The purpose of this study was to combine the kinematics, kinetics and surface EMG methods to analyze six elite collegiate table tennis players in Taiwan (age: 21 ±4.69 yr, height: 173.5 ±4.59 cm, weight: 67 ±5.80 kg, experience: 12 ±4.52 yr.) when they were performing the forehand and backhand drives techniques while receiving the top spin and the under spin services. Ten VICON MX13+ Motion Capture systems (250 Hz), two KISTLER Force Plates (1500 Hz) and Noraxon Wireless EMG system (1500 Hz) were used to collect the kinematics of the dominate upper limb muscle groups, which were the wrist flexor, wrist extensor, biceps brachii, triceps brachii, pectoralis major, anterior deltoid and posterior deltoid. The EMG data were analyzed by using the Acknowledge software (1000Hz)., kinetics data and surface EMG signal. The Vicon Nexus 1.52 was used to calculate the kinematics and the kinetics data, the Noraxon software was to analyze the EMG signal parameters. All the variables were tested by Friedman two-way analysis of variance nonparametric statistical test, and the post-hoc comparisons were calculated by the Excel software. The Wilcoxon matched-pairs signed-rank nonparametric statistical test was to test the different variables between forehand and backhand drives, the significant level was at α =.05. The results were as follows: there was a significant difference that the forehand drive was greater than backhand drive in the following variables, the return initial velocity of the ball, racket swing velocity, the velocity of center of gravity, racket upswing displacement and the height of center of gravity at the contact point. There was greater racket tilt angle and a lower center of mass when return backspin serve. In ground reaction forces, there was a significant correlation between anteroposterior impulse and horizontal racket anteroposterior velocity. In EMG, The anterior deltoid, pectoralis major, flexor carpi radialis and extensor carpi ulnaris in forehand drives, the posterior deltoid, triceps and extensor carpi ulnaris in back hand drives exerted the greater muscular amplitude during the swing forward phase. There were co-contractions between Biceps Brachii and Triceps Brachii, Flexor carpi radialis and Extensor carpi ulnaris in forehand drives during upswing phase, while a less co-contraction in backhand. The muscular strategy and the patterns of the forehand and backhand drives in elite table tennis players were not the same.