Behaviors of MIMO UWB-IR Transciever for Statistical Wireless Channels

Xu Huang

    Research output: A Conference proceeding or a Chapter in BookConference contribution

    Abstract

    Multi-antenna-based multi-input multi-output (MIMO) communications becomes the next revolution in wireless data communications. MIMO has gone through the adoption curve for commercial wireless systems to the point that today, all high throughput commercial standards, i.e. WiMax, Wi-Fi, cellular, etc., have adopted MIMO as part of the optional. This paper is to present our investigations of the behaviors of the MIMO Ultra-Wide-Band-Impulse Radio (UWB-IR) systems, which will contribute to optimal designs for the low-power high-speed data communication over unlicensed bandwidth spanning several GHz, such as IEEE 802.15 families. Our investigations are based on that without requiring any channel estimation procedure we develop and analyze three no coherent transceiver models. The simulations for our investigations show (a) the Poisson distribution of the path arriving will affect the signal-noise ratio (SNR) and (b) for the Nakagami distributed multipath fading channel the “m” factor will impact on the SNR on the MIMO UWB-IR systems
    Original languageEnglish
    Title of host publicationIEEE International Conference on Advanced Communication Technology
    EditorsHyeong-Ho Lee
    Place of PublicationKorea
    PublisherIEEE, Institute of Electrical and Electronics Engineers
    Pages14-18
    Number of pages5
    Volume1
    ISBN (Print)9788955191387
    Publication statusPublished - 2009
    Event11th IEEE International Conference on Advanced Communication Technology - Phoenix Park, Korea, Democratic People's Republic of
    Duration: 15 Feb 200918 Feb 2009

    Conference

    Conference11th IEEE International Conference on Advanced Communication Technology
    CountryKorea, Democratic People's Republic of
    CityPhoenix Park
    Period15/02/0918/02/09

    Fingerprint

    Radio systems
    Communication
    Wimax
    Poisson distribution
    Wi-Fi
    Multipath fading
    Channel estimation
    Transceivers
    Fading channels
    Throughput
    Antennas
    Bandwidth
    Optimal design

    Cite this

    Huang, X. (2009). Behaviors of MIMO UWB-IR Transciever for Statistical Wireless Channels. In H-H. Lee (Ed.), IEEE International Conference on Advanced Communication Technology (Vol. 1, pp. 14-18). Korea: IEEE, Institute of Electrical and Electronics Engineers.
    Huang, Xu. / Behaviors of MIMO UWB-IR Transciever for Statistical Wireless Channels. IEEE International Conference on Advanced Communication Technology. editor / Hyeong-Ho Lee. Vol. 1 Korea : IEEE, Institute of Electrical and Electronics Engineers, 2009. pp. 14-18
    @inproceedings{094c9533e73646fb94d3c5401b08ae61,
    title = "Behaviors of MIMO UWB-IR Transciever for Statistical Wireless Channels",
    abstract = "Multi-antenna-based multi-input multi-output (MIMO) communications becomes the next revolution in wireless data communications. MIMO has gone through the adoption curve for commercial wireless systems to the point that today, all high throughput commercial standards, i.e. WiMax, Wi-Fi, cellular, etc., have adopted MIMO as part of the optional. This paper is to present our investigations of the behaviors of the MIMO Ultra-Wide-Band-Impulse Radio (UWB-IR) systems, which will contribute to optimal designs for the low-power high-speed data communication over unlicensed bandwidth spanning several GHz, such as IEEE 802.15 families. Our investigations are based on that without requiring any channel estimation procedure we develop and analyze three no coherent transceiver models. The simulations for our investigations show (a) the Poisson distribution of the path arriving will affect the signal-noise ratio (SNR) and (b) for the Nakagami distributed multipath fading channel the “m” factor will impact on the SNR on the MIMO UWB-IR systems",
    author = "Xu Huang",
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    Huang, X 2009, Behaviors of MIMO UWB-IR Transciever for Statistical Wireless Channels. in H-H Lee (ed.), IEEE International Conference on Advanced Communication Technology. vol. 1, IEEE, Institute of Electrical and Electronics Engineers, Korea, pp. 14-18, 11th IEEE International Conference on Advanced Communication Technology, Phoenix Park, Korea, Democratic People's Republic of, 15/02/09.

    Behaviors of MIMO UWB-IR Transciever for Statistical Wireless Channels. / Huang, Xu.

    IEEE International Conference on Advanced Communication Technology. ed. / Hyeong-Ho Lee. Vol. 1 Korea : IEEE, Institute of Electrical and Electronics Engineers, 2009. p. 14-18.

    Research output: A Conference proceeding or a Chapter in BookConference contribution

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    AB - Multi-antenna-based multi-input multi-output (MIMO) communications becomes the next revolution in wireless data communications. MIMO has gone through the adoption curve for commercial wireless systems to the point that today, all high throughput commercial standards, i.e. WiMax, Wi-Fi, cellular, etc., have adopted MIMO as part of the optional. This paper is to present our investigations of the behaviors of the MIMO Ultra-Wide-Band-Impulse Radio (UWB-IR) systems, which will contribute to optimal designs for the low-power high-speed data communication over unlicensed bandwidth spanning several GHz, such as IEEE 802.15 families. Our investigations are based on that without requiring any channel estimation procedure we develop and analyze three no coherent transceiver models. The simulations for our investigations show (a) the Poisson distribution of the path arriving will affect the signal-noise ratio (SNR) and (b) for the Nakagami distributed multipath fading channel the “m” factor will impact on the SNR on the MIMO UWB-IR systems

    M3 - Conference contribution

    SN - 9788955191387

    VL - 1

    SP - 14

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    BT - IEEE International Conference on Advanced Communication Technology

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    Huang X. Behaviors of MIMO UWB-IR Transciever for Statistical Wireless Channels. In Lee H-H, editor, IEEE International Conference on Advanced Communication Technology. Vol. 1. Korea: IEEE, Institute of Electrical and Electronics Engineers. 2009. p. 14-18