The aim of the present paper is to provide an intrinsic investigation of the fundamental properties of the most important geometric objects associated with the fundamental linear connections on aâ€¦ (More)

Adopting the pullback approach to Finsler geometry, the aim of the present paper is to provide intrinsic (coordinate-free) proofs of the existence and uniqueness theorems for the Chern (Rund) andâ€¦ (More)

The aim of the present paper is to provide a global presentation of the theory of special Finsler manifolds. We introduce and investigate globally (or intrinsically, free from local coordinates) manyâ€¦ (More)

Adopting the pullback approach to global Finsler geometry, the aim of the present paper is to provide new intrinsic (coordinate-free) proofs of intrinsic versions of the existence and uniquenessâ€¦ (More)

The present paper is a continuation of a foregoing paper [Tensor, N. S., 69 (2008), 155-178]. The main aim is to establish an intrinsic investigation of the conformal change of the most importantâ€¦ (More)

The aim of the present paper is to provide an intrinsic investigation of projective changes in Finlser geometry, following the pullback formalism. Various known local results are generalized andâ€¦ (More)

We investigate what we call a conformal Î² change in Finsler spaces, namely L(x, y) â†’ âˆ—L(x, y) = eL(x, y) + Î²(x, y) where Ïƒ is a function of x only and Î²(x, y) is a given 1form. This changeâ€¦ (More)

In this paper, we introduce and investigate a general transformation or change of Finsler metrics, which is referred to as a generalized Î²-conformal change: L(x, y) âˆ’â†’ L(x, y) = f(eL(x, y), Î²(x, y)).â€¦ (More)

In this paper, we introduce and investigate a general transformation or change of Finsler metrics, which is referred to as a generalized Î²-conformal change: L(x, y) âˆ’â†’ L(x, y) = f(eL(x, y), Î²(x, y)).â€¦ (More)