Showing 1–20 of 82 results
/ Date/ Name
Jul 21, 2017Coverage in Downlink Heterogeneous mmWave Cellular Networks with User-Centric Small Cell DeploymentMay 18, 2018Optimal Power Control for Fading Channels with Arbitrary Input Distributions and Delay-Sensitive TrafficOct 8, 2018Actor-Critic Deep Reinforcement Learning for Dynamic Multichannel AccessSep 26, 2018Learning-Based Delay-Aware Caching in Wireless D2D Caching NetworksOct 16, 2018Deep Learning Based Power Control for Quality-Driven Wireless Video TransmissionsFeb 27, 2020Simulation of Real-time Routing for UAS traffic Management with Communication and Airspace Safety ConsiderationsMar 22, 2020Mission-Aware Spatio-Temporal Deep Learning Model for UAS Instantaneous Density PredictionFeb 11, 2019A Simulation Framework for Fast Design Space Exploration of Unmanned Air System Traffic Management PoliciesJan 14, 2021How to Attack and Defend NextG Radio Access Network Slicing with Reinforcement LearningApr 3, 2021Learning-Based UAV Trajectory Optimization with Collision Avoidance and Connectivity ConstraintsApr 2, 2021Channel Estimation for Intelligent Reflecting Surface Assisted Wireless CommunicationsSep 14, 2015Wireless Throughput and Energy Efficiency with Random Arrivals and Statistical Queueing ConstraintsOct 8, 2015Energy Efficiency of Hybrid-ARQ under Statistical Queuing ConstraintsJul 25, 2017Quality-Driven Resource Allocation for Full-Duplex Delay-Constrained Wireless Video TransmissionsOct 20, 2015Energy Efficiency in Relay-Assisted mmWave Cellular NetworksDec 10, 2023QMGeo: Differentially Private Federated Learning via Stochastic Quantization with Mixed Truncated Geometric DistributionDec 24, 2021Dynamic Channel Access and Power Control in Wireless Interference Networks via Multi-Agent Deep Reinforcement LearningNov 30, 2023Anomaly Detection via Learning-Based Sequential Controlled SensingNov 19, 2023Robust Network Slicing: Multi-Agent Policies, Adversarial Attacks, and Defensive StrategiesOct 20, 2022Low-Latency Hybrid NOMA-TDMA: QoS-Driven Design Framework