69 hall.

Brocklebank, J. C., dan Dickey, D. A., (2003), “SAS for Forecasting Time Series”, John Wiley & Sons, North Carolina USA.

Burgueno, A., Vilar, E., dan Puigcerver, M., (1990), “Spectral Analysis of 49 Years of Rainfall Rate and Relation to Fade Dynamics”, IEEE Transactions on Communications, vol. 38, no. 9, hal. 1359-1366.

Capsoni, C., Fedi, F., Magistroni, C., Paraboni A., dan Pawlina, A., (1987), “Data and theory for a new model of the horizontal structure of rain cells for propagation applications,”

Radio Sci., vol. 22, no. 3, pp. 395-404, May-June.

Capsoni, C., Luini, L., Paraboni, A. dan Riva, C., (2006), “Stratiform and convective rain discrimination deduced from local P(R),” IEEE Trans. Antennas Propagat., vol 54, no. 11, pp. 3566-3569, Nov.

Chandra, K., dan Reibman, A. R., (1999), ”Modeling One and Two Layer VBR Video”,

IEEE/ACM Transaction On Networking, Vol. 7, No.3.

Cook, R. D., dan Weisberg, S., (1982), ” Residuals and Influence In Regression”, Chapman and Hall, NY, USA.

Féral, L., Sauvageot, H., Castanet, L. dan Lemorton, J., (2003b), “HYCELL – A new hybrid model of the rain horizontal distribution for propagation studies: 2. Statistical modeling of the rain rate field,” Radio Sci., vol. 38, no. 3, pp. 23.

Féral, L., Sauvageot, H., Castanet, L., dan Lemorton, J., (2003a), “HYCELL – A new hybrid model of the rain horizontal distribution for propagation studies: 1. Modeling of the rain cell,” Radio Sci., vol. 38, no. 3, pp. 22.

Fiebig, U. C., (2002), “A Time-Series Generator Modelling of Rain Fading and Its Seasonal and Diurnal Variations”, COST-280 International Workshop, Malvern, UK.

Gremont, B., dan Filip, M., (2004), “Spatio-Temporal Rain Attenuation Model For Application to Fade Mitigation Techniques”, IEEE Trans. Antennas and Propagation, Vol. 52, No. 5, May 2004, pp. 1245-1256.

Hardenberg, J. V., Ferraris L., dan Provenzale, A., (2003), “The shape of convective rain cells,” Geophys. Res. Lett., vol. 30, no. 24, 2280, DOI: 10.1029/2003GL018539.

Hendrantoro, G., dan Indrabayu, (2005), “A Multichannel Autoregresive Model of Rain Attenuation on Multiple Radio Links and Its Application in Assessment of Fade

Mitigation Schemes in Fixed Wireless Systems Above 10 GHz”, Proceedings of the 28th

URSI General Assembly, New Delhi, India.

Hendrantoro, G., Indrabayu, Suryani, T., dan Mauludiyanto, A., (2006), “A Multivariate Autoregressive Model for Rain Attenuation on Multiple Short Radio Link”, IEEE

Antennas and Wireless Propagation Letters, Vol 5, , p. 54-57.

Hendrantoro, G., Mauludiyanto, A., dan Handayani, P., (2006), “A Measurement System for

space-time Variation of Rainfall Rate and Millimeter wave specific Attenuation in Indonesia”, Proceeding APMC2006, 12-15 Desember, Yokohama Japan.

Hendrantoro, G., Mauludiyanto, A., Muriani, Cahyono, D., dan Matsushima, A., (2007) “Measurement of Time-Varying Rain Rainfall Rate in Surabaya and Estimation of

Attenuation statistic by Synthetic Strom Technique”, Korea-Japang Microwave

Conference KJMW2007, Naha Japan.

Hendrantoro, G., Bultitude, R., dan Falconer, D., (2002), “Use of Cell-Site Diversity in Fixed Cellular Systems under Rainy Conditions”, IEEE Journal on Selected Areas in

Communications, vol. 20, no. 3, hal. 602-614.

Hendrantoro, G., Mauludiyanto, A., dan Handayani, P., (2004), ”An Autoregressive Model for Simulation of Time Varying Rain Rate”, 10Th International Symposium on Antenna

Technology and Applied Electromagnetics and URSI Conference, Ottawa, Canada, July

20-23.

Iriawan, N., dan Astuti, S. P., (2006), “Mengolah Data Statistik dengan Mudah

Menggunakan Minitab 14”, Andi Yogyakarta.

ITU-R Rec. 530-12, (2007), “Propagation Data and prediction methods required for the

design of terrestrial lin-of sight systems”.

ITU-R Rec. P.837-4, (2003), ”Characteristics of precipitation for propagation modeling”. ITU-R Rec. P.838-3, (2005), ”Specific Attenuation Model for Rain for Use in Prediction

Methods”.

Kanellopoulos, J. D., dan Koukoulas, S. G., (1991), “Outage Performance Analysis of Route Diversity Systems of Cellular Structure,” Radio Science, vol. 26, no. 4, pp. 289-299. Kanellopoulos, J.D., dan Kafetzis, P., (1986), ”Comparison of Synthetic Storm Technique

with a conventional Rain Attenuation Prediction Model”, IEEE Transactions on Antennas and Propagation, Vol AP-34 No.5 May.

Kanellopoulos, S. A., Panagopoulos, A. D., dan Kanellopoulos, J. D., (2007), “Calculation of

Novel Mathematical Approach”, IEEE Transactions on Antennas and Propagation, Vol.

55, No. 11, November, pp. 3257 – 3264.

Khamis, N. H. H., Din, J., dan Rahman, T. A., (2004), ”Determination of Rain Cell Size Distribution for Microwave Link Design in Malaysia”, RF and Microwave Conference, October 5-6, Selangor - Malaysia.

Khamis, N. H. H., Din, J., dan Rahman, T. A., (2005), “ Analysis of Rain Cell Size Distribution from Meteorological Radar Data for Rain Attenuation Studies”, Asia-Pasific

Conference On Applied Electromaganetics Proceedings, Johor Bahru-Malaysia,.

Lacoste, F., Bousquet, M., Castanet, L., Cornet, F., dan Lemorton, J., (2004), "Improvement of the ONERA-CNES rain attenuation time series synthesiser and validation of the dynamic characteristics of the generated fade events", Proceedings

2nd CNES Workshop on Earth- Space Propagation, Toulouse, France, October.

Lin, S. H., (1975), “A Method for Calculating Rain Attenuation Distribution on Microwave Paths,” Bell System Technical Journal, vol. 54, no. 6, hal. 1051.

Maagt, P. J. L., Touw, S. I. E., Dijk, J., Brusard, G., dan Allbutt, J. E., (1993), “Results of 11.2 GHz Propagation Experiments in Indonesia”, Electron Lett., Vol. 29, pp. 1988-1990.

Mahmudah, H., Wijayanti, A., Mauludiyanto, A., Hendrantoro, G., dan Matsushima, A., (2008), “Analysis of Tropical Attenuation Statistics using Synthetic Storm for Millimeter

Wave Wireless Network Design”, 2008 Fifth International Conference on Wireless and

Optical Communications Networks (WOCN’08), May 5,6,and 7, 2008, Surabaya, East Java, Indonesia.

Maseng, T., dan Bakken, P. M., (1981), “A Stochastic Dynamic Model of Rain Attenuation”, IEEE Transactions on Communications, Vol. COM-29, No. 5, pp. 660-669.

Mauludiyanto, A., Hendrantoro, G., Purnomo, M. H., dan Suhartono, (2009b), “Optimasi

Pemodelan ARIMA dengan Efek Deteksi Outlier pada Data Curah Hujan di Surabaya”,

Prosiding Seminar Radar Nasional III, Savoy Homann Bidakara Hotel Bandung, 30 April, hal. 63-67.

Mauludiyanto, A., dan Hendrantoro, G., (2008), “Analisa Spektral Curah Hujan Tropis

Menggunakan Data Surabaya Untuk Evaluasi Sistem Radar Dan Komunikasi Radio Di Atas 10 Ghz”, Prosiding Seminar Radar Nasional 2008, 30 April, LIPI Jakarta, hal.

Mauludiyanto, A., dan Hendrantoro, G., (2008), “Pembangkitan Curah Hujan Tropis

Menggunakan Data Surabaya Untuk Evaluasi Sistem Radio Gelombang Milimeter”,

Prosiding SNASTIA, 31 Mei, Ubaya Surabaya, hal. 184-189.

Mauludiyanto, A., Hendrantoro, G., dan Hutajulu, P., (2008), “Simulation of Tropical Rain

Attenuation for Evaluation of Millimeter-Wave Wireless Network”, Proceeding WOCN

2008, 5-7 May, Surabaya Indonesia.

Mauludiyanto, A., dan Hendrantoro, G., (2008), “Analisa Spektral Redaman Hujan Tropis

Menggunakan Data Pengukuran Di Surabaya Untuk Evaluasi Sistem Radio Gelombang Milimeter”, Prosiding SNATI, 21 Juni, UII Jogyakarta, hal. G.1-4.

Mauludiyanto, A., Hendrantoro, G., Purnomo, M. H., Ramadhany, T., dan Matsushima, A., (2010), “ARIMA Modeling of Tropical Rain Attenuation on a Short 28-GHz Terresterial

Link”, IEEE Antennas and Wireless Propagation Letters, Vol. 9.

Mauludiyanto, A., Hendrantoro, G., Purnomo, M. H., dan Suhartono, (2009a), “Pemodelan

ARIMA dan Deteksi Outlier Data Curah Hujan Sebagai Evaluasi Sistem Radio Gelombang Milimeter”, JUTI (Jurnal Ilmiah Teknologi Informasi), FTIF ITS Surabaya,

Vol. 7 No. 3, Januari, hal. 107 – 112.

Mauludiyanto, A., Hendrantoro, G., Purnomo, M. H., dan Suhartono, (2009c), “Pemodelan

VARIMA dengan Efek Deteksi Outlier Terhadap Data Curah Hujan”, Prosiding SNATI,

20 Juni, UII Jogyakarta, hal. H. 1-4.

Mauludiyanto, A., Muriani, Markis, L., Hendrantoro, G., dan Matsushima, A., (2007),

“Preliminary Results from the Study of Raindrop Size Distribution and Rainfall Rate in Indonesia for the Development of Millimetre-Wave Systems in Tropical Regions”,

ISAP2007, August 20-24, Niigata, Japan.

Merceret, F. J., dan Ward, J. G., (2006), “Spatial properties of wind differences in the lowest three kilometers of the atmosphere”, Poster P10.8, Twelfth AMS Conference on Aviation and Range Meteorology, Atlanta, GA, 29 January - 2 February.

Montopoli, M., dan Marzano, F. S., (2007), “Maximum-likelihood retrieval of modeled convective rainfall patterns from midlatitude C-band weather radar data,” IEEE Trans.

Geosci. Remote Sens., vol. 45, no. 7, pp. 2403-2416, July.

Morita, K., dan Higuti, I., (1976), “Prediction Methods for Rain Attenuation Distributions of Micro- and Millimeter Waves”, Review of the Electrical Communications Lab., vol. 24, no. 7-8, hal. 651-668.

Panagopoulos A. D., dan Kanellopoulos, J. D., (2002), “Cell-Site Diversity Performance of

Millimeter-Wave Fixed Celluler Systems Operating at Frequencies Above 20 GHz”,

IEEE Antennas and Wireless Propagation Letters, Vol. 1, hal. 183-185.

Paraboni, A., Masini, G., dan Elia, A., (2002), “The Effect of Precipitation on Microwave LMDS Networks—Performance Analysis Using a Physical Raincell Model”, IEEE

Journal on Selected Areas in Communications., vol. 20, no. 3, hal. 615-619.

Paulson, K., (2002),” The Spatial-Temporal statistics of rainrate random fields”, Radio Science, vol. 37 no. 5, pp. 21-1 – 21-8, Sept.

Pfaff, B., (2008) “Analysis of Integrated and Cointegrated Time Series with R”, Springer, Second Edition.

Pfaff, B., (2008), ”VAR, SVAR and SVEC Models: Implementation Within R Package VARS”, Journal of Statistical Software, Volume 27, Issue 4.

Rodriguez, A. A., (2000), “VARMA Modeling of The Production Function”, International

Advance in Economic Research, Vol. 6 No. 2.

Rusdi, M., Hendrantoro, G., dan Mauludiyanto, A., (2009), “Modelling of Rain Rate in

Surabaya using Fuzzy Autoregressive”, The First International Seminar on Science and

Technology (ISSTEC), Universitas Islam Indonesia, January 24-25, Jogjakarta, Indonesia.

Salehuddin, M., Hanantasena, B., dan Wijdemans, L.J.M., (1999), “Ka-Band Line-Of-Sight

Radio Propagation Experiment in Surabaya Indonesia”, Proceeding of Fifth Ka Band

Utilization Conference, October 18-20, Taormina, Italy, pp. 161-165.

Salehudin, M., Hendry, dan Yusuf, A. A., (1999), “28 GHz Line of Sight Link Propagation Experiment in Surabaya Indonesia”, Proceeding of the Industrial Electronic Seminar, Volume 1, Surabaya, hal. 64-67.

Sinka, C., Lakatos, B., dan Bitó, J., (2002), “The Effects of Moving Rain Cell Over LMDS

Systems”, COST Action 280 Propagation Impairment Mitigation for Millimetre Wave

Radio Systems, 1st International Workshop, July.

Soesetijo, S., Mauludiyanto, A., dan Hendrantoro, G., (2009a), “Pemodelan Vektor AR

Dengan Uji Kausalitas Terhadap Data Spasial Curah Hujan di Surabaya”, CITEE, 4

Agustus, UGM Jogyakarta, hal. 91-94.

Soesetijo, S., Mauludiyanto, A., dan Hendrantoro, G., (2009b), “Analisa Kointegrasi dan

Kausalitas Pada Data Spasial Curah Hujan di Surabaya”, Industrial Electronics

Soesetijo, S., Mauludiyanto, A., dan Hendrantoro, G., (2009c), “Rain Cell Size Determination

using Granger Causality Test”, 1st APTECS, 22 Desember, LPPM-ITS Surabaya, hal. 187-190.

Suhartono, (2004), “VARIMA and STAR Model Evaluation for Space-Time Series Forescasting “, Jurnal Matematika Alternatif, Vol 3, No. 2.

Sweeney, D. G., dan Bostian, C. W., (1999) “Implementing Adative Power Control as a 30/20-GHz Fade Countermeasure”, IEEE Transactions on Antennas and Propagation, vol. 47, no. 1, hal. 40-46.

Tan, J., dan Pedersen, L., (2000), “Study of Simultaneous Coverage and Route Diversity Improvement under Rainy Periods for LMDS Systems at 42 GHz”, ESA Millenium

Conference on Antennas and Propagation, AP2000, Davos, Switzerland.

Van de Kamp, M. M. J. L., (2003), “Rain Attenuation as a Markov Process : The Meaning of

Two Sample”, 1st International Workshop, COST Action 280, ONERA, Toulouse, France.

Wei, W. W. S., (1994), “Time Series Analysis”, The Advance Book Programe, Department of Statistic Temple University, Addison Wesley Publishing Company, USA.

Wei, W. W. S., (2006), “Time Series Analysis”, New York, Addison Wesley.

Yadnya, M. S., Mauludiyanto, A., dan Hendrantoro, G., (2008b), “ARMA Modelling from

rain rate Measurement to Simulation Communication Channel Modelling for Millimeter Wave in Surabaya”, The 6th Kumamoto University Forum, November 5-6, Surabaya,

Indonesia

Yadnya, M. S., Wijayanti, A., Mahmudah, H., Muriani, Mauludiyanto, A., dan Hendrantoro, G., (2007), “Simulation of Rain Rate and Rain Attenuation for Evaluation

Millimeter-Wave in Indonesia, Proceding ICSIIT 2007, 26-27 Juli, Bali Indonesia.

Yadnya, M. S., Mauludiyanto, A., dan Hendrantoro, G., (2008a), “Statistical of Rain Rates

for Wireless Channel Communication in Surabaya”, Proceeding WOCN 2008, 5-7 May,

Surabaya Indonesia.

Yadnya, M. S., Mauludiyanto, A., dan Hendrantoro, G., (2008), “Pemodelan ARMA untuk

Curah Hujan di Surabaya”, Prosiding SITIA, Mei, Jurusan Teknik Elektro, ITS.

Yadnya, M.S., Mauludiyanto, A., dan Hendrantoro, G., (2008), “Simulation of Rain Rates for

Wireless Channel Communication in Surabaya”, Proceeding ICAST 2008, 13-14 March,