LTE Downlink Packet Scheduling Projects

    LTE Downlink Packet Scheduling Projects are implement for students of final year Engineering in different departments. Recently communication has become a significant domain which is widely used to share data between two entities. Tremendous developments in the field of communication have introduce several networking technologies to support all type of traffic. At present, LTE Downlink Packet Scheduling Projects communication is the key of data sharing in which a huge number of users are participating. To tolerate these users, scheduling process is performed for organizing and finally estimates higher performances.

We present with some recent LTE-downlink packet schedulers study,

  • Maximum Throughput Scheduler
  • Proportional Fair Scheduler
  • Modified Largest Weighted Delay First packet scheduling
  • Exponential / Proportional Fair packet scheduling
  • Quantized water–filling packet scheduling
  • Priority based packet scheduling
  • Dynamic packet scheduling
  • QoS–aware energy and jitter–efficient packet scheduling
  • Channel and QoS–aware scheduler
  • Delay–based scheduling algorithm
  • Discontinuous Reception–aware scheduling
  • Resource block preserver scheduling
  • Delay based weighted proportional fair algorithm
  • Tabu method
  • Two–level QoS oriented schedulers
  • Adaptive and Generic scheduling
  • Round Robin scheduler
  • Blind Equal Throughput scheduler
  • Resource Preemption scheduler
  • And more

  Let us give some more titles for LTE Downlink Packet Scheduling Packets,

  • An innovative function of Performance evaluation also for E-MQS scheduler by Mobility into LTE heterogeneous network system
  • The novel technology practice also for Buffer aware three level scheduler intended for video streaming over LTE scheme [LTE-Downlink-Packet Scheduling Projects]
  • An effective function of Game Theoretic Distributed Algorithm meant also for FeICIC Optimization into LTE-A HetNets system
  • A modern methodology also for Radio resource management into LTE femtocell networks
  • An inventive performance also for Self-tuning of service priority parameters designed for optimizing Quality of Experience into LTE method
  • The novel technology also for an exponential based on packet scheduling scheme used for real time traffic into satellite LTE networks
  • A Designing and development function of performance analysis also for uplink schedulers intended for smart metering over into LTE scheme
  • The design practice for FlowVista function based on Low-bandwidth SDN monitoring driven via business application interaction method
  • A modern mechanism also for Mobile edge computing-enabled channel-aware video streaming used for 4G LTE scheme
  • An imaginative mechanism also for MAC layer improvements in place of ultra-reliable low-latency communications into cellular networks
  • An inventive performance also for Statistical Priority-Based on Scheduling Metric designed for M2M Communications into LTE Networks
  • A contemporary function of Network-Centric Versus User-Centric Multihoming Strategies into LTE/WiFi Networks [LTE Downlink Packet Scheduling Projects]
  • An efficient method also for Mobility effect based on downlink performance for spatial multiplexing techniques under different scheduling algorithms in heterogeneous network
  • An inventive function of Licensed and also Unlicensed Spectrum Allocation into Heterogeneous Networks system
  • An imaginative practice for testbed based on flexible and energy-efficient resource management by virtualized LTE-A nodes scheme