Your search keyword '"macrosite"' showing total 2 results

1. Multistatic Integrated Sensing and Communication System Based on Macro–Micro Cooperation.

Author

Wang, Xiaoyun, Han, Zixiang, Jin, Jing, Xi, Rongyan, Wang, Yajuan, Han, Lincong, Ma, Liang, Lou, Mengting, Gui, Xin, Wang, Qixing, and Liu, Guangyi

Subjects

*TELECOMMUNICATION systems, *TRANSMITTERS (Communication), *COOPERATION, *SENSES, *ELECTRONIC data processing

Abstract

A novel multistatic integrated sensing and communication (ISAC) system based on macro–micro cooperation for the sixth-generation (6G) mobile network is proposed. Instead of using macrosites at both the transmitter and receiver sides, microsites are considered as receivers in cooperative sensing. This system is important since microsites can be deployed more flexibly to reduce their distances to the sensing objects, providing better coverage for sensing service. In this work, we first analyze the deployment problem of microsites, which can be deployed along the radius and azimuth angle to cover macrosite cells. The coverage area of each microsite is derived in terms of its position in the cell. Then, we describe an efficient estimating approach for obtaining the position and velocity of sensing objects in the macrosite cell. By choosing multiple microsites around the targeted sensing area, joint data processing with an efficient optimization method is also provided. Simulation results show that the multistatic ISAC system employing macro–micro cooperation can improve the position and velocity estimation accuracy of objects compared to systems employing macrosite cooperation alone, demonstrating the effectiveness and potential for implementing the proposed system in the 6G mobile network. [ABSTRACT FROM AUTHOR]

Published

2024

2. Multistatic Integrated Sensing and Communication System Based on Macro–Micro Cooperation

Author

Xiaoyun Wang, Zixiang Han, Jing Jin, Rongyan Xi, Yajuan Wang, Lincong Han, Liang Ma, Mengting Lou, Xin Gui, Qixing Wang, and Guangyi Liu

Subjects

6G, cooperative sensing, ISAC, macrosite, microsite, multistatic, Chemical technology, TP1-1185

Abstract

A novel multistatic integrated sensing and communication (ISAC) system based on macro–micro cooperation for the sixth-generation (6G) mobile network is proposed. Instead of using macrosites at both the transmitter and receiver sides, microsites are considered as receivers in cooperative sensing. This system is important since microsites can be deployed more flexibly to reduce their distances to the sensing objects, providing better coverage for sensing service. In this work, we first analyze the deployment problem of microsites, which can be deployed along the radius and azimuth angle to cover macrosite cells. The coverage area of each microsite is derived in terms of its position in the cell. Then, we describe an efficient estimating approach for obtaining the position and velocity of sensing objects in the macrosite cell. By choosing multiple microsites around the targeted sensing area, joint data processing with an efficient optimization method is also provided. Simulation results show that the multistatic ISAC system employing macro–micro cooperation can improve the position and velocity estimation accuracy of objects compared to systems employing macrosite cooperation alone, demonstrating the effectiveness and potential for implementing the proposed system in the 6G mobile network.

Published

2024