To Determine the Ground Reaction Force and Drive in Velocity of Direct Drive and Crossover Drive of Basketball Offense among Basketball Players - a Systematic Review

Tan, Jianming (2021) To Determine the Ground Reaction Force and Drive in Velocity of Direct Drive and Crossover Drive of Basketball Offense among Basketball Players - a Systematic Review. Final Year Project (Bachelor), Tunku Abdul Rahman University College.

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Abstract

A basketball game is a court-based team sport with frequent transitions between offense and defense and movement changes. On offense, there are 2 options for scoring: shooting or a layup. In a basketball game, a player can score by driving layup. Cutting motion is a crucial strategy for a ball player in a game. Direct and crossover drives are 2 cutting motions that would be used often in a basketball game. As we all know, there are several different forms of basketball drive moves that players can use in a basketball game. Layups are one of the most important skills in basketball, and direct drive and crossover moves are 2 of those steps. Various steps will be taken depending on the current situation as we play the game. When a player wants to drive to the basket, one of the necessary offensive skills is the direct drive and crossover drive stage. As a result, the aim of this research is to look into the effects of direct-drive and crossover steps on ground reaction power, as a result of different starting movements, and to provide basic information to help improve game efficiency. We can see from the discussion that having a large ground reaction force would enable us to perform better in sports. However, the cost would be any accidents that result from our failure to perform the skills in a correct and technical manner. According to the study, the majority of researchers did not use equipment such as force platforms and 3D motion capture to investigate both GRF and joint angle on basketball. To summarise this systematic analysis, by exerting a greater force on the field, the ground reaction force would be the same as the force applied, resulting in an increase in strength and, as a result, an improvement in efficiency.