The problem of bandwidth estimation for filtered backprojection (FBP) in Positron Emission Tomography (PET) image reconstruction is studied in the context of generalized deconvolution. A generalized cross-validation (GCV) approach is presented. Results on eigendecomposition of symmetric one-dimensional and two-dimensional circulant matrices are derived and computational implications of the above in making reconstruction bandwidth estimation a simple extension of standard FBP are developed. The methodology is studied using numerical simulations on a class of idealized one-dimensional generalized deconvolution problems and PET phantom data. In each case, performance evaluations are excellent and in real-time, proving the potential viability of this approach in a practical setting. This research is supported in part by (NSF) CAREER DMS #0437555 and the NIH DC-006740.