1. | 1. Lecture 1 | 1. Personal Area Networks 2. (W)PAN and Body Area Network 3. Body Area (Sensor) Network 4. Chronic & Acure Disease 5. BSN for Healthcare 6. Body Sensor Networks 7. WSN vs. BSN 8. BAN Challenges |
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2. | 2. Lecture 2 | 1. (Electrochemical) Biosensors 2. Vital parameters to be measured 3. Siganls and Biosensors 4. Biosensor Requirements 5. CMOS-based Biosensors 6. Bioelectricity |
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3. | 3. Lecture 3 | 1. Nernst-Planck Equation 2. Conductivity 3. Basic Electrographic Complexes 4. ECG Complex with Measurements 5. Ischemic |
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4. | 4. Lecture 4 | 1. IEEE 802.11 Standard 2. Communication Standards 3. Evolution of 802.11 4. 802.11 Components 5. 802.11/a/b Physical Layer 6. MAC Frame Format |
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5. | 5. Lecture 5 | 1. 802.11-Physical Layer 2. DCF: Congestion Control 3. 802.11 PCF using Polling 4. 802.11 Power Management 5. Power Save Mode in IEEE 802.11 6. BioRadio |
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6. | 6. Lecture 6 | 1. PAN/BAN 2. US Labor Market 3. MedRadio 4. IEEE802.15.6 5. BAN ISSUES 6. Sprinter Efficiency Analysis 7. Baseball Swing Analysis 8. Fall Detection System 9. Medical Monitoring 10. E-prescription Network 11. Patient Safety Network |
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7. | 7. Lecture 7 | 1. Security in Mobile Networks 2. Security Attacks 3. Other Security Concerns 4. Cryptography 5. RC4 6. Digital Signatures |
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8. | 8. Lecture 8 | 1. IEEE 802.11 Security 2. WEP Security 3. WEP 4. Fixing WEP 5. Wifi Protected Access 6. Wifi Protected Access 2 |
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9. | 9. Lecture 9 | 1. Recap: Security Attacks 2. Recap: Cryptography 3. Alice 4. Bob 5. Link Key 6. Encryption Key 7. Bluetooth Security Risks 8. 802.15.3: Security 9. Security Keys 10. 802.15.4 Security 11. AES-CTR 12. Physiological Value based Security 13. Issues with PV-based Security |