... JEJL JEJL Ci ( t ) = βi ( t ) S - S ( 4.26 ) JEJL β ; ( t ) ∑ S ; ( t ) – Si ( t ) = C ; ( t ) JEJL ( 4.27 ) ( 3 ) Generator participation constraint : When the load increases , the active power and reactive power output of the ...
... jEJL m - Further , note that from irreducibility of the matrix A it follows that amj for at least one jЄ JH Ø . Hence , we have Σ amj ( ( Vi ) j – ( Vi ) m ) ~ 1 . JEJL - Therefore , with Dmm = amm ~ 1 , it follows after using equation ...
... jeJl ke]; kelz jeJl Proof: Let b1: (b1 . ..bm)T. Then, in R, _ xOlAUZb : Agzxolb : AOZAUIb xa'xazb — { xazxalb _ AOIAUZb ' which implies the commutativity of two individual AU; here, x0l A,72 : Aozxol because x61 is a scalar in relation ...
... JEjL - - EE E ′ , 0 ) ] EH ♫ 6 ( E ) [ 01⁄2‚n ′ ( E → E ′ , 0 ) + σ1⁄2‚ñ ( E → E ′ , 0 ) ] ( 1 − cos e ) d ( cos e ) dE dE ' - + The last term may be denoted by : Ꮓ ( ơẩn‚j → j + σ2l , j → j ) ( 1 − μ ) - n , SEH ( E ) dE JEjL ( ...
... jeJl. rel rET:a,-_Ir — each multiperiod order is assigned to a subset of consecutive planning periods and a single supplier, XmmHfl/g] 2 X,-,-,, +Xu'1.2 — I; i E I,j 6 J2, 1], 12 E Tzaj 5 'n < 12 Order Allocation Constraints: — each ...
... jEJL i = 0 jЄJ iel jeJ Vojt≤1 ; Vojt E { 0,1 } ; jЄ Ji ( 7.12 ) JEJL Constraint ( 7.11 ) prevents loading of a new product unless the total number of products in the system is less than P , the maximum number of pallets allowed ...
... jeJL TЄTC If we denote the number of points in J by M , Σλcr \ XT ( tj , yj ) ) 2 ≤ Mx ̄ \ ( cL ) 2 . jEJL TЄTc It thus suffices to show M ( CL ) 2 2 log λ . Further , if we denote the number of packets in Te by N , Nc2 ≈ Σ c4 ≤ Σ c ...