ITU-R F (2009/10) GHz 27,5-25,25 0 1

ITU-R F.09- (009/0) ' ()*-%&-!" # $. / $ )+, )- GHz 7,-, 0 F

ITU-R F.09- ii.. (IPR) (ITU-T/ITU-R/ISO/IEC).ITU-R http://www.itu.int/itu-r/go/patents/en. (http://www.itu.int/publ/r-rec/en ) ( ) ( ) BO BR BS BT F M P RA S RS SA SF SM SNG TF V :.ITU-R 00 ITU 00..(ITU)

ITU-R F.09- (009-00) * ITU-R F.09- - - GHz 7,-, (e.i.r.p.) - - e.i.r.p..ghz 7,-, (ATPC). GHz 7,-, ( - - - - ( GHz 7,-, GHz 7,-, - ( () - ( (POCS) - db 4 ( ( ( *.7 9 7

ITU-R SA.609 ITU-R F.09- POCS ITU-R SA. ITU-R SA.08 ( ) ITU-R SA.76 (P-MP FS) - - :(e.i.r.p. ) GHz 7,-, e.i.r.p.. ) MHz ITU-R SA.76 :(3 θ +8 dbw for 0 θ 0 +4 0 log(θ/) dbw for 0 < θ 90 MHz e.i.r.p. +4 dbw for 0 θ +4 0 log(θ/) dbw for < θ 90. : 3. (ATPC) e.i.r.p. MHz dbw 7+ ITU-R SA.76. P-MP FS e.i.r.p. ITU-R F.49 3 : 3 GHz 7,-,, 6,4 : ITU-R SA.76-77. 60 33 3 9 90.7 89 8 9 47 7 70 60 39 6 49 46 44 4 3 6. 47 e.i.r.p. -..ITU-R F.336.. - 3 δ (0 < δ < ) 7 log (/δ) db. e.i.r.p.. δ db 3. 3

3 ITU-R F.09- P-MP POCS GHz 7,-, () (POCS).GHz 7,-, (P-MP FS) - -.(LMDS) P-MP FS db(w/mhz) 8+ e.i.r.p. db(w/mhz) 8+ e.i.r.p. LMDS.ITU-R F.78. ITU-R SA.. %0, db(w/mhz) 48 LMDS.. A. 4 3 B A.dB(W/MHz) 4+ e.i.r.p. B db(w/mhz) 8+ e.i.r.p.. 3 e.i.r.p. db 9 3.dB(W/MHz) 8+ 9. %0,. LMDS.B 4.POCS 6. POCS LMDS 7.dB(W/MHz) 4+ e.i.r.p. db(w/mhz) 47.P-MP FS.GHz 7,-, P-MP FS

ITU-R F.09-4 LMDS...... LMDS e.i.r.p.. LMDS LMDS... LMDS. e.i.r.p. db(w/mhz) 8+ e.i.r.p. LMDS. :. () PG G P t t r r = l l l 3 : ) ((W/MHz) ) ((W/MHz) ( ) ( ) ( ) ( ) l ( ). :P r :P t :G t :G r :l :l :l 3. º0 db(w/mhz) 8+.. ( ) l 3.

ITU-R F.09- () l : 4πd = λ (m).(m) :d :λ :. : (n) (3) P. r = i n PtiGtiGri l i= il il 3i.. (3) : (4) Pr q GtiGri Ptij m j= = l i= il il 3i. :q :m :.db (4) 0 70 000 43 LMDS (996 ) (0-90 ).( ) 996 :P (km) R P () 0,0 = α R p = α P β. 0,44 = β 0,03 = α. 0,44 = β

ITU-R F.09-6. () : (N) R h R p (6) N = Int η + 0. Rh (km) (km) LMDS ( η > 0) :N :Int() :R p :R h :η :.0,30 km -. (P-MP FS) - ( 3) (6) () 944. ( )...ITU-R F.336. º90 db 3 dbi db 3. : (7a) ( ) 0 θ G θ = G for θ ϕ 3 ϕ3 (7b) θ G ( θ) = G0 0log for θ > ϕ3 ϕ3 (dbi) (dbi) ( ).( ) db 3 :G(θ) :G0 :θ :ϕ 3 : (7c) ϕ 3 = G 3000 0 0 90

7 ITU-R F.09- LMDS-.ITU-R F.404 GHz 7, (8a) A LowLat ( ) ( ) =.73 / + 0.9463 θ + 0.034 θ + h 0.33 + 0.49 θ + h 0.486 + 37 θ (8b) (8c) ( ) = + + + + + A MidLat.96 / 0.8 θ 0.030 θ h 0.69 0.478 θ 409 h [ + 0.89 θ + h( 63 + 0.3037 θ) 0. h] A HiLat = 8.77 / + 067 : (db) (º, ± ) :A LowLat (db) (º4 º, ) :A MidLat (db) (º4 ) :A HiLat º90 θ 0 ( ) :θ km 3 h (km) :h. km 0,0 LMDS. ) :. (.... º0, LMDS e.i.r.p..lmds LMDS dbi 8.dB 0 ITU-R S.67 (9a) φ G (φ) = G0 for 0 ϕ.9 ϕ φ 3 3 (9b) G ( φ) = G 0 0 for,9 ϕ 3 < ϕ 3.6 ϕ 3 (9c) ϕ G ( φ) = G0 0 log for 3.6 ϕ 3.6ϕ 3 < ϕ and G(ϕ) 0 3 (9d) G(ϕ) = 0 otherwise

ITU-R F.09-8 (dbi) ( ) ( ) db 3 :G0 :G(ϕ) :ϕ :ϕ 3 : (9e) ϕ3 = 7 000 0 G0 LMDS..... ) º,6 km 400 km 800 (EOS).(.4 º98,6.. 0 LMDS. - -.3..3 A. 43.. 3

9 ITU-R F.09- FIGURE Assumed locations LMDSof LMDS systems 09-0. ITU-R SA.76.º. º8 º74 º4 db(w/mhz) 8+ e.i.r.p.. º4 db e.i.r.p.. LMDS.dB LMDS 7, º db(w/mhz) 39 db(w/mhz) 80 db 3 db 9. db(w/mhz) 8+ e.i.r.p..itu-r SA....3..3

ITU-R F.09-0 º4 (db(w/mhz)). 43 db(w/mhz) 8+ 944. ) 8 6 4 0 º0, 6 º4 40 4 0 60 / (() 4 6 8 8 6 4 0 4 6 8 / ( ) 6 70 7 80 0-09 º8 º74 4 3. º4. º8 db(w/mhz) 44,9 º74 º4.dB(W/MHz) 46,0.

º0, 8 6 4 0 ITU-R F.09- º74 (db(w/mhz)). 43 db(w/mhz) 8+ e.i.r.p. 944 º74 (() ) 3 70 7 4 0 60 6 70 / 4 6 8 7 80 8 8 6 4 0 4 6 8 / ( ) 03-09 4 º8 (db(w/mhz)). 43 db(w/mhz) 8+ e.i.r.p. 944 º0, º8 8 6 6 0 ) (() / 4 0 4 6 8 6 7 7 80 8 6 4 0 4 6 8 / ( ) 60 6 70 7 80 8 09-04

ITU-R F.09- ITU-R SA.76..3 (IRU-R F.49 ) 3 ITU-R SA.76 GHz 7,-,..º0,.ITU-R SA.76 db 4...dB(W/MHz) 44,3.dB(W/MHz) 39. db 3 LMDS..dB db,.db, e.i.r.p.. e.i.r.p. db,. e.i.r.p..º7.º, LMDS º LMDS... ITU-R P.837. 7 8.GHz 7,-, ITU-R F.78 db(w/mhz) 8+ e.i.r.p. km db 37 8 ITU-R F.7.dB 37 db 37.K 0,9999 km.k 0,9999 K LMDS db(w/mhz) 8 e.i.r.p. km. e.i.r.p. K. db(w/mhz) 8

3 ITU-R F.09- (db) 0,3 f e.i.r.p. 944 ITU-R SA.79 43 db(w/mhz) 8+ (db(w/mhz)) 44,3 (db(w/mhz)) 44,6 ( ),4 e.i.r.p. (db(w/mhz)) 7,7 / M 0 ( ) 96,833 ( ) 3,833 ( ) 74 0, 4,8 43,0 4,8 6,8 M 0 96,833 3,833 7 4,0 4,0 46,0 4,8 3,8 H 7,00 39,33 70,0 4, 43, 4,6 8,9 K 6 87,70 4,830 60, 40,9 43, 0, 7,9 K 3 74,000 40,70 39,6 4,7 48,3 4,4,7 E 3 6,983,467 6 0,9 39,3 40, 8,6 8,6 E 9 8,67 34,000 49,3 39,0 40,3 6, 0,6 E 9 8,67 34,000 46 0,9 39,3 40, 4,6, E 9 8,67 34,000 44,3 39,0 40,3,,4 E 9 8,67 34,000 4 0,3 4,4 4,7 6, 3,0 K 3 74,000 40,70 3 4,9 40,8 4,7 8, 4,4 K 0 83,080 4,330 6,6 4,0 46,6 6, 4,4 N 7 90,367 3,700 6,4,6 47,7 49,3 0,8 0, N 7 90,367 3,700,, 43,4 4,6 4,7,3 M 7,00 3,0 47, 4,6,,9 3,6 M 4 3,70 34,400 9 7,3 46,7 3,9, 6,4 K 6,0 48,30 8,4 47,8 0, 3,6 0,3 H 8,983,0 90,3 49,3,6 9,3 0,3 K 8,90 4,033 9 4,8 0, 4,9 8,3 7,3 K 44,07 36,00 3 3,0 48,4,4, 0,8 K 44,07 36,00, 43,8 4,3, 7,9 D 0,00 37,70 60, 4,3 46,4,6 4, E 9 8,67 34,000 77, 7,,,9 0, 39,0 44,3 3,4 0, 40, 46,4 4,4 4,9 6, 6,7,3, 4, 4,7 4,4 6,4

ITU-R F.09-4. º8 º74 º4 ITU-R SA.76 km 400. º,6. 0 (CDF) LMDS CDF 4 4. º4... %0, %0 %99. db(w/mhz) 48.dB(W/MHz) 48 db(w/mhz) 48. 6. 7 7,7.dB(W/MHz) 48. 60 0 (h) º4 40 0 00 80 60 40 0 00 80 60 40 99 s 99 0 0 0 0 0 0 99 0 90 80 70 60 0 40 30 (db(w/mhz)) ) º4 0-09.3

ITU-R F.09-6 º4 (db(w/mhz)) 48 36 (db(w/mhz)) 38 40 4 44 46 48 0 0 0 30 40 0 (s). º74 7. %0, 6, db(w/mhz) 48. 8. 30,9.s 0 s db(w/mhz) 48 7 60 06-09 º74 (h) 40 0 00 80 60 40 0 00 80 60 40 0 (s 0 99 99 0 0 0 ) 0 0 90 80 70 60 0 40 30 09-07 (db(w/mhz)) º74

36 ITU-R F.09-6 8 º74 (.3 ) º74 db(w/mhz) 48 (db(w/mhz)) 38 40 4 44 46 48 0 0 0 30 40 0 60 (s) 09-08. º8 9. ITU-R SA. 9 º8 ( ) 40 0 00 80 60 (s 99 0 99 0 99 0 99 0 0 40 99 0 0 99 0 00 0 99 80 0 60 99 0 40 99 0 0 99 0 0 90 80 70 60 0 40 30 (db(w/mhz)) ) º8 09-09

7 ITU-R F.09- () db(w/mhz) I 43,8 37,8 48,3 db(w/mhz) 48 <I 48 <I db(w/mhz) 0,8 0,,0 0, N/A I 48 <I db(w/mhz) ( ) 0 60 N/A 0 db(w/mhz) 48 <I 0 db(w/mhz) 48 >I 30,9 7 ( ) N/A. 6, 7,7 ( /,6~) 4 4 4 db 3. (ITU-R F.333 ) db(w/mhz) 48. % 0, º4. ITU-R SA. º8 B. e.i.r.p. db(w/mhz) 4+ e.i.r.p. (º,6 km 400 ).db(w/mhz) 8+ db(w/mhz) 4.(º98,6 km 800 ) EOS.dB(W/MHz) 48. º4 LMDS 0.EOS 30 º74 º4 º8 () 4.4

ITU-R F.09-8 0 º4 4 48 I (db(w/mhz)) 00 0 ( ) 30 09-0 EOS º4 4 I (db(w/mhz)) 48 00 0 ( ) 09-30 e.i.r.p. LMDS db(w/mhz) 4 db(w/mhz) 4+ %0, 3.( ) 30

9 ITU-R F.09-. %0,06 EOS. 30 º4 0 % Ix > I 0 0 0 0 3 00 9 90 8 80 7 70 6 60 0 4 40 3 30 Ix (db(w/mhz)) 09-0 30 EOS 3 º4 % Ix > I 0 0 0 0 3 00 9 90 8 80 7 70 6 60 0 4 40 3 30 09-3 Ix (db(w/mhz)).

ITU-R F.09-0 º4. º8 º74 º4. º8 º74. LMDS 4 db(w/mhz) 4. º4. º8 º74 6..4 Roll (degrees) ( ) º4 4 = FIGURE 4 43 db(w/mhz) 8 0,Spatial interference 0= k profile º4 for 4 W 944 LMDS Geostationary 4 W, k = 0, res. = 0., 8 db(w/mhz), 43 LMDS service areas, 944 hubs worldwide.00 0.00 9.00 8.00 7.00 6.00.00 4.00 3.00.00.00 0.00.00.00 3.00 4.00.00 6.00 7.00 8.00 9.00 0.00.00 3.00.00.00 0.00 9.00 8.00 7.00 6.00.00 4.00 3.00.00.00 0.00.00.00 3.00 4.00.00 6.00 7.00 8.00 9.00 0.00.00.00 3.00 ( ) Pitch (degrees) db(w/mhz) 36.00 to 30.00 4.00 to 36.00 48.00 to 4.00 09-4

ITU-R F.09- Roll (degrees) ( ) º74 FIGURE 43 db(w/mhz) 8 0,Spatial interference º74 profile for 74 W 944 LMDS Geostationary 74 W, k = 0, res. = 0., 8 db(w/mhz), 43 LMDS service areas, 944 hubs worldwide.00 0.00 9.00 8.00 7.00 6.00.00 4.00 3.00.00.00 0.00.00.00 3.00 4.00.00 6.00 7.00 8.00 9.00 0.00.00 = 0=k 3.00.00.00 0.00 9.00 8.00 7.00 6.00.00 4.00 3.00.00.00 0.00.00.00 3.00 4.00.00 6.00 7.00 8.00 9.00 0.00.00.00 3.00 ( ) Pitch (degrees) db(w/mhz) 36.00 to 30.00 4.00 to 36.00 48.00 to 4.00 09-

Roll (degrees) ( ) 0.00 9.00 8.00 7.00 6.00.00 4.00 3.00.00.00 0.00.00.00 3.00 4.00.00 6.00 7.00 8.00 9.00 0.00.00 º8 ITU-R F.09-6 FIGURE 6 43 db(w/mhz) 8 0, = Spatial interference 0=k º8 profile for 8 E 944 LMDS Geostationary 8 E, k = 0, res. = 0., 8 db(w/mhz), 43 LMDS service areas, 944 hubs worldwide.00 3.00.00.00 0.00 9.00 8.00 7.00 6.00.00 4.00 3.00.00.00 0.00.00.00 3.00 4.00.00 6.00 7.00 8.00 9.00 0.00.00.00 3.00 ( ) Pitch (degrees) db(w/mhz) 36.00 to 30.00 4.00 to 36.00 48.00 to 4.00 09-6 ) 0 = k ( ) = k.(itu-r F.336. (4 ) db(w/mhz) 4. GHz 7,-,. 3.4

3 ITU-R F.09- db(w/mhz) 4 (P-MP FS) - - : - - -.. -.. GHz 7,-, - - - - - - - ) - - - -.(. - -. LMDS.LMDS 4 3. LMDS. LMDS e.i.r.p. e.i.r.p.. : (0) (db) i Γi = 0log r i r 0 e.i.r.p. (km) i.km :Γi :ri :r0 : e.i.r.p. km..db(w/mhz) + e.i.r.p. km,.db(w/mhz) 8+ e.i.r.p.. ITU-R P.30. (0).. e.i.r.p.

LMDS ITU-R F.09-4....dB(W/MHz) 4+ LMDS e.i.r.p. POCS POCS POCS LMDS 6.6 POCS POCS. POCS.POCS 3. POCS.6 3 POCS (dbi) 3, 3, 3, 3, ) (,6 7 (km) 400 30.( ) (HPBW) º44.POCS.(dB 0 = L S ) ITU-R S.67 HPBW º8.ITU-R SA.609 %0, db(w/mhz) 47.ITU-R P.676.. 30 POCS 3.6. db 3 4.6 LMDS POCS. 30

ITU-R F.09-30 7 POCS 0 % Ix > I 0 0 0 0 3 00 9 90 8 80 7 70 6 60 0 4 40 3 30 8 Ix (db(w/mhz)) POCS 30 09-7 0 % Ix > I 0 0 0 0 3 00 9 90 8 80 7 70 6 60 0 4 40 3 30 Ix (db(w/mhz)) 09-8

ITU-R F.09-6 POCS.dB (W/MHz) 47 3 A db 4 ITU-R SA.76.LMDS ITU-R SA. db (W/MHz) 8+ e.i.r.p..db (W/MHz) 39.km.ITU-R SA. % 0,.( ) º74 º4. 7 6, db (W/MHz) 48 ITU-R SA. º8. ((0) ).( km ) e.i.r.p. 4 3. 3 LMDS P-MP db (W/MHz) 8+ e.i.r.p.. e.i.r.p. (4 ) B A db 6..A db (W/MHz) 4+ db 6 7

7 ITU-R F.09- - ITU-R F.49 - P-MP FS... ( ) ε r ITU-R F.49.( ε r 0=ε r ).ITU-R F.49 (8c) (8b) (8a) ε s ε s ε r.