Sleep Tracking & Technology
Learn to use modern wearable devices and apps to monitor your sleep patterns. Understand how to interpret sleep data, identify trends, and use the insights to make targeted improvements to your sleep quality.
26 courses
Learn to interpret S.M.A.R.T. attributes, assess HDD and SSD health, and predict storage drive failures before data loss occurs using modern command-line diagnostic tools.
Gain a foundational understanding of how modern mobile devices and wearable technologies function and how they are evolving to shape our daily lives.
Learn to collect, interpret, and apply data from wearable sensors to optimize athlete training, monitor recovery, and prevent injuries.
Learn the fundamentals of sensor design, fabrication, and integration for modern healthcare and clinical applications.
Learn the fundamentals of diagnostic, analytical, and implantable sensor systems used in modern healthcare technology and biomedical engineering.
Master foundational statistical methods and experimental design to analyze biomedical data and validate research results.
Learn the core principles of medical sensors, biopotentials, and physiological measurement systems to understand how diagnostic equipment works.
Learn the foundational principles of designing bio-compatible micro-implants and performing ethical rodent surgeries for biomedical research.
Learn to filter, analyze, and interpret vital biological signals like ECG and EEG using modern digital signal processing techniques and Python-based algorithms.
Master the mathematical models, signal processing principles, and circuit analysis techniques needed to design reliable biomedical electronic systems.
Learn to configure, deploy, and manage device profiles to secure and standardize corporate endpoints in a modern MDM environment.
Learn to track device profile assignments, resolve configuration conflicts, and maintain endpoint compliance across your organization.
Learn the core principles of microfluidics, biosensors, and lab-on-a-chip technology to understand next-generation biomedical devices.
Learn the principles of acoustic wave propagation, modern ultrasound imaging modes, and the design of micromachined transducers for clinical and research applications.
Learn how nanotechnology and biology converge to design portable diagnostic tools, from foundational biosensor principles to modern microfluidic chips.
Explore how emerging transit technologies, smart city infrastructure, and human-centric design are shaping the future of sustainable urban mobility.
Learn to conceptualize and design micro-electro-mechanical systems (MEMS) sensors for biomedical breath diagnostics through practical written guides.
Demystify how computer systems, networks, databases, and cloud services work to build a strong foundation for a career in tech or digital business.
Learn to design electromechanical medical instruments, from foundational sensor circuits and modern microcontrollers to PCB design and regulatory basics.
Learn the engineering principles to design and prototype portable health monitoring devices and wearable biosensors for real-world diagnostic applications.
Showing 20 of 26 courses