Add to ORKGIn Sen and Matolak\u27s earlier paper, 5-GHz-band vehicle-to-vehicle (V2V) channel models were presented for channel bandwidths of 5 and 10 MHz. In this paper, we provide additional tapped delay line models for bandwidths of 1, 20, 33.33, and 50 MHz based upon the data used in Sen and Matolak\u27s paper. We provide tables of channel parameters for five types of V2V channel classes and also include example tap correlation coefficients. Root-mean-square delay spread values are summarized, as are values of bandwidth for which the channel frequency correlation takes values of 0.7 and 0.5. As with the results from Sen and Matolak\u27s paper, these models should be useful for designers in future V2V communication systems
In this paper, we describe a new wideband singleinput– single-output (SISO) channel model for vehicl...
A detailed understanding of the dynamic processes of vehicular radio channels is crucial for its rea...
The article reports vehicular channel measurements in the frequency band of 5.8 GHz for IEEE 802.11p...
In Sen and Matolak\u27s earlier paper, 5-GHz-band vehicle-to-vehicle (V2V) channel models were prese...
In this paper, we describe the results of a channel measurement and modeling campaign for the vehicl...
In this paper, we describe the results of a channel measurement and modeling campaign for the vehicl...
In this paper, we describe the results of a channel measurement and modeling campaign for the vehicl...
Physical layer channel modeling is critical for design and performance evaluation at multiple layers...
Physical layer channel modeling is critical for design and performance evaluation at multiple layers...
Physical layer channel modeling is critical for design and performance evaluation at multiple layers...
To design and evaluate vehicle-to-vehicle (V2V) communication systems in intelligent transportation ...
64This paper concerns the measurement-based comparison of urban microcellular mobile radio channel c...
64This paper concerns the measurement-based comparison of urban microcellular mobile radio channel c...
64This paper concerns the measurement-based comparison of urban microcellular mobile radio channel c...
64This paper concerns the measurement-based comparison of urban microcellular mobile radio channel c...
In this paper, we describe a new wideband singleinput– single-output (SISO) channel model for vehicl...
A detailed understanding of the dynamic processes of vehicular radio channels is crucial for its rea...
The article reports vehicular channel measurements in the frequency band of 5.8 GHz for IEEE 802.11p...
In Sen and Matolak\u27s earlier paper, 5-GHz-band vehicle-to-vehicle (V2V) channel models were prese...
In this paper, we describe the results of a channel measurement and modeling campaign for the vehicl...
In this paper, we describe the results of a channel measurement and modeling campaign for the vehicl...
In this paper, we describe the results of a channel measurement and modeling campaign for the vehicl...
Physical layer channel modeling is critical for design and performance evaluation at multiple layers...
Physical layer channel modeling is critical for design and performance evaluation at multiple layers...
Physical layer channel modeling is critical for design and performance evaluation at multiple layers...
To design and evaluate vehicle-to-vehicle (V2V) communication systems in intelligent transportation ...
64This paper concerns the measurement-based comparison of urban microcellular mobile radio channel c...
64This paper concerns the measurement-based comparison of urban microcellular mobile radio channel c...
64This paper concerns the measurement-based comparison of urban microcellular mobile radio channel c...
64This paper concerns the measurement-based comparison of urban microcellular mobile radio channel c...
In this paper, we describe a new wideband singleinput– single-output (SISO) channel model for vehicl...
A detailed understanding of the dynamic processes of vehicular radio channels is crucial for its rea...
The article reports vehicular channel measurements in the frequency band of 5.8 GHz for IEEE 802.11p...