Experimental Characterization and Correlation Analysis of Indoor Channels at 15 GHz | Zendy

Xin Zhou | Zendy; Zhangdui Zhong | Zendy; Bei Zhang | Zendy; Ruisi He | Zendy; Ke Guan | Zendy; Qi Wang | Zendy; David W. Matolak | Zendy

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Experimental Characterization and Correlation Analysis of Indoor Channels at 15 GHz

Author(s) -

Xin Zhou,

Zhangdui Zhong,

Bei Zhang,

Ruisi He,

Ke Guan,

Qi Wang,

David W. Matolak

Publication year - 2015

Publication title -

international journal of antennas and propagation

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.282

H-Index - 37

eISSN - 1687-5877

pISSN - 1687-5869

DOI - 10.1155/2015/601835

Subject(s) - fading , autocorrelation , dispersion (optics) , scale (ratio) , correlation , computer science , range (aeronautics) , dependency (uml) , algorithm , wireless , electronic engineering , statistical physics , statistics , mathematics , telecommunications , channel (broadcasting) , engineering , physics , artificial intelligence , optics , geometry , quantum mechanics , aerospace engineering

The indoor radio channels at 15 GHz are investigated based on measurements. The large- and small-scale fading behaviors as well as the delay dispersion characteristics are discussed. It is found that the large-scale fading, Ricean K-factor, and delay spread can be described by log-normal distributions. Furthermore, both autocorrelation and cross correlation properties of the above parameters are analyzed and modeled. These parameters characterize fading and delay behaviors as well as their mutual dependency and can be used as empirical values for future wireless system design and simulation in 15 GHz short-range indoor channels

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