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Table of Contents
Intro
Preface
Acknowledgments
Contents
Acronyms
1 Introduction
1.1 Overview
1.2 Background
1.2.1 Differences of WiFi and ZigBee
1.2.1.1 The Channel Specifications
1.2.1.2 The Physical Layer Specifications
1.2.1.3 The MAC Layer Mechanism
1.2.2 Cross-Technology Coexistence Problem
1.3 Literature Review
1.3.1 Heterogeneous Signal Identification
1.3.2 Cross-Technology Interference Management
1.3.3 Cross-Technology Communication
1.4 Book Structure
References
2 Heterogeneous Signal Identification
2.1 Introduction
2.2 Motivation
2.3 System Design
2.3.1 Dataset Construction
2.3.1.1 Data Collection
2.3.1.2 Signal Extraction
2.3.1.3 Dataset Description
2.3.2 Signal Identification Design
2.3.2.1 Signal Identification Through FFT Features
2.3.2.2 Signal Identification Through Deep Learning
2.4 Performance Evaluation
2.4.1 Experimental Settings
2.4.2 Experimental Results
2.5 Summary
References
3 Cross-Technology Interference Management Through Time-Domain Design
3.1 Introduction
3.2 Motivation
3.3 System Design
3.3.1 Overview
3.3.2 Theoretical Analysis
3.4 Performance Evaluation
3.4.1 Two-Link Topology
3.4.2 Random Topology
3.5 Summary
References
4 Cross-Technology Interference Management Through Frequency-Domain Design
4.1 Introduction
4.2 Motivation
4.2.1 Background
4.2.2 Cross-Technology Coexistence Problem
4.2.3 Opportunity of Frequency-Domain Design
4.3 System Design
4.3.1 System Design at WiFi Transmitter
4.3.1.1 Significant Bits
4.3.1.2 Channel Coding
4.3.1.3 Impact of Pilot
4.3.1.4 Impact of WiFi Preamble
4.3.2 System Design at WiFi Receiver
4.4 Performance Evaluation
4.4.1 Experimental Setup
4.4.2 Performance of ZigBee Transmission
4.4.2.1 RSSI at ZigBee
4.4.2.2 Impact of dWZ
4.4.2.3 Impact of dZ
4.4.2.4 Impact of WiFi Traffic
4.4.3 Performance of WiFi Transmission
4.5 Summary
References
5 Cross-Technology Communication Through Symbol-Level Energy Modulation
5.1 Introduction
5.2 Motivation
5.3 System Design
5.3.1 System Design at WiFi Transmitter
5.3.1.1 Overview
5.3.1.2 CTC Symbol Duration Determination
5.3.1.3 Payload Encoding
5.3.2 System Design at ZigBee Receiver
5.3.2.1 Signal Classification
5.3.2.2 CTC Data Detection
5.3.3 System Design at WiFi Receiver
5.4 Performance Evaluation
5.4.1 Experimental Settings
5.4.2 Performance of CTC Transmission
5.4.2.1 RSSI Distance
5.4.2.2 CTC Preamble Detection
5.4.2.3 SER and PER
5.4.3 Performance of WiFi Transmission
5.5 Summary
References
6 Conclusion and Future Work
6.1 Conclusion
6.2 Future Research Directions
References
Preface
Acknowledgments
Contents
Acronyms
1 Introduction
1.1 Overview
1.2 Background
1.2.1 Differences of WiFi and ZigBee
1.2.1.1 The Channel Specifications
1.2.1.2 The Physical Layer Specifications
1.2.1.3 The MAC Layer Mechanism
1.2.2 Cross-Technology Coexistence Problem
1.3 Literature Review
1.3.1 Heterogeneous Signal Identification
1.3.2 Cross-Technology Interference Management
1.3.3 Cross-Technology Communication
1.4 Book Structure
References
2 Heterogeneous Signal Identification
2.1 Introduction
2.2 Motivation
2.3 System Design
2.3.1 Dataset Construction
2.3.1.1 Data Collection
2.3.1.2 Signal Extraction
2.3.1.3 Dataset Description
2.3.2 Signal Identification Design
2.3.2.1 Signal Identification Through FFT Features
2.3.2.2 Signal Identification Through Deep Learning
2.4 Performance Evaluation
2.4.1 Experimental Settings
2.4.2 Experimental Results
2.5 Summary
References
3 Cross-Technology Interference Management Through Time-Domain Design
3.1 Introduction
3.2 Motivation
3.3 System Design
3.3.1 Overview
3.3.2 Theoretical Analysis
3.4 Performance Evaluation
3.4.1 Two-Link Topology
3.4.2 Random Topology
3.5 Summary
References
4 Cross-Technology Interference Management Through Frequency-Domain Design
4.1 Introduction
4.2 Motivation
4.2.1 Background
4.2.2 Cross-Technology Coexistence Problem
4.2.3 Opportunity of Frequency-Domain Design
4.3 System Design
4.3.1 System Design at WiFi Transmitter
4.3.1.1 Significant Bits
4.3.1.2 Channel Coding
4.3.1.3 Impact of Pilot
4.3.1.4 Impact of WiFi Preamble
4.3.2 System Design at WiFi Receiver
4.4 Performance Evaluation
4.4.1 Experimental Setup
4.4.2 Performance of ZigBee Transmission
4.4.2.1 RSSI at ZigBee
4.4.2.2 Impact of dWZ
4.4.2.3 Impact of dZ
4.4.2.4 Impact of WiFi Traffic
4.4.3 Performance of WiFi Transmission
4.5 Summary
References
5 Cross-Technology Communication Through Symbol-Level Energy Modulation
5.1 Introduction
5.2 Motivation
5.3 System Design
5.3.1 System Design at WiFi Transmitter
5.3.1.1 Overview
5.3.1.2 CTC Symbol Duration Determination
5.3.1.3 Payload Encoding
5.3.2 System Design at ZigBee Receiver
5.3.2.1 Signal Classification
5.3.2.2 CTC Data Detection
5.3.3 System Design at WiFi Receiver
5.4 Performance Evaluation
5.4.1 Experimental Settings
5.4.2 Performance of CTC Transmission
5.4.2.1 RSSI Distance
5.4.2.2 CTC Preamble Detection
5.4.2.3 SER and PER
5.4.3 Performance of WiFi Transmission
5.5 Summary
References
6 Conclusion and Future Work
6.1 Conclusion
6.2 Future Research Directions
References