Dimensionality reduction, Feature extraction and manifold in machine learning
Author: Dr. Neha Sharma
Publisher: Xoffencerpublication
Published: 2023-04-24
Total Pages: 221
ISBN-13: 9394707735
DOWNLOAD EBOOKAn illustration of a common type of brain-computer interface system (photo courtesy of Gerwin Schalk, Wadsworth Centre, New York) The term "Brain Computer Interfaces," sometimes referred to as BCIs for short, describes a family of technologies that make it possible for people and computers to interact with one another in a direct manner. The word "Brain Computer Interfaces" is shortened as "BCIs" for the shorter version. Brain-computer interfaces, often known as BCIs, offer an alternate means of communication and control to more traditional Human Computer Interfaces (HCIs). These BCIs do not require the user to move their muscles in order to interact with the computer. As a consequence of this, they are particularly useful in applications such as supporting people who have impairments, recovering human cognitive or sensorymotor processes, and improving performance in areas that are pertinent to the tasks at hand. A typical BCI system is comprised of a module for acquiring brain activity, another module for signal preprocessing and feature extraction, a module for classifying mental states or making estimates, and a module for controlling output.. These four modules are referred to together as the BCI stack. Once it was shown that brain impulses might be used to create a mental prosbook, non-invasive brain-computer interfaces, often known as BCIs, have attracted an increasing amount of interest. Brainmachine interfaces (BMIs) are another name for brain-computer interfaces (BCIs). A significant amount of research has been conducted in a wide variety of domains and fields of study. A non-invasive brain-computer interface (BCI) that makes use of electroencephalography (EEG) signals recorded from the scalp may provide people with control over numerous parameters of movement, as Wolpaw and McFarland have demonstrated. It has been demonstrated by that it is possible, with the use of the visual P300 Event Related Potential (ERP), to choose letters that are shown on the screen of a computer.