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Welcome to the Program
Introduction to "Unlocking Organizational Potential: Navigating the AI Maturity Journey" Training Program.
Focus on guiding organizations through AI Maturity Model (AIMM) for digital transformation.
Learning Objectives
Understanding AIMM Framework: Assess current AI maturity level and identify improvement areas.
Developing AI Strategy: Aligning AI initiatives with organizational goals for transformation and innovation.
Change Management: Importance of stakeholder engagement and fostering AI adoption culture.
Leveraging AI Technologies: Exploring latest tools to enhance efficiency and competitiveness.
Why Choose Our Program
Expert Guidance: Led by seasoned AI professionals with extensive experience.
Practical Approach: Hands-on workshops, case studies, and exercises for real-world insights.
Customized Solutions: Tailored to meet specific organizational needs and objectives.
Get Started Today
Opportunity to unlock organization's success with AI.
Invitation to join the transformative journey and contact for further details.
Explore our detailed course modules to gain insights into the topics covered, learning objectives, and the structured curriculum of our cutting-edge AI training programs.
Module 1 gives an overview of Cognitive Science and its importance to Brain Computer Interfaces. It also discusses the History and the invention of the first BCI.
Module 2 shares a case study about wireless telemetry in monitoring the vitals of the post-acute patients and how to develop a Provider Command Centre where Doctors can monitor the vitals of their patients from remote using a wearable device to be placed in the body of the patients. This is the introduction to the wearable device for monitoring the brain signals using Electroencephalograph.
It also talks about development of Robotic based Rehabilitation for children affected by AD/HD Syndrome (Attention Deficiency/ Hyperactive Disorder Syndrome) and how it helps in improving their Cognitive skills.
Module 3 explains the Architecture of the Brain Computer Interface and the details of how the brain signals from Electroencephalograph are acquired through SSVEP (Steady State Visually Evoked Potentials), how the relevant features are extracted from SSVEP and how the features are translated to a relevant output that are understandable and communicated as actionable inputs to various external devices.
Module 4 talks about how the brain signals are measured using the electrodes and the classifications of various frequencies of the sub bands of the EEG rhythms. IT talks about the relation between the brain activity of interest and the neuroimaging method to employ for its detection.
Module 5 explains how the acquisition part of the BCI is treated by considering four common trends in the market which are the electrode types, portability, and non-invasiveness and cost effectiveness.
Module 6 discusses various Channel selection strategies for getting the best accuracy levels for guaranteeing the acceptance and performance. Also various privacy issues to be considered from moving away from the lab to daily life instruments.
Module 7 focusses on the fundamentals of reactive BCI. In particular, BCI based on SSVEP are analysed. The main issues concern the detection of the SSVEPs and the requirements for implementing a daily-life BCI (i.e., wearability, user friendliness, low cost).
Module 8 deals with the realization of a SSVEP -BCI system. In particular, design, prototype and performance of the system are analysed.
Participants will be assessed through online quizzes, assignments, and a final project. A QCI-approved certificate of completion will be awarded to participants who successfully fulfill course requirements.