逢甲學報, Band 28逢甲大學, 1995 |
Im Buch
Ergebnisse 1-3 von 9
Seite 89
... Proof : Comparing ( 11.2 ) ( or ( 10 ) ) with ( 13.1 ) we have p = [ By / 2 ( B + y ) ] ( N / s ) = x ( t ) / 2 = TC / 2 as given ɛ = 2 . Q.E.D. PROPOSITION C : The charging length of the optimal single - step toll is half of the length ...
... Proof : Comparing ( 11.2 ) ( or ( 10 ) ) with ( 13.1 ) we have p = [ By / 2 ( B + y ) ] ( N / s ) = x ( t ) / 2 = TC / 2 as given ɛ = 2 . Q.E.D. PROPOSITION C : The charging length of the optimal single - step toll is half of the length ...
Seite 497
... proof of Lemma 2 in [ 2 ] , at least one such cycle satisfies the theorem . Therefore , the vertices of G can be partitioned into three sets A , B , and C as in theorem 1. The vertices in set C are the vertices on levels 1 and 2 plus ...
... proof of Lemma 2 in [ 2 ] , at least one such cycle satisfies the theorem . Therefore , the vertices of G can be partitioned into three sets A , B , and C as in theorem 1. The vertices in set C are the vertices on levels 1 and 2 plus ...
Seite 500
... proof of the PST . C is represented by the dotted lines in the plot ( b ) The location of the vertices in set C for case ( 2a ) . ( c ) The location of the vertices in set C for case ( 2b ) . € 1,2 f2 V 6 2,7 e7,6 € 2,3 V1 500 6 逢甲 ...
... proof of the PST . C is represented by the dotted lines in the plot ( b ) The location of the vertices in set C for case ( 2a ) . ( c ) The location of the vertices in set C for case ( 2b ) . € 1,2 f2 V 6 2,7 e7,6 € 2,3 V1 500 6 逢甲 ...