International Journal of Interactive Mobile Technologies (iJIM) – eISSN: 1865-7923 – Vol. 14, No. 6, 2020


Paper—Applying Concept Map to Game-Base Concept Assessment 

Applying Concept Map to Game-Base Concept 

Assessment 

https://doi.org/10.3991/ijim.v14i06.12057 

Chien-Hung Lai (), Bin-Shyan Jong, Yen-Teh Hsia 
Chung Yuan Christian University, Taoyuan, Taiwan 

soulwind@cycu.org.tw 

Tsong-Wuu Lin 
Soochow University, Taipei, Taiwan 

Abstract—There have been lots of studies using traditional concept assess-

ment to measure student’s learning achievement. This study adding game ele-

ments in concept assessment try to measure student’s learning achievement, and 

compare this result with traditional concept assessment to see what’s the differ-

ence between traditional concept assessment and adding game element in con-

cept assessment. Traditional concept assessment using SPRT method in multi-

ple-choice to measure student’s concept mastery, our study using the same 

method and present this method in concept game so that student won’t feel bor-

ing and tiring during this assessment. Our study observe each student’s feed-

back and their concept mastery by using game element to display concept as-

sessment, and analyze is using concept game assessment can shorten student’s 

test time and improve student learning concept knowledge after assessment, the 

result shows that when student using concept game assessment they can know 

their concept mastery immediately by seeing process bar present as their life so 

the test time will be shorten, and student’s concept knowledge was improved af-

ter concept game assessment. Student’s feedback shows that they prefer concept 

game assessment because they can measure their concept mastery during the 

concept game assessment; this study shows that adding game element in con-

cept assessment can improve student’s concept mastery and shorten the test 

time student took. 

Keywords—Concept assessment, concept game assessment, SPRT, concept 

mastery. 

1. Introduction 

Traditional teaching mainly uses tests to understand students’ learning condition. 

Therefore, when there are too many test questions or too many tests, students will be 

fed up with tests and their learning motivation will decrease. If some interesting ele-

ments are added to tests, students’ learning condition can be measured and they may 

become more interested in courses and more diligent in learning. 

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mailto:soulwind@cycu.org.tw


Paper—Applying Concept Map to Game-Base Concept Assessment 

Many studies have verified that game-based learning can increase students’ learn-

ing motivation [1] [2] [8]. The addition of game situations to teaching materials ena-

bles students to learn in fun ways and further increase their learning motivation. 

Moreover, test results can be used to understand the effectiveness of students’ use of 

game-based learning. Compared with the teaching tests in traditional teaching where 

tests are used to test students’ learning progress and students certainly will prepare for 

them in advance, game-based teaching uses the same approach to test students’ learn-

ing progress. However, this study intends to investigate whether it is possible to test 

students in a more relaxed manner without informing them of tests in advance and 

whether students can reflect their learning effectiveness of the concepts of chapters 

during the tests. 

Traditional tests still are required to be used to test learning effectiveness in some 

of the game-based learning. Therefore, this study proposed the test of game-based 

concept map to enable students to maintain their motivation to use the test during the 

test of course concept without experiencing learning fatigue due to high frequency of 

tests. This study designed a game-based concept map test system to enable students to 

reflect their learning in a game-based manner during the use of concept test, as well as 

to enable them to fully reflect their learning condition after operation. Moreover, this 

study also compared the game-based concept map test with general traditional concept 

map test. 

2. Literature Review 

2.1. Game-based learning 

Due to the gradual development of computer games, it has become a trend to add 

teaching materials to computer games to enable students to further develop learning 

interest through their interest in games. Moreover, compared with general traditional 

learning, game-based learning can maintain students’ learning motivation because it 

enables students to actively participate in game activities. Therefore, a well-designed 

game can assist students in learning. 

According to relevant studies, the characteristics of game-based learning environ-

ment are as follows [6]: 

• Integrating course content into games to enable students to understand the 

knowledge and content of courses through the games. Compared with the learning 

methods of traditional courses, it brings different experiences to learners. 

• Learners can solve the difficult problems they encounter through the knowledge 

obtained from games, as well as verify whether they can understand or are familiar 

with the course content. 

• The instant feedback provided by games enables learners to understand whether the 

knowledge they obtain is accurate according to the feedback, as well as constantly 

revise their answers through the feedback, to further complete their learning. 

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Paper—Applying Concept Map to Game-Base Concept Assessment 

The provision of tests or levels of different difficulty levels enables students to per-

form the self-test, as well as to understand their level of understanding of course 

knowledge 

2.2. Computer-based testing 

Nowadays, with the rapid development of computer-based teaching, some scholars 

have investigated the effect of used of computer in teaching tests [10]. The use of 

computer in the tests of various fields has become the approach that many scholars 

intend to investigate because the use of computer in tests can rapidly obtain the in-

formation on user status. 

Some scholars have also discovered that the use of computer not only reduces the 

time of tests, but also increases users’ participation motivation [9]. To education and 

teaching courses, the use of computer in tests has become a catalyst catalyzing the 

transformation of learning types.  

It is uncertain whether the effectiveness of the use of computer in tests is the same 

as that of the use of written tests. Some people question the effectiveness in certain 

courses, such as mathematics, science & technology, language. Some scholars used 

biology course to test whether the effectiveness of computer-based test is the same as 

that of written test. A study found that the effectiveness of computer-based test is the 

same as that of written test [10]. Therefore, the use of computer in tests has become a 

gradually practical approach. 

2.3. Concept map test 

In addition to the general written tests, other studies have proposed different meas-

urement methods, such as oral report and specific project, as the tests for students’ 

learning condition. Although oral reports and specific project enable students to de-

velop their own knowledge framework without being restricted by regulations [5], the 

knowledge framework reflected by students according to the measurement results are 

completely different. Therefore, it is impossible to understand students’ exact learning 

condition. 

Concept map test has been verified as an effective tool which can assist students in 

expressing the knowledge they have learned [3][4]. The use of structural characteris-

tics of concept map enables students to understand their own knowledge level, and 

enables teachers to implement remedial teaching according to students’ familiarity of 

concept map. For example, concept map system can be used to assist students in Eng-

lish writing training [7], or the knowledge building methods of concept map can be 

used to help students improve their ability to tell a story or an event [7]. 

The concept map included two parts. Part 1 was concept mapping. This part was 

teachers’ and experts’ analysis on the concepts covered in courses and the connection 

among concepts, as well as the development of corresponding figure of course con-

cepts. Part 2 was the concept map evaluation. This part was to have students take the 

tests of various concepts, and teachers could understand students’ familiarity with 

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Paper—Applying Concept Map to Game-Base Concept Assessment 

each concept based on their test results. Moreover, they could adjust the courses ac-

cording to students’ learning condition of course concepts [5]. 

3. Game-Base in Concept Assessment System Design 

A scholar has used role-playing to enable students to integrate themselves to teach-

ing game situations in the past study on game-based learning, in order to increase 

students’ interest in concepts and learning motivation [1]. Therefore, based on the past 

study, this study added game elements to tests to analyze whether game-based concept 

map test can more effectively understand students’ familiarity with concepts than 

traditional concept map system can, and investigated the influence of game-based 

concept map test and traditional concept map test on students, in order to find out the 

test method applicable to students. 

Firstly, students would log in their accounts through a start page, and their registra-

tion information could be used for testing. The users would be introduced to the game 

page to take the concept test game if their accounts and passwords match. The users 

would be introduced to the results page when the game of concept of a stage is ended. 

The users could see whether they succeeded or failed in the learning of concept. 

A. Animation Display Area: The display of ongoing games and animations. This 

study used the game of castle guardian. When students answered questions, the 

soldiers of the two parties would attack one another. 

B. Q&A Interactive Area: When users clicked the attack button, questions would be 

generated for them to answer. In addition, animation would be displayed in the 

central display area to enable them to understand whether their answer was wrong 

or right. 

C. Concept Progress Bar: The progress bar would be generated according to the 

values input in the SPRT formula when students’ answers were right or wrong to 

enable them to understand their current progress (the red denotes the current pro-

gress. When the bar is fully in red, the students succeed in the learning of the con-

cept. When the bar is not in red, the students fail in the concept). 

D. Text Message Area: The name of the current concept is displayed here. When 

students answered the questions, the corresponding text messages would be dis-

played according to the students’ answers. 

E. Game Message Area: This area instructed students whether to attack or not. 

Moreover, the messages of success and failure would be displayed when students 

succeeded or failed in the learning of concept. 

The results page was divided into three major blocks: 

a. The success or failure of learning of each concept was displayed through text mes-

sages to enable users to understand whether they succeeded or failed in answering 

the question of concept. 

b. Results block: the proportion of number of right and wrong answers of users was 

displayed. A bar chart was drawn according to the proportion. 

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Paper—Applying Concept Map to Game-Base Concept Assessment 

c. Score block: the score of students was displayed. The score of students was calcu-

lated according to the number of right and wrong answers to the questions of con-

cept. The students could refer to their total score of the learning of the current con-

cept according to this score since the score was calculated using the proportion. 

After entering the system, the students clicked “Attack.” The animation of soldiers 

of the two parties attacking one another would be displayed on the screen. Once the 

soldiers attacked one another, the system would randomly select a question of a con-

cept. The soldiers above the screen would keep attacking one another. After the users 

clicked “Submit,” the display area would determine the soldiers of which party won 

according to the answer (right or wrong) and enable the winning soldiers to move 

towards the castle of the losing ones. When the value obtained from the SPRT formu-

la reached specific proportion, the castle would be damaged to a different extent. 

The success and failure in the learning of a concept was subject to the damage of 

the castle. Because the SPRT calculation cannot determine the result of the learning of 

concept under the situation of repeated right and wrong answers, the concept “partial 

familiarity” was added in the experiment. 

4. Experimental Procedure 

The research subjects were the students taking the course of operating system. A 

total of 139 subjects were selected, and they were divided into two classes, class A 

and class B. This experiment tested 5 concepts concerning the operating system, in-

cluding brief introduction to operating system, computer system structure, operating 

system, processing elements and central processor scheduling. Class A was firstly 

tested using the traditional concept map test system, and then was tested using the 

game-based concept map test system. Class B was firstly tested using the game-based 

concept map test system, and then was tested using the traditional concept map test 

system. The experiment mainly investigated the effect of game-based concept test 

system on concept testing. The experiment compared the test results of the students 

using the two systems as the validity of the system concept test. According to the 

experiment results, 96 students completed the experiment, including 43 students in 

class A and 53 students in class B. 

The experimental procedures were: students used two systems, respectively. Multi-

ple choice questions were used in the system for testing. In the experiment, the same 

question back was used in the experiment for the concept test. During the test, the 

students used two systems one by one. Because students would engage in impression-

based learning of concepts after using the systems, they would pass the test using 

learning memory if there were similar questions. Therefore, this study adjusted the 

experiment data according to the post-learning. TABLE I is the set-up of pre-and-post 

concept maps. If the previous concept test was a success (S) and the next one was a 

failure (F) or partial learning (P), the students’ performance would be regarded as 

regress and two different values (2,0)(2,1) would be offered. 

The reason why the result of former concept as partial learning (P) and the next one 

as a failure (F) was that, partial learning represented that students did not fully under-

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Paper—Applying Concept Map to Game-Base Concept Assessment 

stand the knowledge of the concept. In other words, the system was not sure whether 

the students understood the content of the concept. As a result, the value (P) offered to 

the students represented partial learning. Failure represented that students were not 

familiar with the content of the concept. Therefore, when the students’ former concept 

was partial learning and the next one was a “failure,” this study offered them the value 

(1,1) for comparison. If the pre-test of the concept was a failure (F) and the post-test 

of it was partial learning (P) and the students improved their test result of the concept 

from failure to partial learning due to the test learning, this study would also offer 

them the value (0,0) for comparison. 

Table I. The consistency of the concept results set 

First do concept After do concept Condition and encode 

S F Regress (2, 0) 

S P Regress (2, 1) 

F S Progress (2, 2) 

P S Progress (2, 2) 

F P Fair (0, 0) 

S S Fair (1, 1) 

F F Fair (0, 0) 

P P Fair (1, 1) 

P F Fair (1, 1) 

5. Result and Discussion 

TABLE II to TABLE VII are the Pearson’s test on concept 1~5 and the overall 

concept. The results showed that, there was a significant correlation between the two 

systems, suggesting that the two systems were correlated. Moreover, there was a high 

correlation between them, which further showed that the effectiveness of the two 

systems was the same. 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

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Paper—Applying Concept Map to Game-Base Concept Assessment 

Table 1.  Concept 1 Pearson Correlation 

Concept 1 First Game First Concept 

First Game Pearson Correlation 1 .816** 

Sig. (two-tailed)  .000 

N 97 97 

First Concept Pearson Correlation .816** 1 

Sig. (two-tailed) .000  

N 97 97 

Table 2.  Concept 2 Pearson Correlation 

Concept 2 First Game First Concept 

First Game Pearson Correlation 1 .812** 

Sig. (two-tailed)  .000 

N 97 97 

First Concept Pearson Correlation .812** 1 

Sig. (two-tailed) .000  

N 97 97 

Table 3.  Concept 3 Pearson Correlation 

Concept 3 First Game First Concept 

First Game Pearson Correlation 1 .827** 

Sig. (two-tailed)  .000 

N 97 97 

First Concept Pearson Correlation .827** 1 

Sig. (two-tailed) .000  

N 97 97 

Table 4.  Concept 4 Pearson Correlation 

Concept 4 First Game First Concept 

First Game Pearson Correlation 1 .903** 

Sig. (two-tailed)  .000 

N 97 97 

First Concept Pearson Correlation .903** 1 

Sig. (two-tailed) .000  

N 97 97 

Table 5.  Concept 5 Pearson Correlation 

Concept 5 First Game First Concept 

First Game Pearson Correlation 1 .882** 

Sig. (two-tailed)  .000 

N 97 97 

First Concept Pearson Correlation .882** 1 

Sig. (two-tailed) .000  

N 97 97 

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Paper—Applying Concept Map to Game-Base Concept Assessment 

Table 6.  Concept 1 to Concept 5 Pearson Correlation 

Concept 1 to Concept 5 First Game First Concept 

First Game Pearson Correlation 1 .856** 

Sig. (two-tailed)  .000 

N 485 485 

First Concept Pearson Correlation .856** 1 

Sig. (two-tailed) .000  

N 485 485 

 

The experiment found that, because the students used the traditional concept map 

test and game-based concept map test to take their tests of concepts, they might 

learned from the former test system, which led to the fact that the students could learn 

the concepts through system and complete the answers when the questions of con-

cepts were displayed. Therefore, this study classified the data, and performed the 

analysis on the correlation among data. There was a high correlation among data, 

suggesting that the effectiveness of the two systems was the same.  

There was a significant correlation between the two systems. This study added 

game elements to the tests of concepts. During the use of systems, students did not 

suggest that they were taking the tests of concepts. The students would learn concepts 

based on the questions of the tests when answering to the questions. Because this 

study enabled the students to use two systems one by one, the effectiveness of the test 

of concepts of students was better if they used game-based concept test first and then 

use traditional concept test. 

TABLE VIII to TABLE IX are the ratios of progress and regress of class A and 

class B. Class A firstly used the traditional concept map to take the test, and then used 

game-based concept map to take the test. According to TABLE VIII, this study found 

that students’ understanding of game-based concept map test was slightly improved 

after using the traditional concept map system. However, the progress was not signifi-

cant. Therefore, the traditional concept map test system only had the effect of testing 

the learning effectiveness of concepts and could not improve students’ familiarity 

with concepts. 

On the contrary, class B used the game-based concept map test first, and then used 

the traditional concept map test. The results showed that, the learning of concepts was 

improved in the data of traditional concept map test after the students used the game-

based concept map to take the test of their learning. Therefore, after using the game-

based concept map test system, students learned the knowledge of concept through the 

game process and further improved their familiarity with concepts to “progress.” 

TABLE X is the ratios of progress and regress of students’ overall concept. The 

progress ratio of the overall familiarity with concept 1 was 6.2%, while the regress 

ratio of learning was 6.1%. The reason why the progress ratio was slightly larger than 

the regress ratio was that students could learn concepts through game-based map test. 

The overall familiarity of concept 2 improved by 11.34%. This study found that after 

using the two systems to take tests, the students’ score of the system used later (tradi-

tional concept map test) improved due to the learning of concepts. The overall pro-

gress ratio was 10.51%, and the regress ratio was 8.57%, suggesting that game-based 

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Paper—Applying Concept Map to Game-Base Concept Assessment 

concept map test enabled students to better understand the learning of concepts. This 

study regarded progress as students’ progress due to the learning of concept, and re-

garded regress as the situation caused by the students’ condition or environmental 

factors. Therefore, the use of systems, first or later, would lead to students’ learning of 

concept. 

Table 7.  A Progress and Regress 
 

Progress % Regress % 

Concept 1 0% 11.6% 

Concept 2 4.6% 16.27% 

Concept 3 16.27% 11.62% 

Concept 4 2.3% 9.3% 

Concept 5 7% 6.97% 

Total 6% 11.16% 

Table 8.  Class B Progress and Regress 

 Progress % Regress % 

Concept 1 11.32% 1.88% 

Concept 2 15.09% 5.66% 

Concept 3 11.32% 20.75% 

Concept 4 15.09% 3.77% 

Concept 5 13.20% 1.88% 

Total 13.20% 6.79% 

Table 9.  Total Progress and Regress 

 Progress % Regress % 

Concept 1 6.18% 6.12% 

Concept 2 11.34% 10.2% 

Concept 3 14.43% 16.33% 

Concept 4 10.30% 6.12% 

Concept 5 10.30% 4.08% 

Total 10.51% 8.57% 

 

Compared with the traditional concept map test, the game-based concept map test 

displayed the success or failure of learning of concepts and progress of learning in a 

graphical manner. Therefore, students could better understand the changes in values 

and whether they were going to learn the concepts. The tests of concepts could hence 

be speeded up. However, on the other hand, because SRPT formula calculates famili-

arity according to the number of right and wrong answers, the progress ratio of stu-

dents would significantly decrease when they carelessly completed the wrong an-

swers. The students were confused with this phenomenon. Because traditional concept 

map test displayed values and students were less sensitive to values than to images, 

students would experience emotional changes according to the increase or decrease in 

the progress bar, which further affected their speed of tests. 

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Paper—Applying Concept Map to Game-Base Concept Assessment 

The results of the questionnaire showed that the mean of the two questionnaires 

was close and homogeneous (TABLE XI). However, there was no significant correla-

tion between them. The students’ motivation to use the two systems was the same. 

Table II. the mean of the two questionnaires 

No. Subject Traditional Game 

1 Using the traditional concept map test (game-based concept map test) let me 
know more about the course content. 

4.81 4.86 

2 After using the traditional concept map test (game-based concept map test), 

you will understand the concept content that you are not enough. 

4.96 5.00 

3 I feel very happy using the traditional concept map test (game-based concept 

map test). 

4.43 4.47 

4 The subject description is very complete in the traditional concept map test 

(game-based concept map test). 

4.38 4.72 

5 Through the traditional concept map test (game-based concept map test), I 

feel that the course will not be too boring. 

4.58 4.76 

6 I am satisfied with the graphical interface in the traditional concept map test 
(game-based concept map test). 

4.4 4.35 

7 I am satisfied with the interactive way of the traditional concept map test 
(game-based concept map test). 

4.54 4.39 

8 Traditional concept map test (game-based concept map test) makes me feel 

easy to use. 

4.78 4.68 

9 I will promote the traditional concept map test (game-based concept map test) 

to other students. 

4.5 4.54 

10 I like the traditional concept map test (game-based concept map test). 4.56 4.5 

11 Using traditional concept map test (game-based concept map test) makes me 
curious about the course content. 

4.45 4.66 

12 Using traditional concept map test (game-based concept map test) I feel very 

helpful to me. 

4.68 4.72 

13 Compared to the general paper test, I prefer to use the traditional concept map 

test (game-based concept map test) to measure. 

4.81 4.62 

14 I won't be bored with traditional concept map test (game-based concept map 

test) 

4.78 4.63 

15 I will strengthen my study when I use the traditional concept map test (game-

based concept map test) to learn the concept familiarity. 

4.88 4.93 

16 Using the traditional concept map test (game-based concept map test), I feel 

that my heart beats very quickly. 

3.87 4.02 

17 I am annoyed when using traditional concept map test (game-based concept 
map test). 

4.13 4.13 

 

During the interviews, some students mentioned that the speed of animation dis-

play would affect their motivation to use the system. For example, some students 

suggested that the animation display was too slow, and it took a lot of time to wait for 

soldiers to walk to the castle or attack one another in the middle. They could know the 

results of the traditional concept map test right after they completed the answers. 

However, some students suggested that the animation was interesting, and they liked 

this type of test methods. They could succeed in the learning of concepts by damaging 

the rival’s castle. Compare with general traditional concept map test system, students 

preferred using game-based concept map test system. The feedback from the ques-

tionnaire showed that, more than half of the students liked game-based concept map 

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Paper—Applying Concept Map to Game-Base Concept Assessment 

test, 1/3 of them suggested that the traditional concept test was better and other 17 

students did not have any opinion. Moreover, some students mentioned that the imag-

es can be simplified. The system page with too many images made it hard to read the 

questions. 

6. Conclusion 

The main purposes of this study are to use game-based approach to test concepts, 

to investigate whether the addition of game elements to tests of concepts can speed up 

the effect of tests and to improve students’ familiarity with concepts after the tests. 

According to the experiment results, after using game-based concept map test system, 

students’ familiarity with concepts was improved. Moreover, the instant display of 

students’ current progress of learning of concepts enabled them to understand their 

familiarity with concepts in a timely manner. Therefore, students would not lose pa-

tience or motivation due to excessive number of questions during the test or the ex-

cessively frequent tests. According to the research findings, after using game-based 

concept map test, students’ familiarity with concepts was improved. Therefore, if 

uncertain factors are added to the system and images are updated, students’ motiva-

tion to use the system may be better maintained and their familiarity with concepts 

may be improved. For example, if students can use different functions after giving a 

certain number of right answers, their interest in the system will be increased and they 

will be more absorbed in games. Eventually, students’ learning motivation will be 

further increased according to the results of the game-based concept map test. Com-

pared to the general traditional concept map test, students’ learning enthusiasm will be 

higher. 

Moreover, if the effectiveness of learning of concepts can be reflected in scores, 

students can also better grasp their own familiarity with concepts. The experiment 

found that students’ response to scores was stronger. If such type of test can be used 

to enable students to understand their level of understanding according to the tests, 

there is no need to perform more tests on students’ learning progress of courses. It is 

believed that education can have more diversified effects. 

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8. Authors 

Chien-Hung Lai is an assistant professor in the Department of Electronic Engi-

neering, Chung Yuan Christian University. His research interests include computer 

aided education. 

Bin-Shyan Jong is a professor in the Department of Information and Computer 

Engineering, Chung Yuan Christian University. His research interests include com-

puter graphics and computer aided education. 

Yeh-Teh Hsia is now a professor in the Department of Information and Computer 

Engineering, Chung Yuan Christian University. His research interests include com-

puter aided education and artificial intelligence. 

Tsong-Wuu Lin is a professor in the Department of Computer Science and Information 

Management, Soochow University. His research interests include computer graphics and com-

puter aided education. 

Article submitted 2019-10-27. Resubmitted 2019-12-08. Final acceptance 2019-12-10. Final version 

published as submitted by the authors. 

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