LTE Projects

For Advanced mobile communication applications, we introduced a standard called long term evaluation. Our main aim is to introduce 4G LTE projects for students to satisfy user demand for high data rate and quality of services. We provide the final output of LTE as with help data transmission speed, low latency, high network throughput and improving 3G network communications. We support us to ensure 4G service technology by introducing LTE methods in your projects.We deploy various routing methods such as multipath routing, hyper cube routing, delegation based routing, shortest single path routing and node disjoint based routing to ensure an LTE Projects.

LTE-Projects-for-students

Multipath Routing:

We offer multipath routing in our projects and multipath routing described as sharing of information from source node to destination in multipath via network in wireless communication. Various methods such as QoS, delay and Throughput are implemented by multipath routing for final year projects. We afford queuing theory in multipath which ensures efficient utilization of whole network. It uses path selection algorithm to select multipath from source to destination which reduces path forwarding problem and to enhance efficient transmission.

Hyper Cube Routing:

We enhance hyper cube routing in parallel computing technologies. It is used to identify shortest path from source node to destination node in cubic network. To find best shortest path it uses bit positioned method.

Node Disjoints Based Routing:

To maintain reliability, node disjoints based Routing are implemented. In mobile communication, all nodes are mobile so there is no possible of best path form source to destination cellular networks need effective Routing method to balance network performance at disjoint condition.

Service offered by our Team in LTE:

We adopted these services based on Science Direct papers are:

  • Increase QoS
  • Terminal Power Consumptions.
  • Low Cost with More Services.
  • Utilization of IP Service.
  • New Frequency Bandwidth.
  • Cell Edge Bit Rate Increased.
  • Working Latency Increased.

Key Terms in LTE:

We described more than 85+ LTE projects various key terms are:

  • SC-FDMA (Single Carrier Frequency Division Multiple Access):

We offer various single carrier transmissions such as localized transmission which need feedback about a channel state and distributed transmission provide service to Sc transmission.

  • Link Adaption:

It implemented to adopt a modulation techniques transmission bandwidth. Channel coding rate and transmission power control

  • Discontinuous receiver and Transmitter:

It used to reduce transceiver cycle duty in activated operation.

  • MBMS:

Multicast broadcast multicast service is an important one in the implementation of LTE application. Various phones are configured by supporting MBMS services.