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It introduces a novelty geometric convergence method for finding reciprocal arrangements on doubly curved reference surfaces which include an adaptable length of members, demonstrating that existing methods \u2014 typically focused on generating reciprocal arrangements from predefined geometric rotations \u2014 represent only a subset of the broader design space for this typology. The proposed Adaptive Reciprocal Framing Tessellation method is applicable to both synclastic and anticlastic surfaces and allows for a strategic placement of support conditions of the anisotropic timber system, although some boundary conditions are needed to guarantee convergence of the structural arrangement. 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It introduces a novelty geometric convergence method for finding reciprocal arrangements on doubly curved reference surfaces which include an adaptable length of members, demonstrating that existing methods \u2014 typically focused on generating reciprocal arrangements from predefined geometric rotations \u2014 represent only a subset of the broader design space for this typology. The proposed Adaptive Reciprocal Framing Tessellation method is applicable to both synclastic and anticlastic surfaces and allows for a strategic placement of support conditions of the anisotropic timber system, although some boundary conditions are needed to guarantee convergence of the structural arrangement. 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