5 research outputs found
Statistical Channel Model for 60 GHz WLAN Systems in Conference Room Environment
In this work, a methodology of statistical channel modeling for 60 GHz WLAN systems is proposed and a channel model for the office conference room environment is developed. The proposed methodology takes into account the most important properties of the indoor 60 GHz propagation channel such as large propagation loss and necessity to use steerable directional antennas by the WLAN stations, quasi-optical propagation nature, clustering structure of the channel, and significant impact of the polarization characteristics. A general mathematical structure of the channel model that supports all the described 60 GHz propagation channel properties is suggested. Then the conference room scenario for 60 GHz WLAN systems is introduced. Development of the inter cluster, intra cluster, and polarization impact modeling parameters is considered in details first explaining the used methodology for each channel modeling aspect and then followed by its application to the conference room scenario. The raw data for the channel model development include the experimental results [1], [2] and ray-tracing simulations for the conference room scenario. The proposed channel modeling methodology and the developed conference room channel model were adopted by the IEEE 802.11ad committee for 60 GHz WLAN systems standardization
Comparative analysis of influence of non-linear distortion in power amplifier in wireless communications systems with single and multiple orthogonal carrier frequencies
The paper considers power amplifier non-linearity impact on wireless communication systems with a single carrier (SC) and multiple orthogonal subcarriers (OFDM). Detailed analysis is provided for the non-linearity impact on the accuracy of the transmitted signal generation and the shape of the output spectrum. It is demonstrated that in order to meet standard requirements on the signal generation accuracy and the spectrum mask compliance, a SC system typically has a moderate gain of 1–1.5 dB in comparison with an OFDM system. It is concluded that a decision on the modulation type selection for a wireless communication system should include additional factors beyond the power amplifier non-linearity impact analysis
Comparative analysis of influence of non-linear distortion in power amplifier in wireless communications systems with single and multiple orthogonal carrier frequencies
The paper considers power amplifier non-linearity impact on wireless communication systems with a single carrier (SC) and multiple orthogonal subcarriers (OFDM). Detailed analysis is provided for the non-linearity impact on the accuracy of the transmitted signal generation and the shape of the output spectrum. It is demonstrated that in order to meet standard requirements on the signal generation accuracy and the spectrum mask compliance, a SC system typically has a moderate gain of 1–1.5 dB in comparison with an OFDM system. It is concluded that a decision on the modulation type selection for a wireless communication system should include additional factors beyond the power amplifier non-linearity impact analysis