Abstract
With the development of high-speed railway and public growing demand on data traffic, people pay much more attention to provide high data rate and high reliable services under high mobility circumstance. Due to the higher data rate and lower system latency, long-term evolution (LTE) has been chosen as the next generation's evolution of railway mobile communication system by the International Union of Railways. However, there are still many problems to be solved in the high mobility applications of LTE, especially the higher handover failure probability, which seriously degrades the reliability of railway communication. This article proposes an optimized handover scheme, in which the coordinated multiple point transmission technology and dual vehicle station coordination mechanism are applied to improve the traditional hard handover performance of LTE. The scheme enables the high speed train to receive signals from both adjacent base stations and obtain diversity gain when it moves through the overlapping areas, so it improves the quality of the received signal and provides reliable communication between train and ground eNodeBs. Numerical analysis and simulation results show that the proposed scheme can decrease the outage probability remarkably during handover and guarantee the reliability of train to ground communication.
Highlights
Due to the lower energy consumption, less environmental pollution, larger transport capacity and more safety, railway transportation plays an important role for the development of country
The existing GSM for Railway (GSM-R) network is mainly based on the second-generation Global System for Mobile Communications (GSM), and its data rate is too low to meet the broadband mobile communication access and other value-added service demands of passengers
In order to take full advantage of the multiple base stations cooperation feature of coordinate multiple point transmission (CoMP) systems under highspeed scenarios, this article proposes a seamless soft handover scheme based on CoMP, which allows the train to receive signals from both adjacent base stations when the train travels through the overlapping areas
Summary
Due to the lower energy consumption, less environmental pollution, larger transport capacity and more safety, railway transportation plays an important role for the development of country. Challenges mentioned above, the existing handover scheme of LTE should be optimized to improve the handover success probability in high-speed movement circumstance. The MEC concept utilizes a mechanism for restructuring the virtual multi-cell area according to the user’s mobility pattern This handover scheme is supposed to support high end-user mobility in a 60GHz broadband pico-cellular radio-over- fiber network. A novel handover scheme based on on-vehicle antennas is introduced in [8], and the numerical analysis results show that the proposed scheme can pre-trigger handover appropriately, which ensures a higher handover success rate and has an improvement on system throughput. In order to take full advantage of the multiple base stations cooperation feature of CoMP systems under highspeed scenarios, this article proposes a seamless soft handover scheme based on CoMP, which allows the train to receive signals from both adjacent base stations when the train travels through the overlapping areas. Probability and interrupt latency, which severely affect the reliability of train to ground communication
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