| ENERGY EFFICIENT TAG IDENTIFICATION ALGORITHMS FOR RFID: SURVEY, MOTIVATION AND NEW DESIGN |
75 |
| CELLULAR-CONNECTED UAV: POTENTIAL, CHALLENGES, AND PROMISING TECHNOLOGIES |
67 |
| DEEP LEARNING IN PHYSICAL LAYER COMMUNICATIONS |
63 |
| VEHICULAR FOG COMPUTING: ENABLING REAL-TIME TRAFFIC MANAGEMENT FOR SMART CITIES |
63 |
| UAV-ASSISTED EMERGENCY NETWORKS IN DISASTERS |
61 |
| ULTRA-RELIABLE AND LOW-LATENCY COMMUNICATIONS IN 5G DOWNLINK: PHYSICAL LAYER ASPECTS |
46 |
| OPTIMIZING SPACE-AIR-GROUND INTEGRATED NETWORKS BY ARTIFICIAL INTELLIGENCE |
45 |
| RESOURCE ALLOCATION FOR DOWNLINK NOMA SYSTEMS: KEY TECHNIQUES AND OPEN ISSUES |
45 |
| UAV COMMUNICATIONS BASED ON NON-ORTHOGONAL MULTIPLE ACCESS |
44 |
| ON REMOVING ROUTING PROTOCOL FROM FUTURE WIRELESS NETWORKS: A REAL-TIME DEEP LEARNING APPROACH FOR INTELLIGENT TRAFFIC CONTROL |
41 |
| COMPRESSIVE SENSING TECHNIQUES FOR NEXT-GENERATION WIRELESS COMMUNICATIONS |
37 |
| SECURITY IN MOBILE EDGE CACHING WITH REINFORCEMENT LEARNING |
37 |
| COOPERATIVE CONTENT CACHING IN 5G NETWORKS WITH MOBILE EDGE COMPUTING |
36 |
| Model-Driven Deep Learning for Physical Layer Communications |
34 |
| MASSIVE MIMO IN SUB-6 GHZ AND MMWAVE: PHYSICAL, PRACTICAL, AND USE-CASE DIFFERENCES |
33 |
| STATE OF THE ART, TAXONOMY, AND OPEN ISSUES ON COGNITIVE RADIO NETWORKS WITH NOMA |
33 |
| LEARN TO CACHE: MACHINE LEARNING FOR NETWORK EDGE CACHING IN THE BIG DATA ERA |
31 |
| TSP SECURITY IN INTELLIGENT AND CONNECTED VEHICLES: CHALLENGES AND SOLUTIONS |
30 |
| FUNDAMENTAL TRADE-OFFS IN COMMUNICATION AND TRAJECTORY DESIGN FOR UAV-ENABLED WIRELESS NETWORK |
30 |
| DATA-DRIVEN COMPUTING AND CACHING IN 5G NETWORKS: ARCHITECTURE AND DELAY ANALYSIS |
30 |
| SYNERGY OF BIG DATA AND 5G WIRELESS NETWORKS: OPPORTUNITIES, APPROACHES, AND CHALLENGES |
29 |
| BLOCKCHAIN-BASED SOLUTIONS TO SECURITY AND PRIVACY ISSUES IN THE INTERNET OF THINGS |
29 |
| MACHINE LEARNING FOR WIRELESS CONNECTIVITY AND SECURITY OF CELLULAR-CONNECTED UAVS |
28 |
| ENERGY-EFFICIENT RESOURCE ALLOCATION IN NOMA HETEROGENEOUS NETWORKS |
26 |
| LIVE SERVICE MIGRATION IN MOBILE EDGE CLOUDS |
26 |
| NON-ORTHOGONAL MULTIPLE ACCESS FOR COOPERATIVE COMMUNICATIONS: CHALLENGES, OPPORTUNITIES, AND TRENDS |
26 |
| ARTIFICIAL INTELLIGENCE EMPOWERED EDGE COMPUTING AND CACHING FOR INTERNET OF VEHICLES |
26 |
| A NOVEL NON-SUPERVISED DEEP-LEARNING-BASED NETWORK TRAFFIC CONTROL METHOD FOR SOFTWARE DEFINED WIRELESS NETWORKS |
26 |
| BROADBAND LEO SATELLITE COMMUNICATIONS: ARCHITECTURES AND KEY TECHNOLOGIES |
26 |
| CONET: A COGNITIVE OCEAN NETWORK |
25 |
| RESEARCH CHALLENGES AND OPPORTUNITIES OF UAV MILLIMETER-WAVE COMMUNICATIONS |
24 |
| AMBIENT BACKSCATTER ASSISTED WIRELESS POWERED COMMUNICATIONS |
24 |
| INTELLIGENT COGNITIVE RADIO IN 5G: AI-BASED HIERARCHICAL COGNITIVE CELLULAR NETWORKS |
22 |
| Secure UAV Communication Networks over 5G |
22 |
| TASK-DRIVEN RESOURCE ASSIGNMENT IN MOBILE EDGE COMPUTING EXPLOITING EVOLUTIONARY COMPUTATION |
22 |
| ECCN: ORCHESTRATION OF EDGE-CENTRIC COMPUTING AND CONTENT-CENTRIC NETWORKING IN THE 5G RADIO ACCESS NETWORK |
22 |
| SDN-BASED RESOURCE MANAGEMENT FOR AUTONOMOUS VEHICULAR NETWORKS: A MULTI-ACCESS EDGE COMPUTING APPROACH |
21 |
| ORBITAL ANGULAR MOMENTUM FOR WIRELESS COMMUNICATIONS |
21 |
| OPTICAL NON-ORTHOGONAL MULTIPLE ACCESS FOR VISIBLE LIGHT COMMUNICATION |
21 |
| FOG COMPUTING FOR SMART GRID SYSTEMS IN THE 5G ENVIRONMENT: CHALLENGES AND SOLUTIONS |
20 |
| AN OVERVIEW OF NETWORK SLICING FOR 5G |
20 |
| Non-Orthogonal Multiple Access: Common Myths and Critical Questions |
20 |
| COLLABORATIVE CACHING AND MATCHING FOR D2D CONTENT SHARING |
20 |
| MOBQOS: MOBILITY AWARE AND QOS-DRIVEN SDN FRAMEWORK FOR AUTONOMOUS VEHICLES |
19 |
| EDGE-COCACO: TOWARD JOINT OPTIMIZATION OF COMPUTATION, CACHING, AND COMMUNICATION ON EDGE CLOUD |
19 |
| STACKELBERG GAME APPROACHES FOR ANTI-JAMMING DEFENCE IN WIRELESS NETWORKS |
19 |
| VEHICULAR SENSING NETWORKS IN A SMART CITY: PRINCIPLES, TECHNOLOGIES AND APPLICATIONS |
19 |
| INDEX MODULATION FOR 5G: STRIVING TO DO MORE WITH LESS |
18 |
| PRIVACY OF THINGS: EMERGING CHALLENGES AND OPPORTUNITIES IN WIRELESS INTERNET OF THINGS |
18 |
| Safeguarding Wireless Network with UAVs: A Physical Layer Security Perspective |
18 |
