LTE SIMULATION NS3 PROJECTS

Long term evolution (LTE) an universal mobile telecommunication system in cellular technology. We provide LTE network with higher performance backwards compatible. We offer LTE simulation S3 projects based on ACM paper give detailed knowledge about recent development of cellular technologies. We ensure NS3 an object based discrete event network simulator provide support to design large area cellular networks. We evaluate LTE network performance by NS3 simulation. We evaluate LTE network performance by NS3 simulation. We support and guide final year students do project in LTE network domain.

LTE targets:

We implemented more than 90+ projects and attained following LTE targets are:

Backwards compatible:

Work with GSM, UMTS and edge network system.

Support handover & roaming to existing mobile network.

Utilize 2G & 3G spectrum and new spectrum.

Wide applications:

Support mobility up to 350 kph.

Time division & frequency division provide spectrum model for large application.

Connect large range terminal such as phone, pc to cameras in LTE.

High performance:

Support 100 M bit peak for downlink & 50 M bit peak for uplink transmission.

For better user experience it reduces latency.

Achieve fast cell edge performance.

Reduced capex:

Existing site and multi vendor source are reused to reduce capex and opex by simple architecture.

LTE Architecture:

We develop LTE with different technology to ensure effective communication in network. We carried out LTE radio access by E-uTRAN (evolved uMTS terrestrial radio access network). We perform non radio access spectrum by system architecture evolution (SAE). Entire system of LTE composed of SAE with evolved packet system.

Protocol layers in LTE:

We send IP packets by multiple protocol entities. We ensure packet data based on robust head compression with IP header access. We determine protocol layers in LTE for MS projects.

Medium access control (MAC) layer:

We handle hybrid retransmission of high level network & application. We ensure uplink & downlink scheduling at eNode B. We realize different data rates by variation of transport format.

Physical layer:

We deploy physical layer with coding & decoding function of data to implement security. We carried out modulation & demodulation technique by orthogonal frequency division multiplexing.

Radio link control (RLC):

We use radio link control to create data segmentation or concatenation. We handle retransmission network by radio link control. Ensure sequence data delivering to higher layers.

Communication channels used in LTE:

We provide communication channel in LTE are:

Logical channel:

We define logical channel by information type it carries. We categorized as

Traffic channel:

Used for data transmission without any traffic mode.

Control channel:

Applied for transmission control & configure information for LTE system.

Transport channel:

We define transport channel by information transmitted over radio interface characteristics.

Current Work progress

NS3 Projects for MS Students

NS3 Projects for B.E,B.Tech students

NS3 Projects for M.E,M.Tech Students

NS3 Projects for PhD Scholars

We assist PhD Scholars in Publishing Papers in Reputed journals for NS3 Simulator Projects.

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