LTE Simulator Free Download – it is the term LTE stands for Long Term Evolution, which is an effective technology that improves extreme performance of a network, particularly in the limitations of air. It is widely used for the purpose of cellular communications.
It is used in the mobile networks also to enhance the speed of data transmission and to enable fast browsing. Comparing to its previous generation networks like 2G, 3G and 4G LTE Simulator, the LTE can be implemented in the 4G and in the future of the Internet, 5G network.
“This article discusses the importance of the network, its research purposes and it displays our experimental experiences in the LTE simulator and through this article, we share you some important aspects of the projects from the research point of view!!”
The above uses are the common advantages of the LTE. The LTE network is better known for its fast internet connectivity and incredible fast data transmission. Here are our experimental modules of simulator.
The above mentioned modules are our sample modules for research purpose. Other than these, we have numerous modules to provide results by analyzing various simulating conditions. Here we provide you our important classes.
To be precise, there are limited classes available for the LTE simulator. To the best of our knowledge, our engineering team is on their effort to design new types of modules to perform simulation over various conditions. Here are our familiar programming languages for your reference.
These are programming languages, which we used commonly to simulate the LTE network. Apart from this, we are trying to implement other programming languages in LTE simulator. The following are the Supporting OS in simulator.
And the supporting tools are –
Operating Systems are generally important to implement any simulator over any desired network. The mentioned OS should be implemented over the above version of the network system for effective simulation. In addition to the supporting OS, we provide you the protocols for LTE simulator.
RRC ( Radio Resource Control) protocol
It is a third layer protocol used among the user equipment and the base station. The messages of RRC transmitted through PDCP protocol. It is detailed in TS 36.331 by 3GPP in LTE Simulator. The main functions of the RRC protocol involves
RLC (Radio Link Control) Protocol
It is placed above the layer of 3GPP MAC and underneath the PDCP. It belongs to the Layer 2 Radio Link protocol of air interface that is detailed in LTE by TS 36.322. The duties of this protocol is to transmit upper layer PDU in any of the following modes like
The functions of RLC are
The above mentioned protocols are the wide known protocols for the functions of simulation. Still there are other protocols available for the LTE simulation but with lower efficiency. In addition to the above lists and functions of protocols, we provide you the subject used in LTE simulator
The above mentioned subjects are given for example to denote its major uses in the 5G. In case of research purpose, we are able to introduce you to various subjects. Here are the result analytics parameters of the simulator projects.
The mentioned parameters are considered as the important parameters used by the simulator to analyze the performance of the network. In addition to the experimental study of LTE simulator, we provide you the subject wise modules of the projects.
For the LTE subject based simulations, we can use the following modules of
The exceeding modules are commonly used in the LTE subjects. These modules are even apt for the other network types to provide effective simulation. Besides the modules, we give the major syntax used to program the LTE simulation.
class EnbMacMemberLteEnbPhySapUser : public LteEnbPhySapUser
EnbMacMemberLteEnbPhySapUser (LteEnbMac* mac);
// inherited from LteEnbPhySapUser
virtual void ReceivePhyPdu (Ptr<Packet> p);
virtual void SubframeIndication (uint32_t frameNo, uint32_t subframeNo);
virtual void ReceiveLteControlMessage (Ptr<LteControlMessage> msg);
virtual void ReceiveRachPreamble (uint32_t prachId);
virtual void UlCqiReport (FfMacSchedSapProvider::SchedUlCqiInfoReqParameters ulcqi);
virtual void UlInfoListElementHarqFeeback (UlInfoListElement_s params);
virtual void DlInfoListElementHarqFeeback (DlInfoListElement_s params);
EnbMacMemberLteEnbPhySapUser::EnbMacMemberLteEnbPhySapUser (LteEnbMac* mac) : m_mac (mac)
EnbMacMemberLteEnbPhySapUser::ReceivePhyPdu (Ptr<Packet> p)
EnbMacMemberLteEnbPhySapUser::SubframeIndication (uint32_t frameNo, uint32_t subframeNo)
m_mac->DoSubframeIndication (frameNo, subframeNo);
EnbMacMemberLteEnbPhySapUser::ReceiveLteControlMessage (Ptr<LteControlMessage> msg)
EnbMacMemberLteEnbPhySapUser::ReceiveRachPreamble (uint32_t prachId)
EnbMacMemberLteEnbPhySapUser::UlCqiReport (FfMacSchedSapProvider::SchedUlCqiInfoReqParameters ulcqi)
EnbMacMemberLteEnbPhySapUser::UlInfoListElementHarqFeeback (UlInfoListElement_s params)
EnbMacMemberLteEnbPhySapUser::DlInfoListElementHarqFeeback (DlInfoListElement_s params)
Normal and emergency situation applications in smart grid: it is based on the smart grid LTE process along with the cellular smart grid components of
Wireless multimedia systems applications: the fundamental function of this application is to generate the data from media server to transfer the wireless buffer to the base station and simultaneously, the user request on the data will be send to the same base station. It then schedules the data to allocate the users respectively. This application can be broadly classified into
There is always wide range of chances available for the multimedia applications. But the functions may vary according to the user request over the different data. In addition to the applications, we provide you the list of algorithms in LTE simulator
BCQI downlink scheduling algorithm: this algorithm provides best results and it prefers the VoID users in resolving the video traffic and prioritize the other traffics later. The simulation report of this algorithm is based on
Channel aware scheduling algorithm: it schedules the process of uplink and downlink in a network.
CQI (Channel Quality Indicator): This algorithm is a kind of scheduling method with the conditions of best radio link, where this algorithm allots the resource blocks to the users and rise the cell ability at the cost of the equality end points of the terminals are far away from the base station because these terminals don’t come for the scheduling process. The scheduling process will be performed as follows
The following steps are included in a network for an effective offloading process.
Step 1: Offloading request from the SDN controller to SDN Wi-Fi
Step 2: Attaching request from the SDN Wi-Fi to the UE
Step 3: Attaching response from the UE to the SDN Wi-Fi
Step 4: Offloading response from the SDN Wi-Fi to the SDN controller
Step 5: Allocating IP address among SDN Wi-Fi and UE
Step 6: SDN controller handover the session to the Wi-Fi network
Step 7: SDN controller terminated the request of the eNodeB
In the downlink scheduling process in the broadband LTE networks generate the data from the media server to transfer to the wireless buffer to the base station and simultaneously, the user request on the data will be send to the same base station. It then schedules the data to allocate the users respectively.
In this area, the UE requests the LTE network service by using its allotted IMSI number to the Mobility Management Entity (MME). It then transfers the request to the authentication center to verify the identity of the UE in order to confirm the network service. The authentication message then stored in the HSS and it sends the message to the UE to activate the LTE service. Along with the major areas, we provide you the important networking process of the LTE simulator.
The LTE network enables the user with a high speed of networking and browsing, particularly in mobile networks. It is based on the technologies of UMTS / HSPA and GSM / EDGE. The LTE network can simplify the core to provide higher speed and induced capacity by utilizing various interface.
In the data transmission process of the LTE network, the UE request the enodeB by the user interface, to the Mobility Management Entity (MME), the request then passing through the Serving Gateway and the PDN gateway. Here, n sends the user request to the respective IP networks, and the request will be replied by the server in the form of network service. Besides the major processes, we provide you the significant steps of LTE network.
In order to render the simulating results of the average throughputs and the average SINR tables, the channel coding, HARQ simulator with the inputs of channel coding rate and the resource allocation have to be implemented to run the simulation process. Those elements are got from the output results in terms of each LLR transmitted in bit /average SINR from the MIMO-OFDM physical channel projects with the help of the parameters like MIMO scheme and correlation, bandwidth and modulation applied in the LTE link level simulated.
The above mentioned steps are performed under the link level simulation process. We displayed it because; it is the major networking service we are all using with the LTE network. In addition to the networking steps, we provide you the routing protocols of LTE network.
There are many protocols available in the LTE simulation but the above mentioned protocols are widely used for our research and experimental purpose. That’s the reason for the high lightening. In addition to the important protocols, we get you to the core purpose, i.e. our suggestion on the research titles as displayed below.
According to the various need of the people / users, the network reforming itself day by day. The networking is an endless boon we received for our own convenience, which helps us to stay, connected with our expert’s team. Knowing the importance of the networking, we had chosen this domain to help you in progress your academic persuasion, without struggling. We would like to extend our support and guidance at any level of your LTE Simulator Free Download projects on the network. Not only in LTE network as we providing facility in other areas of networking if you are interested. So don’t miss this opportunity to choose our service!!
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