... MXN 100, 000, current/noncurrent method is MXN 1, 300, 000, and current method is MXN 800, 000; b) translation losses of MXN 1, 333, MXN 17, 333, and MXN 10 ... €9, 000, 000, resulting in an unrealized gain of US$12, 375, 000. 7. a ...
... 10 A € R ( mxn ) is a SIM ( or CSIM ) . Then At e R ( nxm ) is a { 1 , 3 } -inverse or a Least - Square G - Inverse of A if AAA = A and ( AA ) T = AA # . Definition 11 A e R ( mxn ) is a SIM ( or CSIM ) . Then At e R ( nxm ) is a { 1 ...
... ( MXN ) signals € ( t ) . Equations 10 and 11 are descriptive of the filtering algorithms that have been used to ... € mn € ( t ) € . ( t ) + C2 € mn mn 1 i = с C12 * mn ( t - AT ) + ( 10 ) C ( p + 1 ) € ( t - pAT ) mn The adaptive ...
... T10 [ m x n , fx g ] , and [ n , g ] 0 T2 = 2 0 [ m × n , ƒ × g ] . [ m , f ] & [ n , g ] = ( ( [ m , f ] 0 T1 , [ n , g ] 0 T2 ) ) = ( T1 0 [ m x n , fx g ] , π2 0 [ m × n , ƒ × gl = O ( ( T1 , T2 ) ) 0 [ m x n , ƒ × g ] , by ...
... € Zn [ −10 , 10 ] } . The operator is defined for every ( x , y ) E S , such that : • € round ( P ( x , y ) * 10 ) ... mxn be the single - valued neutrosophic decision matrix of the k - th decision maker and y = ( V12 , ... , p ) be ...
... € E ( x ) * . The hermitian on V * induces a hermitian metric along the fibers of along the fibers of H Chern form : Ω = c ( L , e ) . p * ( H ) is the pullback of H under ф such that ( A ... 10 is a representation at dim 10 -1 ( -18-
... U10 = { x € Rx € R / Xo # 0 } , U01 = { x1 € R / x1 # 0 } and that the gluing map $ 10 $ 10 is given by $ 10 ( x0 ) -1 x - 1 . And we = X check that on U10 2x -2 -1 ¤。× 10 ( ×。) = α ( × ̄1 ) = -2 -2 X +1 + } 2x 1 - X = 2 1 + x 2 1 + x ...
... MxN → M ; ( p , q ) → p ( 2.3.65 ) pr2 : MXN → N ( p , q ) → q ( 2.3.66 ) are the usual projection maps . Proof Leto : ( - € ... 10 The direct sum VW of two real vector spaces V and W is defined to be the set of all pairs ( v , w ) with ...