On Generic Linearly Constrained Frameworks

Zakir Deniz; Hakan Guler; Anthony Nixon

arXiv:2605.17544·math.CO·May 19, 2026

On Generic Linearly Constrained Frameworks

Zakir Deniz, Hakan Guler, Anthony Nixon

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Abstract

A linearly constrained framework in $R^{d}$ is a bar-joint framework where, in addition, vertices with loops are constrained to lie in given affine subspaces. In the generic case, when each vertex is incident to sufficiently many loops, a characterisation of rigidity was obtained by Jackson, Nixon and Tanigawa for all $d \geq 3$ . By extending this to characterise the rank function of the linearly constrained rigidity matroid (under the same loop hypothesis), sufficient conditions for a looped simple graph to be (globally) rigid in $R^{d}$ are obtained. In the 2-dimensional case generic rigidity was characterised by Streinu and Theran, and we obtain a sharper sufficient condition in this case. A key technique is the application of the discharging method.

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