A class of nonlinear and continuous type Leontief model and its corresponding conditional input-output equation are introduced, and two basic problems under the so called positive or negative boundary assumption are p...A class of nonlinear and continuous type Leontief model and its corresponding conditional input-output equation are introduced, and two basic problems under the so called positive or negative boundary assumption are presented. By approaches of nonlinear analysis some solvability results of this equation and continuous perturbation properties of the relative solution sets are obtained, and some economic significance are illustrated by the remark.展开更多
Given two positive constants α and β, we prove that the integral inequality ∫_0^1f^α+β(x)dx≥∫_0^1∫^α(x)x^β dx holds for all non-negative valued continuous functions ∫ satisfying ∫_x^1f(t)dt≥∫_x^1t...Given two positive constants α and β, we prove that the integral inequality ∫_0^1f^α+β(x)dx≥∫_0^1∫^α(x)x^β dx holds for all non-negative valued continuous functions ∫ satisfying ∫_x^1f(t)dt≥∫_x^1tdt for x∈[0,1] if and only if α+β≥1.This solves an open problem proposed recently by Ngo, Thang, Dat, and Tuan.展开更多
文摘A class of nonlinear and continuous type Leontief model and its corresponding conditional input-output equation are introduced, and two basic problems under the so called positive or negative boundary assumption are presented. By approaches of nonlinear analysis some solvability results of this equation and continuous perturbation properties of the relative solution sets are obtained, and some economic significance are illustrated by the remark.
文摘Given two positive constants α and β, we prove that the integral inequality ∫_0^1f^α+β(x)dx≥∫_0^1∫^α(x)x^β dx holds for all non-negative valued continuous functions ∫ satisfying ∫_x^1f(t)dt≥∫_x^1tdt for x∈[0,1] if and only if α+β≥1.This solves an open problem proposed recently by Ngo, Thang, Dat, and Tuan.
