Apparatus and method for facilitating transmission of a wireless signal from embedded sensors

What is claimed is: 1. An embedded sensor apparatus comprising: a substrate with a cavity; a wireless sensor embedded in the cavity of the substrate; a protective cover coupled to the wireless sensor; and a ferrite layer covering the protective cover, wherein the ferrite layer comprises a ferrite material selected based in part on an operating frequency of the wireless sensor. 2. The embedded sensor apparatus of claim 1 , further comprising an electromagnetic reflector coupled between the wireless sensor and the substrate. 3. The embedded sensor apparatus of claim 1 , wherein the ferrite layer is a ferrite plug. 4. The embedded sensor apparatus of claim 1 , wherein the ferrite layer is a deposited ferrite layer. 5. The embedded sensor apparatus of claim 1 , wherein the ferrite layer comprises a ferrite plug and a deposited ferrite layer. 6. The embedded sensor apparatus of claim 1 , wherein the ferrite layer comprises a mixture of a ferrite powder and a metal powder. 7. The embedded sensor apparatus of claim 6 , wherein a material of the ferrite powder is selected based in part on the operating frequency of the wireless sensor. 8. The embedded sensor apparatus of claim 1 , wherein the cavity of the substrate is shaped to generate directional tuning of the wireless sensor. 9. The embedded sensor apparatus of claim 8 , wherein the cavity of the substrate is “E”-shaped. 10. The embedded sensor apparatus of claim 1 , wherein the wireless sensor is a radio frequency (RF) sensor. 11. The embedded sensor apparatus of claim 1 , wherein the embedded sensor apparatus is a moving component. 12. A method of facilitating transmission of a wireless signal from an embedded wireless sensor, the method comprising: embedding the wireless sensor in a cavity of a substrate; coupling a protective cover to the wireless sensor; and covering the protective cover with a ferrite layer, wherein the ferrite layer comprises a ferrite material selected based in part on an operating frequency of the wireless sensor. 13. The method of dam 12 , further comprising coupling an electromagnetic reflector between the wireless sensor and the substrate. 14. The method of dam 12 , wherein the covering the protective cover with the ferrite layer comprises inserting a ferrite plug. 15. The method of claim 12 , wherein the covering the protective cover with the ferrite layer comprises depositing the ferrite layer on the protective using a cold spray process. 16. The method of claim 12 , wherein the covering the protective cover with the ferrite layer comprises depositing the ferrite layer on the protective cover using a thermal spray process. 17. The method of dam 16 , wherein the thermal spray process comprises a plasma spray process applying arcing and heat, and locally melting a mixture of ferrite powder and metal powder. 18. The method of claim 16 , wherein the thermal spray process comprises a twin wire arc process applying arcing and locally melting a mixture of ferrite powder and metal powder. 19. The method of claim 16 , wherein the thermal spray process comprises a high velocity oxy-fuel coating spraying (HVOF) process comprising: melting a mixture of ferrite powder and metal powder using combustion to from a molten mixture, and blowing the molten mixture onto the substrate.