The Effects of Urban Impulsive Noise on Mobile Digital Radio Communications
Summary :
We will propose one approach to the estimation of bit error rates arising from urban impulsive noise for mobile digital radio communications. In the analysis of the incidence of impulsive noise-induced error mechanism, it is experimentally shown here that if the strength of impulsive noise is measured as a peak value and this value is converted into a receiver IF bandwidth, the way in which an error is generated differs depending on whether this peak value is larger or smaller than the signal level. In addition, from this simulation experiment conducted by using the impulsive noise simulator, it was confirmed that if the number of errors generated by each noise impulse is determined microscopically from the ratio of the impulsive noise peak value to the signal level, the cumulative value of this error generation rate over the entire noise level distribution becomes the radio channel error. In addition, the results of outdoor experiments conducted at 8 kbps in the 150 MHz and 400 MHz bands in the Tokyo Metropolitan area are compared with the results of indoor experiments. Although complete evaluation will not be possible because the adopted evaluation method for impulsive noise was conventional CISPR quasi-peak value, it is concluded that the error generation mechanism discussed here can be applied to the outdoor experiment results, since good agreement is found between outdoor and indoor experiments.
- Publication
- IEICE TRANSACTIONS on transactions Vol.E69-E No.1 pp.40-46
- Publication Date
- 1986/01/25
- Publicized
- Online ISSN
- DOI
- Type of Manuscript
- PAPER
- Category
- Radio Wave and Satellite Communication
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Seizo NAKAMURA, "The Effects of Urban Impulsive Noise on Mobile Digital Radio Communications" in IEICE TRANSACTIONS on transactions,
vol. E69-E, no. 1, pp. 40-46, January 1986, doi: .
Abstract: We will propose one approach to the estimation of bit error rates arising from urban impulsive noise for mobile digital radio communications. In the analysis of the incidence of impulsive noise-induced error mechanism, it is experimentally shown here that if the strength of impulsive noise is measured as a peak value and this value is converted into a receiver IF bandwidth, the way in which an error is generated differs depending on whether this peak value is larger or smaller than the signal level. In addition, from this simulation experiment conducted by using the impulsive noise simulator, it was confirmed that if the number of errors generated by each noise impulse is determined microscopically from the ratio of the impulsive noise peak value to the signal level, the cumulative value of this error generation rate over the entire noise level distribution becomes the radio channel error. In addition, the results of outdoor experiments conducted at 8 kbps in the 150 MHz and 400 MHz bands in the Tokyo Metropolitan area are compared with the results of indoor experiments. Although complete evaluation will not be possible because the adopted evaluation method for impulsive noise was conventional CISPR quasi-peak value, it is concluded that the error generation mechanism discussed here can be applied to the outdoor experiment results, since good agreement is found between outdoor and indoor experiments.
URL: https://global.ieice.org/en_transactions/transactions/10.1587/e69-e_1_40/_p
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@ARTICLE{e69-e_1_40,
author={Seizo NAKAMURA, },
journal={IEICE TRANSACTIONS on transactions},
title={The Effects of Urban Impulsive Noise on Mobile Digital Radio Communications},
year={1986},
volume={E69-E},
number={1},
pages={40-46},
abstract={We will propose one approach to the estimation of bit error rates arising from urban impulsive noise for mobile digital radio communications. In the analysis of the incidence of impulsive noise-induced error mechanism, it is experimentally shown here that if the strength of impulsive noise is measured as a peak value and this value is converted into a receiver IF bandwidth, the way in which an error is generated differs depending on whether this peak value is larger or smaller than the signal level. In addition, from this simulation experiment conducted by using the impulsive noise simulator, it was confirmed that if the number of errors generated by each noise impulse is determined microscopically from the ratio of the impulsive noise peak value to the signal level, the cumulative value of this error generation rate over the entire noise level distribution becomes the radio channel error. In addition, the results of outdoor experiments conducted at 8 kbps in the 150 MHz and 400 MHz bands in the Tokyo Metropolitan area are compared with the results of indoor experiments. Although complete evaluation will not be possible because the adopted evaluation method for impulsive noise was conventional CISPR quasi-peak value, it is concluded that the error generation mechanism discussed here can be applied to the outdoor experiment results, since good agreement is found between outdoor and indoor experiments.},
keywords={},
doi={},
ISSN={},
month={January},}
Copy
TY - JOUR
TI - The Effects of Urban Impulsive Noise on Mobile Digital Radio Communications
T2 - IEICE TRANSACTIONS on transactions
SP - 40
EP - 46
AU - Seizo NAKAMURA
PY - 1986
DO -
JO - IEICE TRANSACTIONS on transactions
SN -
VL - E69-E
IS - 1
JA - IEICE TRANSACTIONS on transactions
Y1 - January 1986
AB - We will propose one approach to the estimation of bit error rates arising from urban impulsive noise for mobile digital radio communications. In the analysis of the incidence of impulsive noise-induced error mechanism, it is experimentally shown here that if the strength of impulsive noise is measured as a peak value and this value is converted into a receiver IF bandwidth, the way in which an error is generated differs depending on whether this peak value is larger or smaller than the signal level. In addition, from this simulation experiment conducted by using the impulsive noise simulator, it was confirmed that if the number of errors generated by each noise impulse is determined microscopically from the ratio of the impulsive noise peak value to the signal level, the cumulative value of this error generation rate over the entire noise level distribution becomes the radio channel error. In addition, the results of outdoor experiments conducted at 8 kbps in the 150 MHz and 400 MHz bands in the Tokyo Metropolitan area are compared with the results of indoor experiments. Although complete evaluation will not be possible because the adopted evaluation method for impulsive noise was conventional CISPR quasi-peak value, it is concluded that the error generation mechanism discussed here can be applied to the outdoor experiment results, since good agreement is found between outdoor and indoor experiments.
ER -
English
