K. Tsujimura, K. Umebayashi, J. Kokkoniemi and J. Lehtomäkil, "A study on impulse response model of reflected path for THz band," 2018 Asia-Pacific Signal and Information Processing Association Annual Summit and Conference (APSIPA ASC), Honolulu, HI, USA, 2018, pp. 794-798. doi: 10.23919/APSIPA.2018.8659776
A study on impulse response model of reflected path for THz band
|Author:||Tsujimura, Kazuhiro1; Umebayashi, Kenta1; Kokkoniemi, Joonas2;|
1Tokyo University of Agriculture and Technology, Koganeishi, Tokyo
2Centre for Wireless Communications (CWC), Oulu, Finland
|Online Access:||PDF Full Text (PDF, 0.1 MB)|
|Persistent link:|| http://urn.fi/urn:nbn:fi-fe2019042513193
Institute of Electrical and Electronics Engineers,
|Publish Date:|| 2019-04-25
Impulse response based channel model is vital for wireless communication analysis and modeling. This paper considers the impulse response of the terahertz band (THz band: 0.1–10 THz) for reflected path in case of short range (1–100 cm) wireless communication. In indoor application, it is necessary to consider multipath channel. In analysis of reflected path, rough surface of reflector is considered with Rayleigh roughness factor. The validity of the model is investigated with experimental THz band measurements (up to 2THz).
Asia-Pacific Signal and Information Processing Association Annual Summit and Conference
|Pages:||794 - 798|
2018 Asia-Pacific Signal and Information Processing Association Annual Summit and Conference (APSIPA ASC)
Asia-pacific signal and information processing association annual summit and conference
|Type of Publication:||
A4 Article in conference proceedings
|Field of Science:||
213 Electronic, automation and communications engineering, electronics
The work of J. Kokkoniemi and J. Lehtomaki in TERRANOVA project has received funding from Horizon 2020, European Union’s Framework Programme for Research and Innovation, under grant agreement No. 761794.
|EU Grant Number:||
(761794) TERRANOVA - Terabit/s Wireless Connectivity by TeraHertz innovative technologies to deliver Optical Network Quality of Experience in Systems beyond 5G
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