Wearable haptic feedback devices have emerged as a promising technology for assisting rehabilitation processes. These devices provide tactile or vibratory sensations to the user, delivering real-time feedback and guidance during rehabilitation exercises. By integrating sensors, haptic feedback mechanisms, and advanced technology, wearable haptic devices could offer personalized and engaging rehabilitation experiences. This paper explores the key features and applications of wearable haptic feedback devices for rehabilitation. These devices are designed to assist in motor skill rehabilitation by correcting movement, improving posture, and guiding users towards correct motions. The integration of haptic feedback with virtual reality technology further enhances the immersive experience, allowing for more engaging and effective rehabilitation exercises. Remote monitoring and data analysis capabilities enable healthcare professionals to track patients' progress and provide personalized feedback remotely. The ability to collect and analyze data also facilitates the development of tailored treatment plans. Wearable haptic devices promote patient engagement and motivation by establishing a stronger mind-body connection through tactile sensations. The field of wearable haptic feedback devices for rehabilitation is continuously evolving, with ongoing advancements in design, functionality, and integration with other technologies. These research fields have great potential for improving rehabilitation outcomes and enhancing the overall patient experience.