Mapping theorems on spaces with \(sn\)-network \(g\)-functions (Q2809990)

In this paper a class \(\Delta\) of spaces is introduced by the concept of \(sn\)-network \(g\)-functions. The author considers the question under what conditions is every sequentially-quotient (resp. sequence-covering) boundary-compact mapping defined on a space from class \(\Delta\) a pseudo-sequence-covering (resp. 1-sequence-covering) mapping. The following results are proved: (1)\, if \(X\) is a space in \(\Delta\) and \(f:X\to Y\) is a sequentially-quotient boundary-compact mapping, then \(f\) is a pseudo-sequence-covering mapping; (2)\, if \(X\) is a space with a point-countable \(sn\)-network and in \(\Delta\) and \(f:X\to Y\) is a sequence-covering boundary-compact mapping, then \(f\) is a 1-sequence-covering mapping.