Heru Prasetyo
Department Of Sports Science, Faculty Of Sports Science, Universitas Negeri Yogyakarta, Yogyakarta, Indonesia

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Development of measuring tools for muscle strength and endurance arm for archery sport holding bow digitec test Heru Prasetyo; Siswantoyo; Yudik Prasetyo; Carles Nyoman Wali
Journal Sport Area Vol 7 No 2 (2022): August
Publisher : UIR Press

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25299/sportarea.2022.vol7(2).8001

Abstract

This study aims to produce a measuring instrument for arm muscle strength and endurance for “Archery Holding Bow Digitec Test”. It creates a new breakthrough that the “Holding Bow Digitec Test” is a tool for measuring arm muscle strength and endurance with high validity and reliability for archery. This research is a type of research and development (R&D) research that uses the Borg & Gall development model which consists of 10 procedures. The subjects involved in this study amount to 33 subjects consisting of 18 male archers and 15 female archers. Data collection techniques use questionnaires, the delphi method, and measurement tests. Data analysis uses the percentage formula for the questionnaire. The validity test uses content validity which is analyzed using the Aiken's v formula and concurrent validity which is analyzed using product moment correlation. The reliability test used a test-retest approach which is analyzed using product moment correlation. The results of the study are a tool for measuring the strength and endurance of the arm muscles in archery called the “Holding Bow Digitec Test”. The contribution of this research is to present a practical archery tool to measure arm strength and muscle power of adult archery athletes. It is the hope of the researcher that this research is continued with a large range of benefits in terms of subject, place and benefits, not only in one category but the tools developed can be used by categories of children and adolescents.
Elektrik string server in archery 3 in 1; studi pendahuluan pelatih panahan Heru prasetyo; Yudik Prasetyo; Betrix Teofa Perkasa Wibafied Billy Yacshie
Jorpres (Jurnal Olahraga Prestasi) Vol 18, No 3 (2022)
Publisher : Departement of Sports Coaching, Faculty of Sports Sciences, Universitas Negeri Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21831/jorpres.v18i3.53540

Abstract

Sesungguhnya string yang ideal harus dibuat sendiri dengan melihat karakteristik atlet dan jenis peralatan yang dugunakan secara langsung supaya menghaslkan string yang tepat sehingga dalam penelitian ini tentang studi pendahuluan untuk mengetahui seberapa besar pemahaman pelatih panahan di yogyakarta dan jawa tengah yang berhubungan dengan pembuatan, fungsi dan tehnik membuat string dan serving untuk olahraga panahan yang berkualitas. Jenis penelitian ini adalah deskriptif kuantitatif dengan metode survei dan teknik pengumpulan data menggunakan skala likert. Populasi penelitiannya adalah pelatih yang berada di Kota Yogyakarta dan Jawa Tengah. Jumlah populasi 40 pelatih yang diambil menggunakan teknik purposive sampling. Seluruh sampel tersebut dengan kriteria merupakan pelatih panahan di Jawa, serta bersedia menjadi sampel serta Instrumen yang digunakan adalah angket tertutup. Tehnik pengumpulan daata dengan cara menyebar angket melalui goggle from selanjutnya para pelatih mengisi angket tersebut namun sebelum disebarluaskan angket tersebut sudah di uji validitasnya dengan rumus korelasi product moment dan uji reliabilitas cronbach's alpha dengan nilai 0,896, yang artinya angket sudah valid dan reliabel. Terdapat hasil pelatih di Jawa dilihat dari hasil analisis tingkat pengetahuan terkait dengan alat elektrik string server in archery 3 in 1 masih kurang dengan bukti 23 pelatih masih belum mengetahui alat elektrik string server in archery 3 in 1 dan ada beberapa yang baru mendengar nama alat ini.
Electric camera sensor vs. virtual reality archery: Which is more effective for improving archery accuracy? Prasetyo, Yudik; Yachsie, Betrix Teofa Perkasa Wibafied Billy; Prasetyo, Heru; Shahril, Mohd Izwan bin
Journal Sport Area Vol 10 No 2 (2025): August
Publisher : UIR Press

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25299/sportarea.2025.vol10(2).19286

Abstract

Background: The integration of technology into archery training has gained attention, yet limited studies have compared the effectiveness of electric camera sensors and virtual reality (VR) systems in enhancing archery accuracy. The lack of clear data regarding how each method impacts arrow speed and accuracy necessitates further investigation. Research Objectives: This study aims to compare the effectiveness of two training approaches—electric camera sensor-based training and VR archery—in improving arrow accuracy and speed, and to evaluate their implications for bow performance and technique assessment. Methods: A quantitative experimental design with a two-group pretest-posttest approach was employed. The study involved 20 male archers aged 15-20 years, selected via purposive sampling. Participants underwent 18 training sessions using a fixed shooting distance of 40 meters. Data were collected on arrow accuracy and analyzed using paired and independent t-tests. Finding/Results: The study found that both training methods significantly improved archery accuracy. However, athletes who trained using the electric camera sensor showed slightly greater improvements than those using virtual reality. The sensor-based training provided more precise feedback on arrow speed and trajectory, which enhanced technique evaluation and led to better shooting outcomes. These results highlight the sensor’s potential as a more effective tool for refining archery performance. Conclusion: Fixed-distance training using an electric camera sensor system is more effective than virtual reality archery in enhancing archery accuracy. The integration of arrow speed motion sensors facilitates more precise evaluations of bow technique and performance, particularly when inconsistencies in arrow trajectory occur. It is recommended for archers seeking improvements in accuracy to incorporate electric camera sensor technology into their training.