Nine-point path synthesis problem

Zachary A. Griffin, Jonathan D. Hauenstein, Chris Peterson, and Andrew J. Sommese.

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Consider computing the Hilbert function for the zero-scheme defined by the 8652 isolated nonsingular solutions of the nine-point path synthesis problem described in Problem 3 of [WMS]. This problem computes the four-bar linkages through the following 9 real points

(0.25, 0.00),	(0.52, 0.10),	(0.80, 0.70),
(1.20, 1.00),	(1.40, 1.30),	(1.10, 1.48),
(0.70, 1.40),	(0.20, 1.00),	(0.02, 0.40).

See Four-bar linkages using alphaCertified for more details.
The remainder of this page documents calculating the Hilbert function for the zero-scheme corresponding to the 8652 isolated nonsingular solutions which is

1, 13, 87, 403, 1454, 4342, 8652, 8652, ...

Directions
Before you begin, you will need to have Matlab installed.

Save the files NinePtSolns and HilbertFuncVeronese.m in the same directory.
Execute the Matlab command
>> [reg, hilbertFunc] = HilbertFuncVeronese(12, 'NinePtSolns', 1e-10, 0)
from the directory.
Here is the output.

[WMS]

C.W Wampler, A.P. Morgan, and A.J. Sommese, Complete solution of the nine-point path synthesis problem for four-bar linkages, ASME J. Mech. Des., 114 (1992), 153–159.

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