Re-generation and re-transmission of millimeter waves for building penetration

What is claimed is: 1. A system for enabling signal penetration into a building, comprising: first circuitry, located on an outside of the building, for receiving millimeter wave signals and converting the millimeter wave signals into a format that overcomes losses caused by penetrating into an interior of the building over a wireless communications link, wherein the first circuitry further comprises: at least one power amplifier for amplifying the received millimeter wave signals to a level that counteracts losses occurring when the millimeter wave signals are transmitted from the outside of the building to the interior of the building; and second circuitry, located on the interior of the building and communicatively linked with the first circuitry via the wireless communications link, for receiving the millimeter wave signals in the format that overcomes the losses caused by penetrating into the interior of the building and converting the millimeter wave signals in the format to a second format for transmission to the wireless devices within the building. 2. The system of claim 1 further comprising: wherein the first circuitry further comprises: an antenna for transmitting and receiving the millimeter wave signals; at least one of a first conical or horn antennas for transmitting and receiving the amplified millimeter wave signal from/to the outside of the building to/from the interior of the building; wherein the second circuitry further comprises: at least one of a second conical or horn antennas for receiving and transmitting the amplified millimeter wave signal from/to the at least one first conical or horn antennas; and transceiver circuitry for converting the received, amplified millimeter wave signal to the second format for transmission to the wireless devices within the building. 3. The system of claim 1 , wherein the at least one power amplifier further amplifies millimeter wave signals before they are transmitted by the at least one of the first canonical or horn antenna. 4. The system of claim 1 further including at least one solar panel associated with the at least one power amplifier, the at least one solar panel providing power for operating the at least one power amplifier. 5. The system of claim 1 further including a laser power system for providing power to the at least one power amplifier, the laser power system further comprising: a laser for generating a beam for transmission of light energy from the interior of the building to the exterior of the building; and a photovoltaic receiver for receiving the light energy from the laser beam and generating electrical energy to power the at least one power amplifier. 6. The system of claim 1 further including an inductive coupling system for providing power to the at least one power amplifier, the inductive coupling system further comprising: a first inductive coil located on the interior of the building and connected to a power system located in the interior of the building; and a second inductive coil located on the exterior of the building and inductively coupled to the first inductive coil, the second inductive coil connected to provide electrical energy to the at least one power amplifier. 7. The system of claim 2 further including a second at least one power amplifier located on the interior of the building for amplifying the millimeter wave signals from the transceiver to a second level that counteracts losses occurring when the millimeter wave signals are transmitted from the interior of the building to the exterior of the building. 8. The system of claim 1 further including an RF circulator for interconnecting the antenna with the at least one power amplifier. 9. The system of claim 2 , wherein the first and second at least one of the conical or horn antennas have a gain of at least 20 dB. 10. The system of claim 2 further including a shielding material for limiting transmissions that do not pass directly between the first at least one conical or horn antenna and the second at least one conical or horn antenna. 11. The system of claim 1 , wherein the second circuitry further comprises a WiFi router to transmit signals in the format to the wireless devices within the building. 12. The system of claim 1 , wherein the first circuitry and the second circuitry are communicatively coupled via an RF tunnel. 13. The system of claim 1 , wherein the first circuitry and the second circuitry are communicatively coupled via a nearfield technique. 14. A system for enabling signal penetration into a building, comprising: first circuitry, located on an outside of the building, for receiving millimeter wave signals and converting the millimeter wave signals into a format that overcomes dB losses caused by penetrating into an interior of the building over a wireless link, wherein the first circuitry further comprises: at least one power amplifier for amplifying the received millimeter wave signals to a level that counteracts dB losses occurring when the millimeter wave signals are transmitted from the outside of the building to the interior of the building; second circuitry, located on the interior of the building and communicatively linked with the first circuitry via the wireless link, for receiving the millimeter wave signals in the format that overcomes dB losses caused by penetrating into the interior of the building and converting the millimeter wave signals in the format to a second format for transmission to wireless devices within the building; and wherein the first circuitry and the second circuitry are communicatively coupled via an RF tunnel. 15. A system for enabling signal penetration into a building, comprising: first circuitry, located on an outside of the building, for receiving millimeter wave signals and converting the millimeter wave signals into a format that overcomes dB losses caused by penetrating into an interior of the building for reception by wireless devices within the building, wherein the first circuitry further comprises: an antenna for transmitting and receiving the millimeter wave signals; at least one power amplifier for amplifying the received millimeter wave signals to a level that counteracts the dB losses occurring when the millimeter wave signals are transmitted from outside the building to the interior of the building; transceiver circuitry for transmitting and receiving the amplified millimeter wave signal from/to the outside of the building to/from the interior of the building. 16. The system of claim 15 , wherein the at least one power amplifier further amplifies millimeter wave signals before they are transmitted by the transceiver circuitry. 17. A system for enabling signal penetration into a building, comprising: first circuitry, located on an outside of the building, for receiving millimeter wave signals and converting the millimeter wave signals into a format that overcomes dB losses caused by penetrating into an interior of the building for reception by wireless devices within the building, wherein the first circuitry further comprises: at least one power amplifier for amplifying the received millimeter wave signals to a level that counteracts losses occurring when the millimeter wave signals are transmitted from the outside of the building to the interior of the building; and second circuitry, located on the interior of the building and communicatively linked with the first circuitry, for receiving the millimeter wave signals in the format that overcomes the dB losses caused by penetrating into the interior of the building and converting