Aerospace transparency having moisture sensors

What is claimed is: 1. An aircraft windshield comprising: a plurality of sheets joined together to provide a laminated window having a vision area, the window having a moisture seal on peripheral and marginal edge portions of the sheets; a moisture sensor positioned between the sheets and/or between the sheets and the moisture seal, wherein the moisture sensor comprises a dielectric material comprising at least one of an extruded sleeve and an extruded layer formed from an absorbent extruded polymer material, between a first electrode and a second electrode, wherein the dielectric material is in electrical contact with the first and second electrodes and maintains the first and the second electrodes spaced from one another and out of surface contact with one another; and sensor electronics operatively connected to the electrodes of the moisture sensor to measure an electrical property of the moisture sensor to determine an amount of moisture absorbed by the dielectric material, wherein the sensor electronics comprise: a power source for applying alternating electrical current to the first and the second electrodes; and an electrical measurement mechanism configured to measure a complex impedance (ohms) of the dielectric material and to indicate an amount of moisture within the laminated window in an area of the moisture sensor based on the measured complex impedance. 2. The aircraft windshield according to claim 1 , wherein the electrical measurement mechanism is configured to measure capacitance and resistance changes of the dielectric material due to moisture absorbed by the dielectric material. 3. The aircraft windshield according to claim 2 , wherein the absorbent extruded polymer comprises nylon 4-6, nylon 6, nylon 6-6, nylon 6-12, nylon 11, polyamide-imide, polybenzimidazole, polyethersulfone, polysulfone, and/or combinations thereof. 4. The aircraft windshield according to claim 1 , wherein: the moisture sensor has a coaxial shape and the dielectric material has an elongated shape with a center hole, the first electrode comprises an outside sleeve having a plurality of spaced holes through a wall of the first electrode, the first electrode is in surface contact with an outer surface of the dielectric material, the second electrode comprises a wire, and the dielectric material is extruded over the wire, such that the first electrode is in surface contact with an inner surface of the dielectric material. 5. The aircraft windshield according to claim 1 , wherein the first and the second electrodes are made of a material selected from: ruthenium, rhodium, palladium, silver, osmium, iridium, platinum, gold; alloys of tin plated copper, nickel-chromium, aluminum; and/or combinations thereof. 6. The aircraft windshield according to claim 4 , wherein a thickness of the dielectric material extruded over the wire is between 0.001 inch and 0.032 inch. 7. The aircraft windshield according to claim 1 , wherein the dielectric material has an elongated shape having a first surface and a second surface, the first electrode is in electrical contact with the first surface of the dielectric material and the second electrode is in electrical contact with the second surface of the dielectric material, and the first and the second electrodes are only electrically connected to one another by way of the dielectric material and the first and the second electrodes each have a plurality of spaced holes extending through walls of the respective electrodes. 8. The aircraft windshield according to claim 7 , wherein the dielectric material has a 4-sided cross section with the first electrode mounted on a side of the dielectric material designated as the first side of the dielectric material and the second electrode is mounted on a side of the dielectric material opposite to the first side. 9. The aircraft windshield according to claim 7 , wherein a thickness of the dielectric material between the first surface and the second surface thereof is between 0.001 inch and 0.032 inch. 10. The aircraft windshield according to claim 1 , wherein the moisture seal overlays the marginal edge portions and the peripheral edge portions of the laminated window. 11. The aircraft windshield according to claim 1 , wherein: the plurality of sheets comprises two or more transparent sheets joined together by an adhesive, and the moisture sensor is positioned on a surface portion of at least one of the sheets. 12. The aircraft windshield according to claim 1 , wherein each of the sheets comprises a first major surface opposite to a second major surface, and a peripheral surface joining the first major surface and the second major surface, and wherein the surface portion of the at least one of the sheets is selected from the group of the first major surface, the second major surface, the peripheral surface and combinations thereof. 13. The aircraft windshield according to claim 1 , comprising a first moisture sensor, a second moisture sensor, and a third moisture sensor, wherein the first moisture sensor is positioned between the moisture seal and the peripheral edge portion of at least one of the sheets, the second moisture sensor is positioned between the sheets, and the third moisture sensor is positioned between the moisture seal and an outer surface portion of the laminated window. 14. The aircraft windshield according to claim 1 , wherein the moisture sensor is a first elongated moisture sensor having a first end and a second opposite end, and comprising second, third, and fourth elongated moisture sensors; each of the moisture sensors comprising a first end and an opposite second end, wherein the first, second, third and fourth moisture sensors are mounted on a major surface of one of a pair of sheets of the plurality of sheets adjacent to peripheral edge portions of the sheet, wherein the second end of the first sensor is adjacent and spaced from the first end of the second sensor, the second end of the second sensor is adjacent and spaced from the first end of the third sensor, the second end of the third sensor is adjacent and spaced from the first end of the fourth sensor, and the second end of the fourth sensor is adjacent and spaced from the first end of the first sensor. 15. The aircraft windshield according to claim 14 , wherein the first, second, third and fourth elongated moisture sensors form a first boundary and comprise a second boundary within and spaced from the first boundary, and a third boundary within and spaced from the second boundary, wherein each of the second and third boundaries comprises at least one elongated moisture sensor, defined as a fifth elongated moisture sensor for the second boundary and the sixth elongated moisture sensor for the third boundary. 16. The aircraft windshield according to claim 1 , wherein each of the plurality of sheets comprises a first major surface opposite to a second major surface and a peripheral surface joining the first major surface, wherein the second major surface of a first sheet of the plurality of sheets is in facing relationship to and spaced from the second major surface of a second sheet of the plurality of sheets, and wherein the moisture sensor is between the first sheet and the second sheet and spaced from the peripheral surface of the first sheet and the second sheet. 17. The aircraft windshield according to claim 1 , wherein one or more of the plurality of sheets of the laminated window is selected from the group of uncured plastic sheets, annealed glass sheets, and heat and chemically strengthened, clear, colored, coated and uncoated glass she