WILLIAM B HALL
Engineering in Atlanta, GA

7384143, Jun 10, 2008

Jul 23, 2003

10/522443

William Jordan Hall - Atlanta GA, US
Joseph Michael Lindacher - Lawrenceville GA, US
Gilberto Hernandez - Aibonito PR, US
Nelson David Baity - Horse Shoe NC, US
Donald G. McKillop - Casselberry FL, US

Novartis AG - Basel

G02C 7/04

351177, 351160 R

The present invention provides a method for converting a desired lens design to a geometry of a contact lens, preferably a customized contact lens or a contact lens having a complex surface design, to be produced in a computer-controlled manufacturing system. The method comprises: providing a lens design of a contact lens having a central axis, an anterior surface and an opposite posterior surface; projecting a predetermined number of points within a predetermined surface tolerance onto a surface of the lens design along each of a desired number of evenly-spaced semi-diameter spokes, each spoke radiating outwardly from the central axis; and for each of the spokes, generating a semi-meridian which is continuous in first derivative and includes a series of arcs and optionally straight lines, wherein each arc is defined by fitting at least three consecutive points into a spherical mathematical function within a desired concentricity tolerance, wherein each of the straight lines is obtained by connecting at least three consecutive points.

2012003, Feb 16, 2012

Aug 10, 2011

13/207171

Yeming Gu - Suwanee GA, US
Rebeca Kyker Bowden - Athens GA, US
William Jordan Hall - Atlanta GA, US
Deborah J. Mulcahy - Suwanee GA, US
Yongxing Qiu - Duluth GA, US
Benjamin David Sullivan - Duluth GA, US
Robert Carey Tucker - Suwanee GA, US

A61B 3/14

351246

Described herein are methods for imaging ocular devices. The methods generally involve (a) applying a scattering agent to the ocular device; and (b) imaging the ocular device using optical coherence tomography (OCT). The methods described herein provide useful structural information about the surface of the device with high sensitivity.

7573974, Aug 11, 2009

Feb 22, 2006

11/359256

Courtney Flem Morgan - Alpharetta GA, US
William Jordan Hall - Atlanta GA, US

Novartis AG - Basel

G01N 23/00

378 4

The invention relates to an apparatus and method for non-contact/non-destructive measurement of the geometry of molded ophthalmic lenses and the precision molds and tooling used in the manufacture of the ophthalmic lenses. In particular the present system uses micro computed tomography to measure the geometries.

2006017, Aug 10, 2006

Dec 20, 2005

11/312270

William Hall - Atlanta GA, US

G01B 11/24

356601000

This invention relates to an apparatus and method for measuring the geometry of a precision mold, particularly a non-linear mold used for ophthalmic lenses.

7433027, Oct 7, 2008

Dec 16, 2005

11/305061

William Jordan Hall - Atlanta GA, US

Novartis AG - Basel

G01B 9/00, G01B 11/24, G01B 11/06

356124, 356613, 356632

The present invention relates to a non-contact/non-destructive method and apparatus for measuring the thickness of an ophthalmic lens. The present invention also provides a method for inspecting or measuring the base curve of a lens.

2007000, Jan 4, 2007

Jun 21, 2006

11/471921

William Hall - Atlanta GA, US

G01B 11/02, G01B 11/28

356503000, 356630000

This invention relates to an apparatus and method for measuring the thickness of mold components and/or lenses during a manufacturing process. In particular, the present invention uses fiber optic interferometry to measure the center thickness of ophthalmic lenses created by a double-sided molding process.

2009026, Oct 22, 2009

Jun 23, 2009

12/456840

William Jordan Hall - Atlanta GA, US

G01B 9/02, G01B 11/06

356 51

This invention relates to an apparatus and method for measuring the thickness of mold components and/or lenses during a manufacturing process. In particular, the present invention uses fiber optic interferometry to measure the center thickness of ophthalmic lenses created by a double-sided molding process.