Precision machine tool

What is claimed is: 1. A precision machine tool that uses a tool to perform precision machining on a workpiece comprising: a tool support configured to support the tool; a moving mechanism actively coupled to the tool support wherein the moving mechanism moves the tool support; a controller operatively coupled to the tool wherein the controller is configured to provide machining commands to the tool according to a machining program for machining a workpiece with a machining accuracy in an order of 10 nanometers or less; and one or a plurality of imaging devices fixed to the tool support or the moving mechanism, wherein the one or a plurality of imaging devices each have an imaging unit that is operatively coupled to the controller to position the image unit to capture an image of a machining point specified by the machining program on the workpiece with respect to the tool, wherein each imaging unit comprises at least one objective lens located at a proximal end of the imaging unit; an image sensor located distal of the at least one objective lens, wherein the imaging unit is positioned to capture an image of the machining point having a length per pixel of 0.03 mm or less. 2. The precision machine tool according to claim 1 , wherein at least one of the imaging devices is positioned with respect to the machining point so as to satisfy the following inequality: 2 × D × tan ⁡ ( θ 2 ) R s ⁢ a · 1 1 + x 2 ≦ 0.03 [ mm ] where D [mm] is a distance from a portion of the imaging unit a front end of the imaging unit or a principal point of the objective lens in the imaging unit to the machining point, θ [deg] is a field angle of the imaging unit, x is a ratio of a short side to a long side of the image captured by the imaging unit wherein the image captured by the imaging unit is a rectangular area where the long side is defined as 1, and Rsa is a number of pixels on the long side in the image so that the machining point so that the machining point displayed on the display unit configured to be observed by the operator. 3. The precision machine tool according to claim 2 , wherein the image captured by the imaging unit is displayed on a display screen of a display unit that has an aspect ratio of 16:9. 4. The precision machine tool according to claim 1 , wherein the imaging unit includes an illuminator configured to illuminate the machining point with light. 5. The precision machine tool according to claim 1 , wherein at least one of the imaging devices is configured to have a flexible rod structure. 6. The precision machine tool according to claim 1 , wherein at least one of the imaging devices includes an adjusting mechanism that adjusts an orientation of the imaging unit. 7. The precision machine tool according to claim 6 , further comprising: an actuator configured to actuate the adjusting mechanism; and an actuation controller configured to control the actuator, wherein the actuation controller is configured to control the actuator in accordance with a type, a size, or a length of the tool. 8. The precision machine tool according to claim 7 , wherein the actuation controller is configured to control the actuator so that the imaging unit follows the machining point when the machining point designated by the machining command of the machining program changes. 9. The precision machine tool according to claim 1 , further comprising a display unit to display at least one of an image captured by at least one of the imaging units of the imaging devices and an enlarged image of a specified region in the image.