W-Band Technology and Techniques for Analog Millimeter-Wave Photonics

Abstract: Standard Form 298 (Rev. 8-98)Prescribed by ANSI Std. Z39.18Public reporting burden for this collection of information is estimated to average 1 hour per response, including the time for reviewing instructions, searching existing data sources, gathering and maintaining the data needed, and completing and reviewing this collection of information. Send comments regarding this burden estimate or any other aspect of this collection of information, including suggestions for reducing this burden to Department of Defe… Show more

“…It is also known that for high-frequency technologies, as the transmitter power increases, the noise power increases. This topic is analyzed, for example, in [6][7][8], and has a large information and computing capacity. In this work, this issue is not analyzed.…”

“…Fiber optic and optoelectronic technologies are also considered as an effective solution for the implementation of millimeter communication technologies, as well as for the formation of directional radiation by hybrid optoelectronic (photonic) methods in phased antenna arrays. Methods for converting the millimeter radio frequency range into the optical range is a promising way to increase the throughput of hybrid fiber-air terrestrial communication systems [6][7][8]. Therefore, research directions have emerged in the field of combining heterogeneous technologies, including terrestrial wireless, fiber-optic and non-terrestrial (satellite, stratospheric, unmanned) communication systems.…”

High-Altitude Configuration of Non-Terrestrial Telecommunication Network using Optical Wireless Technologies

“…It is also known that for high-frequency technologies, as the transmitter power increases, the noise power increases. This topic is analyzed, for example, in [6][7][8], and has a large information and computing capacity. In this work, this issue is not analyzed.…”

“…Fiber optic and optoelectronic technologies are also considered as an effective solution for the implementation of millimeter communication technologies, as well as for the formation of directional radiation by hybrid optoelectronic (photonic) methods in phased antenna arrays. Methods for converting the millimeter radio frequency range into the optical range is a promising way to increase the throughput of hybrid fiber-air terrestrial communication systems [6][7][8]. Therefore, research directions have emerged in the field of combining heterogeneous technologies, including terrestrial wireless, fiber-optic and non-terrestrial (satellite, stratospheric, unmanned) communication systems.…”

High-Altitude Configuration of Non-Terrestrial Telecommunication Network using Optical Wireless Technologies

High Conversion Efficiency Photonic Microwave Mixer With Image Rejection Capability

Approaches to the evaluation of spectral and energy efficiency millimeter wave cellular networks