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ENHANCING PREDICTION ACCURACY OF A MULTI-CRITERIA RECOMMENDER SYSTEM

ENHANCING PREDICTION ACCURACY OF A MULTI-CRITERIA RECOMMENDER SYSTEM

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ENHANCING PREDICTION ACCURACY OF A MULTI-CRITERIA RECOMMENDER SYSTEM

Chapter one

1.1 Introduction.
Intelligent systems require knowledge organisation to interpret, evaluate, and analyse acquired data. Intelligent systems are required in the majority of our daily activities, including e-commerce, online booking, social media, e-shopping, and other information-rich environments.

Recommender systems engage with users in a personalised manner, gathering information about a user’s tastes or preferences and using that knowledge to make suggestions and provide aid in instances when users must choose from a variety of possibilities.

In this chapter, we will discuss the recommender system and its approaches, as well as introduce multi-criteria recommender systems and a genetic algorithm. This chapter will also introduce the problem statement, aims and objectives, significance, and scope of the investigation.

1.2 Background of the Study

The recommender system was recognised as a potential study field in the mid-1990s, when researchers began focusing on recommendation bugs that were clearly dependent on rating structure (Adomavicius & Tuzhilin, 2005).

Recommender systems (RSs) are methodologies and software tools for engaging with huge and complicated information spaces in order to prioritise and give suggestions on products, offers, and objects that may be of interest to a specific user (Ricci, Rokach, & Shapira, 2015).

These ideas inform a variety of decision-making processes, such as which thing or object to purchase, which movie to watch, which news to read online, which music to listen to, which airline to fly with, or which hotel to book (Ricci et al., 2015).

Thus, the variety of homogeneous products or services, related information, and choices available in the market place or in diverse application domains such as e-commerce, e-learning, e-government, and e-tourism has made the recommender system widely used (Shambour, Hourani, & Fraihat, 2016).

The recommender system’s accuracy is an important component in determining how efficiently it can receive and analyse information. This has made evaluation of the recommender system an important and difficult undertaking.

According to Sohrabi, Toloo, Moeini, and Nalchigar (2015), accuracy is a key metric for evaluating recommender systems. This project aims to create an adaptive evolutionary algorithm to improve prediction accuracy and achieve a high correlation between anticipated and actual values for a multi-criteria recommender system.

1.2.1 Recommender System Techniques

The knowledge base, addressed domain, method, or technique employed during development can all influence the recommender system. Burke (2002) classifies the recommender into six approaches:

Content-based: In this strategy, the system learns from the user’s previous likes and interests and then offers appropriate goods to the user based on that knowledge.

The content-based approach relies on item features, hence a learning mechanism is used to establish the sort of user profile that will be generated by the content-based recommender. The similarities between items are determined by the attributes linked with them (Ricci et al., 2015).

Collaborative filtering: This is the most popular, developed, and widely used technique (Burke, 2002). It makes recommendations to the active user based on prior items enjoyed by other users who share similar likes.

Collaborative filtering is known as people-to-people correlation since the similarity in preferences between two users is determined by their rating histories (Ricci et al., 2015).

Demographic: The primary goal of this method is to categorise users based on personal characteristics and recommend things based on their demographic profile (Ricci et al., 2015). It is possible that no prior user ratings are required.

Knowledge-based: This method recommends items based on a certain field of knowledge, such as how beneficial an item is to the user and how certain item attributes suit the user’s requirements and preferences. The similarity metric can be viewed as the utility of the recommendation.

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