Introduction: Bilateral discrepancies in human lower limb weight, length, and strength could lead to an asymmetrical gait pattern. Such a gait pattern could result in chronic musculoskeletal injuries. However, we can prevent injuries through the early detection of bilateral asymmetry. Motion analysis systems detect gait phase and movement precisely. Easy-portable, non-movement suppressing, and long-term monitoring inertial measurement unit (IMU) sensors may also provide a practical and reliable means to measure gait patterns during human movement. IMUs have been increasingly used in research to detect human movement characteristics. However, the suitable IMU placement on the body and the specific biomechanical parameters to measure the imbalanced gait patterns still require further investigation. Motion analysis systems and IMUs were used in this study to investigate the asymmetric kinematics indexes of imbalanced gait patterns induced by the intervention of unilateral lower limb adding weight and unilateral lower limb lengthening in healthy subjects. We hope the IMU indexes can be used for the future evaluation and monitoring of gait symmetry in healthy individuals. Methods: Fifteen healthy subjects were recruited and divided into able bodied, unilateral lower limb weight-bearing (5% body weight), and unilateral lower limb lengthening (3cm). A motion analysis system was used to measure the spatio-temporal gait movement parameters. The inertial measurement units (IMU) were placed on both sides of the upper limbs, lower limbs, and trunk of the subjects to measure the movement characteristics under self-selected and 1.5m/s walking speeds. Results: Bilateral lower limb discrepancies led to significant asymmetric maximal heel height, stance/swing time, and movement characteristics. The placement of IMUs on the lower limb and trunk, sagittal plane acceleration, and angular velocity during the stance/swing phase of the gait showed significant differences between a symmetrical and asymmetrical gait pattern. Conclusion: Bilateral lower limb discrepancies resulted in asymmetric gait phase and movement characteristics. IMUs placed on the lower limb and trunk are recommended to measure gait asymmetry. While the sagittal plane acceleration and angular velocity parameter during the stance/swing phase of the gait are more suitable for measuring the movement characteristics of asymmetric gait.