Preface
Page: ii-ii (1)
Author: Abhishek Majumder, Joy Lal Sarkar and Arindam Majumder
DOI: 10.2174/9789815136746123010002
PDF Price: $15
Study of Machine Learning for Recommendation Systems
Page: 1-24 (24)
Author: Tushar Deshpande*, Khushi Chavan and Ramchandra Mangrulkar
DOI: 10.2174/9789815136746123010004
PDF Price: $15
Abstract
This study provides an overview of recommendation systems and machine
learning and their types. It briefly outlines the types of machine learning, such as
supervised, unsupervised, semi-supervised learning and reinforcement. It explores how
to implement recommendation systems using three types of filtering techniques:
collaborative filtering, content-based filtering, and hybrid filtering. The machine
learning techniques explained are clustering, co-clustering, and matrix factorization
methods, such as Single value decomposition (SVD) and Non-negative matrix
factorization (NMF). It also discusses K-nearest neighbors (KNN), K-means clustering,
Naive Bayes and Random Forest algorithms. The evaluation of these algorithms is
performed on the basis of three metric parameters: F1 measurement, Root mean
squared error (RMSE) and Mean absolute error (MAE). For the experimentation, this
study uses the BookCrossing dataset and compares analysis based on metric
parameters. Finally, it also graphically depicts the metric parameters and shows the
best and the worst techniques to incorporate into the recommendation system. This
study will assist researchers in understanding the summary of machine learning in
recommendation systems.
Machine Learning Approaches for Text Mining and Spam E-mail Filtering: Industry 4.0 Perspective
Page: 25-52 (28)
Author: Pradeep Kumar*, Abdul Wahid and Venkatesh Naganathan
DOI: 10.2174/9789815136746123010005
PDF Price: $15
Abstract
The revolution of Industry 4.0 will leave an impact on the domain of
everyone's lives directly or indirectly. Several new complex applications will be
developed in the days to come that are complicated to predict in the current scenario.
With the help of machine learning approaches and intelligent IoT devices, people will
be relieved from extra overheads of redundant work currently being performed.
Industry 4.0 has become a significant catalyst for innovation and development in
various industrial sectors like production processes and quality improvement with
greater flexibility. This chapter applied different machine learning algorithms for spam
detection and classifying emails into legitimate and spam. Seven classification models:
Decision Trees, Random Forest, Artificial Neural Network, Gradient Boosting
Machines, AdaBoost, Naive Bayes, and Support Vector Machines are applied. Three
benchmark spam datasets are extracted from standard repositories to conduct the
experiments. The chapter also presents a quantitative performance analysis. The results
from rigorous experiments reveal that ensemble methods, Gradient Boosting and
AdaBoost, outperformed other methods with an overall accuracy of 98.70% and
98.18%, respectively. The ensembled models are effective on a large-sized dataset
embedded with more extensive features. The performance of non-ensemble methods,
ANN and Naïve Bayes, was instrumental on large datasets as a viable alternative, with
an overall accuracy of 98.38% and 97.63% on test data.
An Overview of Deep Learning-Based Recommendation Systems and Evaluation Metrics
Page: 53-71 (19)
Author: Samudrala Venkatesiah Sheela* and Kotrike Rathnaiah Radhika
DOI: 10.2174/9789815136746123010006
PDF Price: $15
Abstract
The ever-increasing information on the internet and the rapid development
of online movies, songs, and stores have enhanced the demands of customers to obtain
the required information within the least time. A Recommendation System (RS) is
designed to help customers with personalized information and interests to avoid
overloading issues in entertainment and social media. Though traditional methods have
made noteworthy developments, RS encounters challenges such as data limitations and
cold starts. The present study aims to review the developments in the field of deep
learning-based RS, thereby providing the required information for researchers. In
addition, several applicable domains of employing deep learning-based RS have been
analyzed. The review has been organized into RS type, deep learning approaches, deep
learning-based recommendation systems in various applications, and evaluation
metrics.
Towards Recommender Systems Integrating Contextual Information from Multiple Domains through Tensor Factorization
Page: 72-109 (38)
Author: Douglas Véras*, André Nascimento and Gustavo Callou
DOI: 10.2174/9789815136746123010007
PDF Price: $15
Abstract
Traditionally, single-domain recommender systems (SDRS) can suggest
suitable products for users to alleviate information overload. Nonetheless, cross-domain recommender systems (CDRS) have enhanced SDRS by accomplishing
specific objectives, such as improving precision and diversity and solving cold-start
and sparsity issues. Rather than considering each domain separately, CDRS uses
information gathered from a particular domain (e.g., music) to enhance
recommendations for another domain (e.g., films). Context-aware Recommender
System (CARS) focuses on optimizing the quality of suggestions, which are more
appropriate for users depending on their context. Integrating these techniques is helpful
for many cases where knowledge from several sources can be used to enhance
recommendations and where relevant contextual information is considered. This work
describes the main challenges and solutions of the state-of-the-art in Cross-Domain
Context-Aware Recommender Systems (CD-CARS), taking into account the
abundance of data on different domains and the systematic adoption of contextual data.
CD-CARS have shown efficient methods to tackle realistic recommendation scenarios,
preserving the benefits of CDRS (regarding cold-start and sparsity issues) and CARS
(assuming accuracy). Therefore, CD-CARS may direct future research to recommender
systems that use contextual information from multiple domains in a systematic way.
Developing a Content-based Recommender System for Author Specialization using Topic Modelling and Ranking Framework
Page: 110-125 (16)
Author: Shilpa Verma*, Rajesh Bhatia and Sandeep Harit
DOI: 10.2174/9789815136746123010008
PDF Price: $15
Abstract
In the era of information overloading, enormous scholarly data poses a
challenge in identifying potential authors for productive outcomes. Researchers
collaborate with fellow profiles to improve the eminence of Research and their
academic profiles. This chapter proposes a content-based recommender system to
generate author recommendations for collaborations that extracts the relevant keywords
from the titles of research papers using MapReduce. To specify author specialization,
the proposed technique comprises the feature extraction from the entire document using
Latent Dirichlet Allocation (LDA), followed by an influence model which generates
recommendations for the target authors. A ranking algorithm, such as TOPSIS is
implemented to get Top-N recommendations based on multiple criteria. In this chapter,
we investigated how the MapReduce framework is helpful in obtaining improved
computational time for large-scale scholarly data and scalability. Experimental results
on DBLP articles prove the relevance of ranking methods as an efficient and scalable
platform for computing content-based recommendations
Movie Recommendations
Page: 126-150 (25)
Author: Anukampa Behera, Chhabi Rani Panigrahi*, Abhishek Mishra, Bibudhendu Pati and Sumit Mitra
DOI: 10.2174/9789815136746123010009
PDF Price: $15
Abstract
Recently, most retail-based and e-commerce companies have been using
recommender systems aggressively. It retains a customer's interest by giving exclusive
offers on personalized preferences. The primary purpose of a recommender system is to
get at an increase in sales by providing an enriched experience to the customer. With
the emergence of many video streaming services like Netflix, Hotstar, and amazon
prime video, the dependency on movie recommendation systems has increased. It
facilitates the users in faster search and easier access for shows matching their tastes
and helps them choose what they are looking for without getting lost in the flood of
available options. The user most often gets surprised by seeing an offer that they
possibly would never have searched. The system is based on information retrieved and
processed user preferences, ratings, likings, disliking, etc., to use this understanding to
recommend the products. In this chapter, we have discussed the various popular
algorithm used for the movie recommendation, along with an insight into the extensive
use of models based on machine learning especially deep learning. The performance of
different movie recommendation systems with a comparative analysis is also given to
encourage further research in this area.
Sentiment Analysis for Movie Reviews
Page: 151-164 (14)
Author: Balajee Maram*, Suneetha Merugula and Santhosh Kumar Balan
DOI: 10.2174/9789815136746123010010
PDF Price: $15
Abstract
The viewpoint, together with a feeling examination, helps in distinguishing
the perspective and characterizing the survey as good, nonpartisan, or negative. The
angle-based conclusion investigation incorporates pre-processing of surveys, extremity
figuring, and distinguishing the perspective and execution assessment. Primary assets
of constant assessment, Twitter, messages, and other interpersonal organizations have
captivated the significant interests of the exploration business and network. Wistful
analysis (supposition mining) of brief, casual writings via web-based media sums up
feelings as good, unbiased, or negative expressions of the sentiment holder. We will
utilize a viewpoint-based estimation examination by using profound learning
calculations. This methodology receives language preparation procedures, rules, and
dictionaries to address a few opinion examination difficulties and produce summed
results. By utilizing deep learning, we can yield more exactness than Artificial
Intelligence (AI) calculations.
A Movie Recommender System with Collaborative and Content Filtering
Page: 165-188 (24)
Author: Anupama Angadi, Padmaja Poosapati, Satya Keerthi Gorripati and Balajee Maram*
DOI: 10.2174/9789815136746123010011
PDF Price: $15
Abstract
In the Internet age, we perceive the use of recommender systems all around
us. The exponential growth of information from intelligent devices on the internet
creates confusion for customers to pick a preferred product. Suggestions are a noble
way to guide shoppers to discover fascinating products to impress customers. These
recommender systems influence our browsing or watching or listening, searching
patterns, and guess what customers might like in the future based on our patterns. For
instance, a customer searching for baby products recommend diapers. Two significant
categories of recommender systems exist, which are either collaborative or content
filtering. The core of the recommender system resides in filtering similar users (or
products). We address the introduction, existing works focusing on collaborative and
content recommender filters, and their merits and demerits. Later, we classify types
therein and thoroughly discuss similarity metrics used to filter neighborhood and
evaluation measures used in the recommender system.
An Introduction to Various Parameters of the Point of Interest
Page: 189-204 (16)
Author: Shreya Roy*, Abhishek Majumder* and Joy Lal Sarkar*
DOI: 10.2174/9789815136746123010012
PDF Price: $15
Abstract
Point-of-Interest (POI) recommendation helps to find new places for users to
visit, along with the popularity of locations. Recommendation of POI is the most
important in location-based social networks (LBSNs). This paper discusses different
parameters that significantly impact the POI recommendation process and make the
prediction much more accurate. A comprehensive review of a few research works and
the methodologies employed for POI recommendation have been presented. POI
recommendation techniques have been classified based on many, such as the interest of
the tourist in particular POI, popularity of the POI, weather conditions, etc. A summary
of related research work is presented for each category, along with their respective
drawbacks. Finally, the possible directions toward future work in this area are included,
along with the conclusion.
Mobile Tourism Recommendation System for Visually Disabled
Page: 205-215 (11)
Author: Pooja Selvarajan, Poovizhi Selvan*, Vidhushavarshini Sureshkumar and Sathiyabhama Balasubramaniam
DOI: 10.2174/9789815136746123010013
PDF Price: $15
Abstract
Mobile Tourism Recommendation System recommends to a tourist the best
attractions in a particular place according to his preferences, profile and interest. First,
a Recommender system offers a list of the city places likely to interest the user. This
list estimates the user demographic classification, likes in former trips, and preferences
for the current visit. Second, a planning module schedules the list of recommended
places according to their characteristics and user limitations. The planning system
decides how and when to perform the recommended activities. For implementing these
recommender methods, we have applied different machine learning algorithms, which
are the K-nearest neighbors (K-NN) for both Clean Boot (CB) and Consolidation
Function (CF) and the decision tree for all Data Framing (DF). Thus, executing a
recommendation system for tourists helps them with user-friendly planning. Blind
people can also use this. This application provides complete voice assistance for easy
navigation via a simple button click. Vibratory and voice feedback is provided for
accurate crash alerts for visually challenged people. The application extracts its
smartness by incorporating Android and Internet of Things (IoT) support. Since blindsupported applications and devices are more expensive and many blinds can not afford
them, we aim to put forth a novel, low cost and reliable approach to help the blind
explore the possibilities and power of smartphone technology in navigation. We
additionally expect to find the static variables that should be tended to, food, tidiness,
and opening times, and valuable to suggest a tourist place depending on the travel
history of the client. In this investigation, we propose a cross-planning table
methodology depending on the area’s prevalence, appraisals, idle points, and
conclusion. A targeted work for proposal streamlining is defined as dependent on these
mappings. Our outcomes show that the consolidated highlights of Latent Dirichlet
Allocation (LDA), Support vector machines (SVM), appraisals, and cross mappings are
helpful for upgraded execution. The fundamental motivation of this study was to help
businesses related to tourism.
Point of Interest Recommendation via Tensor Factorization
Page: 216-238 (23)
Author: Shreya Roy*, Abhishek Majumder and Joy Lal Sarkar
DOI: 10.2174/9789815136746123010014
PDF Price: $15
Abstract
In the recent era, recommendation systems have marked their footsteps and
have changed the way of the travel industry. The recommendation system deals with
massive amounts of data to identify users’ interests, making the location search easier.
Many methods have been used so far for making predictions much more desirable
regarding users’ interests by collecting Information from a large set of other users. The
main objective of this paper is to show various methods and techniques used for
generating recommendations. These recommendation processes are classified into
different forms, such as traditional methods and tensor-based methods. A brief review
of these methods was described with the help of some challenges faced by the
recommendation system. Apart from that, the advantages and disadvantages are
discussed, along with the highlights of future directions.
Exploring the Usage of Data Science Techniques for Assessment and Prediction of Fashion Retail - A Case Study Approach
Page: 239-261 (23)
Author: Dillip Rout*
DOI: 10.2174/9789815136746123010015
PDF Price: $15
Abstract
In this article, the insights of a garment retail store have been studied with
respect to the attributes of the dresses and sales information. Mention that each dress in
fashion retail has several attributes or features. These features play a critical role in the
selection of consumers or customers. This study tries to establish the relationship
among these features by which the importance of the attributes is evaluated concerning
sales. Furthermore, this paper tries to automate the process of the recommendation of
the dresses by using these attributes. It is merely a binary classification but useful for
retail sales. Moreover, the demand for sales is estimated over a period. All these
objectives are achieved through using one or more data science techniques. The case
study shows that the algorithms of data science are helpful in the decision-making of
fashion retail.
Data Analytics in Human Resource Recruitment and Selection
Page: 262-271 (10)
Author: Sumi Kizhakke Valiyatra*
DOI: 10.2174/9789815136746123010016
PDF Price: $15
Abstract
Human resource data analytics are more important now than ever before. An
increasing number of businesses are delving ever deeper into the data they collect about
their employees, their success, and their well-being. Recruitment analytics can assist in
making smarter, data-driven selection, recruiting, and sourcing decisions. This
technology will scan hundreds of resumes at once to provide the best possible fit for a
particular job opening. An organisation can submit automated emails with an interview
appointment that automatically sinks with the work calendar using modern recruiting
software. The organisation may use automated disqualification of unqualified
applicants to automatically screen application forms and exclude candidates who aren't
qualified. Effective recruitment is a mix of science and art. It necessitates the
implementation of repeatable processes that produce consistent results.
A Personalized Artificial Neural Network for Rice Crop Yield Prediction
Page: 272-295 (24)
Author: Pundru Chandra Shaker Reddy*, Alladi Sureshbabu, Yadala Sucharitha and Goddumarri Surya Narayana
DOI: 10.2174/9789815136746123010017
PDF Price: $15
Abstract
Early and accurate crop yield estimates at a local and national level are
essential to oversee industry and trade planning and to mitigate the price hypotheses.
The major challenge for farmers in the agricultural field is selecting an appropriate crop
for planting. Crop selection is dependent on several factors like climate, soil nature,
market, etc. Majorly, crop yield production depends on weather conditions and soil
types. Yield anticipation is essential for farmers nowadays, which significantly adds to
the appropriate yield selection for sowing. There needs to be a framework to
recommend what type of crops to produce for farmers. It is essential and challenging to
make the right farming decisions at a future steady cost and yield balance. This article
proposes an Artificial Neural Network (ANN) model for rice crop yield prediction by
utilizing weather parameters like rainfall, temperature, sunshine hours, and
evapotranspiration. Generally, Default-ANN has only one hidden layer. But in this
work, a Personalized Artificial Neural Network (PANN) approach has been designed
by varying the number of hidden layers, the number of neurons, and the learning rate.
P-ANN model accuracy is computed using R-Square (R2) and Percentage Forecast
Error (PFE). Outcomes demonstrate that the P-ANN model performs precisely with a
greater R2 and smaller PFE values than existing methods. For this research, the
seasonal (Kharif & Rabi) weather dataset and rice yield data of Guntur district, Andhra
Pradesh, India, from 1997-2014 have been used. Better paddy yield was forecasted by
utilizing the P-ANN approach.
Subject Index
Page: 296-301 (6)
Author: Abhishek Majumder, Joy Lal Sarkar and Arindam Majumder
DOI: 10.2174/9789815136746123010018
PDF Price: $15
Introduction
Artificial Intelligence and Data Science in Recommendation System: Current Trends, Technologies and Applications captures the state of the art in usage of artificial intelligence in different types of recommendation systems and predictive analysis. The book provides guidelines and case studies for application of artificial intelligence in recommendation from expert researchers and practitioners. A detailed analysis of the relevant theoretical and practical aspects, current trends and future directions is presented. The book highlights many use cases for recommendation systems: - Basic application of machine learning and deep learning in recommendation process and the evaluation metrics - Machine learning techniques for text mining and spam email filtering considering the perspective of Industry 4.0 - Tensor factorization in different types of recommendation system - Ranking framework and topic modeling to recommend author specialization based on content. - Movie recommendation systems - Point of interest recommendations - Mobile tourism recommendation systems for visually disabled persons - Automation of fashion retail outlets - Human resource management (employee assessment and interview screening) This reference is essential reading for students, faculty members, researchers and industry professionals seeking insight into the working and design of recommendation systems.