Evaluating basic chest pass skills in the 21st century using chest pass automatic board 2.0

Dzihan Khilmi Ayu Firdausi; Muhammad Eka Mardyansyah Simbolon; Ahmad Muchlisin Natas Pasaribu; Indra Dwisaputra; Diah Retno Arum sari; Catur Pebriandini

doi:10.47197/retos.v64.110154

Autores

Dzihan Khilmi Ayu Firdausi Universidade Muhammadiyah de Bangka Belitung https://orcid.org/0000-0002-1678-6373
Muhammad Eka Mardyansyah Simbolon Universidade Muhammadiyah de Bangka Belitung
Ahmad Muchlisin Natas Pasaribu Universidade Bhayangkara Jacarta Raya
Indra Dwisaputra Politécnico de Fabrico do Estado de Bangka Belitung https://orcid.org/0000-0002-2326-1858
Diah Retno Arum sari Universidade Muhammadiyah de Bangka Belitung https://orcid.org/0009-0002-4049-3439
Catur Pebriandini Politécnico de Fabrico do Estado de Bangka Belitung

DOI:

https://doi.org/10.47197/retos.v64.110154

Palavras-chave:

Automação, basquetebol, passagem no peito, instrumento, desenvolvimento

Resumo

Introdução: Esta investigação desenvolve uma ferramenta automatizada para medir a capacidade do passe de peito no basquetebol. Desenvolvemos esta medida para reduzir o erro humano na avaliação da capacidade de passe de bruços no basquetebol.
Objectivo: O produto melhora a versão anterior da prancha de passagem automática de bruços, acrescentando uma função para cálculo automático de resultados e utilizando tecnologia wireless.
Metodologia: Este estudo utilizou a abordagem de investigação e desenvolvimento. Um total de 42 estudantes participantes estiveram envolvidos nesta investigação. Resultados: Os resultados do primeiro teste apresentaram um valor de significância de Sig (bicaudal) = 0,047 (p < 0,05). No segundo teste, o valor de significância obtido foi Sig (bicaudal) = 0,008 (p < 0,05). Ambos os testes mostraram diferenças significativas. Os resultados de três testes de fiabilidade do protótipo mostraram uma fiabilidade muito boa (ICC = 0,990, 0,987 e 0,920) com um intervalo de confiança de 95%. A análise do gráfico de Bland-Altman mostra que existe um bom nível de concordância para este protótipo. Não há viés de medição nas passagens torácicas utilizando a placa automatizada ou os métodos habituais. Isto ocorre porque ambos os instrumentos são muito fiáveis.
Discussão: As invenções que facilitam e aceleram a avaliação dos resultados dos testes de aprovação mamária incluem a utilização de sensores de vibração, transmissão de dados sem fios, um programa de computador e uma base de dados que obtém diretamente os resultados das medições.
Conclusões: O protótipo do gráfico de passe de peito automático 2.0 é um potencial substituto fiável e estável para medir a capacidade de passe de peito de cada indivíduo em jogos de basquetebol.

Referências

A. Antu, A. W., Abdussamad, S., & Z. Nasibu, I. (2020). Rancang Bangun Running Text pada Dot Matrix 16X160 Berbasis Arduino Uno Dengan Update Data System Menggunakan Perangkat Android Via Bluetooth. Jambura Journal of Electrical and Electronics Engineering, 2(1), 8–13. https://doi.org/10.37905/jjeee.v2i1.4321

Alzahrani, A., Hu, S., Azorin-Peris, V., Barrett, L., Esliger, D., Hayes, M., Akbare, S., Achart, J., & Kuoch, S. (2015). A multi-channel opto-electronic sensor to accurately monitor heart rate against motion artefact during exercise. Sensors (Switzerland), 15(10), 25681–25702. https://doi.org/10.3390/s151025681

Anifah, L., Syariffuddien Zuhrie, M., Muhammad, & Haryanto. (2024). A novel pencak silat punch pattern recognition approach using supervised learning. Ain Shams Engineering Journal, 15(8), 102857. https://doi.org/10.1016/j.asej.2024.102857

Bian, C., Ye, B., & Mihailidis, A. (2022). The Development and Concurrent Validity of a Multi-Sensor-Based Frailty Toolkit for In-Home Frailty Assessment. Sensors, 22(9). https://doi.org/10.3390/s22093532

Bincy, T. S., Prasanna, A. P. S., Balaji, A. S., Sivasankar, K. J., Thiruvadigal, D. J., Anithkumar, M., & Kim, S.-J. (2024). Computational analysis of starch for sustainable power generation towards integrated wearable IoT. Applied Energy, 370. https://doi.org/10.1016/j.apenergy.2024.123590

Bravi, M., Santacaterina, F., Bressi, F., Morrone, M., Renzi, A., Di Tocco, J., Schena, E., Sterzi, S., & Massaroni, C. (2023). Instrumented treadmill for run biomechanics analysis: A comparative study. Biomedizinische Technik. https://doi.org/10.1515/bmt-2022-0258

Bruzzo, J., Perkins, N. C., & Mikkola, A. (2020). Embedded inertial measurement unit reveals pole lean angle for cross-country skiing. Sports Engineering, 23(1). https://doi.org/10.1007/s12283-019-0316-3

Crandall, A. S., Mamolo, S., & Morgan, M. (2022). SkiMon: A Wireless Body Area Network for Monitoring Ski Flex and Motion during Skiing Sports. Sensors, 22(18). https://doi.org/10.3390/s22186882

Firdausi, D. K. A., Andriadi, A., Dwisaputra, I., & Simbolon, M. E. M. (2023). Chest pass automatic board for evaluating basic chest pass skills using vibration sensor. Retos, 50, 931–935. https://doi.org/10.47197/retos.v50.94808

Firdausi, D. K. A., & Simbolon, M. E. M. (2020). Development of “Sit and Reach” Flexometer Using Infra-Red. Journal Physical Education, Health and Recreation, 4(2), 49. https://doi.org/10.24114/pjkr.v4i2.14892

Firdausi, D. K. A., & Simbolon, M. E. M. (2021). Development of Automated " Hexagonal Obstacle Test " in Sports Agility Measurement. Indonesian Journal of Electronics and Instrumentation Systems (IJEIS), 11(1), 61–70. https://doi.org/10.22146/ijeis.64434

Firdausi, D. K. A., Simbolon, M. E. M., Dwisaputra, I., & Pebriandani, C. (2024). Linear Potentiometer Sensor-Based of Athlete Flexibility Measurement Tool. JTEIN: Jurnal Teknik Elektro Indonesia, 5(1), 10–21. https://doi.org/10.24036/jtein.v5i1.541

Giavarina, D. (2015). Understanding Bland Altman analysis. Biochemia Medica, 25(2), 141–151. https://doi.org/10.11613/BM.2015.015

Gomes, D., Moreira, D., Costa, J., Graça, R., & Madureira, J. (2019). Surf session events’ profiling using smartphones’ embedded sensors. Sensors (Switzerland), 19(14). https://doi.org/10.3390/s19143138

Gryko, K., Mikołajec, K., Marszałek, J., Adamczyk, J. G., Molik, B., Waśkiewicz, Z., Nikolaidis, P., & Knechtle, B. (2020). How did basketball teams win EuroBasket 2015? A non-standard analysis of performance based on passes, dribbling and turnovers. International Journal of Performance Analysis in Sport, 20(3), 339–356. https://doi.org/10.1080/24748668.2020.1749013

Gupta, P., Mittal, L., Rizzo, R. A., Bikkina, M., & Debari, V. A. (2009). In-use comparison of blood pressure measurements from an automated blood pressure instrument with those from a mercury sphygmomanometer. Biomedical Instrumentation and Technology, 43(2), 158–163. https://doi.org/10.2345/0899-8205-43.2.158

Haryono, S., & Pribadi, F. S. (2012). Pengembangan Jump Power Meter Sebagai Alat Pengukur Power Tungkai. Media Ilmu Keolahragaan Indonesia, 2(1). https://doi.org/10.15294/miki.v2i1.2550

Hribernik, M., Keš, E., Umek, A., & Kos, A. (2021). Sensor Based Agility Assessment in Sport. Procedia Computer Science, 187, 440–446. https://doi.org/10.1016/j.procs.2021.04.082

Hui, S. C. N., Zhang, T., Shi, L., Wang, D., Ip, C.-B., & Chu, W. C. W. (2018). Automated segmentation of abdominal subcutaneous adipose tissue and visceral adipose tissue in obese adolescent in MRI. Magnetic Resonance Imaging, 45, 97–104. https://doi.org/10.1016/j.mri.2017.09.016

Ismunarti, D. H., Zainuri, M., Sugianto, D. N., & Saputra, S. W. (2020). Pengujian Reliabilitas Instrumen Terhadap Variabel Kontinu Untuk Pengukuran Konsentrasi Klorofil- A Perairan. Buletin Oseanografi Marina, 9(1), 1–8. https://doi.org/10.14710/buloma.v9i1.23924

Jia, C., Zhu, Y., Sun, F., Zhao, T., Xing, R., Mao, Y., & Zhao, C. (2021). A flexible and stretchable self-powered nanogenerator in basketball passing technology monitoring. Electronics (Switzerland), 10(21). https://doi.org/10.3390/electronics10212584

Juniardi, A., & Wibowo, T. P. (2019). the Implementation of Drill Exercise Variations in Basketball Lecturing (Chest Pass Technique) At the Students of Physical Education in University of Dehasen Bengkulu. Journal Physical Education, Health and Recreation, 4(1), 15. https://doi.org/10.24114/pjkr.v4i1.14197

Kedarnath Navandar, R., Hamid Hasan, S., Jadhav, N., Udham Singh, K., Monisha, R., & Venkatram, N. (2025). Modernizing sports an intelligent strategy for entertainment through internet of things in sports. Entertainment Computing, 52. https://doi.org/10.1016/j.entcom.2024.100804

Koo, T. K., & Li, M. Y. (2016). A Guideline of Selecting and Reporting Intraclass Correlation Coefficients for Reliability Research. Journal of Chiropractic Medicine, 15(2), 155–163. https://doi.org/10.1016/J.JCM.2016.02.012

Li, S., Zhang, B., Fei, P., Shakeel, P. M., & Samuel, R. D. J. (2020). WITHDRAWN: Computational efficient wearable sensor network health monitoring system for sports athletics using IoT. Aggression and Violent Behavior, 101541. https://doi.org/10.1016/j.avb.2020.101541

Liu, C. (2023). Combat Response Training Tester Based on Intelligent Force-Measuring Sensor and Digital Circuit. Wireless Communications and Mobile Computing, 2023. https://doi.org/10.1155/2023/7136290

Maeda, Y., Okawara, H., Sawada, T., Nakashima, D., Nagahara, J., Fujitsuka, H., Ikeda, K., Hoshino, S., Kobari, Y., Katsumata, Y., Nakamura, M., & Nagura, T. (2023). Implications of the Onset of Sweating on the Sweat Lactate Threshold. Sensors, 23(7). https://doi.org/10.3390/s23073378

Maimón, A. Q., Courel-Ibáñez, J., & Ruíz, F. J. R. (2020). The Basketball Pass: A Systematic Review. Journal of Human Kinetics, 71(1), 275–284. https://doi.org/10.2478/hukin-2019-0088

Manson, S. A., Brughelli, M., & Haris, N. K. (2014). Physiological Characteristics Of International Female Soccer Players. Journal OfStrength and Conditioning Research, 28(2), 308–318.

Marius, S. (2014). Aspects of Biomechanical Research Related to the Techniques Used by Jumping Athletes for Performance Improvement. Procedia - Social and Behavioral Sciences, 117, 447–450. https://doi.org/10.1016/j.sbspro.2014.02.243

Marpaung, D. R., Sari, R. M., Nasution, U., Riza, A. R., Nogroho, S., & Nababan, F. W. (2021). Development of Vibration Sensor Media for Children with Special Needs at the Faculty of Sports Science, Medan State University. Journal of Physics: Conference Series, 1819(1). https://doi.org/10.1088/1742-6596/1819/1/012074

Mejia, N. F. M., & Perez, B. Z. (2021). Internal structure of the motor coordination of foot movements in attack of basketball. Retos, 4(42), 813–820. https://doi.org/10.47197/RETOS.V42I0.88511

Mutiara, G. A., Periyadi, Agnas, A. D., & Darma, V. (2020). Smart Vest and Monitoring System for Airsoft Sport-Games Using Vibration Sensor. International Journal of Computing, 19(2), 173–180. https://doi.org/10.47839/ijc.19.2.1759

Owen, J. B. C. A. G. J. (2004). Upper-Body Strength And Power Assessment In Women Using A Chest Pass. Journal of Strength and Conditioning Research, 18(3), 401–404.

Parente, J. D., Dhamodharan, A., Hensler, S., Kuhlbach, C., Mueller, M. M., & Möller, K. (2019). Automatic Image Analysis System to Measure Wound Area in Vitro. Current Directions in Biomedical Engineering, 5(1), 421–423. https://doi.org/10.1515/cdbme-2019-0106

Paterson, S. J. (2016). Reliability and Discriminative Ability of Badminton Specific Change of Direction Testing. In Auckland University of Technology. Auckland University of Technology.

Peebles, A. T., Maguire, L. A., Renner, K. E., & Queen, R. M. (2018). Validity and Repeatability of Single-Sensor Loadsol Insoles during Landing. Sensors, 18(12). https://doi.org/10.3390/S18124082

Perrotta, A. S., Day, B. D., Wafai, I., Oates, R. P., Peterson, M. L., Scott, A. J., Barker, R. C., Garedakis, A. B., & Seaborn, K. A. (2023). Concurrent validity and reliability of photoelectric and accelerometer technology for calculating vertical jump height in female athletes. Sports Engineering, 26(1). https://doi.org/10.1007/s12283-023-00440-6

Putra, A. L. (2020a). The Contribution of Arm Muscle Strength and Coordination of Hand Eye Towards Chest Pass Skills in Self Development Activities of Basketball. Proceedings of the 1st Progress in Social Science, Humanities and Education Research Symposium (PSSHERS 2019), 464(Psshers 2019), 427–430. https://doi.org/10.2991/assehr.k.200824.102

Putra, A. L. (2020b). The Contribution of Arm Muscle Strength and Coordination of Hand Eye Towards Chest Pass Skills in Self Development Activities of Basketball. 464(Psshers 2019), 427–430. https://doi.org/10.2991/assehr.k.200824.102

Quílez-Maimón, A., Rojas-Ruiz, F. J., Delgado-García, G., & Courel-Ibáñez, J. (2021). The q-pass index: A multifactorial imus-based tool to assess passing skills in basketball. Sensors, 21(13), 1–14. https://doi.org/10.3390/s21134601

Rusdiana, A. (2021). Development of agility, coordination, and reaction time training device with infrared sensor and wifi module arduino in badminton. Songklanakarin Journal of Science and Technology, 43(2), 448–452. https://doi.org/10.14456/sjst-psu.2021.58

Rusdiana, A., Mulyana, B., Nurjaya, D. R., Badaruzman, Imanudin, I., Fauziah, E., & Syahid, A. M. (2021). 3D Biomechanical Analysis of Swimming Start Movements Using a Portable Smart Platform With Android Pie. Journal of Engineering Science and Technology, 16(1), 571–585.

Seshadri, D. R., Li, R. T., Voos, J. E., Rowbottom, J. R., Alfes, C. M., Zorman, C. A., & Drummond, C. K. (2019). Wearable sensors for monitoring the physiological and biochemical profile of the athlete. Npj Digital Medicine, 2(1). https://doi.org/10.1038/s41746-019-0150-9

Simbolon, M. E. M., Firdausi, D. K. A., Dwisaputra, I., Rusdiana, A., Pebriandani, C., & Prayoga, R. (2023). Utilization of Sensor technology as a Sport Technology Innovation in Athlete Performance Measurement: Research Trends. IJEIS (Indonesian Journal of Electronics and Instrumentation Systems), 13(2), 147. https://doi.org/10.22146/ijeis.89581

Stitt, D., Draper, N., Alexander, K., & Kabaliuk, N. (2021). Laboratory validation of instrumented mouthguard for use in sport. Sensors, 21(18). https://doi.org/10.3390/s21186028

Wang, J., Liu, W., & Moffit, J. (2006). What Skills and Tactics Are Needed to Play Adult Pick-Up Basketball Games ? Journal of Research in Health,Physical Education, Recreation, Sport and Dance, 5(2), 41–47.

Xertion, E., Oreness, M. U. S., & Ollegiate, I. N. C. (2020). Acute Effects Of Battle Rope Exercise On Performance,Blood Lactate Levels,Perceived Exertion, And Muscle Soreness In Collegiate Basketball Players. 34(10), 3–5.

Zainuri, A., Wibawa, U., & Maulana, E. (2015). Implementasi Bluetooth HC – 05 untuk Memperbarui Informasi Pada Perangkat Running Text Berbasis Android. Eeccis, 9(2), 164–165. file:///Users/simbolon/Library/Application Support/Mendeley Desktop/Downloaded/Zainuri, Wibawa, Maulana - 2015 - Implementasi Bluetooth HC – 05 untuk Memperbarui Informasi Pada Perangkat Running Text Berbasis Andr.pdf

Zhou, X. J., Gao, Z., & Zhang, Q. L. (2008). Analysis approach of winning factors in competitive basketball. 2008 IEEE International Symposium on Knowledge Acquisition and Modeling Workshop Proceedings, KAM 2008, 1141–1144. https://doi.org/10.1109/KAMW.2008.4810697

Avaliação das competências básicas de passagem torácica no século XXI utilizando o Automatic Chest Pass Board 2.0

Autores

DOI:

Palavras-chave:

Resumo

Referências

Downloads

Publicado

Como Citar

Edição

Secção

Licença

Artigos mais lidos do(s) mesmo(s) autor(es)

Idioma

Informações

Enviar Submissão