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Coverage Optimization of LTE Networks Based on Antenna Tilt Adjusting Considering Network Load 被引量:4
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作者 NhuQuan Phan ThiOanh Bui +3 位作者 Huilin Jiang Pei Li Zhiwen Pan Nan Liu 《China Communications》 SCIE CSCD 2017年第5期48-58,共11页
In this paper,we investigate the coverage optimization for LTE networks considering the network load. The network coverage is defined as the number of served users of evolved Node B(eNB)which is determined by e NBs... In this paper,we investigate the coverage optimization for LTE networks considering the network load. The network coverage is defined as the number of served users of evolved Node B(eNB)which is determined by e NBs' antenna tilt angles(ATA). The coverage is optimized by optimizing the number of served users based on the Modified Particle Swarm Optimization(MPSO)algorithm. Simulation results show that both the number of served users by each e NB and the system throughput are significantly increased. As well,the average load and the bandwidth efficiency of the network are improved. 展开更多
关键词 LTE networks antenna tilt angle coverage optimization and modified particle swarm optimization
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Structural optimization strategy of pipe isolation tool by dynamic plugging process analysis 被引量:2
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作者 Ting-Ting Wu Hong Zhao +1 位作者 Bo-Xuan Gao Fan-Bo Meng 《Petroleum Science》 SCIE CAS CSCD 2021年第6期1829-1839,共11页
During the pipeline plugging process,both the pipeline and the pipe isolation tool(PIT)will be greatly damaged,due to the violent vibration of the flow field.In this study,it was proposed for the first time to reduce ... During the pipeline plugging process,both the pipeline and the pipe isolation tool(PIT)will be greatly damaged,due to the violent vibration of the flow field.In this study,it was proposed for the first time to reduce the vibration of the flow field during the plugging process by optimizing the surface structure of the PIT.Firstly,the central composite design(CCD)was used to obtain the optimization schemes,and the drag coefficient and pressure coefficient were proposed to evaluate the degree of flow field changes.Secondly,a series of computational fluid dynamics(CFD)simulations were performed to obtain the drag coefficient and pressure coefficient during dynamic plugging.And the mathematical model of drag coefficient and pressure coefficient with the surface structure of the PIT were established respectively.Then,a modified particle swarm optimization(PSO)was applied to predict the optimal value of the surface structure of the PIT.Finally,an experimental rig was built to verify the effectiveness of the optimization.The results showed that the improved method could reduce the flow field vibration by 49.56%.This study provides a reference for the design of the PIT surface structure for flow field vibration technology. 展开更多
关键词 Pipe isolation tool Dynamic analysis Drag coefficient Pressure coefficient modified particle swarm optimization algorithm
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