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


Paper—Development of SMASH Skills Training Model on Volleyball Based on Interactive Multimedia 

Development of SMASH Skills Training Model on 

Volleyball Based on Interactive Multimedia 

https://doi.org/10.3991/ijim.v14i06.13405 

Muhammad Suhairi () 
Universitas Negeri Jakarta, Jakarta, Indonesia 

IKIP PGRI Pontianak, Kalimantan Barat, Indonesia 
suhairims27@gmail.com 

Moch. Asmawi, James Tangkudung, Achmad Sofyan Hanif, Firmansyah Dlis 
Universitas Negeri Jakarta, Jakarta, Indonesia 

Abstract—SMASH's skill is a technique that can be done by a person in a 

hard swooping towards your opponent to produce numbers. Interactive multi-

media technology is expected to be a guideline for athletes in looking at more 

variation models of SMASH. The aim of development research is to produce an 

interactive multimedia volleyball playing skill training model. The method used 

in this research is development research design by Borg and Gall. The approach 

used in this study is a qualitative and quantitative approach. This study is hoped 

to improve volleyball skills by looking at the interactive multimedia volleyball 

playing practice model. This study concludes that interactive multimedia-based 

volleyball skill playing model can be used in the actual application of exercises. 

Keywords—Interactive Multimedia, SMASH Skills, Volleyball. 

1 Introduction 

Technology has a very important role for the education process and also provides 

direction in the development of the world of education. The use of science and tech-

nology specifically in the development of packaging for interactive multimedia-based 

learning resources is needed for learning resources to be packaged in more interesting 

and more complete forms in their presentation. Multimedia is one of the supporting 

devices that can be used in this case. This is because multimedia technology includes 

several aspects that are synergistic, between text, graphics, static images, animation, 

film and sound. Multimedia technology will bring the new revolution of sport educa-

tion, education thought and education theory in colleges and universities during the 

multimedia period. Sport education need to gripe the chance to change the traditional 

education mind. In colleges and universities, bring multimedia technology into the 

education, rich the teaching content, combine various media techniques to arouse 

students’ learning interests with energy application to the teaching activities then to 

improve sport teaching in colleges and universities [1]. Understanding multimedia can 

be different from the point of view of people different. In general, multimedia is relat-

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https://doi.org/10.3991/ijim.v14i06.13405
mailto:suhairims27@gmail.com


Paper—Development of SMASH Skills Training Model on Volleyball Based on Interactive Multimedia 

ed to use of more than one type of media to present information. Multimedia in learn-

ing produces visual information that is already well known in the learning process. 

With average abilities, people learn 1% through what they feel, 1.5% through what 

they touch, 3.5% through what they smell, 11% of what they hear, but 83% of what 

they see [2]. This research also found that memory levels were 10% of what they 

wrote, 20% of what they heard, 30% of what they heard and saw 50% of what they 

saw and heard, 70% of what they heard and discuss [3]. The utilization of multimedia 

tools can offer a flexible way for players understand the actions for the taught skills. 

With this in mind, a deeper insight about the use of multimedia tools in sport [4]. 

Multimedia teaching systems can effectively achieve resource sharing. Without space 

and time limits, students can rationally manage their time according to their time [5].  

Through multimedia in the form of images, animations, and videos, supporters of 

interesting and attractive teaching and learning activities [6]. In his research stated 

that one of the right media and can be used in facilitating the learning process of vol-

leyball is with the help of learning multimedia in the form of CD (Video Compact 

Disck). Multimedia learning is the type of learning provided. Students will be able to 

use this multimedia learning as a source of independent learning [7]. Multimedia 

technology brings a new revolution in sports education, educational thinking and 

educational theory in colleges and universities. Sports education needs to change from 

the mind of traditional education. In college, multimedia technology in the field of 

sports has an impact on education, many contain the content of the teaching and learn-

ing process, combining various media techniques to trigger students' interest in learn-

ing with applications so as to energize teaching activities then improve sports teaching 

in higher education. The appropriate use of media adds to the usefulness of a technol-

ogy where in education it is inseparable from touch and technological progress. Many 

benefits can be obtained in the use of multimedia technology because this multimedia 

technology is able to overcome learning difficulties. States that the use of interactive 

multimedia in learning is also very possible to improve the expected thinking skills. In 

general, the benefits that can be obtained through the use of interactive multimedia is 

that the learning process can run more interesting, more interactive, the amount of 

teaching time can be reduced, the quality of student learning can be improved and the 

teaching and learning process can be done anytime, and can improve students' reason-

ing abilities [8]. Furthermore, the use of multimedia is aimed to overcome the limita-

tions of space, time, and distance during the learning and training process [9]. Volley-

ball is a complex sport, so in volleyball learning if a teacher is lacking in developing 

creativity, students will have less of interest in participating in learning process. in the 

game of volleyball smash is a punch technique that is most needed. The effectiveness 

of the smash is influenced by physical ability and mastery of attack skills. [10]. It is 

expected that interactive multimedia in training or learning will be more effective and 

efficient so that achievements in the field of sports can be maximal or achievers espe-

cially in mastering the skills of playing volleyball. Mastery of volleyball skills is 

needed to make the game can run well. The skills can be in the form of skills: service, 

bottom pass, top pass, smash and block. Smash is a swooping, sharp and fast punch. 

By forming a punch attack hard when the ball is on the net, to be inserted into the 

opponent's area. The display of volleyball skill training models with print media and 

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Paper—Development of SMASH Skills Training Model on Volleyball Based on Interactive Multimedia 

interactive multimedia Compact (VCD) outside of hours of practice in a relaxed state 

is expected to be able to help the process of understanding the concept of volleyball 

playing techniques so that the field can see the training model showing the skill of 

playing volleyball and for novice players, it will increase their knowledge by watch-

ing various techniques of playing volleyball well. 

The following is a comparison of the renewal of the learning model (old training 

model) and the new one with interactive multimedia-based. 

Table 1.  Comparison of renewal of old and new training models with interactive multimedia-

based. 

Old New 

Train based on the experience of the coach Use a volleyball guidebook 

There is no interactive multimedia video There is interactive multimedia video 

Variations The exercises given are not sequential 

from easy, simple to complex movements 

Using the correct sequence of exercises from easy, 

simple to complex 

Monotonous exercise, less fun (lack of variety) Many choices of variations of practice 

Athletes or students do not know previous experi-

ences 

With video athletes or students can find out the 

model that will be applied during training 

Limited learning athletes (only in meetings) Student athletes can learn more about the movements 

and techniques of volleyball training offline. 

Access dependency No dependency access (can be accessed offline) 

There is no complex tutorial (VCD and textbook) With multimedia VCDs and textbooks athletes or 

students can study independently 

 

Related to the information, it shows that it is necessary to develop an interactive 

multimedia-based training model which can later be used as a solution to facilitate 

students in learning to play volleyball more effectively. 

2 Literature Review 

Research and development (Research and Development) according to Borg & Gall 

is a process used to develop and validate educational products. Development research 

finds development patterns, sequences of growth, change and especially has the inten-

tion of developing teaching materials for universities. Model development is the result 

of research oriented to product development results. A model is a description of a 

mindset. A model usually describes the whole concept that is interrelated [11]. This 

Development Model uses a system approach model, namely by principle, a stage will 

receive input from the previous stage and produce output for the next stage, so that all 

components work together to produce an effective learning [12]. Also explained that 

research and development is a process or steps to develop a new product or perfect an 

existing product which can be accounted for. Interactive multimedia becomes an ap-

plication of learning that utilizes technological advancements that can arouse 

thoughts, feelings, attention, and willingness to occur in learning processes that en-

hance skills [13]. Is a research method used to produce certain products, and test the 

effectiveness of these products [14] According to States that development research is 

a study that aims to develop a new product or perfect an existing product [14]. States 

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Paper—Development of SMASH Skills Training Model on Volleyball Based on Interactive Multimedia 

that "Development research is research that is used to create new products and can 

develop products that have supported the analysis of needs that contain in the field 

(observation, interviews, initial needs questionnaire) [15]. 

Multimmedia is the use of a computer to present and combine text, grapics, audio, 

and video with links and tools that let the user navigate, interect, create, and com-

municat” [16]. Multimedia is defined as a combination of several media which is used 

to convey information in the from of text, graphics or graphic, movie, video, and 

audio animation. Multimedia includes hypermedia and hypertext. Hypermedia is a 

presentation media that includes text, silent grapics of animationm movie, video, and 

audio [17] Multimedia is an integration of two or more integrated media formats such 

as texts, images, graphics, souds, animations, and videos to feed information into 

computer systems [18]. This integration as a whole displays information, massages, or 

lesson contents. Throught these combined media, learning activities are rendered 

more interactive and reflect everyday life experience. Multimedia is a combination 

between several documents, text, art, sound, animation, and videos that are delivered 

through computers or electronic and digital equipment [19]. Smash is a way to play 

the ball efficiently and effectively in accordance with the rules of the game to achieve 

a hard hit aimed at releasing an opponent's game to produce points [20]. 

3 Methodology / Materials 

Development research is a research approach that is linked to work design and de-

velopment and has a purpose for designing in a training environment and strives for a 

scientific understanding of fundamentals. 

 

Fig. 1. Stage of Design Risearch and Development Walter R. Borg and Meredith D. Gall. 

Components in system approach models according to Walter R. Borg and Meredith 

D. Gall consist of 10 stages, namely: 

1. Preliminary study (Research and Information Collecting) 

2. Planning research 

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Paper—Development of SMASH Skills Training Model on Volleyball Based on Interactive Multimedia 

3. Design development (Develop Preliminary of Product) 

4. Early stage trials (Preliminary Field Testing) 

5. Revised Limited Field Test Results (Main Product Revision) 

6. More extensive product testing (Main Field Test) 

7. Revised Result of Broader Field Test (Operational Product Revision) 

8. Feasibility Test (Operational Field Testing) 

9. Final Revision of Final Product Revision Results 

10. Dissemination and Implementation of Final Products (Dissemination and Imple-

mentation) 

Based on the understanding of the development of learning models, there are at 

least four characteristics, namely: 

1. Goal oriented 

2. Conditions 

3. Systematic 

4. Evaluation and revision 

Each model designed and developed is preceded by the existence of a clear objec-

tive formula. 

Research on the development of interactive multimedia volleyball skills training 

models specifically has several objectives including: 

1. Develop a design plan for interactive multimedia volleyball skills training models 

2. Obtain empirical data about the effectiveness and efficiency of the results of devel-

oping interactive multimedia volleyball skills training models. 

The development research procedure basically consists of two main objectives, 

namely developing the product, and testing the effectiveness of the product in achiev-

ing the goal. Adaptation is realized in the form of technical planning goals and types 

of activities to be carried out in each stage. If the ten steps of research and develop-

ment are followed correctly, it will be able to produce an educational product that can 

be accounted for. These steps are not the standard things that must be followed. It can 

be adjusted to the needs of the researcher. The characteristics of the model developed 

are training models of interactive multimedia volleyball smash skills specifically 

having several objectives including: 

1. Develop a model design of interactive multimedia volleyball skills smash training 

2. Obtaining empirical data about the effectiveness and efficiency of the results of the 

development of an interactive multimedia volleyball smash skill training model. 

4 Results and Findings 

The results of the development of this interactive multimedia-based volleyball 

smash skill training model are products in the form of printed books and * .exe soft 

files which are packaged in the form of VCDs. Interactive multimedia volleyball 

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Paper—Development of SMASH Skills Training Model on Volleyball Based on Interactive Multimedia 

based smash skills training models include, text, images, animations, and videos as 

well as knowledge quiz score analysis of volleyball. The research implementation of 

this interactive multimedia volleyball smash training model is generally divided into 

eight main stages, namely: 

1. Research needs analysis 

2. Product preparation 

3. Expert validation and phase I revision 

4. Small group trials 

5. Revisions stage II 

6. Large group trials 

7. Operational revisions 

8. Product effectiveness test 

The following will present data on the results of research and development: 

Table of results can be seen in the attachment. 

Table 2.  Results of need analysis Analysis of interactive multimedia based volleyball training 

models. 

No. Questions Score Total Score % 

1. Have you ever attended volleyball lectures 60 60 100 

2. Are you a volleyball player 28 60 46,66 

3. Do you master all the techniques of volleyball 24 60 40 

4. Does the trainer use a fariative model in practice 25 60 41,67 

5. Is the model used by the trainer already varied 20 60 33,33 

6. Does the coach ever provide interactive multimedia to help you practice 0 60 0 

7. Do you feel the need to develop volleyball skills training models 60 60 100 

8. 
Do you feel that there are needs to be an interactive media that helps 

you better understand volleyball games and better master their skills 
60 60 0 

 

From the results of the needs analysis above, there are several important points that 

are key to the need for development to be carried out. Among other things, that: 

1. Out of 60 100% students said the trainer had never provided interactive multimedia 

to help practice 

2. Out of 60 students 41.67% of students stated that the model used by the trainer 

when practicing was still not varied 

3. From 60 students 100% stated that there was a need to develop volleyball skills 

training models 

4. Of 60 100% students felt the need to develop interactive multimedia volleyball 

skills training models 

Whereas, based on the results of observations conducted by researchers, it has not 

yet been revealed that the practice media in the form of video and interactive, and the 

models used still use conventional drill models. 

For development planning the researchers worked with multimedia experts, vol-

leyball lecturers, and volleyball coaches with National tutoring, to obtain a training 

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Paper—Development of SMASH Skills Training Model on Volleyball Based on Interactive Multimedia 

model for smash skills in interactive multimedia volleyball. At each stage of research 

and development, there are design steps and its explanations are described and modi-

fied in accordance with the objectives and conditions of the actual research. Follow-

ing are the stages of the model development plan: 

 

Fig. 2. The flow illustrated above is a path that has been modified by the researcher. The flow 

used is adjusted to the actual field conditions. Taking into account the availability of 

time and funds, a number of steps will be modified but not out of the chosen path. The 

flow is the flow of research and development by Borg and Gall and combined with the 

development of Luther's interactive multimedia model by Sutopo [21].  

The following is a description of the stages of each model development plan: 

Stage 1 

1. Conduct research and data collection for initial research or need assumptions for 60 

students of Physical Health and Recreation Education. 

2. Development planning is done by determining objectives, limiting the scope, and 

preparing a trial plan. 

Stage 2 

1. Develop the initial product, which is then evaluated by 3 media experts, 3 volley-

ball experts. The development of interactive multimedia products refers to six stag-

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Paper—Development of SMASH Skills Training Model on Volleyball Based on Interactive Multimedia 

es of multimedia, namely: concept, design, collecting materials, assembly, testing, 

and distribution. 

Stage 3 

1. Small group trials, using 12 student subjects in Physical Health and Recreation Ed-

ucation. 

2. Product revision (according to the results of the analysis on small group trials). The 

product refinement process still refers to six stages of interactive multimedia con-

cepts: concept, design, collecting materials, assembly, testing, and distribution. 

3. Field trials (large groups) using 60 subjects of Health and Recreation Physical Ed-

ucation students, with 60 or more respondents. 

4. Make product revisions according to the results of large group trials. The product 

refilling process still follows the interactive multimedia concept: concept, design, 

collecting materials, assembly, testing, and distribution. 

5. Conduct operational trials to determine product effectiveness. 

Table 3.  Expert Evaluation and revision Phase 1. Interactive multimedia products that have 

been created are evaluated by media experts 

No Assessed Aspects X Xi Percentage Category 

1 

Multimedia graphic design      

The opening view 12 12 87,5 Good 

The design of images, text and icons 

on each menu is interesting to gener-

ate interest in learning 

11 12 100 

Good 

Background design on each menu is 

interesting to generate interest in 

learning 

11 12 75 

Good Enough 

Clarity and accuracy of text size 10 12 100 Good 

The image size on each frame and the 

icon on the menu is precise and clear 
11 12 91,7 

Good 

Contrast between background, text 

and images 
11 12 91,7 

Good 

The size of the video frame is precise 

and clear 
11 12 91,7 

Good 

The overall exploration of multimedia 

graphic design 
12 12 100 

Good 

2 

Animated graphics and sound effects      

Animation changes the color of the 

button when highlighted 
10 12 83,3 

Good Enough 

Transition animations between frames 

when moving from one menu to an-

other 

10 12 83,3 

Good Enough 

Opening animation at the beginning 

of the template (when auto run) 
11 12 91,7 

Good 

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Paper—Development of SMASH Skills Training Model on Volleyball Based on Interactive Multimedia 

Animation when closing the applica-

tion 
10 12 83,3 

Good Enough 

The sound effect of the button when 

highlighted is clearly heard 
12 12 100 

Good 

The video sound is clear when play-

ing 
11 12 91,7 

Good 

3 

Combination of images, sounds and videos      

Background color combination with 

text 
12 12 100 

Good 

Back sound combination with video 

sound 
11 12 91,7 

Good 

Back sound combination with button 

sound effects 
11 12 91,7 

Good 

Position of each menu 12 12 100 Good 

Placement of video frames 12 12 100 Good 

Placement of video frames 12 12 100 Good 

4 

Ease of use      

How to choose a menu by clicking on 

the menu in question makes it easier 

for students to operate multimedia 

12 12 100 

Good 

How to turn off and turn on music 12 12 100 Good 

The way to get out of the application 

is easy to understand 
12 12 100 

Good 

Overall operational ease 12 12 100 Good 

Total 271 288 94,09 Good 

Average 11,29 12 94,09   

 

Based on the evaluation of learning technology developed on interactive multime-

dia, there are four main assessment variables namely multimedia graphic design, ani-

mation and sound effects, a combination of sound and video images, and ease of use. 

Based on the data presented above, the results show that interactive multimedia 

products of volleyball skill training models obtain a total score (X) of 271 from the 

maximum score (Xi) 288 with a percentage of 94.04, which means that overall the 

product meets the Good criteria so that it can used in actual learning. Based on the 

data presented above, the results show that interactive multimedia products of volley-

ball skills training models are appropriate for use in actual learning. 

 

 

 

 

 

 

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Paper—Development of SMASH Skills Training Model on Volleyball Based on Interactive Multimedia 

Table 4.  Trial small groups of interactive multimedia volleyball practice media models. 

No. Item X Xi Percentage Category 

1. 
Completeness of the smash training 
model in increasing students' 

knowledge and skills 

3.71 4 92.75 
Good  

2. 
The accuracy of the training model 
with the concepts of volleyball smash 

skills 

3.79 4 94.75 
Good  

3. 
The accuracy of the description on 

each volleyball training model 
3.81 4 95.25 

Good  

4. Video accuracy 3.75 4 93.75 Good  

5. Multimedia graphic design 3.78 4 93.25 Good  

6. Animated graphics and sound effects 3.71 4 92.75 Good  

7. 
Combination of images, sounds and 

videos 
3.67 4 91.75 

Good  

8. Ease to use 3.81 4 95.25 Good  

Total 30.03 32 93.81  Good 

 

The results of the trial of a small group of interactive multimedia volleyball smash 

training models obtained from 12 students were obtained based on student responses 

consisting of 8 main variables namely; model completeness, model accuracy, accura-

cy of description, accuracy of video, graphic design, animation and sound effects, 

combination of images, sound and video and ease of use that gets a score of (X) 30.03 

from maximum score (Xi) 32 which means good average with a percentage of 93.81% 

in the good category, so that it can proceed to large group trials. 

Table 5.  Revision Phase 2 for interactive multimedia-based training models from volleyball 

experts. 

No. Item 
Average of 

item 
Xi Percentage Category 

1 
Completeness of training models in increasing 

student knowledge and skills 
3,78 4 94,50 Good 

2 
The accuracy of the training model with the 

concepts of volleyball smash skills 
3,81 4 95,25 Good 

3 The accuracy of the description on each model 3,67 4 91,75 Good 

4 Video accuracy 3,74 4 93,50 Good 

5 E-learning graphic design 3,79 4 94,75 Good 

6 Animated graphics and sound effects 3,83 4 95,75 Good 

7 Combination of images, sounds, text and videos 3,83 4 95,75 Good 

8 Ease of use 3,83 4 95,75 Good 

Total 30,28 32 94,63 Good 

 

The revision of phase II of an interactive multimedia volleyball training model ob-

tained from the responses of volleyball experts and media experts consisting of 8 

main variables, namely; completeness of the model, accuracy of the model, accuracy 

of description, accuracy of video, graphic design, animation and sound evaluation, 

combination of images, sound and video and ease of use that obtains a score of (X) 

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Paper—Development of SMASH Skills Training Model on Volleyball Based on Interactive Multimedia 

30.28 from a maximum score (Xi) 32 which means good average with a percentage of 

94.63% with a good category, so it can be concluded that this product can be used in a 

larger group trial. 

Table 6.  Trial Large Group media interactive multimedia volleyball practice media model. 

No. Item 
Average 

on item 
Xi 

Percent-

age 
Category 

1. 
Completeness of the smash training model in increasing 

students' knowledge and skills 
3,88 4 97 Good 

2. 
The accuracy of the training model with the concepts of 
volleyball skills 

3,86 4 96,5 Good 

3. The accuracy of the description on each model 3,83 4 95,75 Good 

4. Video accuracy 3,80 4 95 Good 

5. Multimedia graphic design 3,87 4 96,75 Good 

6. Animated graphics and sound effects 3,81 4 95,25 Good 

7. Combination of images, sounds and videos 3,86 4 96,5 Good 

8. Ease of use 3,93 4 98,25 Good 

Total 30,84 32 96,38 Good 

 

The results of a large group trial of interactive multimedia based volleyball smash 

skills training model obtained from 60 students were based on the students' responses 

to Health Physical Education and Recreation IKIP PGRI Pontianak which consisted 

of 8 main variables namely; completeness of the model, accuracy of the model, accu-

racy of description, accuracy of video, graphic design, animation and sound evalua-

tion, combination of images, sound and video and ease of use that obtains a score of 

(X) 30.84 from a maximum score (Xi) 32 which means good average with a percent-

age of 96.38% with a good category, so it can be concluded that this product can be 

used in actual training. 

To find out the effectiveness of the product in the form of an interactive multime-

dia volleyball skills training model which is tested on students whether it is effective 

or ineffective, then there is data that must be collected, namely data about volleyball 

game skills for students. This data collection is carried out after a large group test 

(field test 2). Data collection test effectiveness using the T test with SPPS software. 

The following data is presented in summary: Data on the value of the pretest of vol-

leyball smash skills from the subjects in the effectiveness test can be seen in the fol-

lowing table: 

Table 7.  Product Effectiveness Test interactive multimedia based volleyball training model for 

students who take volleyball training (pretest and posttest) 

Respondent 
Smash 

Total Score Average Score 

40 Students 372 9,3 

 

The posttest value of volleyball smash skills from the subjects in the effectiveness 

test can be seen in the following table: 

 

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Paper—Development of SMASH Skills Training Model on Volleyball Based on Interactive Multimedia 

Respondent 
Smash 

Total Score Average Score 

40 Students 663 16,57 

 

Based on the data, it shows that the results of the pretest and posttest volleyball 

skills of the smash test of the pretest obtained a total value of 372 average scores of 

9.30 and after the posttest the total value was 663 with an average value of 16.57. The 

training model of smash skills in playing interactive multimedia-based volleyball was 

developed by researchers to help teaching staff (teachers and lecturers), trainers and 

students, in training volleyball smash skills, increasing volleyball playing skills, and 

as a reference for volleyball training and learning as well. From the results of previous 

studies on volleyball learning using interactive multimedia with the subject of field 

trials (large groups) 30 people and did not test the effectiveness of the product. stated 

that interactive media products such as volleyball games were declared fit for use in 

volleyball learning and training [22]. The development of multimedia in the field of 

sports information is needed as an increase in sports information systems [23]. 

In the previous research, the researcher considered that the subject was not repre-

sented, because the subject used was still relatively small and only focused on the 

media and the variation of the training model given had not varied. In this study the 

development of interactive multimedia was carried out featuring media containing 

videos of various variations and combinations of exercises. The exercise model is 

more varied so it is not saturated to improve volleyball skills. The subjects of the field 

trial (large group) of 60 students, and the results of the product effectiveness test on 

40 students used with the results of the study stated that the interactive multimedia 

volleyball-based exercise model is suitable to be used to help improve volleyball 

skills both for training and learning. Because with the media can increase cognitive, 

affective, and give birth to the automation movement. Most students are very positive 

with the use of interactive multimedia in learning [18]. This research and develop-

ment produces multimedia products Volleyball learning is suitable for use in the pro-

cess of training, learning and teaching [7]. The skill model of playing volleyball with 

technology with the help of media allows students, athletes, to be able to effectively 

and efficiently improve the skills of playing volleyball. 

5 Conclusion 

Based on the data obtained, from the results of field trials and discussion of the re-

sults of the study it can be concluded that SMASH's skills in playing volleyball in 

athletes can be mastered faster by using an exercise model that uses interactive mul-

timedia volleyball-based VCD media. Because with VCD media, athletes can see a 

series of movements on smash skills outside of repeated training time at each stage of 

the volleyball smash sequence. So as to provide understanding cognitively, affective 

and give birth to the movement of automation. The practice model of volleyball play-

ing skills with a touch of VCD technology enables students, athletes, to be able to 

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Paper—Development of SMASH Skills Training Model on Volleyball Based on Interactive Multimedia 

learn and do exercises effectively and efficiently which is used as a literacy enhancer, 

reference, in an effort to improve volleyball playing skills. 

6 Acknowledgment 

The researchers would like to address their gratitude to Health and Recreation 

Physical Education Study Program IKIP PGRI Pontianak. Ristek Dikti support and 

finance Research Doctoral Dissertation. Decree of Strengthening Research and De-

velopment Number 3 / E / KPT / 2018.  

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8 Authors 

Muhammad Suhairi Graduate State of Physical Education, Universitas Negeri Ja-

karta, Indonesia Health and Recreation Physical Education, IKIP PGRI Pontianak, 

Kalimantan Barat, Indonesia. suhairims27@gmail.com 

Moch. Asmawi works in Physical Education Dept at Universitas Negeri Jakarta, 

Indonesia. asmawi.moch1@gmail.com 

James Tangkudung works in Physical Education Dept at Universitas Negeri Ja-

karta, Indonesia. james24061952@gmail.com 

Achmad Sofyan Hanif works in Physical Education Dept at Universitas Negeri 

Jakarta, Indonesia. sofyan_dean@yahoo.com 

Firmansyah Dlis Works in Physical Education Dept at Universitas Negeri Jakarta, 

Indonesia. firmansyahdlis.unj@gmail.com 

Article submitted 2020-01-30. Resubmitted 2020-02-29. Final acceptance 2020-03-01. Final version 

published as submitted by the authors. 

66 http://www.i-jim.org

https://doi.org/10.21093/di.v18i2.1158
mailto:suhairims27@gmail.com
mailto:asmawi.moch1@gmail.com
mailto:james24061952@gmail.com
mailto:sofyan_dean@yahoo.com
firmansyahdlis.unj@gmail.com