335 Kustiawan, U. (2021). Development of A Video on Three-Dimensional Origami Creation Techniques to Improve the Practical Handicraft Skills of Teacher-Candidate College Students. International Online Journal of Education and Teaching (IOJET), 8(1). 335-345. Received : 17.06.2020 Revised version received : 20.11.2020 Accepted : 22.11.2020 DEVELOPMENT OF A VIDEO ON THREE-DIMENSIONAL ORIGAMI CREATION TECHNIQUES TO IMPROVE THE PRACTICAL HANDICRAFT SKILLS OF TEACHER-CANDIDATE COLLEGE STUDENTS Research article Usep Kustiawan Department of Primary School and Preschool Education, Faculty of Education, State University of Malang, Indonesia Correspondence: usep.kustiawan.fip@um.ac.id Evania Yafie Department of Primary School and Preschool Education, Faculty of Education, State University of Malang, Indonesia evania.yafie.fip@um.ac.id Ence Surahman State University of Malang, Indonesia Department of Education Technology, Faculty of Education, State University of Malang, Indonesia ence.surahman.fip@um.ac.id Usep Kustiawan is a lecturer at Department of Primary School and Preschool Education, Faculty of Education, State University of Malang, Indonesia. He is currently teaching various courses to undergraduate and graduate students. Evania Yafie is a lecturer at Department of Primary School and Preschool Education, Faculty of Education, State University of Malang, Indonesia. She is currently teaching various courses to undergraduate and graduate students. Ence Surahman is a lecturer at Department of Education Technology, Faculty of Education, State University of Malang, Indonesia. He is currently teaching various courses to undergraduate and graduate students. Copyright by Informascope. Material published and so copyrighted may not be published elsewhere without the written permission of IOJET. mailto:usep.kustiawan.fip@um.ac.id mailto:evania.yafie.fip@um.ac.id mailto:ence.surahman.fip@um.ac.id https://orcid.org/0000-0001-9370-0505 https://orcid.org/0000-0002-8850-4275 https://orcid.org/0000-0001-7731-8285 Kustiawan, Yafie, Surahman 336 DEVELOPMENT OF A VIDEO ON THREE-DIMENSIONAL ORIGAMI CREATION TECHNIQUES TO IMPROVE THE HANDICRAFT SKILLS OF PROSPECTIVE TEACHERS Usep Kustiawan usep.kustiawan.fip@um.ac.id Evania Yafie evania.yafie.fip@um.ac.id Ence Surahman ence.surahman.fip@um.ac.id Abstract The aim of this research and development is to create a video on the creation techniques of three-dimensional origami that is proper and effective as learning media for the handicrafts course for students of Teacher Education for Early Education at the State University of Malang. The study utilized the Research and Development (R&D) method (Gall, Borg, and Gall, 2003). The stages of the research involved analysis of needs through instructional analysis, scenario development, video script development, footage recording, editing, and validation. The research results indicated that the developed video was declared valid and proper for usage as learning media based on evaluations from a media expert, material experts, and candidate users. Therefore, the developed media can be utilized to support the improvement of skills of candidate teachers for early education in the development of three- dimensional origami media products. Keywords: Development, handicrafts, video, three-dimensional, origami creation techniques 1. Introduction The Teacher Education for Early Education Study Program of the Faculty of Education Science of the State University of Malang has the vision “to realize a Teacher Education for Early Education Study Program that possesses competitive, professional, and comparative advantages and becomes a reference for the three pillars (Tridharma) of higher education in the field of early education based on values of socio-culture, humanity, and religion”. Teacher Education for Early Education Study Program students, in addition to being prepared as candidates for teachers in early education institutions (Islamic preschool, playgroup, preschool) are also prepared by the study program to possess expertise in the field of early education “edutainment”. Teacher Education for Early Education Study Program students are expected to become entrepreneurs in the field of early education, whether independently or in cooperation with other people and/or institutions to produce goods and execute services in relation to preschool-age children. To develop the entrepreneurial spirit of Teacher Education for Early Education Study Program students, in addition to being provided with entrepreneurship- specific courses directed to the study of the development of entrepreneurship concepts and practices, also study entrepreneurship through other courses, among them the course of handicrafts. mailto:usep.kustiawan.fip@um.ac.id mailto:evania.yafie.fip@um.ac.id mailto:ence.surahman.fip@um.ac.id International Online Journal of Education and Teaching (IOJET) 2021, 8(1), 335-345. 337 The practice materials for the course of handicrafts contain the material of origami (paper- folding) techniques that result in three-dimensional models that may be utilized for learning media and educational games for preschool-age children. One of the determining factors in coursework is the learning media. In selecting learning media, the lecturer should adjust according to the course type and student characteristics. If in a class the majority of students have a visual learning style, the lecturer should opt for the usage of visual media. If most of the students have an auditory learning style, the lecturer should utilize auditory media. Thus, if the students have an audiovisual learning style, the lecturer also ought to utilize audiovisual media. Considering that the course of handicrafts contains more practice materials, and that the characteristics of Teacher Education for Early Education Study Program students are heterogeneous, for these concerns, the research involves development of video learning media on the creation techniques of three-dimensional origami. The need for visual media that can aid students in studying techniques in the creation of three-dimensional origami becomes an important one. This is based on the consideration of the limited time for demonstrating the practices of three-dimensional origami creation directly in the classroom. In addition, the great number of students presents its own challenge for their support and advising. Video media may be of help for the lecturer in the instruction for the creation of origami and can be replayed as needed when the students require explanations. Video media, according to Arsyad (2002) is a kind of media that depicts an object accompanied by audio or sounds simultaneously and appropriately. Learning media is anything that is utilized by a teacher to deliver learning materials to students to attract their interest and attention as well as to stimulate their learning process in order to achieve the objectives of learning (Kustiawan, 2017; Ramadhani & Kustiawan, 2017). As well, Ibrahim (2006) has the view that video media is media that presents images and sounds (visuals and audio) in a simultaneous manner. Video media is frequently utilized for learning needs at all levels of education. This is the case because the visualizations in video media possess an appeal for its users (Astuti, 2017). In addition, video media makes it easy for its users to comprehend the message being delivered (Fakhriyah, Ardianti, Savitri Wanabuliandari, & Erlianti, 2018; Pramana & Suarjana, 2019). Therefore, many researchers, teachers, and practitioners of education utilize video media as an alternative learning media. Learning videos are a kind of media that is classified as digital visual media because they are developed with media creation applications. To develop good video media, developers must understand the standards of the development process of videos for learning needs (Riyana, 2007). Some of the components that must be included in the content of learning videos are the targeted material objectives, the materials, and follow-up in the form of assigned tasks that can be performed by users of the media after having viewed the materials presented in the video (Tarisci, 2017). In this research, the developed video is for a creation tutorial of three-dimensional origami for the course of handicrafts. The objective of developing the video is to make it easier for the students to create forms of origami in three dimensions. The word “origami” comes from Japanese, a combination of the words ori meaning “to fold” and kami meaning “paper”; the combining of the two words results in a slight change of the form of the word kami into gami but does not change its meaning (Munqidzah & Ustianingsih, 2018; Wardhani, Irawan, & Sa’dijah, 2016; Yang, Yin, & Chen, 2014). The resulting form is not “orikami” but “origami”, meaning “to fold paper”. The word “origami” has become recognized and used around the world to refer to the art of folding paper, and as such the art of folding paper Kustiawan, Yafie, Surahman 338 certainly requires the material of paper. There are standard paper characteristics for easy and convenient folding, for example strong but thin paper (Ismayanti, 2005). 2. Research method The utilized method for this research is Research & Development (R&D). The procedure for the research and development of a learning video utilized the research and development procedure of Borg & Gall (Gall, Borg, and Gall, 2003). Overall, the research and development covers the initial research, instructional design, product composition and development, and product validation. The Borg & Gall method was selected because the method can be adjusted to the conditions of subjects and the field. For this research, the stages of the Borg and Gall model was modified into seven stages: 1) research and collection of information, 2) planning, 3) product development, 4) validation and initial product testing, 5) product revision, 6) field testing, and 7) final product revision (Gall et al., 2003). Each stage was performed one by one in order to ensure that the research process occurred according to the plan. The data were collected via semi-structured questionnaires for media validation, video material validation forms, and a pre and post-test of user competence developed by the researcher. The objective is to measure the change in understanding before and after viewing the materials in the video. The aspects measured in the validation questionnaire by material and media experts are ease of operation, attractiveness of appearance, clarity of presented information, message completeness, and ease of understanding the presented message sequence (Hanum, Huda, & Kurniawan, 2018; Riyana, 2007; Shuldman & Tajik, 2010). The utilized data analysis technique in this research was qualitative analysis and quantitative analysis based on percentages. Qualitative analysis was performed to analyze qualitative data collected from the experts. Quantitative analysis using percentages was performed to quantify the resulting data collected from the experts and the pre-test and post- test results of students in the practice of three-dimensional origami creation. The results of the data analysis were utilized to measure the validity and feasibility of the video media as well as the improvement in understanding of users toward the materials presented in the video. 3. Result The resulting product from this research is a developed video media in the form of a single video that is packaged into a DVD (Digital Video Disc); the material presented in the video is creation techniques for three-dimensional origami, covering the understanding of origami, tools and items for creating three-dimensional origami, steps to create eight kinds of three- dimensional origami, and examples of finished works of three-dimensional origami. The usage of this product is considered easy because its usage only requires the disc to be played on a computer or laptop that is projected to a screen with an LCD projector, or in a DVD player that is connected to a large monitor or television. For its usage, this product is accompanied by a supplementary book of materials on the theories of three-dimensional origami to help students further understand the materials that are presented in the video. Results of validation from the media expert led to a score of 92.25% for the video media of creation techniques for three-dimensional origami, and thus the developed video media of creation techniques for three-dimensional origami is judged to be quite fitting and appropriate for usage. The media expert commented that the media is very good and suggested that the International Online Journal of Education and Teaching (IOJET) 2021, 8(1), 335-345. 339 cover of the video and book of supplementary materials, which initially only contained the title, names of developers, and identity of the institution that created the video media, be revised to include illustrations of finished works of three-dimensional origami in order to attract interest. Table 1. Product Revision Based on Suggestions from the Media Expert Before Revision After Revision The video cover only contained the title, names of developers, and identity of the institution that created the video media of “Creation of Three-Dimensional Origami”. The cover of the “Creation of Three- Dimensional Origami” video media was supplemented with illustrative images of finished works of three-dimensional origami. Results of validation from material expert 1 led to a score of 88.75% for the video media of creation techniques for three-dimensional origami, and thus the developed video media of creation techniques for three-dimensional origami is judged to be quite fitting and appropriate for usage. Material expert 1 commented that the media is very good, easy, and appropriate for Teacher Education for Early Education Study Program students. Results of validation from material expert 2 led to a score of 85% for the video media of creation techniques for three- dimensional origami, and thus the developed video media of creation techniques for three- dimensional origami is judged to be quite fitting and appropriate for usage. However, material expert 2 commented that although the video media is appropriate for Teacher Education for Early Education Study Program, it was still suggested that at the end of the video, assigned tasks should be added to motivate students to create forms of three- dimensional origami. Table 2. Product Revision Based on Suggestions from Material Expert 2 Before Revision After Revision At the end of the video, only the rolling caption of gratitude to parties who assisted the making of the “Creation of Three-Dimensional Origami” video media is displayed. At the end of the video, assigned tasks were added to motivate students to create forms of three- dimensional origami, prior to displaying the rolling caption of gratitude to parties who assisted the making of the “Creation of Three-Dimensional Origami” video media. Kustiawan, Yafie, Surahman 340 Table 3. Pre-Test Scores of Three-Dimensional Origami Creation No. Name Achieved Score Maximum Score Constant Total Score 1. AR 8 16 100 50 2. BR 10 16 100 62.5 3. IZ 9 16 100 56.25 4. LC 11 16 100 68.75 5. SK 10 16 100 62.5 6. SM 9 16 100 56.25 Total 356.25 Average 59.375 Table 4. Post-Test Scores of Three-Dimensional Origami Creation No. Name Achieved Score Maximum Score Constant Total Score 1. AR 11 16 100 68.75 2. BR 14 16 100 87.5 3. IZ 13 16 100 81.25 4. LC 15 16 100 93.75 5. SK 14 16 100 87.5 6. SM 13 16 100 81.25 Total 500 Average 83.33 For the results of student practice in creating three-dimensional origami, it was found that the scores of all students who had taken the pre-test improved. On the post-test, subject 1 had a score of 68.75, subject 2 had a score of 87.5, subject 3 had a score of 81.25, subject 4 had a score of 93.75, subject 5 had a score of 87.5, and subject 6 had a score of 81.25. Therefore, it can be concluded that the scores of subjects 1 to 6 who completed the field test improved. Based on these results, it can be interpreted that the video media for creation techniques of three-dimensional origami was judged to be fitting and appropriate for usage. The average of obtained scores for the post-test based on the effectiveness criteria for utilization of learning media is within the score range of 81.00-100.00, meaning that it is quite valid and can be utilized without further revisions. 4. Discussion A good quality learning process at the university level requires support from appropriate learning resources. Learning resources constitute anything that can become materials and tools to support learners in gaining learning experience in order to achieve the objectives of learning (Koper, 2003). One of the sources for learning that may be utilized is learning media. Learning media is a facility to deliver messages of learning from a source of learning to learners (Sihkabuden, 2005). There are several forms of learning media that are utilized in learning at the university level. One of these kinds of media is video media. Video media is International Online Journal of Education and Teaching (IOJET) 2021, 8(1), 335-345. 341 media that displays visuals (moving images) and audio (sound) simultaneously, and therefore students in grasping the materials will utilize their senses of vision and hearing at the same time (Potdevin et al., 2018; Woottipong, 2014). A learning media can be said to be effective and appropriate for usage if it is able to provide stimulus to students, thereby improving the results of learning by the students. As with the results of the research that has been performed, the developed video media was able to stimulate learners. This is because the presenter explained the materials for three- dimensional origami creation techniques using a variety of communication methods, as through simultaneous spoken language and gestures as well as text on screen, which aids the students in understanding the material content in the video as measured among the users of the media. The video media for three-dimensional origami creation techniques possesses many benefits for both educators and learners, one of them being to motivate student interest; this is apparent in the direct practice of the creation of different kinds of three-dimensional origami by the presenter that make students interested to follow along, the short length of the video that does not cause disinterest, and the accompaniment of illustrations of finished works of the different kinds of three-dimensional origami. This is in line with the results of a study (Ehrenstein, 2019) that showed that video media is able to improve motivation and concentration in paying attention to the learning materials. One of the advantages of video media based on the results of this research is the capability of presenting information about the techniques of three-dimensional origami; this video explains the understanding of origami, two-dimensional origami, and three- dimensional origami as well as the tools and items to create three-dimensional origami, the steps to create eight kinds of three-dimensional origami, and examples of finished works of eight kinds of three-dimensional origami. This is in line with the results of the research conducted by Abe & Nosu (2017) who found that video media is able to present information clearly and can be repeated many times over. Another advantage of video variation in communication is technically, the presenter utilized total communication with the usage of spoken language, gestures, and supplementary narration. This is in line with the research results from a number of researchers (Mulyono, Abidin, & Husna, 2019; Saprudin, Haerullah, Abdullah, Saraha, & Hamid, 2018) In general, the developed product of video media on three-dimensional origami techniques possesses these advantages: (1) it is easy to use; (2) its usage only requires a short time to explain the practice of techniques to create eight kinds of three-dimensional origami (approximately 40 minutes) for which the actual practice requires spending two to three hours; (3) it is accompanied by a supplementary book of materials, which makes it easier for students in their usage; and (4) its appearance is appropriate to the needs and conditions of usage by students in campus and outside of campus. This is in line with the results of prior research as conducted by a few researchers (Hanum et al., 2018; Nawawi, Degeng, & Cholid, 2019; Rozie, 2014) who concluded that video media is suitable to be developed to assist in delivery of procedural materials. In this way, learners can understand effectively and efficiently. In broader practice, video media is developed to ease the delivery of materials that demand learners to practice actions that are demonstrated in the video. One example is a research (Anam, Sugiarto, & Wahyudi, 2017) that involved the development of a video for the needs of technical materials on basic swimming. The results showed that the developed media positively contributed to the learners. Another example of usage is for the needs of materials on dance moves as conducted by several researchers (Ida Ayu, Ni Luh, & Ni Wayan, 2018; Kompyang Gede, Ni Luh, & I Ketut, 2018; Ni Kadek, I Gede, & Ni Luh, 2018; Putu, Pradana, Ni Luh, & Rinto, 2018; Sonalitha, Yuniarti, Prihatiningsih, & Prasetya, Kustiawan, Yafie, Surahman 342 2017) who concluded that the dancing skills of students may be improved through presentation of example dance movements in video media. The latest developments of video media for learning involve the creation of mobile learning applications, such as that which was performed in some studies (Iqbal, 2019; Listiyanti, Syahbana, & Henim, 2016), which resulted in findings about the effectiveness of learning results with the use of video media in an Android application. At this time, there is much development of media using Android to support learning, and this is due to the efficiency of the resulting application (Surahman & Alfindasari, 2017; Surahman & Surjono, 2017). This cannot be removed from improvement of human resources in the effort to integrate technology in order to improve the quality of learning (Alfindasari & Surahman, 2014; Praherdhiono et al., 2019). The most recent developments of video media for learning are implemented in the form of augmented reality such as that which was conducted by several groups of researchers (Guenter & Gal, 2019; Wang, Suenaga, Yang, Kobayashi, & Sakuma, 2017; Yip, Wong, Yick, Chan, & Wong, 2019), and this has an advantage in terms of interesting media presentation and flexibility in usage. The results of media development can be used not only for classical face-to-face learning but also quite possibly in the context of online learning (Ayers et al., 2018). The results of findings as explained previously can become alternatives in the development of video media for learning at present and in the future. 5. Conclusion and Suggestions The final results of this product development are the validation results from the media expert, material expert 1, and material expert 2, as well as the test results. The “Creation Techniques of Three-Dimensional Origami” video media is considered appropriate and effective to be used in courses. This is based on the results of validation evaluation: the media expert gave a score of 92.25% (quite appropriate), material expert 1 gave a score of 88.75% (quite appropriate), material expert 2 gave a score of 85% (quite appropriate), and the average pre-test score of students (59.375) improved after the post-test to an average student score of 83.33. From the overall results of development, it can be concluded that the “Creation Techniques of Three-Dimensional Origami” video media is quite appropriate to be used in courses to assist lecturers in explaining the material of techniques of creating different kinds of three-dimensional origami for the handicrafts course of the Teacher Education for Early Education Study Program of the Faculty of Education Science of the State University of Malang. Based on the results of the conducted development, it is recommended that the video on three-dimensional origami creation techniques be distributed to and utilized by college students as well as school teachers. The follow-up to the results of this research may be in the form of conducting activities to serve teachers in the effort to improve skills of creating three- dimensional origami. International Online Journal of Education and Teaching (IOJET) 2021, 8(1), 335-345. 343 References Abe, M., & Nosu, K. (2017). 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