On Sum of a Polynomial Multiplied by Generalized Fibonacci Numbers

Abstract

Given that a,b∈ N, c0,c1∈ Z, (c0,c1)≠ (0,0), and a generalized Fibonacci sequence (sn)n≥ 0 where s0 = c0, s1 = c1, and sn+1=asn+bsn-1 for all positive integers n. In this paper, we get the result that for every polynomials P(x) with real coefficients, we can always find three polynomials F1(x), G1(x), H1(x) (not necessarily distinct) with real coefficients satisfying the identity: \;2Σk=1nP(k)sk-1 = F1(n)sn+1 + G1(n)sn + H1(n), \;∀ n∈ N. Furthermore, we serve two constraints for (sn)n≥ 0: one constraint implies that there are infinitely many triples (F1(x), G1(x), H1(x)) satisfying the identity \;2Σk=1nP(k)sk-1 = F1(n)sn+1 + G1(n)sn + H1(n), \;∀ n∈ N, while another constraint implies that there is only one triple (F1(x), G1(x), H1(x)) satisfying the identity \;2Σk=1nP(k)sk-1 = F1(n)sn+1 + G1(n)sn + H1(n), \;∀ n∈ N.