Subspace Codes for Random Networks Based on Plücker Coordinates and Schubert Cells

The Pl\"{u}cker coordinate description of subspaces has been recently discussed in the context of constant dimension subspace codes for random networks, as well as the Schubert cell description of certain code parameters. In this paper this classical tool is used to reformulate some standard constructions of constant dimension codes so as to give a unified framework. A general method of constructing non-constant dimension subspace codes with respect to a given minimum subspace distance or minimum injection distance among subspaces is presented. These codes may be described as the union of constant dimension subspace codes restricted to selected Schubert cells. The selection of these Schubert cells is based on the subset distance of tuples corresponding to the Pl\"{u}cker coordinate matrices associated with the subspaces contained in the respective Schubert cells. In this context, it is shown that a recent construction of non-constant dimension Ferrers-diagram rank-metric subspace codes (Khaleghi and Kschischang) is subsumed in the present framework.