Many individuals with motor impairments face significant challenges in communicating through traditional means due to limited or lost mobility. In this context, neural technologies—such as brain signal recognition systems—represent promising innovations that can dramatically enhance these individuals’ ability to communicate effectively.<br /><br />These technologies work by translating neural signals from the brain into digital commands that control electronic devices like computers and smartphones. This enables users to send messages, interact with their surroundings, and perform daily tasks using thought alone.<br /><br />One of the most notable advancements in this field is the Brain-Computer Interface (BCI), which allows individuals with severe motor disabilities to operate devices through brain activity. This represents a major breakthrough in assistive technology, offering real opportunities for users to stay connected with the world and improve their quality of life.<br /><br />Moreover, these technologies are also being applied in therapeutic and rehabilitation settings. Patients can engage in motor exercises using brain signals, which helps in enhancing muscle flexibility and gradually improving motor functions.<br /><br />Despite the significant progress, challenges remain—most notably the high cost of these devices, their limited availability, and the need to develop effective training programs to ensure users can fully benefit from these advanced tools.<br />Al-Mustaqbal University is the first University in Iraq.