and phrases that consists of a semantic value.It mainly concentrates on the patterns of unseen data.There are few researchers who applied hybrid approaches by combining both methods, machine learning and lexical, to improve the sentiment classification performance.
This field becomes more challenging due to the fact that many demanding and interesting research problems still exist in this field to solve.Sentiment-based analysis of a document is quite tough to perform in comparison with topic based text classification.The opinion words and sentiments always vary with situations.Therefore, an opinion word can be considered as positive in one circumstance but may become negative in some other circumstance.
Sentiment classification [1] process has been divided into three levels: document level, sentence level, and feature level.The entire document is classified in document level, based on the positive or negative opinion expressed by the authors.Sentiment classification at the sentence level considers the individual sentence to identify whether the sentence is positive or negative.In feature level, classify the sentiment with respect to the specific aspects of entities.Aspect level sentiment classification requires deeper analysis on features, mainly which are expressed implicitly and are usually hidden in a large text dataset.During this study, the focus has been on feature level sentiment classification.
The main contributions of this paper can be stated as follows: (i) In this present work, we investigate the performance of the different combination of feature selection methods (FSM) such as n-gram, Info Gain, Gini Index, and Chi-square.After completion of preprocessing on a large high-dimensional movie review dataset, primarily unigram and bigram feature sets are extracted.Further we create a combined feature vector with unigram and bigram features.
(ii) Next, we applied feature selection methods (FSM) to get an optimal feature subset by assigning a weight to each feature.Finally, we trained the supervised classifiers SVM, MNB, KNN, and ME with these optimal feature vectors for classifying the review document.
(iii) We carried out experiments considering the 10-fold cross validation, as product review dataset consists of separate files for positive and negative reviews but training and testing data are not isolated.For movie review dataset, we noticed that the distribution is suboptimal since the training samples are not sufficient according to 25000 testing reviews.Finally, to improve the performance of classifier we decided to use cross validation for movie as well as product review datasets.
(iv) The effectiveness of classification algorithm is evaluated in terms of F1-score, precision, and recall.
The rest of the paper is constructed as follows: Section 2 consists of the existing literature that can be related to our approach.Then Section 3 describes the approaches used in this paper for polarity detection.Section 4 explains methodology that includes features and proposed feature selection technique.The detail regarding implementation of proposed classification algorithm is discussed in Section 5.
The particulars about experiments and results are expounded in Section 6.Finally, Section 7 concludes with a discussion of the proposed method and with ideas on future steps.

Related Work
In current years, sentiment analysis of social media content has become most sought area among researchers because the numbers of product review sites, social networking sites, blogs, and forums are growing enormously.This field mainly utilizes supervised, unsupervised, and semisupervised technique for sentiment prediction and classification task.In this section we provide a brief overview of the previous studies regarding supervised multiple machine learning (ML) algorithm.All the previous research works related to machine learning classifiers for sentiment analysis have been discussed in Table 1.
Pang et al. employed three different ML algorithms such as SVM, NB, and ME.They considered bag of word framework with n-gram features such as unigram, bigram, and their combination.The performance of SVM algorithm was convincing according to their analysis.Research work of Dave et al. [2] used some tools for analyzing the reviews from Amazon and CNET for classification.They select bigram and trigram features using n-gram model and some scoring methods are applied finally to determine whether the review holds positive or negative opinion.SVM and NB classifier were implemented for sentence level classification with the accuracy of 87.0.
The movie reviews dataset IMDb was used in a study by Annett & Kondrak, 2008 [3].They adopted lexical resource WordNet for sentiment extraction.Different classifiers such as SVM, NB, and alternating decision tree used for review classification and more than 75% accuracy was achieved.
In some cases [4], SVM classifier separately is unable to provide a satisfactory performance for small datasets, but the combination of SVM with NB classifier performs surprisingly well by integrating the advantages of both classifiers.
Zhang et al. [5] proposed a classification approach of Chinese reviews on clothing products.They applied word2vec and SVM pref technique while word2vec helped to capture the semantic features based on semantic relationship.SVM pref is nothing but an alternative structural formulation of SVM optimization problem for binary classification.They achieved good outcomes of this combination for sentiment classification.Mouthami et al. [6] proposed new approach as sentiment fuzzy classification algorithm on the movie review dataset to improve the classification accuracy.Preprocessing method tokenization, stop word removal, TF-IDF, and POS Dey et al. focused on quick detection of sentiment content of online movie reviews and hotel reviews.The statistical method Chi-square test has been used to find positive information and negative score for each feature and create a word dictionary by summarizing information score.The classifiers KNN and NB were applied with detailed explanation, where NB produces better accuracy than KNN classifier for movie review dataset.
Amolik et al. [12] proposed a model for sentiment prediction of more than 21,000 tweets by applying the machine learning classifiers SVM and NB.Feature vectors were also made competent to handle the problem of repeating characters in Twitter.They achieved higher accuracy with SVM (75%) in comparison with NB (65%) by using evaluation matrices precision and recall.A huge number of research papers with different ML classifiers, namely, Naive Bayes (NB) [6,13], Support Vector Machine (SVM) [4,5,14], Maximum Entropy [15][16][17], and decision trees [3,13,18] have been used mostly to build classification model in different domain.

Proposed Approach
The proposed classification method is summarized in several steps as described below: (1) Data Collection: In this work, movie review database (IMDb) and product review (electronics, kitchen) database are considered to solve the problem regarding sentiment classification.
(2) Preprocessing: This technique is required to remove noisy, inconsistent, and incomplete data by considering tokenization, stop words removal, and stemming method.
(3) Feature Extraction and Selection: Initially, to create a feature vector with numeric value, the frequency count of each unigram and bigram was performed.
The machine learning classifier needs numerical matrices to perform sentiment classification.The frequency score of each feature from combined feature set (unigram + bigram) is computed and only those features which are considered are those having a value greater than 5. Further, this reduced feature set is sent to the feature selection methods IG, CHI, and Gini Index.Feature selection methods IG, Chi-square, and Gini Index are used to assign a particular weight to each individual feature and create a list of top-ranked features.
(4) Classification: Finally, train the supervised machine learning classifiers SVM, MNB, KNN, and ME with the different feature vector for classification the dataset.

Methodology
Text classification as a research field was introduced a long time ago [19]; however, sentiment-based categorization was initiated more recently [2,16,20].The ultimate purpose of this research work is to investigate the performance of various machine learning classifiers (MLC) with three combined feature sets.The whole process can be completed in four steps: data acquisition, preprocessing, feature selection, and classification.A general overview of proposed framework is introduced in Figure 1, and the following subsections present a detailed description about each preliminary function.

The Data: Dataset Preparation.
We conducted experiments on movie review dataset, which were prepared by Pang & Lee, 2004 [20].This study uses movie review and product review dataset (electronics and kitchen) to perform sentiment classification task.The movie review dataset https://www.kaggle.com/nltkdata/movie-review#moviereviews.zip is one of the popular benchmark datasets, which has been exploited by several researchers in order to analyze the experimental outcomes.The standard movie review dataset consists of overall 2000 reviews where 1000 reviews are tagged as positive and 1000 are negative.The amazon products review dataset http://www .cs.jhu.edu/∼mdredze/datasets/sentiment/processedacl.tar.gzprovided by Blitzer et al. ( 2007) is considered for an investigation and we adopted the dataset of electronics and kitchen domain from the corpus produced by Blitzer et al.Each domain of this corpus has 1000 pos+ and 1000 neglabeled reviews.
The preprocessing is approved to prepare these three datasets for experiment.

Preprocessing
(i) Tokenization or segmentation: It can be accomplished by splitting documents (crawled reviews) into a list of tokens such as word, numbers, and special characters, making the document ready to be used for further processing.
(ii) Normalization: This process converts all the word tokens of a document into either lower case or upper case because most of the reviews consist of both cases, i.e., lowercase and uppercase characters.As a result, tokens (shifted into a single format) can easily be used for prediction.
(iii) Removal of stop words: Stop words are very common and high-frequency words.This process was carried out by removing frequently used stop words (prepositions, irrelevant words, special character, and ASCII code), new lines, extra white spaces, etc. to enhance the performance of feature selection technique.
(iv) Stemming: It is the process of transforming all the tokens into their stem or root form.Stemming is a swift and easy approach that makes the feature extraction process more effortless.

N-Grams
. N-gram model consists of a contiguous sequence of n words from a given review dataset.Models are generally used with 1-gram sequence, 2-gram sequence, and 3-gram sequence, and sometimes the sequence can be extended.

Feature Selection.
Feature selection method (FSM) is an essential task to enhance the accuracy of sentiment classification process.Generally, FSMs are statistically represented by the relationship between feature and class category.The performance of the classifier is mostly dependent on the feature set; if the feature selection method performs well, then the simplest classifier may also give a good accuracy through training.These FSMs are often defined by some probabilities to realize the theoretical analysis of these probabilistic methods.We use a list of notations, which is depicted in Table 3.
Analytical information from the training data is required to determine these probabilities and notations about the training data listed in Table 2, given as follows: we denote by   =1 = {c 1 , c 2 , . . .c m } the set of classes.

Information Gain (IG)
. This statistical property is used as an effective solution for feature selection.IG method is used to select important features based on the class attribute rules of features classification.The IG value of each term can measure the number of bits of information acquired for class prediction by knowing the presence or absence of that term in the document [21].The IG value of a certain term or feature is calculated by the following equation and it is defined as follows.
IG offers a ranking of the features depending on their IG score; thus a certain number of features can be selected easily.
It can also be defined by considering Y i as (N i -W i ) and Z i as (N all -N i -X i ) and the above formula is rewritten as follows.
4.4.3.Gini Index ().Gini Index measures the feature's ability to discriminate between classes.This method was mainly proposed to be used for decision tree algorithm based on an impurity split method.The main principle of Gini Index is to consider S as a dataset of the sample having m number of different classes   =1 = {c 1, c 2 , . . .c m }.According to the class level, the sample set can be splitted into n subset(, i=1, 2. ..n).The Gini Index of the set S is where probability P i of any sample belongs to class C i and can be computed by   / [22].Gini Index for a feature can be estimated independently for binary classification.We adopted Gini Index Text (GIT) method for calculating the feature score, which was introduced by Park et al. [23].This algorithm was enhanced to overcome the limitations of Gini Index method.
According to previous notation defined in

Naive Bayes (NB).
Naive Bayes classification method is used for both classification and training.The fundamental theory of NB classifier is based on the independence There are several Naive Bayes variations.In this paper, we consider the Multinomial Naive Bayes classifier.

Multinomial Naïve Bayes (MNB). The multinomial Naive
Bayes model [24] is typically used for discrete counts.We consider MNB classifier for text classification task, where a document d is represented by a feature vector (f 1, f 2..., fn) with the integer value of word frequency in the given document.For multinomial NB model, the conditional distribution P(d | c i ) of document d given the class c is as follows.

Multinomial 𝑃 (𝑑
The final equation with Bayes' rules the highest probable classes by a Naive Bayes classifier as follows. Now, to estimate the probability P(  |   ) we consider the feature as a word appears in the document's bag of words.Thus we will compute P( |   ) by considering N jr as the number of occurrences of word wj in documents   from class c i among all words in all documents of class c i .Then the estimated probability of a document given its class is given as follows: where V is the union of all the word types in all classes.
The probability of w j in c i is estimated from training dataset and it is defined as follows.

Support Vector Machine (SVM). Support Vector
Machines (SVMs) are supervised learning model introduced [25] for binary classification in both linear and nonlinear versions.Generally, datasets are nonlinearly inseparable, so the main aim of the SVM classifier is to catch the best accessible surface to make separation between positive and negative training samples based on empirical risk (training set and test set error) minimization principal.SVM method can try to define a decision boundary with the hyperplanes in a high-dimensional feature space.This hyperplane separates the vectorized document into two classes as well as determining a result to make a decision based on this support vector [26].The optimization problem of SVM can be minimized as follows.
Given N linearly separable training set with feature vector x of d dimension, for dual optimization where   R N and y  {1, −1}, the solution of SVMs (dual) can be minimized as follows.
The classical SVM seems to be able to separate the linear dataset with a single hyperplane, which can separate two classes.For nonlinear dataset where more than two classes are to be handled, kernel functions are used in that situation to lay out the data to a higher dimensional space in which it is linearly separable.

K-Nearest
Finally, predict the category of sample S with largest P (S,C i )

Maximum Entropy (ME)
. This is a probabilistic classifier usually used in various NLP applications.This classification technique provides the anticipation that a document belongs to a specific class given a framework to maximize the entropy of the classification document [28].ME does not make any hypothesis that features conditionally independent of each other, such that the result is more reliable than NB.This classifier needs more time to train than NB classifier as it solves the optimization problem to estimate the parameters of the model.In order to handle the classifier Max Entropy, we should select a feature to set the constraints.For the purpose of text classification, we consider word count as a feature.The ME value can be expressed by exponential form as follows:  c) can be defined as follows: where f i,c (d, c) is the function for feature f i , and class c N i (d) indicates the occurrence of feature 'i' in document 'd' .The feature-class pair which occurs very frequently in document 'd' , having high frequency, is the strong indicator for class c.The function which holds a strong orientation will be set to 1; otherwise it will be 0.

Experiments and Results
6.1.Evaluation Parameters.The performance of supervised ML algorithm can be evaluated based on the term or elements of confusion matrix on a set of test data.The confusion matrix consists of four terms, namely, True Positive (TP), False Positive (FP), True Negative (TN), and False Negative (FN).According to the value of these elements, the evaluation matrices precision, recall, and accuracy are determined to estimate the performance score of any classifier.

Results and Discussion
. The following experimental results help in the study of the effects of an individual as well as a combination of the different feature selection methods on the performance of the classifier.This result clearly shows how each classifier behaves with different feature selection methods.In this section, an in-depth investigation was carried out to measure the effectiveness of the proposed approach, i.e., to compare the performance of the four supervised classifiers SVM, MNB, KNN, and ME based on the combination of the different feature selection methods.Tables 4-6 display the performance of machine learning methods SVM, MNB, KNN, and ME with respect to different feature selection methods.The method IG performed well in comparison with other FSMs.
The result for movie review dataset in Table 4 indicates that the ComopIG and CompGI are some good choices among various feature selection methods.The composite feature set CompUniBi (unigram + bigram) provides very convincing results with IG and GI method, while the result of unigram and bigram features is not able to give a satisfactory output individually.
While comparing the performance of classification algorithms in present work, SVM produces the best result with a movie as well as a kitchen dataset.The highest F-score obtained by SVM 90.39 with CompGI method is represented in Table 4.The resulting values demonstrate that feature selection method CompIG also performed well with SVM classifier for all three review datasets, but the results of using CHI with SVM are not impressive.
According to Table 5, the classifiers SVM, MNB, and ME provide quite impressive results with 10-fold cross validation technique and the maximum accuracy 87.96 got by MNB classifier for electronics review dataset.The MNB performs surprisingly well for sentiment analysis in many previous studies.NB method is a simple and popular classification technique, although the conditional independence assumption is harsh.However, in our investigation, MNB is next best to SVM in performance for movie review dataset with Fscore 88.04.In all three datasets, MNB classifier maintained consistently high performance throughout the whole work.
As reported in Tables 4-6, the F-score value obtained using combination (unigram +bigram) is comparatively better than that obtained using unigram or bigram individually.If we consider the results of kitchen review dataset based on Table 6, the F-score for combined feature list of unigram and bigram increased from 82.71 to 87.43.
The feature selection method IG and Gini Index with composite feature set produce the best classification results with more or less every classifier because they eliminate the irrelevant and noisy features at primary stage and consider only top-ranked features.They chose the features based on their importance to the class level attribute.The best performance of the KNN classifier is achieved with review dataset of kitchenware (86.3%) when the Gini Index method is being used.ME classifier got the maximum F-score of 87.13 for Chisquare method.When we consider the domain electronics and kitchen, the F-score for ME classifier reduced to 86.39 and 86.18, respectively.
In order to investigate Figures 2-4, if we compare the classifiers performance, SVM outperforms the other classification methods, MNB, KNN, and ME.According to the average value of precision, recall, and F-score value, we estimate the results of three algorithms on testing dataset.The highest average value 87.86 is portrayed in Figure 2 for movie review dataset.Figure 3 indicates that MNB classifier secured the minimum average value 86.33 for electronics database.According to Figure 4, the resulting value 85.40 as an utmost average score is obtained by classifier SVM for kitchen review dataset.

Performance Evaluation.
This section compares the accuracy of proposed approach with other existing approaches considered such as IMDb dataset.This comparison was carried out according to the accuracy value that these methods achieved.The adopted approach, i.e., the combination of different feature selection methods, produces a better result in comparison with the result obtained by applying individual feature selection method in previous research approaches shown in Table 7.
In Agarwal et al. [29] have proposed a hybrid method combining rough set theory and Information Gain for sentiment classification.These methods are evaluated on four standard datasets such as movie review (IMDb) and product (book, DVD, and electronics) review dataset.SVM and NB classifiers are used with 10-fold cross validation for classifying sentiment polarity of review documents.F1-measure value is considered as a performance measure with maximum 87.7 and 80.9 for SVM and NB classifier.
Kalaivani et al. [30] examined how classifiers SVM, NB, and KNN work with different feature sizes of movie review dataset.Feature selection method Information Gain (IG) was applied to select top p% ranked features to train the classifier.In this work, SVM approach outperformed the Naive Bayes and KNN approaches with highest accuracy of 81.71.The experimental result reported the precision and recalled the value for positive and negative corpus separately.
In [31], the investigation by Tripathy et al. employed machine ML classifiers, namely, NB, SVM, ME, and SGD, to perform sentiment classification of online movie reviews [23] with n-gram techniques.The performance evaluation can be done by parameters such as precision, recall, F-measure, and accuracy.The results in comparing with our approach show that FSMs have a great impact on the classification performance.The feature ranking techniques (Information Gain, Chisquare, and Gini Index method) improve classification performance over no feature selection.

Applied Computational Intelligence and Soft Computing
Al-Moslmi et al. [32] studied feature selection methods effects on machine learning approaches in Malay sentiment analysis.It was demonstrated that improved feature selections resulted in better performance in Malay sentiment-based classification.The author approached three feature selection methods (IG, Gini Index, and CHI) to enhance the performance of three machine learning classifiers (SVM, NB, and KNN).A dataset of 2000 movie reviews is crawled from several web contents in Malay language.The results showed that the combination of SVM classifier and IG-base method established the best classification algorithm, with an accuracy of 85.33% and feature size of 300.Authors have also reported that use of the FSMs yields improved results compared to those from the original classifier.

Conclusion
Sentiment analysis is one of the most challenging fields involved with natural language processing.It has a wide range of applications like marketing, politics, and news analytics, and all these areas benefit from the result of sentiment analysis.
The aim of this paper is to explore the ability of statistical feature selection methods such as IG, Chi-square, and Gini Index to improve the classification performance of four machine learning algorithms SVM, MNB, ME, and KNN for sentiment classification.First, we applied n-gram (unigram, bigram) method on noise free preprocessed dataset and obtained a combined feature set as CompUniBi, fed to the feature selection methods IG, CHI, and GI to get an optimal feature subset.These methods offer a ranking to the features depending on their score; thus a prominent feature vector (CompIG, CompGI, CompCHI) can be generated easily for classification.Finally, the classifiers SVM, MNB, KNN, and ME machine learning used prominent feature vector for classifying the review document into either positive or negative.
The performance of sentiment analysis is evaluated on three different domain datasets: movie, electronics, and kitchen review, and the effectiveness of classification algorithm is estimated in terms of F-measure, precision, and recall.As discussed in Section 6.2.The composite feature set of unigram and bigram produce very convincing results.Specifically, it is clear that SVM performed better in terms of higher accuracy (90.24) than MNB, ME, and NN on composite IG (CompIG) feature vector, while MNB classifier delivers performance 88.04 when used with fewer features.These empirical experiments show that the proposed method is highly effective and encouraging.
In the future, our aim is to improve the performance of sentiment classification by expanding the amount of experimental data.We are also planning for future to merge the traditional machine learning method with deep learning techniques to tackle the challenge of sentiment prediction of massive amount of unsupervised product review dataset.adopted the dataset http://www.cs.jhu.edu/∼mdredze/datasets/sentiment/processed acl.tar.gz of electronics and kitchen domain from the corpus produced by Blitzer et al.

Figure 1 :
Figure 1: The architecture of a proposed framework for sentiment classification task.
where P ME (c | d) refers to the probability of document 'd' of class 'c' and z(d) is a normalized function. , indicates the feature-weight parameters to be estimated, if f i,c (d, c) is the function for feature f i , and class c feature/class function f i,c (d,

Figure 2 :Figure 3 :
Figure 2: Comparison of classifier performance for movie review dataset.

Figure 4 :
Figure 4: Comparison of classifier performance for kitchen review dataset.
an experimental study performed by Pang et.al. [20] on sentiment analysis, they have used SVM, NB, and ME classifier with n-gram technique of unigram and bigram as well as their combination on movie review database (IMDb).They got the accuracy of 82.7, 81.2, and 81.0 for the classifiers SVM, NB, and ME, respectively.

Table 1 :
Research work related to machine learning classifiers for sentiment analysis.

Table 2 :
Notation use for feature selection.
4.4.2.Chi-square ( 2 ).Chi-square ( 2 ) is a very commonly applied statistical test, which can quantify the association between the feature or term  and its related class C i .It tests a null-hypothesis that the two variables feature and class are completely independent of each other.The CHI value of feature  for class C i is higher, and the closer relationship exists between the variables feature  and class   .The features with the highest  2 values for a category should perform best for classifying the documents.The formulation of this method is as follows. 2 (f, c i ) =  .. (    −     ) 2 (  +   ) .(  +   ) .(  +   ) .(  +   )

Table 3 ,
we can compute the Gini Index for a feature f of document d belonging to class C i .  (,   ) =  (  | )

Table 3 :
Notation use for feature selection.No. of documents not in class c i but containing feature f Y i = N i -W i No. of documents in class c i not containing feature f Z i = N all -N i -X i No. of documents neither in class c i nor containing the feature f. assumption, where the joint probabilities of features and categories are used to roughly calculate the probability score of categories of a given document.It is a simple probabilistic classifier that helps in classifying a document d r , out of classes c i ∈ C (  =1 = c 1, c 2 , . . .c m ).The best class returns in NB classification and is the most probably or maximum posterior (MAP) class C map .C map = argmax  (  )  (  |   ) c (8) C(8)where the class P(c i ) can be estimated by dividing the number of documents of class c i by the total number of documents.(|   ) indicated the number of occurrences of the feature in document d r belonging to class c i .The probability value P(c i |   ) will be computed for each possible class, but P(  ) does not change for each class.Thus we can drop the denominator.We thus select the highest probable classes' c map of given document d by calculating the posterior probability of each class.
on to which the majority of its "closest neighbors" belong.KNN algorithm is one of the simplest and effective algorithms, being commonly used for classification and regression.KNN first trained the system with existing review dataset to predict the test samples category.
Neighbor.To identify the class of unknown samples, the KNN algorithm works by inspecting the K-Closest instances in the training dataset and making a prediction based j ), where j= 1,2, N, and consider them as k-nearest neighbors of sample S. Calculate the probability of S of each category with the following formula.P(S,Ci ) = ∑  (,  ).(  . ) where (  . ) is attribute function of different category with the following condition.

Table 7 :
Comparison of performance of proposed approach with different literature using movie review dataset.