Abstract
A primal-dual path-following algorithm that applies directly to a linear program of the form, min{ctxźAx = b, Hx źu, x ź 0,x ź źn}, is presented. This algorithm explicitly handles upper bounds, generalized upper bounds, variable upper bounds, and block diagonal structure. We also show how the structure of time-staged problems and network flow problems can be exploited, especially on a parallel computer. Finally, using our algorithm, we obtain a complexity bound of O( $$\sqrt n $$ ds2 log(nk)) fortransportation problems withs origins,d destinations (s
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