Abstract: The present disclosure pertains to an innovative ergonomic system comprising a posture-adaptive ferromagnetic mousepad and a magnetized mouse, both designed to significantly enhance user comfort and efficiency during extended computer use. The mousepad, constructed from ferromagnetic material, supports seamless interaction with the magnetized mouse, ensuring continuous adherence and precise pointer tracking. A distinctive feature is the mousepad's ability to be positioned in three dimensions (x, y, and z axes), facilitated by an integrated mounting mechanism adaptable to various support structures such as articulated arms, clamps, or stands. The mousepad's adjustability allows for a neutral wrist posture, reducing repetitive stress injuries, and can even accommodate a fully inverted position, offering unparalleled ergonomic flexibility. The magnetized mouse, optimized to weigh 70 grams or less, is specifically designed to interact seamlessly with the mousepad, promoting optimal wrist and arm positioning.

Abstract: The Posture-Adaptive Keyboard enhances user-computer interactions through dynamic three-dimensional adjustability—horizontally, vertically, and angularly. It features an enclosure made from materials including opaque, translucent, or transparent options, and incorporates a versatile mounting mechanism. This design allows the keyboard to align with the user's natural ergonomic posture, potentially reducing repetitive stress injuries (RSIs). A key feature is the variable friction articulated arm connected to the keyboard's integrated mounting mechanism, which permits precise and stable positioning. Adjustments are made via a friction control knob, optimizing ergonomic settings for user comfort. The keyboard supports both wired and wireless setups, ensuring compatibility with various computing environments.