Test-retest reliability and construct validity of Inosen’s Silat Momentum Test

Inosen  Lingsir Maghribi; Rony  Syaifullah; M. Furqon  Hidayatullah; Slamet  Riyadi; Awan  Hariono; Agung  Nugroho

doi:10.47197/retos.v61.109075

Autores

Inosen Lingsir Maghribi Universitas Sebelas Maret
Rony Syaifullah Universitas Sebelas Maret
M. Furqon Hidayatullah Universitas Sebelas Maret
Slamet Riyadi Universitas Sebelas Maret
Awan Hariono Universitas Negeri Yogyakarta
Agung Nugroho Universitas Negeri Yogyakarta

DOI:

https://doi.org/10.47197/retos.v61.109075

Palavras-chave:

biomechanics, kick momentum, pencak silat, performance test, sensor technology

Resumo

Enunciado do problema: O pontapé em Pencak Silat possui uma magnitude chamada impulso, o que requer uma ferramenta capaz de medir diversas variáveis baseadas no Sistema Internacional de Unidades (SI) em tempo real. Hoje, existem tecnologias de sensores acessíveis e fiáveis para satisfazer estas necessidades. Objectivo: O objectivo da investigação foi conceber um instrumento de teste que utilize tecnologia de sensores para medir o impulso do pontapé na categoria sparring Pencak Silat seguindo o SI aplicável, e testar a sua fiabilidade e validade. O instrumento resultante é designado por Teste Silat Momentum de Inosen. Abordagem: Este estudo acompanha o processo de construção de sete testes de Johnson e Nelson. Vinte e quatro atletas Pencak Silat, 12 elite e 12 não elite, participaram no processo de avaliação. A fiabilidade do teste foi avaliada examinando a correlação entre os resultados do teste e do reteste. O teste de validade de constructo foi realizado comparando os resultados dos testes de pontapé frontal de atletas Pencak Silat de elite e não elite. A análise dos dados foi realizada através de correlação de Pearson e testes t independentes com o software Minitab 21.4.1. Resultados: Os resultados do teste e do reteste indicam uma correlação muito elevada (r = 0,923), demonstrando a capacidade consistente do Inosen Silat Moment Test para medir o impulso do pontapé. O estudo encontrou uma diferença estatisticamente significativa nas pontuações do Silat Momentum Test de Inosen (p <0,05) entre o grupo de lutadores de elite (pontuação média de 463,3 kg.m/s) e o grupo de lutadores não-elite (pontuação média de 375 kg. EM). Os resultados indicam que o Silat Momentum Test de Inosen é um instrumento eficaz para diferenciar o impulso do pontapé com base no desempenho do lutador. Conclusões: Com base nos resultados, infere-se que o Teste de Momento Silat de Inosen é um instrumento fiável e válido para medir o momento do pontapé Pencak Silat de acordo com as normas do SI.

Palavras-chave: biomecânica, impulso de remate, pencak silat, teste de desempenho, tecnologia de sensores.

Referências

Anifah, L., Zuhrie, M. S., Muhammad, & Haryanto. (2023). INTEGRATED SMART REAL TIME SCORING PENCAK SILAT BASED ON INTERNET OF THINGS (IOT). International Journal on Technical and Physical Problems of Engineer-ing, 15(1), 155–163.

Ary, D., Jacobs, L. C., Irvine, C. K. S., & Walker, D. A. (2019). Introduction to Research in Education (10th ed.). Cengage Learning.

Beiderbeck, D., Evans, N., Frevel, N., & Schmidt, S. L. (2023). The impact of technology on the future of football – A global Delphi study. Technological Forecasting and Social Change, 187. https://doi.org/10.1016/j.techfore.2022.122186

BIPM. (2019). The International System of Units (SI) (9th ed.). International Bureau of Weights and Measures (BIPM). https://www.bipm.org/en/publications/si-brochure

Chavarría-Fernández, V., Rojas-Valverde, D., Gutiérrez-Vargas, R., Meza, C., & Méndez-Solano, M. (2023). Wearable Sports Technology Development in Costa Rica: Inertial Measurement Unit Integration for Real-Time External Load Monitoring | Desenvolvimento de tecnologia desportiva portátil na Costa Rica: integração de uma unidade de medição por inércia para mon. MHSalud, 20(1). https://doi.org/10.15359/mhs.20-1.1

Danesi, M. (2020). Pythagoras’ Legacy (1st ed.). Oxford University Press.

Diewald, S. N., Cross, M. R., Neville, J., & Cronin, J. B. (2022). Validity and reliability of impact forces from a com-mercially instrumented water-filled punching bag. Sports Engineering, 25(1), 5. https://doi.org/10.1007/s12283-022-00368-3

Doewes, R. I., Elumalai, G., & Azmi, S. H. (2022). Biomechanics analysis on Jejag kick of pencak silat. Journal of Popula-tion Therapeutics and Clinical Pharmacology, 29(4), 116–125. https://doi.org/10.47750/jptcp.2022.989

Du, Y., Li, Y., Chen, J., Hao, Y., & Liu, J. (2023). Edge computing-based digital management system of game events in the era of Internet of Things. Journal of Cloud Computing, 12(1). https://doi.org/10.1186/s13677-023-00419-5

Fachrezzy, F., Maslikah, U., Hermawan, I., Nugroho, H., Jariono, G., & Nurulfa, R. (2021). Kicking ability for the eolgol yoep chagi taekwondo poomsae in terms of quality of physical condition, self-confidence, and comparison of leg muscle explosive power and core stability. Journal of Physical Education and Sport, 21, 2337–2342. https://doi.org/10.7752/jpes.2021.s4313

Fuss, F. K., Subic, A., & Ujihashi, S. (2008). The Impact of Technology on Sport II.

Giancoli, D. C. (2016). Physics: Principles with Applications, Global Edition (7th ed.). Pearson Education. www.pearsoned.co.uk

Gontara, S. Y., & Doewes, R. I. (2023). Sebelasmaret Boccia Throw Test (SBTT) Instrument Development. International Journal of Disabilities Sports and Health Sciences, 6(2), 261–267. https://doi.org/10.33438/ijdshs.1286793

Ihsan, N., Hidayat, R., Damrah, D., Neldi, H., Sepriadi, S., & Muslimin, M. (2022). The Contribution of Leg Muscle Explosive Power, Agility, and Self-confidence on Sickle Kick Performance. International Journal of Human Movement and Sports Sciences, 10(4), 683–688. https://doi.org/10.13189/saj.2022.100408

Ihsan, N., Yulkifli, Hadi, A., Yohandri, Mario, D. T., Ayubi, N., Karacam, A., Németh, Z., & Orhan, B. E. (2024). Sensor-based scoring system for the fighting category in Pencak Silat. Retos, 57, 684–691. https://doi.org/10.47197/retos.v57.105906

Irawan, R., Yenes, R., Mario, D. T., Komaini, A., García-Fernández, J., Orhan, B. E., & Ayubi, N. (2024). Design of a sensor technology-based hand-eye coordination measuring tool: Validity and reliability. Retos, 56, 966–973. https://doi.org/10.47197/retos.v56.103610

Irnawati, I., Dos Santos, M. H., & Rijaluddin, K. (2022). Pengaruh Metode Latihan Skipping dan Hop Jump Terhadap Kecepatan Tendangan Lurus Pada Atlet Pencak Silat Persaudaraan Hidaya Sejati Al Hijrah Bone. Sportify Journal, 2(2). https://doi.org/10.36312/sfj.v2i2.27

Izzo, R., Hosseini, V. C., Materazzo, P., Cejudo, A., & Giovannelli, M. (2022). Dynamic inertial analysis of the technical boxing gesture of Jab. Journal of Physical Education and Sport, 22(3), 661–671. https://doi.org/10.7752/jpes.2022.03083

Johnson, B. L., & Nelson, J. K. (1986). Practical Measurements for Evaluation in Physical Education (4th ed.). Collier Mac-millan Publishers.

Kızılcık, H. Ş. (2021). Superman vs momentum. Physics Education, 56(4), 045006. https://doi.org/10.1088/1361-6552/abf46f

Menzel, T., & Potthast, W. (2021). Application of a validated innovative smart wearable for performance analysis by experienced and non‐experienced athletes in boxing. Sensors, 21(23). https://doi.org/10.3390/s21237882

Merk, A., & Resnick, A. (2021). Physics of martial arts: Incorporation of angular momentum to model body motion and strikes. PLoS ONE, 16(8 August). https://doi.org/10.1371/journal.pone.0255670

Montoro-Bombú, R., Field, A., Santos, A. C., & Rama, L. (2022). Validity and reliability of the Output sport device for assessing drop jump performance. Frontiers in Bioengineering and Biotechnology, 10. https://doi.org/10.3389/fbioe.2022.1015526

Nugroho, A. (2020). Analisis Penilaian Prestasi Teknik Dalam Pertandingan Pencak Silat. Jorpres (Jurnal Olahraga Prestasi), 16(2), 66–71. https://doi.org/10.21831/jorpres.v16i2.31655

Olaya-Cuartero, J., Plaza-Morales, D., Jimenez-Olmedo, J. M., & Lipinska, P. (2023). Sensor analysis for the assess-ment of biomechanical parameters in endurance runners: a systematic review. Journal of Physical Education and Sport, 23(9), 2385–2393. https://doi.org/10.7752/jpes.2023.09274

PERSILAT. (2015). Constitution of The International Pencak Silat Federation. PERSILAT.

Pomatahu, A. R. (2018). The relationship between leg length and crescent kick speed in Pencak Silat sport. Trends in Sport Sciences, 25(2), 85–91. https://doi.org/10.23829/TSS.2018.25.2-4

Qu, H.-R., Qian, D.-X., Xu, S.-S., & Shen, Y.-F. (2024). Validity and test-retest reliability of a resistance training device for Smith machine back squat exercise. IScience, 27(1). https://doi.org/10.1016/j.isci.2023.108582

Rodgers, M. M., & Cavanagh, P. R. (1984). Glossary of Biomechanical Terms, Concepts, and Units. Physical Therapy, 64(12), 1886–1902. https://doi.org/10.1093/ptj/64.12.1886

Romagnoli, S., Ripanti, F., Morettini, M., Burattini, L., & Sbrollini, A. (2023). Wearable and Portable Devices for Ac-quisition of Cardiac Signals while Practicing Sport: A Scoping Review. Sensors, 23(6). https://doi.org/10.3390/s23063350

Rothbart, H. A., & Brown, T. H. , Jr. (2006). Mechanical Design Handbook Measurement, Analysis, and Control of Dynamic Systems (2nd ed.). McGraw-Hill. https://doi.org/10.1036/0071466363

Sinulingga, A., Kasih, I., Hasibuan, S., Daulay, D. E., & Abdullah, N. M. (2023). Unveiling technology’s integral role in pencak silat: A systematic literature review. Journal Sport Area, 9(1), 20–29. https://doi.org/10.25299/sportarea.2024.vol9(1).14700

Sinulingga, A., Pasaribu, A. M. N., Bangun, S. Y., Ningrum, D. T. M., & Mahyudi, Y. V. (2023). Plyometric Exercise and Speed on the Power of Sabit Kick in Pencak Silat. International Journal of Human Movement and Sports Sciences, 11(3), 591–597. https://doi.org/10.13189/saj.2023.110311

Subekti, N., Syaifullah, R., Fatoni, M., Syaukani, A. A., Warthadi, A. N., & Arni-Rayhan, A. R. (2021). Pencak silat combat match: Time motion analysis in elite athletes championship. Journal of Human Sport and Exercise, 16(Proc4), S1597–S1608. https://doi.org/10.14198/jhse.2021.16.Proc4.05

Suwirman, S., Sepriadi, S., Ihsan, N., & Deswandi, D. (2021). Instrument Speed Endurance Test of Pencak Silat Ath-letes. International Journal of Human Movement and Sports Sciences, 9(6), 1447–1452. https://doi.org/10.13189/saj.2021.090641

Syaifullah, R., & Doewes, R. I. (2020). Pencak silat talent test development. International Journal of Human Movement and Sports Sciences, 8(6), 361–368. https://doi.org/10.13189/saj.2020.080607

Syaifullah, R., & Maghribi, I. L. (2023). Speed analysis of the Front Kicks technique in 2022 pencak silat world champion athletes: Kinematic analysis. Jurnal SPORTIF : Jurnal Penelitian Pembelajaran, 9(1), 146–159. https://doi.org/10.29407/js_unpgri.v9i1.19983

Taborri, J., Keogh, J., Kos, A., Santuz, A., Umek, A., Urbanczyk, C., van der Kruk, E., & Rossi, S. (2020). Sport bio-mechanics applications using inertial, force, and EMG sensors: A literature overview. Applied Bionics and Biomechanics, 2020. https://doi.org/10.1155/2020/2041549

Worsey, M., Espinosa, H., Shepherd, J., & Thiel, D. (2019). Inertial Sensors for Performance Analysis in Combat Sports: A Systematic Review. Sports, 7(1), 28. https://doi.org/10.3390/sports7010028

Yuki, L. K., Anoegrajekti, N., & Lustyantie, N. (2023). The Value of Local Wisdom of Pencak Silat Maenpo: A Study of Indonesian Matrial Arts La Valeur De La Sagesse Locale De Pencak Silat Maenpo. Migration Letters, 20(8), 1–16. https://doi.org/10.59670/ml.v20i8.5207

Zhang, X., Shan, G., Wang, Y., Wan, B., & Li, H. (2019). Wearables, Biomechanical Feedback, and Human Motor-Skills’ Learning & Optimization. Applied Sciences, 9(2), 226. https://doi.org/10.3390/app9020226

Fiabilidade teste-reteste e validade de constructo do teste Silat Momentum de Inosen

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