The research was conducted with the aim to classify and systematize all the available studies that deal with exercises on the high bar. This research covered a total of 41 papers, spanning a period from 1990 to 2013. In terms of Code of points it includes as many as 144 elements that are performed and which should be performed at competitions. Of this number, only 18 elements were investigated (based on the collected papers), or 12.5%. This points to the fact that the research on exercises on the high bar, although conducted for a long period of time, is still in the beginning stages. Research of first (long hang swings and turns) and fifth (dismounts) specific requirements dominates. To a smaller extent, research on second (flight elements) specific requirements is represented, and the least attention is devoted to third and fourth requirements. 

Arampatzis, A. & Bruggemann, G.P. (1998). A mathematical high bar – human body model for analysing and interpreting mechanical – energetic processes on the high bar. Journal of Biomechanics, 31(12), 1083-1092.

Begon, M., Hiley, M.J., & Yeadon, M.R. (2009). Effect of hip flexibility on optimal stalder performances on high bar. Computer Methods in Biomechanics and Biomedical Engineering, 12 (5), 575-583.

Begon, M., Wieber, P.B., & Yeadon, M.R. (2008). Kinematics estimation of straddled movements on high bar from a limited number of skin markers using a chain model. Journal of Biomechanics, 41, 581–586.

Brüggemann, G.P., Cheetham, P.J., Alp, Y., & Arampatzis, D. (1994). Approach to a biomechanical profile of dismounts and release–regrasp skills of the high bar. Journal of Applied Biomechanics, 10(3), 291-312.

Chen, C.K., & Liu, Y. (2000). The kinematic analysis of giant swing and dismount of double salto backward stretched with 720° turns on horizontal bar. In Y. Hong, D. P. Johns, & R. Sanders (Eds), 18 International Symposium on Biomechanics in Sports. Hong Kong, China.

Čuk, I. (1994). Some differences between Kovacs and Gaylord saltos on high bar. In A. Barabas & G. Fabian (Eds.), 12 International Symposium on Biomechanics in Sports, (pp. 191-194), Hungarian University of PE, Budapest, Hungary.

Čuk, I. (1996). Kolman and Pegan saltos on the high bar. In T. Bauer (Ed.), Proceedings of the 13 International Symposium on Biomechanics in Sports, (pp. 119-122). Lakehead University, Thunder Bay, Ontario, Canada.

Čuk, I., Atiković, A., & Tabaković, M. (2009). Tkachev salto on high bar. Science of Gymnastics Journal, 1 (1), 5 -13.

Fédération Internationale de Gymnastique-FIG (2017). 2017 Code of points men’s artistic gymnastics Found 10.06.2017 at the World Wide Web: http://www.fig-gymnastics.com/site/rules/disciplines/art

Frère, J., Göpfert, B., Slawinski, J., & Tourny-Chollet, C. (2012). Shoulder muscles recruitment during a power backward giant swing on high bar: A wavelet-EMG-analysis. Human Movement Science, 31 (2), 472-485.

Frère, J., Göpfert, B., Slawinski, J., & Tourny-Chollet, C. (2010). Wavelet-EMG-analysis of shoulder muscles during a power backward giant swing on high bar. Paper presented at the 8th Conference of the International Shoulder Group, (pp. 60-61). Minneapolis, USA,

Geiblinger, H., McLaughlin, P.A., & Morrison, W.E. (1995). Landing kinematics of horizontal bar dismounts. In T. Bauer (Ed), 13 International Symposium on Biomechanics in Sports, (pp. 132-136). Thunder Bay, Ontario, Canada.

Gervais, P., & Pierre Baudin, J. (1995). The identification of release on the horizontal bar. In T. Bauer (Ed.), 13 International Symposium on Biomechanics in Sports, (pp 147-150) Thunder Bay, Ontario, Canada.

Heinen, T, Jeraj, D., Vinken, M.P., Knieps, K., Velentzas, K., & Richter H. (2011). What it takes to do the double jaeger on the high bar? Science of Gymnastics Journal, 3 (3), 7-18.

Hiley, M.J., & Yeadon, M.R. (2003a). Optimum technique for generating angular momentum in accelerated backward giant circles prior to a dismount. Journal of Applied Biomechanics, 19 (2), 119-130.

Hiley, M.J., & Yeadon, M.R. (2003b). The margin for error when releasing the high bar for dismounts. Journal of Biomechanics, 36 (3), 313-319.

Hiley, M.J., & Yeadon, M.R. (2005). Maximal dismounts from high bar. Journal of Biomechanics, 38 (11), 2221-2227.

Hiley, M.J., & Yeadon, M.R. (2012). Achieving consistent performance in a complex whole body movement: the Tkatchev on high bar. Human Movement Science, 31 (4), 834-843.

Hiley, M.J., & Yeadon, M.R. (2001). Swinging around the high bar. Physics Education, 36, (1), 14-17.

Hiley, M.J., & Yeadon, M.R. (2008). Optimisation of high bar circling technique for consistent performance of a triple piked somersault dismount. Journal of Biomechanics, 41 (8), 1730–1735.

Hiley, M.J., Yeadon, M.R., & Buxton, E. (2007). Consistency of performances in the Tkatchev release and re-grasp on high bar. Sports Biomechanics, 6 (2), 121-130.

Hiley, M.J., Zuevsky, V.V., & Yeadon, M.R. (2013). Is skilled technique characterized by high or low variability? An analysis of high bar giant circles. Human Movement Science, 32(1), 171-180.

Irwin, G., & Kerwin, D.G. (2006). Musculoskeletal work in high bar progressions. In H. Schwameder, G. Strutzenberger, V. Fastenbauer, S. Lindinger, & E. Müller (Eds.), 24 International Symposium on Biomechanics in Sports, (pp. 1-4). Salzburg, Austria.

Irwin, G., Kerwin, D.G., Manning, M., & Brown, R. (2007). Developing the Kovacs on high bar. In H. J. Menzel, & M.H. Chagas (Eds.), 25 International Symposium on Biomechanics in Sports, (pp.349-352). Ouro Preto, Brazil.

Kerwin, D.G., & Hiley, M.J. (2003). Estimation of reaction forces in high bar swinging. Sports Engineering, 6 (1), 21-30.

Kerwin, D.G., Yeadon, M.R., & Lee, S.C. (1990). Body configuration in multiple somersault high bar dismounts. Journal of Applied Biomechanics, 6 (2), 147-156.

Kerwin, D.G., Yeadon, M.R., Harwood, M.J. (1993). High bar release in triple somersault dismounts. Journal of Applied Biomechanics, 9 (4), 279-286.

Knoll, K., Drenk, V., & Krug, J. (1996). Dynamometric measuring procedures for horizontal bar and uneven bars. In J.M.C.S. Abrantes (Ed.), 14 International Symposium on Biomechanics in Sports, (pp. 177-180). Funchal, Madeira, Portugal.

Naundorf, F., Lehmann, T., & Witte, K. (2010). Techniques to start the stoop circle (adler) on high bar. In R. Jensen, W. Ebben, E. Petushek, C. Richter, & K. Roemer (Eds.), 28 International Symposium on Biomechanics in Sports, Marquette, Michigan, USA.

Park, S.S., & Prassas, S. (1994). A comparative analysis of the triple backward somersault and the double backward somersault on the high bar. In A. Barabas & G. Fabian (Eds.), 12 International Symposium on Biomechanics in Sports, (pp. 252-254), Hungarian University of PE, Budapest, Hungary.

Petković, D., Veličković, S., Petković, E., Ilić, S.H., & Mekić, H. (2013). Sportska gimnastika 1, teorija sportske gimnastike (Sport gymnastics 1, the theory of sports gymnastics). Niš: Self Edition of the Authors. In Serbian

Prassas, S. (1991). Reverse hecht (Tkachev) on the horizontal bar: a case study. In M. Nosek, D. Sojka, W. Morrison & P. Susanka (Eds), 8th International Symposium on Biomechanics in Sports, (pp. 141-144), ISBS, Prague, Chechoslovakia.

Prassas, S. (1999). Biomechanical research in gymnastics: What is done, what is needed. In S.G. Prassas, & R.H. Sanders (Eds.), Applied Proceedings of the XVII ISBS, 1999: Acrobatics, 1-10.

Prassas, S., Kwon, Y.H. & Sands, W.A. (2006). Biomechanical research in artistic gymnastics: a review. Sports Biomechanics, 5 (2), 261-291.

Takei, Y., & Dunn, J.H. (1997). A ‘kickout’ double salto backward tucked dismount from the horizontal bar performed by elite gymnasts. Journal of Sports Sciences, 15(4), 411-425.

Williams, G., Irwin, G., Kerwin, D.G., & Newell, K.M. (2012). Kinematic changes during learning the longswing on high bar. Sports Biomechanics, 11 (1), 20-33.

Yang, H., Ma, G., Mao, D., Dang, L. & Shen, P. (1995). A comprehensive study on the body straightened dismount with 3 turn on the horizontal bar. In T. Bauer (Ed), 13 International Symposium on Biomechanics in Sports, (pp. 164-168). Thunder Bay, Ontario, Canada.

Yamada, T., Michiyoshi, A., & Fujii, N. (2002). Comparison of the kip maneuver at the horizontal bar between the skilled and unskilled subjects. In K.E. Gianikellis (Ed), 20 International Symposium on Biomechanics in Sports, (pp. 163-167). Cáceres, Spain.

Yamasaki, T., Yamamoto, Y., & Gotch K. (2008). A dynamic simulation of high bar movements with bar strain. In Y.H. Kwon, J. Shim, J.K. Shim, & I.S. Shin (Eds.), 26 International Symposium on Biomechanics in Sports, (pp 160-163). Seoul, Korea.

Yeadon, M.R., & Hiley, M. J. (2000). The mechanics of the backward giant circle on the high bar. Human Movement Science, 19 (2), 153-173.

Yeadon, M.R. (1997). Twisting double somersault high bar dismounts. Journal of Applied Biomechanics, 13 (1), 76-87.

Yeadon, M.R., Lee, S., & Kerwin, D.G. (1990). Twisting techniques used in high bar dismounts. International Journal of Sport Biomechanics, 6 (2), 139-146.

Williams, G., Irwin, G., Kerwin, D.G., & Newell, K.M. (2012). Kinematic changes during learning the longswing on high bar. Sports Biomechanics, 11(1), 20-33.

Zhou, J.H. (2013). Kinematical analysis of dismount of double salto backwards stretched with 2/1 twists. Applied Mechanics and Materials, 312, 210-214.