Your search keyword '"Taper Equations"' showing total 2 results

1. APLICACIÓN DE ECUACIONES DE CONICIDAD PARA TECA (Tectona grandis L.F.) EN LA ZONA COSTERA ECUATORIANA.

Author

Vásquez, Carlos Esteban Lara

Subjects

*TEAK, *PLANTATIONS, *AGRICULTURE, *FOREST management, *NONLINEAR regression

Abstract

Five non-segmented taper functions were modeled for Tectona grandis, which has increased significantly their planted area in Coastal Ecuador were formulations of this type are unknown. A process of nonlinear regression (maximum likelihood) was performed to a sample of 125 trees with fit evaluation. Subsequently, an independent validation process were performed, non parametric tests and a relative height analysis in order to identify strengths and weaknesses in each part of the shank was also applied. The fifth grade polynomial function showed the best fit (Absolute Bias = 1.009, Fit Index = 0.962), for that reason, the integrated form of this equation was calculated. It is expected that these developed models and their application benefits could be useful for the forestry comunity in Ecuador. [ABSTRACT FROM AUTHOR]

Published

2011

2. APPLICATION OF CONICITY EQUATIONS FOR TEAK (Tectona grandis L.F.) IN COAST ECUADORIAN ZONE

Author

Lara Vásquez, Carlos Esteban

Subjects

MANEJO FORESTAL, TECA, CONICIDAD, ECUADOR, TECTONA GRANDIS, TAPER EQUATIONS, FOREST MANAGEMENT, TEAK

Abstract

Five non-segmented taper functions were modeled for Tectona grandis, which has increased significantly their planted area in Coastal Ecuador were formulations of this type are unknown. A process of nonlinear regression (maximum likelihood) was performed to a sample of 125 trees with fit evaluation. Subsequently, an independent validation process were performed, non parametric tests and a relative height analysis in order to identify strengths and weaknesses in each part of the shank was also applied. The fifth grade polynomial function showed the best fit (Absolute Bias = 1.009, Fit Index = 0.962), for that reason, the integrated form of this equation was calculated. It is expected that these developed models and their application benefits could be useful for the forestry comunity in Ecuador. Se modelaron cinco funciones no segmentadas de conicidad para Tectona grandis, especie forestal que ha incrementado notoriamente su área plantada en la zona costera ecuatoriana y donde se desconocen formulaciones de este tipo. Se realizó un proceso de regresión no lineal por el método de máxima verosimilitud a una muestra de 125 árboles y se evaluó su ajuste. Posteriormente, se hizo un proceso de validación independiente, se aplicaron pruebas no paramétricas y un análisis por altura relativa, para identificar fortalezas y debilidades en cada parte del fuste. La función polinomial de quinto grado presentó el mejor ajuste (Sesgo Absoluto = 1.009, Índice de Ajuste = 0.962), por ello se calculó la forma integrada de esta ecuación. Se espera que estos modelos desarrollados y sus bondades de aplicación puedan ser de utilidad para la comunidad forestal ecuatoriana.

Published

2012