Evolution-Based Performance Prediction of Star Cricketers

Evolution-Based Performance Prediction of Star Cricketers

Computers, Materials & Continua Tech Science Press DOI:10.32604/cmc.2021.016659 Article Evolution-Based Performance Prediction of Star Cricketers Haseeb Ahmad1, Shahbaz Ahmad1, Muhammad Asif1, Mobashar Rehman2,* Abdullah Alharbi3 and Zahid Ullah4 1Department of Computer Science, National Textile University, Faisalabad, Pakistan 2Faculty of Information and Communication Technology, Universiti Tunku Abdul Rahman, Kampar, 31900, Perak, Malaysia 3Department of Information Technology, College of Computers and Information Technology, Taif University, Taif, 21944, Saudi Arabia 4Department of Information Systems, King Abdulaziz University, Jeddah, Saudi Arabia *Corresponding Author: Mobashar Rehman. Email: [email protected] Received: 07 January 2021; Accepted: 01 March 2021 Abstract: Cricket databases contain rich and useful information to examine and forecasting patterns and trends. This paper predicts Star Cricketers (SCs) from batting and bowling domains by employing supervised machine learning models. With this aim, each player’s performance evolution is retrieved by using effective features that incorporate the standard performance measures of each player and their peers. Prediction is performed by applying Bayesian- rule, function and decision-tree-based models. Experimental evaluations are performed to validate the applicability of the proposed approach. In par- ticular, the impact of the individual features on the prediction of SCs are analyzed. Moreover, the category and model-wise feature evaluations are also conducted. A cross-validation mechanism is applied to validate the perfor- mance of our proposed approach which further confirms that the incorporated features are statistically significant. Finally, leading SCs are extracted based on their performance evolution scores and their standings are cross-checked with those provided by the International Cricket Council. Keywords: Online social databases; cricket; star cricketers; prediction; machine learning 1 Introduction Cricket is the second most crowd-pleasing sport that originated from England and is currently played worldwide [1,2]. Star cricketers (SCs) have the actual ability to make a fortune in their respective domains. Such players, for instance, Sir Don Bradman, Sir Viv Richards, Brian Lara, Sachin Tendulkar, Zaheer Abbas and Muttiah Muralitharan, were known as “game-changers.” Each can be considered a single-man team, as they become the backbone of their teams in critical scenarios and always try to win by exerting maximum effort. SCs’ experience, playing strategies, pressure handling and match-winning abilities inspire emerging players to follow them as role models [2]. Such mentors can also be employed as This work is licensed under a Creative Commons Attribution 4.0 International License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. 1216 CMC, 2021, vol.69, no.1 team coaches and managers, based on their domain expertise. Although the mere ranking of players based on historical data is insufficient, practical anticipation that highly ranked players will perform similarly in upcoming ventures is essential. Therefore, SC Prediction (SCP) is a practical problem that requires attention from the research community. However, despite the popularity of the game, it still lacks analytics due to either inadequate interest by the research community or ignorance of its regulations and insights. Therefore, this work presents a practical SCP approach to identifying SCs who will continue to perform excellently in upcoming ventures. SCP is performed based on performance evolution, which includes each player’s influential role in wins. Identification of such SCs is vital for the current era of cricket, as it will enable stakeholders to effectively utilize each player’s expertise for winning games. Based on their evolutionary per- formance, cricketers can be grouped into different categories. Despite a large number of possible classes, a player can be included in four major evolutionary classes based on their performance, as depicted in Fig. 1 [3]. SCs are experienced players whose expertise and incredible performance result in wins for their teams. However, there are no existing criteria for anticipating SCs. There- fore, the identification of SCs is an open issue that has driven us to recognize high-performing stars from the field of cricket. Figure 1: Four different evolution stages of a sports player [3] With the emergence of online social networks, several researchers have presented proposals on various analytical aspects. Some sports forecasting issues were discussed in [4–12], but the authors neither presented a proper prediction mechanism nor considered cricket. Davis et al. [13] presented a match simulator for evaluating team strength in T20 cricket. In further proposals, network- based approach PR [14] was suggested for team and captain ranking [15], and a study proposed a modified method of team ranking that adopts the h-index and PageRank [16]. However, none of these works presented any method for SCP. Therefore, this research uses the performance evolution of bowlers and batsmen for SCP. In the presented SCP method, players’ upcoming performance is anticipated by incorporating the early-year performance of players and comparing it with the performance of peers in the same era. In this manner, the playing strategies of cricketers under diverse playing conditions and crit- ical circumstances are examined. To be in a team, a player must be prolific while simultaneously playing with and learning from their teammates. An unproductive player will be considered a failing performer and could be omitted from the team. Therefore, the performance evolution of CMC, 2021, vol.69, no.1 1217 players can be adopted for SCP. In this research, two categories of features (primary and derived) for batsmen and bowlers are introduced for SCP, and their mathematical notations are presented. Supervised machine learning (SML) models, namely, Bayesian-rule-, function- and decision- tree-based models, are applied and evaluated for SCP. The results of each machine learning (ML) classifier are assessed based on the following question: H = is the player likely to perform similarly or not? The key contributions of this research are as follows: (a) A method for SCP that incorporates the concept of performance evolution is presented. (b) Different SML classifiers are analysed for binary classification of SCs. (c) A ranking of leading SCs is presented and validated against the International Cricket Council (ICC) ranking of cricketers. 2 Related Work The first steps toward ranking were taken by Li et al. [10] using Pub Rank. The authors proposed the use of out-links instead of in-links of participating nodes. The mutual influence, track record and chronological changes in a citation network were incorporated. However, the publication venue worth and co-authors’ citation standings were not included. Callaghan et al. [8] presented a mechanism that will determine the scientific impact of new papers. The authors found that the first three years of statistics of the author, paper and venue determine the future impact of research entities. Daud et al. [12] employed several features for rising star prediction (RSP) in citation networks. Among the incorporated features, venue-based features were found to be the most effective for RSP. However, the authors did not include the academic and social network worth. In a different domain, Le et al. [9] mined RSs from an online question- answering forum. The authors used data from the Stack Overflow forum. The personal features category outperformed the others, and random forest (RF) performed the best for their scenario. Panagopoulos et al. [6] recently adopted unsupervised ML to extract rising research groups in citation networks. However, none of the previously presented proposals provided a star prediction method for cricket. Some works presented efficient methods for ranking teams and finding experts from teams. Recently, the popularity of this field has attracted social networking analysts from the scholas- tic community. Croucher [17] developed an efficient and elaborate batting index composed of the product of the batting average and the strike rate [16]. Using a parallel foundation, Van Staden [18] suggested graphical presentations for a comparative analysis of players’ performance. Manage and Scariano utilized IPL data and employed principal component analysis for reducing the batting and bowling dimensions to provide player rankings [19]. Lemmer [20] developed a sta- tistical measure to estimate individual performance using a limited over-match dataset. Bracewell and Ruggiero incorporated a parametric control chart to monitor cricket batsmen in different matches [21]. The proposal of Amin et al. [22] includes an ordered weighted averaging method joined with a regression structure to identify the performance of, and rank, cricket batsmen. However, their batsman ranking is only based on a commonly used measure, namely, the strike rate. Daud et al. [23] incorporated intertype links, including batsman-to-bowler and player-to-team links, for a region-wise ranking of cricket players. More precisely, the better the performance of a batsman (bowler) against the top bowler (batsman) of a strong team, the better the rank of the batsman (bowler). Published literature regarding team ratings, result prediction and evaluation are also available, such as [3,13,15,16,18,19,24]. The Bayesian

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