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| Start | End | Duration | Virtual | Onsite |
|---|---|---|---|---|
| Jul 13, 2026 | Jul 24, 2026 | 10 days | Virtual | Onsite |
| Jul 13, 2026 | Jul 24, 2026 | 10 days | Virtual | Onsite |
| Jul 13, 2026 | Jul 24, 2026 | 10 days | Virtual | Onsite |
| Jul 13, 2026 | Jul 24, 2026 | 10 days | Virtual | Onsite |
| Jul 13, 2026 | Jul 24, 2026 | 10 days | Virtual | Onsite |
| Jul 20, 2026 | Jul 31, 2026 | 10 days | Virtual | Onsite |
| Jul 20, 2026 | Jul 31, 2026 | 10 days | Virtual | Onsite |
| Jul 20, 2026 | Jul 31, 2026 | 10 days | Virtual | Onsite |
| Jul 27, 2026 | Aug 7, 2026 | 10 days | Virtual | Onsite |
| Jul 27, 2026 | Aug 7, 2026 | 10 days | Virtual | Onsite |
| Jul 27, 2026 | Aug 7, 2026 | 10 days | Virtual | Onsite |
| Jul 27, 2026 | Aug 7, 2026 | 10 days | Virtual | Onsite |
| Jul 27, 2026 | Aug 7, 2026 | 10 days | Virtual | Onsite |
| Aug 3, 2026 | Aug 14, 2026 | 10 days | Virtual | Onsite |
| Aug 3, 2026 | Aug 14, 2026 | 10 days | Virtual | Onsite |
| Aug 3, 2026 | Aug 14, 2026 | 10 days | Virtual | Onsite |
| Aug 3, 2026 | Aug 14, 2026 | 10 days | Virtual | Onsite |
| Aug 3, 2026 | Aug 14, 2026 | 10 days | Virtual | Onsite |
| Aug 10, 2026 | Aug 21, 2026 | 10 days | Virtual | Onsite |
| Aug 10, 2026 | Aug 21, 2026 | 10 days | Virtual | Onsite |
| Aug 10, 2026 | Aug 21, 2026 | 10 days | Virtual | Onsite |
| Aug 10, 2026 | Aug 21, 2026 | 10 days | Virtual | Onsite |
| Aug 10, 2026 | Aug 21, 2026 | 10 days | Virtual | Onsite |
| Aug 17, 2026 | Aug 28, 2026 | 10 days | Virtual | Onsite |
| Aug 17, 2026 | Aug 28, 2026 | 10 days | Virtual | Onsite |
| Aug 17, 2026 | Aug 28, 2026 | 10 days | Virtual | Onsite |
| Aug 17, 2026 | Aug 28, 2026 | 10 days | Virtual | Onsite |
| Aug 17, 2026 | Aug 28, 2026 | 10 days | Virtual | Onsite |
| Aug 17, 2026 | Aug 28, 2026 | 10 days | Virtual | Onsite |
| Aug 17, 2026 | Aug 28, 2026 | 10 days | Virtual | Onsite |
| Aug 24, 2026 | Sep 4, 2026 | 10 days | Virtual | Onsite |
| Aug 24, 2026 | Sep 4, 2026 | 10 days | Virtual | Onsite |
| Aug 31, 2026 | Sep 11, 2026 | 10 days | Virtual | Onsite |
| Aug 31, 2026 | Sep 11, 2026 | 10 days | Virtual | Onsite |
| Aug 31, 2026 | Sep 11, 2026 | 10 days | Virtual | Onsite |
| Aug 31, 2026 | Sep 11, 2026 | 10 days | Virtual | Onsite |
| Aug 31, 2026 | Sep 11, 2026 | 10 days | Virtual | Onsite |
| Sep 7, 2026 | Sep 18, 2026 | 10 days | Virtual | Onsite |
| Sep 7, 2026 | Sep 18, 2026 | 10 days | Virtual | Onsite |
| Sep 7, 2026 | Sep 18, 2026 | 10 days | Virtual | Onsite |
| Sep 7, 2026 | Sep 18, 2026 | 10 days | Virtual | Onsite |
| Sep 7, 2026 | Sep 18, 2026 | 10 days | Virtual | Onsite |
| Sep 7, 2026 | Sep 18, 2026 | 10 days | Virtual | Onsite |
| Sep 14, 2026 | Sep 25, 2026 | 10 days | Virtual | Onsite |
| Sep 14, 2026 | Sep 25, 2026 | 10 days | Virtual | Onsite |
| Sep 14, 2026 | Sep 25, 2026 | 10 days | Virtual | Onsite |
| Sep 14, 2026 | Sep 25, 2026 | 10 days | Virtual | Onsite |
| Sep 14, 2026 | Sep 25, 2026 | 10 days | Virtual | Onsite |
| Sep 21, 2026 | Oct 2, 2026 | 10 days | Virtual | Onsite |
| Sep 21, 2026 | Oct 2, 2026 | 10 days | Virtual | Onsite |
| Sep 21, 2026 | Oct 2, 2026 | 10 days | Virtual | Onsite |
| Sep 21, 2026 | Oct 2, 2026 | 10 days | Virtual | Onsite |
| Sep 21, 2026 | Oct 2, 2026 | 10 days | Virtual | Onsite |
| Sep 21, 2026 | Oct 2, 2026 | 10 days | Virtual | Onsite |
| Sep 21, 2026 | Oct 2, 2026 | 10 days | Virtual | Onsite |
| Sep 28, 2026 | Oct 9, 2026 | 10 days | Virtual | Onsite |
| Sep 28, 2026 | Oct 9, 2026 | 10 days | Virtual | Onsite |
| Sep 28, 2026 | Oct 9, 2026 | 10 days | Virtual | Onsite |
| Sep 28, 2026 | Oct 9, 2026 | 10 days | Virtual | Onsite |
| Sep 28, 2026 | Oct 9, 2026 | 10 days | Virtual | Onsite |
| Sep 28, 2026 | Oct 9, 2026 | 10 days | Virtual | Onsite |
| Oct 5, 2026 | Oct 16, 2026 | 10 days | Virtual | Onsite |
| Oct 5, 2026 | Oct 16, 2026 | 10 days | Virtual | Onsite |
| Oct 5, 2026 | Oct 16, 2026 | 10 days | Virtual | Onsite |
| Oct 12, 2026 | Oct 23, 2026 | 10 days | Virtual | Onsite |
| Oct 12, 2026 | Oct 23, 2026 | 10 days | Virtual | Onsite |
| Oct 12, 2026 | Oct 23, 2026 | 10 days | Virtual | Onsite |
| Oct 12, 2026 | Oct 23, 2026 | 10 days | Virtual | Onsite |
| Oct 19, 2026 | Oct 30, 2026 | 10 days | Virtual | Onsite |
| Oct 19, 2026 | Oct 30, 2026 | 10 days | Virtual | Onsite |
| Oct 19, 2026 | Oct 30, 2026 | 10 days | Virtual | Onsite |
| Oct 19, 2026 | Oct 30, 2026 | 10 days | Virtual | Onsite |
| Oct 19, 2026 | Oct 30, 2026 | 10 days | Virtual | Onsite |
| Oct 26, 2026 | Nov 6, 2026 | 10 days | Virtual | Onsite |
| Oct 26, 2026 | Nov 6, 2026 | 10 days | Virtual | Onsite |
| Oct 26, 2026 | Nov 6, 2026 | 10 days | Virtual | Onsite |
| Oct 26, 2026 | Nov 6, 2026 | 10 days | Virtual | Onsite |
| Oct 26, 2026 | Nov 6, 2026 | 10 days | Virtual | Onsite |
| Oct 26, 2026 | Nov 6, 2026 | 10 days | Virtual | Onsite |
| Nov 2, 2026 | Nov 13, 2026 | 10 days | Virtual | Onsite |
| Nov 2, 2026 | Nov 13, 2026 | 10 days | Virtual | Onsite |
| Nov 2, 2026 | Nov 13, 2026 | 10 days | Virtual | Onsite |
| Nov 2, 2026 | Nov 13, 2026 | 10 days | Virtual | Onsite |
| Nov 9, 2026 | Nov 20, 2026 | 10 days | Virtual | Onsite |
| Nov 9, 2026 | Nov 20, 2026 | 10 days | Virtual | Onsite |
| Nov 9, 2026 | Nov 20, 2026 | 10 days | Virtual | Onsite |
| Nov 9, 2026 | Nov 20, 2026 | 10 days | Virtual | Onsite |
| Nov 9, 2026 | Nov 20, 2026 | 10 days | Virtual | Onsite |
| Nov 16, 2026 | Nov 27, 2026 | 10 days | Virtual | Onsite |
| Nov 16, 2026 | Nov 27, 2026 | 10 days | Virtual | Onsite |
| Nov 16, 2026 | Nov 27, 2026 | 10 days | Virtual | Onsite |
| Nov 16, 2026 | Nov 27, 2026 | 10 days | Virtual | Onsite |
| Nov 16, 2026 | Nov 27, 2026 | 10 days | Virtual | Onsite |
| Nov 16, 2026 | Nov 27, 2026 | 10 days | Virtual | Onsite |
| Nov 23, 2026 | Dec 4, 2026 | 10 days | Virtual | Onsite |
| Nov 23, 2026 | Dec 4, 2026 | 10 days | Virtual | Onsite |
| Nov 23, 2026 | Dec 4, 2026 | 10 days | Virtual | Onsite |
| Nov 23, 2026 | Dec 4, 2026 | 10 days | Virtual | Onsite |
| Nov 30, 2026 | Dec 11, 2026 | 10 days | Virtual | Onsite |
| Nov 30, 2026 | Dec 11, 2026 | 10 days | Virtual | Onsite |
| Nov 30, 2026 | Dec 11, 2026 | 10 days | Virtual | Onsite |
| Nov 30, 2026 | Dec 11, 2026 | 10 days | Virtual | Onsite |
| Nov 30, 2026 | Dec 11, 2026 | 10 days | Virtual | Onsite |
| Nov 30, 2026 | Dec 11, 2026 | 10 days | Virtual | Onsite |
| Nov 30, 2026 | Dec 11, 2026 | 10 days | Virtual | Onsite |
| Dec 7, 2026 | Dec 18, 2026 | 10 days | Virtual | Onsite |
| Dec 7, 2026 | Dec 18, 2026 | 10 days | Virtual | Onsite |
| Dec 7, 2026 | Dec 18, 2026 | 10 days | Virtual | Onsite |
| Dec 7, 2026 | Dec 18, 2026 | 10 days | Virtual | Onsite |
| Dec 7, 2026 | Dec 18, 2026 | 10 days | Virtual | Onsite |
| Dec 7, 2026 | Dec 18, 2026 | 10 days | Virtual | Onsite |
| Dec 14, 2026 | Dec 25, 2026 | 10 days | Virtual | Onsite |
| Dec 14, 2026 | Dec 25, 2026 | 10 days | Virtual | Onsite |
| Dec 14, 2026 | Dec 25, 2026 | 10 days | Virtual | Onsite |
| Dec 14, 2026 | Dec 25, 2026 | 10 days | Virtual | Onsite |
| Dec 14, 2026 | Dec 25, 2026 | 10 days | Virtual | Onsite |
| Dec 14, 2026 | Dec 25, 2026 | 10 days | Virtual | Onsite |
| Dec 21, 2026 | Jan 1, 2027 | 10 days | Virtual | Onsite |
| Dec 21, 2026 | Jan 1, 2027 | 10 days | Virtual | Onsite |
| Dec 21, 2026 | Jan 1, 2027 | 10 days | Virtual | Onsite |
| Dec 21, 2026 | Jan 1, 2027 | 10 days | Virtual | Onsite |
| Dec 28, 2026 | Jan 8, 2027 | 10 days | Virtual | Onsite |
| Dec 28, 2026 | Jan 8, 2027 | 10 days | Virtual | Onsite |
| Dec 28, 2026 | Jan 8, 2027 | 10 days | Virtual | Onsite |
| Dec 28, 2026 | Jan 8, 2027 | 10 days | Virtual | Onsite |
| Jan 4, 2027 | Jan 15, 2027 | 10 days | Virtual | Onsite |
| Jan 4, 2027 | Jan 15, 2027 | 10 days | Virtual | Onsite |
| Jan 4, 2027 | Jan 15, 2027 | 10 days | Virtual | Onsite |
| Jan 4, 2027 | Jan 15, 2027 | 10 days | Virtual | Onsite |
| Jan 4, 2027 | Jan 15, 2027 | 10 days | Virtual | Onsite |
| Jan 4, 2027 | Jan 15, 2027 | 10 days | Virtual | Onsite |
Format: Live instructor-led online training via Zoom / Microsoft Teams
The Brain Computer Interface (BCI) Technologies Training Course is a comprehensive professional development program designed to equip participants with the knowledge and practical skills required to understand, develop, implement, and manage Brain Computer Interface technologies across healthcare, robotics, neuroscience, artificial intelligence, assistive technologies, defense, education, manufacturing, and smart environments. The course explores Brain Computer Interface (BCI) systems, Neural Signal Processing, Electroencephalography (EEG), Electrocorticography (ECoG), Neural Engineering, Machine Learning, Artificial Intelligence, Signal Acquisition, Brain Signal Classification, Human Computer Interaction, Neuroinformatics, Biomedical Engineering, Wearable Brain Sensors, Neuroprosthetics, Rehabilitation Technologies, Cognitive Computing, Virtual Reality Integration, Augmented Reality Applications, Robotics Control Systems, Neurosecurity, and Ethical AI. Participants will gain practical understanding of brain signal acquisition, neural decoding, intelligent interfaces, and next-generation human-machine communication systems.
The course provides a balanced combination of theoretical concepts and hands-on practical exercises covering brain physiology, neural communication, signal acquisition hardware, EEG systems, biosensors, digital signal processing, feature extraction, pattern recognition, machine learning algorithms, deep learning applications, brain signal visualization, data analytics, interface development, and intelligent decision support systems. Participants will learn how Brain Computer Interface technologies are transforming healthcare, industrial automation, education, smart cities, gaming, autonomous systems, and digital transformation initiatives.
Throughout the training, participants will work with practical demonstrations, laboratory simulations, real-world datasets, collaborative projects, and industry-based case studies involving assistive communication devices, robotic control systems, neurorehabilitation platforms, smart prosthetics, cognitive workload monitoring, intelligent manufacturing systems, and AI-powered healthcare applications. Emphasis is placed on practical implementation, system integration, cybersecurity, ethics, privacy protection, regulatory compliance, and emerging innovations shaping the future of Brain Computer Interface technologies.
Upon successful completion of this course, participants will possess the competencies required to design, evaluate, deploy, and manage Brain Computer Interface solutions that improve healthcare outcomes, enhance human performance, enable intelligent automation, strengthen research capabilities, accelerate innovation, support digital transformation, and create sustainable technology-driven solutions across public and private sector organizations.
1. Understand the principles of Brain Computer Interface technologies.
2. Learn neural signal acquisition and processing techniques.
3. Apply machine learning for brain signal classification.
4. Design and implement Brain Computer Interface systems.
5. Integrate AI with neural interface technologies.
6. Analyze EEG and other neurophysiological data.
7. Develop practical Brain Computer Interface applications.
8. Address ethical, privacy, and cybersecurity challenges.
9. Evaluate emerging Brain Computer Interface innovations.
10. Develop real-world Brain Computer Interface implementation strategies.
1. Strengthens innovation in intelligent technology solutions.
2. Enhances healthcare and rehabilitation capabilities.
3. Improves human-machine interaction efficiency.
4. Supports AI-driven digital transformation initiatives.
5. Builds internal expertise in emerging technologies.
6. Improves research and development capacity.
7. Enhances assistive technology development.
8. Supports automation and robotics innovation.
9. Promotes ethical and secure technology implementation.
10. Creates competitive advantage through advanced technology adoption.
ICT Professionals, Artificial Intelligence Engineers, Data Scientists, Biomedical Engineers, Healthcare Professionals, Neuroscientists, Robotics Engineers, Software Developers, Systems Engineers, Researchers, Innovation Managers, Human Computer Interaction Specialists, Digital Transformation Leaders, Machine Learning Engineers, University Lecturers, Research Institutions, Technology Consultants, Graduate Students, Government Technology Officers, and professionals interested in Brain Computer Interface technologies.
· Fundamentals of Brain Computer Interfaces
· History and evolution of BCI systems
· Brain anatomy and neural communication
· Types of Brain Computer Interfaces
· BCI applications across industries
· Case Study: Brain-controlled assistive communication system
· Electroencephalography (EEG) systems
· Brain sensing hardware and wearable devices
· Signal acquisition techniques
· Biosensors and neurophysiological measurements
· Data quality and noise reduction
· Case Study: EEG data collection for cognitive monitoring
· Signal preprocessing techniques
· Feature extraction methods
· Brain signal visualization
· Digital signal processing fundamentals
· Pattern recognition techniques
· Case Study: Processing neural signals for movement prediction
· Artificial intelligence in Brain Computer Interfaces
· Machine learning algorithms
· Deep learning for EEG analysis
· Brain signal classification
· Model validation and optimization
· Case Study: AI-based cognitive workload prediction
· Human-centered Brain Computer Interface design
· User experience optimization
· Intelligent interface development
· Adaptive interaction systems
· Accessibility considerations
· Case Study: Smart wheelchair controlled by brain signals
· Brain-controlled robotics
· Smart prosthetic systems
· Rehabilitation technologies
· Autonomous assistive devices
· Industrial robotic integration
· Case Study: Neuroprosthetic arm control
· Immersive Brain Computer Interface applications
· Virtual reality environments
· Augmented reality interaction
· Neurofeedback systems
· Simulation technologies
· Case Study: VR-assisted neurorehabilitation platform
· Clinical Brain Computer Interface systems
· Neurological disorder management
· Cognitive rehabilitation
· Mental health monitoring
· Precision healthcare solutions
· Case Study: Stroke rehabilitation using Brain Computer Interfaces
· Brain data security
· Privacy protection strategies
· Ethical AI principles
· Regulatory compliance
· Responsible innovation
· Case Study: Securing sensitive neural data
· Smart manufacturing integration
· Industry 4.0 applications
· Intelligent automation
· Workforce monitoring
· Industrial analytics
· Case Study: Brain-controlled industrial robotic systems
· Quantum computing integration
· Edge AI for Brain Computer Interfaces
· Cognitive computing
· Autonomous intelligent systems
· Future technology trends
· Case Study: Next-generation intelligent neural interfaces
· End-to-end project planning
· System design methodology
· Prototype development
· Performance evaluation
· Project presentation
· Case Study: Complete Brain Computer Interface implementation project
1. Customized Training: All our courses can be tailored to meet the specific needs of participants.
2. Language Proficiency: Participants should have a good command of the English language.
3. Comprehensive Learning: Our training includes well-structured presentations, practical exercises, web-based tutorials, and collaborative group work. Our facilitators are seasoned experts with over a decade of experience.
4. Certification: Upon successful completion of training, participants will receive a certificate from Foscore Development Center (FDC-K).
5. Training Locations: Training sessions are conducted at Foscore Development Center (FDC-K) centers. We also offer options for in-house and online training, customized to the client's schedule.
6. Flexible Duration: Course durations are adaptable, and content can be adjusted to fit the required number of days.
7. Onsite Training Inclusions: The course fee for onsite training covers facilitation, training materials, two coffee breaks, a buffet lunch, and a Certificate of Successful Completion. Participants are responsible for their travel expenses, airport transfers, visa applications, dinners, health/accident insurance, and personal expenses.
8. Additional Services: Accommodation, pickup services, freight booking, and visa processing arrangements are available upon request at discounted rates.
9. Equipment: Tablets and laptops can be provided to participants at an additional cost.
10. Post-Training Support: We offer one year of free consultation and coaching after the course.
11. Group Discounts: Register as a group of more than two participants and enjoy a discount ranging from 10% to 50%.
12. Payment Terms: Payment should be made before the commencement of the training or as mutually agreed upon, to the Foscore Development Center account. This ensures better preparation for your training.
13. Contact Us: For any inquiries, please reach out to training@fdc-k.org or call +254712260031.
14. Website: Visit www.fdc-k.org for more information.