Abstract
Abstract. Future radio occultation (RO) receivers are planned to utilize the newly implemented Global Positioning System (GPS) L5 band centered at 1176.45 MHz. Since there are currently no operational GPS L5 receivers used for space-based RO applications, the interference environment is unclear. Distance measuring equipment (DME) and tactical air navigation (TACAN) stations share the same frequency band as GPS L5. The signals from these stations have been identified as possible sources of interference for any GPS L5 receiver, including those used in RO applications. This study utilizes Systems Tools Kit (STK) simulations to gain insight into the power received by a RO satellite in low Earth orbit (LEO) from a DME–TACAN transmission as well as the amount of interfering stations. In order to confirm the validity of utilizing STK for communication purposes, a theoretical scenario was recreated as a simulation and the results were confirmed. Once the method was validated, STK was used to output a received power level aboard a RO satellite from a DME–TACAN station as well as a tool to detail the number of interfering DME–TACAN stations witnessed by a space-based RO receiver over time. The results indicated a large number of DME–TACAN stations transmitting at similar orientations as a receiving RO satellite, thereby leading to the possibility of signal degradation in an unclear interference environment.
Highlights
The Global Positioning System (GPS) L5 band centered at 1176.45 MHz is being transmitted with the latest IIF satellite design (Van Dierendonck et al, 2000)
This test cannot directly represent the results that a space-based receiver would yield, the data collected from this study have provided an insight into the amplification of Distance measuring equipment (DME) signals when a high-gain antenna is employed
In order to estimate how many DME stations would be interfering with a receiver in low Earth Orbit (LEO) at any given time, Systems Tools Kit (STK) was utilized to provide the number of stations whose received power was greater than −125 dBW, which was provided as an arbitrary constraint
Summary
The Global Positioning System (GPS) L5 band centered at 1176.45 MHz is being transmitted with the latest IIF satellite design (Van Dierendonck et al, 2000) This signal is part of the GPS modernization effort and offers civil users additional power, a higher chipping rate, and an updated signal modulation structure. Distance measuring equipment (DME) and tactical air navigation (TACAN) systems offer potential sources of interference due to coexistence within the L5 band (Kim and Grabowski, 2003). While most users of GPS L5 will experience minimal degradation from DME–TACAN interference, GPS RO is one such application in which even a slight degraded C / No would have a significant impact on results This system is implemented today for use in weather forecasting and has been proven to be a very powerful and reliable tool. The architecture of GPS RO will be discussed in further detail
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