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Description
This thirteenth volume of the BCI State-of-the-Art series presents a comprehensive overview of the most innovative and impactful developments in brain-computer interface (BCI) research, as highlighted by the BCI Award 2024. The volume features detailed descriptions of the top 12 nominated projects, selected by an international jury of experts from hundreds of submissions, and provides in-depth coverage of the top 3 winning entries. These projects span a wide range of applications, including neurorehabilitation, communication, cognitive assessment, neuromodulation, and artificial intelligence integration, and demonstrate how cutting-edge BCI technologies are being translated into clinical, educational, and real-world environments. Each chapter is written by the project s authors and includes technical insights, experimental results, and future perspectives. Together, these contributions provide a unique snapshot of the current state and future direction of BCI research and development. This book serves as an essential resource for researchers, clinicians, engineers, and students in the fields of neuroscience, neuroengineering, biomedical technology, and human-computer interaction, as well as for professionals seeking to understand the evolving landscape of brain-computer interfaces.
Brain Computer Interface Research A State of the Art Summary 13.- BCI Hardware & Tools Used in BCI Award Winning Projects.- Start Your Own BCI Lab A Practical Guide for Rapid Setup.- Synthetic touch for brain controlled bionic hands tactile edges and motion via patterned microstimulation of the human somatosensory cortex.- A streaming brain to voice neuroprosthesis to restore naturalistic communication.- Brain Controlled Selective Hearing in Realistic Multi Talker Environments.- Passive Intraoperative Tumor Mapping Using Electrocorticography.- State dependent movement encoding of complex handwriting in human motor cortex.- Motor Imagery Contingent Brain Computer Interface Training Enhances Upper Limb Recovery in Chronic Stroke a double blinded parallel group randomized controlled trial.- Online error detection and correction in human BCI.- Project HYBIS Electrotactile BCI for Top-Down Somatosensory Training.- Intuitive avatar control through a non invasive multimodal Brain Computer Interface.- Large scale data practicalizes EEG based speech decoding.- Robust Online Movement Prediction from EEG Data for Post Stroke Rehabilitation.- BCI fi The Dialogue between Brain Computer Interfaces and Fiction.- A Summary of the 2024 BCI Award and BCI Trends.
Christoph Guger studied electrical and biomedical engineering at the University of Technology Graz in Austria and Johns Hopkins University in the USA and received his PhD in 1999. In 1999 he started the company g.tec which has now branches in Austria, Spain, the USA, Canada, Japan and Hong Kong. g.tec produces high-quality neurotechnology and real-time brain computer interfaces for the research, medical and consumer market. The company is active in many international research projects about brain-computer interfacing, neuromodulation, stroke rehabilitation, assessment and communication with patients with disorders of consciousness and high-gamma mapping in epilepsy and tumor patients.
Brendan Allison is a brain-computer interface scientist. He has been in the field over 25 years, with experience in academia, industry, and consulting. He has a Google Scholar h-index of 47, all of them BCI-related. Brendan is a Founding Board Member of the BCI Society, Founding Editor of the BCI Journal, and presents work and organizes workshops at several major conferences per year.
Fabien Lotte is a French computer scientist specializing in Brain-Computer Interfaces (BCI), human-computer interaction, pattern recognition, and brain signal processing. He earned his M.Sc., M.Eng., and PhD from INSA Rennes (2005, 2008), receiving two national awards for his PhD thesis. After a research fellowship in Singapore (2009 2010), he joined Inria Bordeaux Sud-Ouest, where he became a tenured Research Scientist (2011 2019) and later Research Director (since 2019). He obtained his Habilitation (HDR) in 2016 and held visiting positions at RIKEN Brain Science Institute in Japan and Tokyo University of Agriculture and Technology. He serves on the editorial boards of Brain-Computer Interfaces and Journal of Neural Engineering, and co-founded Frontiers in Neuroergonomics: Neurotechnologies and System Neuroergonomics. He co-edited several major BCI books.
Milena Korostenskaja is a highly qualified neuroscientist with an M.Sc. in Neurobiology, two PhDs (Psychology and Biomedical Sciences), and postdoctoral training in neurotechnologies (EEG, MEG, ECoG). She has published over 50 scientific papers, including research focused on reducing post-surgical morbidity in brain surgery patients.
She founded Neurocareers at The Institute of Neuroapproaches to help individuals build successful careers in neurosc
