Robust, Energy-Efficient, and Scalable Indoor Localization with Ultra-Wideband Technology

Keyphrases

• Indoor Localization 100%
• Energy Efficient 100%
• Ultra-wideband 100%
• Ultra Wide Band Technology 100%
• Physical Interface 87%
• Bluetooth Low Energy 62%
• Localization Error 62%
• Energy Efficiency 37%
• Time Difference of Arrival (TDoA) 37%
• Mitigation Techniques 37%
• Localization System 37%
• Ultra-wideband Localization 37%
• Error Mitigation 37%
• Time Difference of Arrival Method 37%
• Non-line-of-sight (NLoS) 25%
• Distance Measure 25%
• Localization Accuracy 25%
• Standard Time 25%
• Broadband Devices 25%
• Chipset 25%
• Centimeter Level 25%
• Platform Integration 25%
• Mitigation Methods 12%
• Single Device 12%
• GNSS-denied Environments 12%
• Line-of-sight 12%
• Detection Method 12%
• Smartphone 12%
• High Repetition Rate 12%
• IEEE 802.15.4 12%
• Non-line-of-sight Propagation 12%
• Energy-based 12%
• Location Estimate 12%
• User Device 12%
• Application Layer 12%
• Localization Technique 12%
• Ranging Error 12%
• Received Signal Strength Measurements 12%
• Measurement Basis 12%
• Custom Hardware 12%
• High Energy Consumption 12%
• Platform Independent 12%
• Device Architecture 12%
• Location Privacy 12%
• Low-power Devices 12%
• Comprehensive Comparison 12%
• Line-of-sight Measurement 12%
• Range-free Localization 12%
• Ranging Techniques 12%
• Flexible Scheduling 12%
• Independent Errors 12%
• Efficiency Robustness 12%
• Scheduling Scheme 12%
• Accuracy Constraints 12%

Computer Science

• Energy Efficient 100%
• Ultra-Wideband 100%
• Physical Interface 53%
• Time Difference 46%
• Bluetooth Low Energy 38%
• Energy Efficiency 23%
• Starting Point 7%
• Collected Data 7%
• Energy Consumption 7%
• Location Estimate 7%
• Application Layer 7%
• Received Signal Strength 7%
• Custom Hardware 7%
• Received Message 7%
• Location Privacy 7%
• Scheduling Scheme 7%
• Repetition Frequency 7%

Engineering

• Ultra-Wideband 100%
• Localization Error 38%
• Energy Efficiency 23%
• Energy Conservation 23%
• Localization Accuracy 15%
• Centimeter 15%
• Collected Data 7%
• Starting Point 7%
• Received Signal Strength 7%
• Application Layer 7%
• Low Pulse Repetition Frequency 7%
• High Pulse Repetition Frequency 7%
• Mobile Phones 7%