- Introduction and Course Overview
- Applications of Radio and Baseband Measurements
- National Regulatory Agency Perspective
- Operator Perspective
- End User Benefits
- Future and Challenges
- Applications of Measurements: Session Review and Discussion
- Measurement Instruments
- Analog Instruments
- Digital Instruments
- Sampling Theorem
- A/D Conversion
- Quantization Error
- Instrument Specifications
- Important Figures in Measurements
- Statistical Analysis of Measurement Results
- Standard Deviation of Populations and Samples
- Various Probability Distribution Functions
- Measurement Instruments: Session Review and Discussion
- Measurements: Presenting Results
- Physical Meaning of Measurement Ambiguity and Uncertainty
- Combined Measurements Ambiguity and Uncertainty
- ISO 1993 Precision of Measurements
- Type B Measurement Ambiguity for Analog and Digital Measurement Instruments
- Type A Measurement Ambiguity Estimation
- Examples of Measurements Instruments in Electronics and Telecommunications
- Presentation of Measurements Results: Session Review and Discussion
- Modulations and Signal Types Overview
- Modulations in Communication and Broadcasting Systems
- Types of Analog Modulations and Signal Reception
- Amplitude Modulation
- Angle Modulations (FM/PM)
- Types of Digital Modulations and Signal Reception
- Amplitude Shift Keying
- Phase Shift Keying
- Frequency Shift Keying
- Multiplex and Multiple Access
- TDM/TDMA
- FDM/FDMA
- CDM/CDMA
- OFDM
- Modulations and Signal Types: Session Review and Discussion
- Radio Monitoring Equipment
- Problems, Classification and Structure of Radio Monitoring Equipment
- Design Philosophy and Constraints
- Requirements for Equipment Technical Parameters
- Quality Criterion Selection
- Main Technical Parameters
- Characteristics of Equipment Families
- Radio Monitoring and Location Detection System
- Stationary and Mobile Stations
- Portable Equipment
- Manpack Equipment
- Radio Receiver Applications for Radio Monitoring System
- Tuned Radio Receiver
- Main Radio Receiver Parameters
- Operating Frequency Range
- Amplitude-Frequency Response of the Linear Receive Path
- Voltage Standing Wave Ratio
- Main Channel and Spurious Channels
- Noise and Receiver Sensitivity
- Pre-Amplifier Gain Factor Selection
- Receiver Multi-Signal Selectivity
- Intermodulation Noise and Products
- Blockage Effect
- Crosstalk Distortion
- Digital Radio Receivers
- General Principles of Digital Radio Receiver Implementation
- Types of Digital Radio Receivers
- Radio Receiver: Session Review and Discussion
- Single-Channel and Multi-Channel Radio Signal Detection
- Single-Channel Signal Detection
- Characteristics of Single-Channel Detection of Narrow-Band Signals
- Probabilistic Features of the Frequency Observation Time
- Probability of Separate Frequency Registration
- Estimate of the Total Number of Registered Frequencies
- Double-Channel Detection of Narrow-Band Signals
- Comparison of Single-Channel and Double-Channel Processing
- Panoramic Multi-Channel Receivers
- Radio Signal Detection: Session Review and Discussion
- Oscilloscope: Principles and Operation
- Oscilloscope Principles of Operations
- Cathode Tube
- Oscilloscope Block Diagram
- Input Signals Amplifiers
- System for Horizontal Signal Control
- Synchronization System
- Oscilloscope Probes
- Digital Oscilloscope Principles of Operation
- Digital Oscilloscope and Data Acquisition
- Modules for Signal analysis
- FFT
- Examples of Oscilloscopes
- Oscilloscope: Session Review and Discussion
- Oscilloscope Measurements
- Screen Graduation
- Voltage Measurements
- Amplitude Measurements
- Measurement of DC Component in AC Signals
- Measurements of Time Intervals
- Period and Frequency Measurements
- Measurements of Rising and Falling Signal Edges
- Phase Difference Measurements
- Phase Measurements Using Lisague Figures
- Grounding Problem
- Examples of Measurements in Laboratory
- Oscilloscope Measurements: Session Review and Discussion
- Spectrum Analyzer: Principles and Operation
- Basic Principles of Spectrum Analyzer Operations
- Electromagnetic Field Strength Measurements
- Main Mathematical Relations
- Environment Influences
- Spectrum Analyzer: Session Review and Discussion
- Direction Finding Techniques
- Basic Direction Finding Techniques Overview
- Purpose of Direction Finding Measurements and Measurement Organization
- Errors in Direction Finding Measurements
- Direction Finding Measurements: Session Review and Discussion
- Course Recap and Conclusion