Analysing of Indoor Radio Wave Propagation on Ad-hoc Network by Using TP-LINK Router
This paper presents results of measurements campaign
carried out at a carrier frequency of 24GHz with the help of TPLINK
router in indoor line-of-sight (LOS) scenarios. Firstly, the
radio wave propagation strategies are analyzed in some rooms with
router of point to point Ad hoc network. Then floor attenuation is
defined for 3 floors in experimental region. The free space model and
dual slope models are modified by considering the influence of
corridor conditions on each floor. Using these models, indoor signal
attenuation can be estimated in modeling of indoor radio wave
propagation. These results and modified models can also be used in
planning the networks of future personal communications services.
[1] H. Hashemi, "Impulse Response Modeling of Indoor Radio Propagation
Channels," IEEE J. Select. Areas Comm. Vol. 11, No. 7, September
1993, pp. 967-978
[2] M. Panjwani, T. Rappaport, "Interactive Computation of Coverage
Regions for Wireless Communications in Multifloored Indoor
Environments," IEEE J. Select. Areas Comm. Vol. 14, No. 3, April
1996, pp. 420-429.
[3] T. S. Rappaport, "Characterization of UHF Multipath Radio Channels in
Factory Buildings," IEEE Trans. Antennas Propagat., Vol. 37, No. 8, pp.
1058-1069, Aug. 1989
[4] L. Dossi, G. Tartara, "Statistical Analysis of Measured Impulse
Response Functions of 2 GHz Indoor Radio Channels," IEEE J. Select.
Areas Comm. Vol. 14, No.3, April 1996, pp. 405-410.
[5] W. C. Jakes, Jr., Microwave Mobile Communications. New York: Wiley
1974.
[6] T. S. Rappaport, Wireless Communications: Principle & Practice. New
Jersey: Prentice Hall Inc., 1996
[7] A.J. Rustako, Jr., N. Amitay, G.J. Owens and R.S. Roman, "Radio
Propagation at Microwave Frequencies for Line-of-Sight Microcellular
Mobile and Personal Communications," IEEE Trans. on Vehi. Tech.,
vol. 40, no. 1, pp. 203-210, Feb.1991.
[8] S.Y. Tan and H.S. Tan, "Improved Three Dimensional Ray Tracing
Technique for Microcellular Propagation Models," Elec. Lett., vol. 31,
no. 17, pp. 1503-1505, 17th Aug. 1995.
[1] H. Hashemi, "Impulse Response Modeling of Indoor Radio Propagation
Channels," IEEE J. Select. Areas Comm. Vol. 11, No. 7, September
1993, pp. 967-978
[2] M. Panjwani, T. Rappaport, "Interactive Computation of Coverage
Regions for Wireless Communications in Multifloored Indoor
Environments," IEEE J. Select. Areas Comm. Vol. 14, No. 3, April
1996, pp. 420-429.
[3] T. S. Rappaport, "Characterization of UHF Multipath Radio Channels in
Factory Buildings," IEEE Trans. Antennas Propagat., Vol. 37, No. 8, pp.
1058-1069, Aug. 1989
[4] L. Dossi, G. Tartara, "Statistical Analysis of Measured Impulse
Response Functions of 2 GHz Indoor Radio Channels," IEEE J. Select.
Areas Comm. Vol. 14, No.3, April 1996, pp. 405-410.
[5] W. C. Jakes, Jr., Microwave Mobile Communications. New York: Wiley
1974.
[6] T. S. Rappaport, Wireless Communications: Principle & Practice. New
Jersey: Prentice Hall Inc., 1996
[7] A.J. Rustako, Jr., N. Amitay, G.J. Owens and R.S. Roman, "Radio
Propagation at Microwave Frequencies for Line-of-Sight Microcellular
Mobile and Personal Communications," IEEE Trans. on Vehi. Tech.,
vol. 40, no. 1, pp. 203-210, Feb.1991.
[8] S.Y. Tan and H.S. Tan, "Improved Three Dimensional Ray Tracing
Technique for Microcellular Propagation Models," Elec. Lett., vol. 31,
no. 17, pp. 1503-1505, 17th Aug. 1995.
@article{"International Journal of Electrical, Electronic and Communication Sciences:59885", author = "Khine Phyu and Aung Myint Aye", title = "Analysing of Indoor Radio Wave Propagation on Ad-hoc Network by Using TP-LINK Router", abstract = "This paper presents results of measurements campaign
carried out at a carrier frequency of 24GHz with the help of TPLINK
router in indoor line-of-sight (LOS) scenarios. Firstly, the
radio wave propagation strategies are analyzed in some rooms with
router of point to point Ad hoc network. Then floor attenuation is
defined for 3 floors in experimental region. The free space model and
dual slope models are modified by considering the influence of
corridor conditions on each floor. Using these models, indoor signal
attenuation can be estimated in modeling of indoor radio wave
propagation. These results and modified models can also be used in
planning the networks of future personal communications services.", keywords = "radio wave signal analyzing, LOS radio wavepropagation, indoor radio wave propagation, free space model, tworay model and indoor attenuation.", volume = "5", number = "3", pages = "439-6", }