Optimized Performance Evaluation of LTE Hard Handover Algorithm with Average RSRP Constraint

Hard handover mechanism is adopted to be used in 3GPP Long Term Evolution (3GPP LTE) in order to reduce the complexity of the LTE network architecture. This mechanism comes with degradation in system throughput as well as a higher system delay. This paper proposes a new handover algorithm known as LTE Hard Handover Algorithm with Average Received Signal Reference Power (RSRP) Constraint (LHHAARC) in order to minimize number of handovers and the system delay as well as maximize the system throughput. An optimized system performance of the LHHAARC is evaluated and compared with three well-known handover algorithms via computer simulation. The simulation results show that the LHHAARC outperforms three well-known handover algorithms by having less number of average handovers per UE per second, shorter total system delay whilst maintaining a higher total system throughput.Comment: 16 pages, 9 figures, International Journal of Wireless & Mobile Networks (IJWMN

Performance Evaluation of Real Time Traffic in LTE Networks

Long-Term Evolution, commonly known as 4G LTE, is a standard for wireless communication of high-speed data for mobile phones and data terminals. TCP protocol plays a significant role in LTE network. Congestion control algorithm is an integral module of TCP that directly determines the performance of the protocol in IP Network. Many TCP variants like TCP-Vegas, TCP-Tahoe, TCP-Reno, TCP-NewReno, TCP-SACK, and TCP-FACK have been proposed for high bandwidth real time services in LTE network [1]. These TCP variants can be used to improve quality of service parameters i.e., throughput, average delay and lost packet in LTE network [2]. Since LTE systems has high-data-rate, low-latency and packet-optimized radio access technology therefore these parameters directly affect the traffic. In this paper, complete LTE Network is simulated using the OPNET simulator to evaluate network performance in real time [3]. The simulated LTE network is tested for each type of TCP protocol and the result is monitored for throughput, end to end delay, http and FTP traffic, re-transmission response time and packets drop etc and the results are plotted. At the end, it is concluded that TCP New Reno has outperformed in terms of throughput, re-transmission rate and http uplink and downlink traffic. In medium size network, the performance of Reno is satisfactory. Similarly changes in mobility rate enhance the performance of TCP Reno in other congestion control algorithms. On the other hand, TCP Cubic is found to be the worst performer for throughput, re-transmission rate and http traffic parameters. Keywords: LTE, QoS, EUTRAN, TCP, http, Opne

Requirement of handover modeling in the downlink 3GPP long term evolution system

Long Term Evolution (LTE) is the next generation wireless system that uses Break-before-Connect technology in the handover scheme, unlike handover in the Wide-band Code Division Multiple Access (WCDMA) that uses Connect-before- Break technology. In the LTE system, handover is one of the important radio resource management schemes that are responsible for mobility of user equipments, load balancing and interference management. This paper provides detailed description on requirements involved for handover procedure in the LTE system and the feasibility to extend the current software simulation tool of the LTE system to support multiple cells for handover. This paper contributes to the identification of the requirements and specifications that are needed for further study of handover procedure in the LTE system. © 2010 IEEE