Prediction of site specific coverage and cell shape for outdoor microcells

Henry L. Bertoni, Leonard Piazzi, George Liang, Nai Wo, Edward Wong

    Research output: Chapter in Book/Report/Conference proceedingConference contribution

    Abstract

    The design of future wireless communication systems employing microcells will require a flexible tool for determining the coverage area based on site specific features. In this paper, the accuracy of a ray based algorithm for predicting the sector average path loss in residential and high rise environments is investigated by comparison with measurements. Measurements were taken in residential and in high rise environments. In the residential environment building heights ranged from 1 to 3 stories and the base station antenna was near rooftop levels, propagation between the base station and the mobile consisted mainly of paths which went over the intervening buildings. This was validated by good agreement with the measurements for the antenna above the rooftops, and fair agreement for the antenna below the rooftops. In the high rise environment the buildings were significantly higher than the base station antenna, so that the dominant contributions to the signal at the receiver are due to propagation around the buildings. Once again the predictions corresponded well the measurements.

    Original languageEnglish (US)
    Title of host publicationElectro International, Conference Proceedings
    PublisherIEEE
    Pages29-36
    Number of pages8
    StatePublished - 1996
    EventProceedings of the ELECTRO'96 - Somerset, NJ, USA
    Duration: Apr 30 1996May 2 1996

    Other

    OtherProceedings of the ELECTRO'96
    CitySomerset, NJ, USA
    Period4/30/965/2/96

    Fingerprint

    Base stations
    Antennas
    Communication systems

    ASJC Scopus subject areas

    • Engineering(all)

    Cite this

    Bertoni, H. L., Piazzi, L., Liang, G., Wo, N., & Wong, E. (1996). Prediction of site specific coverage and cell shape for outdoor microcells. In Electro International, Conference Proceedings (pp. 29-36). IEEE.

    Prediction of site specific coverage and cell shape for outdoor microcells. / Bertoni, Henry L.; Piazzi, Leonard; Liang, George; Wo, Nai; Wong, Edward.

    Electro International, Conference Proceedings. IEEE, 1996. p. 29-36.

    Research output: Chapter in Book/Report/Conference proceedingConference contribution

    Bertoni, HL, Piazzi, L, Liang, G, Wo, N & Wong, E 1996, Prediction of site specific coverage and cell shape for outdoor microcells. in Electro International, Conference Proceedings. IEEE, pp. 29-36, Proceedings of the ELECTRO'96, Somerset, NJ, USA, 4/30/96.
    Bertoni HL, Piazzi L, Liang G, Wo N, Wong E. Prediction of site specific coverage and cell shape for outdoor microcells. In Electro International, Conference Proceedings. IEEE. 1996. p. 29-36
    Bertoni, Henry L. ; Piazzi, Leonard ; Liang, George ; Wo, Nai ; Wong, Edward. / Prediction of site specific coverage and cell shape for outdoor microcells. Electro International, Conference Proceedings. IEEE, 1996. pp. 29-36
    @inproceedings{b76c4919c2a148b0b4319d250525c06f,
    title = "Prediction of site specific coverage and cell shape for outdoor microcells",
    abstract = "The design of future wireless communication systems employing microcells will require a flexible tool for determining the coverage area based on site specific features. In this paper, the accuracy of a ray based algorithm for predicting the sector average path loss in residential and high rise environments is investigated by comparison with measurements. Measurements were taken in residential and in high rise environments. In the residential environment building heights ranged from 1 to 3 stories and the base station antenna was near rooftop levels, propagation between the base station and the mobile consisted mainly of paths which went over the intervening buildings. This was validated by good agreement with the measurements for the antenna above the rooftops, and fair agreement for the antenna below the rooftops. In the high rise environment the buildings were significantly higher than the base station antenna, so that the dominant contributions to the signal at the receiver are due to propagation around the buildings. Once again the predictions corresponded well the measurements.",
    author = "Bertoni, {Henry L.} and Leonard Piazzi and George Liang and Nai Wo and Edward Wong",
    year = "1996",
    language = "English (US)",
    pages = "29--36",
    booktitle = "Electro International, Conference Proceedings",
    publisher = "IEEE",

    }

    TY - GEN

    T1 - Prediction of site specific coverage and cell shape for outdoor microcells

    AU - Bertoni, Henry L.

    AU - Piazzi, Leonard

    AU - Liang, George

    AU - Wo, Nai

    AU - Wong, Edward

    PY - 1996

    Y1 - 1996

    N2 - The design of future wireless communication systems employing microcells will require a flexible tool for determining the coverage area based on site specific features. In this paper, the accuracy of a ray based algorithm for predicting the sector average path loss in residential and high rise environments is investigated by comparison with measurements. Measurements were taken in residential and in high rise environments. In the residential environment building heights ranged from 1 to 3 stories and the base station antenna was near rooftop levels, propagation between the base station and the mobile consisted mainly of paths which went over the intervening buildings. This was validated by good agreement with the measurements for the antenna above the rooftops, and fair agreement for the antenna below the rooftops. In the high rise environment the buildings were significantly higher than the base station antenna, so that the dominant contributions to the signal at the receiver are due to propagation around the buildings. Once again the predictions corresponded well the measurements.

    AB - The design of future wireless communication systems employing microcells will require a flexible tool for determining the coverage area based on site specific features. In this paper, the accuracy of a ray based algorithm for predicting the sector average path loss in residential and high rise environments is investigated by comparison with measurements. Measurements were taken in residential and in high rise environments. In the residential environment building heights ranged from 1 to 3 stories and the base station antenna was near rooftop levels, propagation between the base station and the mobile consisted mainly of paths which went over the intervening buildings. This was validated by good agreement with the measurements for the antenna above the rooftops, and fair agreement for the antenna below the rooftops. In the high rise environment the buildings were significantly higher than the base station antenna, so that the dominant contributions to the signal at the receiver are due to propagation around the buildings. Once again the predictions corresponded well the measurements.

    UR - http://www.scopus.com/inward/record.url?scp=0029707179&partnerID=8YFLogxK

    UR - http://www.scopus.com/inward/citedby.url?scp=0029707179&partnerID=8YFLogxK

    M3 - Conference contribution

    SP - 29

    EP - 36

    BT - Electro International, Conference Proceedings

    PB - IEEE

    ER -