Special Report : Traditional and Digital Game Preferences of Children

 


A game can be defined (Oxford English Dictionary, 2016) as “an activity that one engages in for amusement or fun” and games are very important for child and youth development because they contribute to their cognitive, physical, social, and emotional well-being (Batdi, 2017; Goldstein, 2012). Similarly, Jenvey and Jenvey (2002) defined a game as an essential factor for child development in terms of social, emotional, physical, and cognitive skills. According to Miller and Kuhaneck (2008), a game is a child's primary and most important occupation as a way to prepare them for the future. Huizinga (2017) described a game as a free activity that enhances players’ intrinsic motivation. It is generally accepted that games prepare children physically and cognitively for life and they are tools that improve their creativity, develop their problem-solving skills and enhance their feeling of freedom (Mclnnes & Birdsey, 2013). There is a great potential of using games as a learning environment. Studies have shown that using games to engage students in the process of learning can improve the quality of education (Bakar, Tuzun & Cagiltay, 2008)

Asimoglu (2012), as a result of a study on teaching preschool students traditional games via creative drama, stated that by the help of drama, students’ interest in the subject increased, the subject triggered curiosity, and rhythmic, musical and kinetic skills developed. Birsen (2017), based upon a study where they achieved foreign language education via the method of game-based learning using a modernized form of traditional games, Pictionary, for students on the level of primary education, found that the success and perceptions of students regarding learning words increased, and stated that traditional games should be utilized as an effective factor in increasing interest towards and performance in a subject. Iwata, Yamabe, Polojarvi and Nakajima (2010) stated that card games are still attractive, and the emotional effect of a game is increased by tangible game objects and spatial interaction. Traditional games develop children’s learning, creativity, imagination and social connections (Parson, 2011). Most parents and educators agree that playing is essential for healthy development of children (Clements, 2004). Huizenga, Admiraal, Akkerman, ten Dam (2009) found as a result of the study they conducted for teaching history to middle school students using digital games that the success of students in the learning field increased significantly and they were more willing to attend activities. Kula and Erdem (2005), in their study on providing primary education students with arithmetic skills via educational digital games, determined that students’ quantitative success did not change, but their qualitative responses changed from simple to more complex. Additionally, they reported increases in students’ in-class interactions and motivations towards the subject. In general, it is seen that it was attempted to support traditional learning environments by games, dramatization and card games (Amory & Seagram, 2003), and gather learners together with different interfaces such as 2D, 3D augmented-reality-supported platforms and massively multiplayer online role-playing games (MMORPG) (Hamalainen, 2008; Zhong, 2011). Games, which have an important place in the instruction process, are also preferred to create competition, challenges, social communication, diversity, and dreamy environments (Amory, Naicker, Vincent & Adams, 1999; Bakar, Tuzun & Cagiltay, 2008; Lucas & Sherry, 2014). Prensky (2002) listed the characteristics of students of the 21st century, whom he defined as digital natives, as multitasking, preferring graphical content more, wanting to reach information fast, technology-friendly, and preferring to learn by discovering and gaming. These characteristics lead us to digitalization and elements of games. Characteristics of digital games such as active participation in the process, customization for the user, socializing in the virtual environment, entertainment, sense of success and rewarding the user overlap with the characteristics of digital natives completely (Agaoglu & Metin, 2015; Downey, Hayes & Brian, 2004; Esen, 2008; Inal & Cagiltay, 2005; Nedim Bal & Metehan, 2016; Van Rheenen, 2012). Accordingly, it may be argued that digital games are some of the most ideal learning environments for digital natives and the generation in question learns best via games (Karlsson, 2007; Kiili, 2005; Prensky, 2003). Studies reported that, while the time spent by children playing games at home and in video game arcades was 4 hours a week on average in 1980s; this time increased up to 5.5 hours for girls and 13 hours for boys in 2004 (Christakis, Ebel, Rivara & Zimmerman, 2004; Fis Erumit, 2016), and it was suggested that it is a necessity to include this game-playing time in the time children spent learning (Fromme, 2003; Funk, 1993).

In addition to contributing to the learning of students in a relevant field, digital games are known to increase students’ attention and motivation via fun learning environments that are created in games, and contribute to development of self-esteem and self-efficacy, problemsolving, and strategic and algorithmic thinking skills (Akpinar, 1999; Batdi, 2017; Bayirtepe & Tuzun, 2007; Bottino, Ferlino, Ott & Travella, 2006; Demirel, Seferoglu & Yagci, 2003; Prensky, 2001). With these characteristics, digital games provide children with opportunities for learning. For example, they experience being a pilot while using plane simulators or being an engineer while building cities. Therefore, it is clear that learning environments prepared by considering student characteristics, readiness levels and experiences will create more meaningful learnings for them (Garris, Ahlers & Driskell, 2002; Gunes, 2015; Karamustafaoglu & Kaya, 2013; Tural, 2005). The Turkish Ministry of National Education also includes more efforts in recent years in this regard for developing digital games for almost every subject (URL-2017). For this process to be effective and learning-based, one needs to look at the theoretical basis of game-based learning.

Game-based learning used games as a reinforcing/complementary factor in order to develop capability in specific subjects. Such games either provide preliminary learning or replace learning (Cankaya & Karamete, 2008; Kearney & Pivec, 2007). In difference to gamification, this does not concern the entirety of the learning process (Arabul Yayla, 2015; Karatas, 2014; Sahin et al., 2017). As in the chart that represents the learning process as given in the figure above, in the game cycle into which educational content and the game enter together, educational content is in a blurred formation with the characteristics of the game (Prensky, 2001). The response to the action of the player comes through feedbacks from the system. The player, this way, starts to discover the structure in the game and adapt to the discovered structure (Kula & Erdem, 2005; Prensky, 2001). The connection between the game cycle and learning outputs occurs in the process of questioning. This process involves the players’ adoption and application of what is learnt in the game in real life (Garris, Ahlers & Driskell, 2002). Learning outputs following the process of questioning may be generally listed as cognitive, sensory and motor skills (Deterding, Dixon, Khaled & Nack, 2011). It should be ensured that the outcomes in question are provided to the player in the cycle of experience by dividing these outcomes into small steps. The emotional dimension of the game is about achieving a given task. A game rewards the player with points, cups, etc. in exchange of success. Failure leads to removal of the player from the given task (Domínguez et al., 2013). The most important concept here is the motivation of the player. If the motivation is achieved from within the student without the need for an external influence, this is internal motivation. Internal motivation is performance of learning activities by a person’s own will (Fis Erumit, 2016). It is stated that especially the educational games in digital environments will not only support their active participation in the process but contribute to their interactions with peers and connection to the process of learning (Caglar & Arkun Kocadere, 2015), and when entertainment, motivation and dedication to the setting are prioritized in addition to learning, quality will also increase (Cankaya, 2007). It was hoped that the educational potential of educational digital games developed with this purpose would be strong, but it was seen that, in comparison to entertainment-oriented games, educational games did not attract students or increase attention and motivation much (Kula & Erdem, 2005). Theory and practice, unfortunately, did not comply with each other (Fis Erumit, 2016). It seems possible to transform the games students play with great motivation and desire into a more efficient form by collaboration between the educators and the game sector (Korkusuz & Karamete, 2013). Being able to determine which types of games students prefer and the games and locations that get pleasure out of playing, is only one dimension of studies that will pave the way to add educational content into games without disrupting their playability and fun (Bozkurt & Genc Kumtepe, 2014; Catak, 2011; Dickey, 2007; Hacisalihoglu Karadeniz, 2017; Tolay, 2013; Tugrul et al., 2014). This study aimed to determine the games middle school play willingly and fondly play and present the variables that affect game preferences. In this context, answers were sought for the following questions:

Methods 

There are different methods and techniques that aim to identify game preferences of students. Vance, Miller and Hand (1995) argued that cognitive structure may be revealed by using different methods and strategies in order to determine current situations of minds and conceptual changes. These alternative assessment and evaluation techniques are used to determine not only students’ possessed knowledge, but also the way students relate concepts, their cognitive structures, to what extent they understand the similarities between their possessed knowledge and daily events in their surroundings (Bahar, Nartgun, Durmus & Bicak, 2006) and alternative concepts that they build (Kurt et al., 2013). The-Draw-and-Write technique, which is one of the most important measurement tools, was utilized in this study in order to identify the participants’ game preferences. Especially drawing enables children of all ages to reflect on their own cognitive situation and how they learn (Aydogdu & Kesercioglu, 2005). Several studies have used the drawing method in order to reveal the possessed knowledge of students about specific subjects (Ehrlén, 2009; Harman, 2012; Sahin, Ipek & Ayas, 2008). The quantitative research method of survey was used in this study to determine middle school students’ game preferences. The survey method is defined as a scientific research tool that enable researchers to make generalizations on the population from the sample being studied (Johnson & Christensen, 2000). In other words, survey research aims to describe or explain characteristics of a very large group or groups such as societies, things, institutions and events (Cohen, Manion & Morrison, 2007; McMillian & Schumacher, 2001). Since this study aims to define the game preferences of middle school students, it was thought it would be useful to form a very large sample out of 464 students and employ the survey method.

Participants

In the scope of the study, 478 middle school students were reached from 12 randomly selected schools in the central district and other districts of the province of Trabzon in Turkey. 10 student who did not respond to the survey in the study completely and 4 students who made more than 4 game drawings were left out of the sample. The remaining 464 middle school students (212 girls, 252 boys) of grades 5, 6, 7 and 8, from different socioeconomic groups constituted the sample. A total of 464 participants were included in the study. Table 1 demonstrates participant students’ gender and grade level information. As shown in Table 1, 464 students participated in the survey.

Data Collection Tool 

The data of this study, which was conducted in Spring 2015, were gathered by using a two-part survey. This two-part survey was developed according to three different field expert-opinions. The first part consisted of demographic questions and the second part asked students to draw a game that they had the most fun playing (the most played games). A pilot study was conducted with 50 students, who were not included in the sample of this study, in order to test the survey questions. The pilot study showed that 30-40 minutes of time was enough to complete the survey. Additionally, two questions that were generally misunderstood by the students were redesigned and the final survey was obtained

Data Analysis 

The SPSS 20.0 software was used in the quantitative data analysis, while the qualitative data analysis involved the method of content analysis, which comprises stages of coding, finding themes, organizing the data based on codes and themes (Yildirim & Simsek, 2011). The drawings in the survey forms filled out by the students were coded by transcription. For reliability of coding, two different experts of the field performed coding on randomly selected examples and compared the results. The relationships among the codes were examined, similarities and differences were detected, and the main lines of the finding of the study were derived. In this context, while developing the categories, three levels (indoor games, outdoor games and digital games) were determined in accordance with the body of literature Data Analysis The SPSS 20.0 software was used in the quantitative data analysis, while the qualitative data analysis involved the method of content analysis, which comprises stages of coding, finding themes, organizing the data based on codes and themes (Yildirim & Simsek, 2011). The drawings in the survey forms filled out by the students were coded by transcription. For reliability of coding, two different experts of the field performed coding on randomly selected examples and compared the results. The relationships among the codes were examined, similarities and differences were detected, and the main lines of the finding of the study were derived. In this context, while developing the categories, three levels (indoor games, outdoor games and digital games) were determined in accordance with the body of literature and the content of the drawing questions (Yengin, 2012). Additionally, the three levels mentioned and the content of the drawing questions (Yengin, 2012). Additionally, the three levels mentioned 

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