Parametric and modal work-holding method for automated inspection

What is claimed is: 1. A method of sequentially delivering each workpiece of a plurality of workpieces, each workpiece being from a different family of workpieces, to a workholder to hold the workpiece during inspection by an inspection instrument of an inspection system, the inspection system comprising the inspection instrument, a robot having an end effector configured to grasp each workpiece, the robot disposed to move each workpiece directly to a measurement volume of the inspection instrument, and a control system in control communication with the robot, the method comprising: providing a plurality of non-identical workpieces for inspection by the workpiece inspection system, each workpiece of the plurality of workpieces being from a different family of a plurality of families of workpieces; providing a plurality of workpiece delivery rulesets, each ruleset of the plurality of workpiece delivery rulesets corresponding, respectively, to a family from the plurality of families of workpieces; and, for each such non-identical workpiece: retrieving, from the plurality of workpiece delivery rulesets, a ruleset corresponding to the family of said workpiece, said corresponding ruleset comprising a set of parameters to automatically customize transfer of the workpiece to the workholder, said set of parameters including a parameter specifying an orientation of the end effector relative to the workpiece prior to grasping the workpiece for delivery to the workholder; and sequentially, using the control system to: (a) customize at least one of the operation of the robot pursuant to the parameters of the corresponding ruleset to orient the end effector relative to the workpiece prior to grasping the workpiece with the end effector; and subsequently, (b) operate the robot to deliver said non-identical workpiece to the workholder. 2. The method of claim 1 wherein: the corresponding ruleset comprises a parameter specifying a wait time between (i) the robot end effector arriving at a workholder with a workpiece and (ii) subsequently releasing said workpiece by the end effector, pursuant to which the control system customizes the operation of the robot to cause the robot to pause for at least the wait time prior to releasing said workpiece. 3. The method of claim 2 , wherein: the corresponding ruleset comprises a parameter specifying that the workholder grasps the workpiece prior to said releasing said workpiece by the end effector, pursuant to which the control system customizes the operation of the robot and the workholder to cause the workholder to grasp the workpiece prior to said releasing said workpiece by the end effector, so that the workpiece is held by the workholder before being released by the end effector. 4. The method of claim 2 , wherein the corresponding ruleset comprises a parameter specifying that the workholder is to first grasp the workpiece only after said releasing said workpiece by the end effector, pursuant to which the control system customizes the operation of the robot and the workholder to cause workholder to first grasp the workpiece only after said releasing said workpiece by the end effector, so that the workpiece is not grasped by the workholder before being released by the end effector. 5. The method of claim 1 wherein: the corresponding ruleset comprises a parameter specifying a wait time between (i) the workholder releasing a workpiece and (ii) an act of grasping said workpiece, by the end effector, pursuant to which the control system operates the robot to pause for at least the wait time prior to retrieving said workpiece form the workholder. 6. The method of claim 1 , wherein: the workholder has a workpiece interface, the workpiece interface configured to close to grasp a workpiece, the workpiece interface having a maximum available closing force; and wherein the corresponding ruleset comprises a parameter quantitatively specifying a specified closing force for closing the workpiece interface, said specified closing force being less that the maximum available closing force, pursuant to which the control system customizes the operation of the workholder to close the workpiece interface at a force not greater than the specified closing force. 7. The method of claim 1 wherein: the corresponding ruleset comprises a parameter specifying a safe position for the end effector above a workpiece prior to grasping the workpiece for delivery to the workholder, pursuant to which the control system customizes the operation of the robot to move the end effector to the safe position prior to grasping the workpiece. 8. The method of claim 1 wherein the end effector comprises a gripper having a maximum gripper gap, and wherein the corresponding ruleset comprises a parameter quantitatively specifying a specified gap width that is which is less than the maximum gripper gap, pursuant to which the control system customizes the operation of the robot to open the gripper to the specified gap width. 9. The method of claim 1 wherein the end effector comprises a gripper having a minimum gripper gap, and wherein the ruleset comprises a parameter instructing the robot to close the gripper to its minimum griper gap, pursuant to which the control system customizes the operation of the robot to close the gripper to its minimum griper gap when grasping a workpiece. 10. The method of claim 1 wherein the workholder has a workpiece interface, and the workpiece interface has a maximum workpiece interface gap, and wherein the corresponding ruleset comprises a parameter quantitatively specifying a specified workpiece interface gap width that is less than the maximum workpiece interface gap, pursuant to which the control system customizes the operation of the workholder to open the workpiece interface to the specified workpiece interface gap width. 11. The method of claim 1 wherein the workholder has a workpiece interface, and wherein the workpiece interface has a maximum closing speed for closing the workpiece interface, and wherein the corresponding ruleset comprises a specified workpiece interface closing speed that is less that the maximum closing speed for closing the workpiece interface, pursuant to which the control system the control system customizes the operation of the workholder to close the workpiece interface at a speed not greater than the specified workpiece interface closing speed. 12. The method of claim 1 wherein the workholder has a workpiece interface, and wherein the corresponding ruleset comprises a parameter quantitatively specifying a closing delay between (a) positioning of the workpiece by the robot in a specified position relative to the workpiece interface, and (b) closing of the workpiece interface to grasp the workpiece, pursuant to which the control system the control system customizes the operation of the workholder to close the workpiece interface after passing of said closing delay. 13. The method of claim 1 wherein the workholder has a workpiece interface, and wherein the corresponding ruleset comprises a parameter quantitatively specifying an opening delay between (a) completion of an inspection operation by a workpiece inspection instrument, and (b) opening the workpiece interface to release the workpiece, pursuant to which the control system customizes the operation of the workholder to open the workpiece interface after passing of said opening delay. 14. A workpiece inspection system for sequentially delivering each workpiece of a plurality of workpieces, each workpiece being from a different family of workpieces, to a workholder, the system comprising: a