Characteristic-Dependent Linear Rank Inequalities via Complementary Vector Spaces
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A characteristic-dependent linear rank inequality is a linear inequality that holds by ranks of subspaces of a vector space over a finite field of determined characteristic, and does not in general hold over other characteristics. In this paper, we produce new characteristic-dependent linear rank inequalities by an alternative technique to the usual Dougherty's inverse function method [9]. We take up some ideas of Blasiak [4], applied to certain complementary vector spaces, in order to produce them. Also, we present some applications to network coding. In particular, for each finite or co-finite set of primes P, we show that there exists a sequence of networks N(k) in which each member is linearly solvable over a field if and only if the characteristic of the field is in P, and the linear capacity, over fields whose characteristic is not in P, --> (infinite) as k --> 1.
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