Reliability of performance measurements derived from ground reaction force data during countermovement jump and the influence of sampling frequency

Journal of Strength and Conditioning Research

Volumn 23, Issue 3, 2009, Pages 874-882

  Hori, Naruhiro ^c   Newton, Robert U ^a   Kawamori, Naoki ^a   McGuigan, Michael R ^a   Kraemer, William J ^a,b   Nosaka, Kazunori ^a  

^a EDITH COWAN UNIVERSITY   (Australia)

^b UNIVERSITY OF CONNECTICUT   (United States)

^c Western Australian Institute of Sport   (Australia)

Author keywords

Force platform; Impulse; Momentum; Velocity; Vertical jump

Indexed keywords

ADULT; ANALYSIS OF VARIANCE; ANTHROPOMETRY; ARTICLE; BIOMECHANICS; EXERCISE; EXERCISE TEST; HUMAN; INSTRUMENTATION; MALE; MOVEMENT (PHYSIOLOGY); MUSCLE CONTRACTION; MUSCLE STRENGTH; PHYSIOLOGY; REPRODUCIBILITY; SKELETAL MUSCLE; SPORT;

ADULT; ANALYSIS OF VARIANCE; ANTHROPOMETRY; BIOMECHANICS; EXERCISE TEST; HUMANS; MALE; MOVEMENT; MUSCLE CONTRACTION; MUSCLE STRENGTH; MUSCLE, SKELETAL; PHYSICAL EXERTION; REPRODUCIBILITY OF RESULTS; SPORTS;

EID: 68049142334     PISSN: 10648011     EISSN: None     Source Type: Journal    
DOI: 10.1519/JSC.0b013e3181a00ca2     Document Type: Article

References (23)

1. Baker, D. Acute and long-term power response to power training: observations on the training of an elite power athlete. Strength Cond J 23(1): 47-56, 2001.
2. Baumgartner, TA and Chung, H. Confidence limits for intraclass reliability coefficients. Meas Phys Educ Exerc Sci5: 179-188, 2001.
3. Bobbert, MF, Gerritsen, KGM, Litjens, MCA, and Van Soest, AJ Why is countermovement jump height greater than squat jump height? Med Sci Sports Exerc 28: 1402-1412, 1996.
4. Cormie, P, McBride, JM, and McCaulley, GO. Power-time, force- time and velocity-time curve analysis during the jump squat: impact of load. J Appl Biomech 24: 112-120, 2008.
5. Derrick, TR. Signal processing. In: Research Methods in Biomechanics. Robertson, DGE, Caldwell, GE, Hamill, J, Kamen, G, and Whittlesey, SN, eds. Champaign: Human Kinetics, 2004. pp. 227-238.
6. Dugan, E, Doyle, TLA, Humphries, B, Hasson, CJ, and Newton, RU. Determining the optimal load for jump squats: a review ofmethods and calculations. J Strength Cond Res 18: 668-674, 2004.
7. Haff GG, Stone, M, O'Bryant, HS, Harman, E, Dian, C, Johnson, R, and Han, K-H. Force-time dependent characteristics of dynamic and isometric muscle actions. J Strength Cond Res 11: 269-272, 1997.
8. Harman, EA, Rosenstein, MT, Frykman, PN, and Rosenstein, RM. The effects ofarms and countermovement on vertical jumping. Med Sci Sports Exerc 22: 825-833, 1990.
9. Harman, EA, Rosenstein, MT, Frykman, PN, Rosenstein, RM, and Kraemer, WJ Estimation of human power output from vertical jump. J Appl Sports Sci Res 5: 116-120, 1991.
10. Hopkins, WG. A new view of statistics. Available at: http:// sportSciorg/resource/stats/index.html. Accessed June 27, 2007.
11. Hori, N, Andrews, WA, Nosaka, K, McGuigan, MR and Newton, RU. Observation of load-power curves in the hang power clean. J Australian Strength and Cond 16: 11-19, 2008.
12. Hori, N, Newton, RU, Nosaka, K, and McGuigan, MR. Comparison of different methods of determining power output in weightlifting exercises. Strength CondJ28: 34-40, 2006.
13. McGinnis, PM. Technology in biomechanics. In: Biomechanics of Sport and Exercise. McGinnis, PM, ed. Champaign: Human Kinetics, 2005. pp. 361-370.
14. Newton, RU and Dugan, E. Application of strength diagnosis. Strength Cond J24: 50-59, 2002.
15. Newton, RU and Kraemer, WJ Developing explosive muscular power: implications for a mixed methods training strategy. Strength Cond 16: 20-31, 1994.
16. Newton, RU Kraemer, WJ, and Häkkinen, K. Effects of ballistic training on preseason preparation ofelite volleyball players. MedSci Sports Exerc 31: 323-330, 1999.
17. Pryor, JF, Wilson, GJ, and Murphy, AJ The efectiveness ofeccentric, concentric and isometric rate offorce development tests. J Hum Mov Stud 27: 153-172, 1994.
18. Reiser, RF. Building a better understanding of basic mechanical principles through analysis of the vertical jump. Strength Cond J 28: 70-80, 2006.
19. Sayers, SP, Harackiewicz, DV, Harman, EA, Frykman, PN, and Rosenstein, MT. Cross-validation of three jump power equations. Med Sci Sports Exerc 31: 572-577, 1999.
20. Street, G, McMillan, S, Board, W, Rasmussen, M, and Heneghan, JM. Sources oferror in determining countermovement jump height with the impulse method. J Appl Biomech 17: 43-54, 2001.
21. Wilson, GJ, Lyttle, AD, Ostrowski, KJ, and Murphy, AJ Assessing dynamic performance: a comparison of rate of force development tests. J Strength Cond Res 9: 176-181, 1995.
22. Wilson, GJ, Newton, RU, Murphy, AJ, and Humphries, BJ The optimal training load for the development of dynamic athletic performance. Med Sci Sports Exerc 25: 1279-1286, 1993.
23. Young, WB, Newton, RU, Doyle, TL, Chapman, D, Cormack, S, Stewart, G, and Dawson, B. Physiological and anthropometric characteristics of starters and non-starters and playing positions in elite Australian Rules football: a case study. J Sci Med Sport 8: 333-345, 2005.