A System Design of Real-Time Narrowband Rfi Detection And Mitigation for Gnss-R Receiver
| Title | A System Design of Real-Time Narrowband Rfi Detection And Mitigation for Gnss-R Receiver |
| Publication Type | Conference Paper |
| Year of Publication | 2019 |
| Authors | Qiu, Tongsheng, Wang, Xianyi, Tian, Yusen, Du, Qifei, Sun, Yueqiang |
| Conference Name | IGARSS 2019 - 2019 IEEE International Geoscience and Remote Sensing Symposium |
| ISBN Number | 978-1-5386-9154-0 |
| Keywords | Band-pass filters, band-stop filters, cascading IIR band-stop filters, cGNSS-R, continuous wave interference, conventional GNSS-R, CWI, DDM, delay-Doppler map, detection, field programmable gate arrays, fixed-point implementation, FPGA, Global navigation satellite system, Global Navigation Satellite Systems-reflectometry, GNSS-R, Human Behavior, human factors, iGNSS-R, IIR BSF, IIR filters, IIR notch filter, interference suppression, interferometric GNSS-R receivers, Metrics, mitigation, NF, Passband, pubcrawl, radio detection, radio receivers, radiofrequency interference, real-time narrowband radiofrequency interference detection, real-time narrowband radiofrequency interference mitigation, real-time NB RFI detection, real-time NB RFI mitigation, Receivers, resilience, Resiliency, RFI, satellite navigation, signal-to-noise ratio, SNR, System analysis and design, system design, threat mitigation, white narrowband interference, Wireless communication, WNBI |
| Abstract | With the rapid development of radio detection and wireless communication, narrowband radio-frequency interference (NB-RFI) is a serious threat for GNSS-R (global navigation satellite systems - reflectometry) receivers. However, interferometric GNSS-R (iGNSS-R) is more prone to the NB-RFIs than conventional GNSS-R (cGNSS-R), due to wider bandwidth and unclean replica. Therefore, there is strong demand of detecting and mitigating NB-RFIs for GNSS-R receivers, especially iGNSS-R receivers. Hence, focusing on working with high sampling rate and simplifying the fixed-point implementation on FPGA, this paper proposes a system design exploiting cascading IIR band-stop filters (BSFs) to suppress NB-RFIs. Furthermore, IIR BSF compared with IIR notch filter (NF) and IIR band-pass filter (BPF) is the merely choice that is able to mitigate both white narrowband interference (WNBI) and continuous wave interference (CWI) well. Finally, validation and evaluation are conducted, and then it is indicated that the system design can detect NB-RFIs and suppress WNBI and CWI effectively, which improves the signal-to-noise ratio (SNR) of the Delay-Doppler map (DDM). |
| URL | https://ieeexplore.ieee.org/document/8900628 |
| DOI | 10.1109/IGARSS.2019.8900628 |
| Citation Key | qiu_system_2019 |
- resilience
- mitigation
- NF
- Passband
- pubcrawl
- radio detection
- radio receivers
- radiofrequency interference
- real-time narrowband radiofrequency interference detection
- real-time narrowband radiofrequency interference mitigation
- real-time NB RFI detection
- real-time NB RFI mitigation
- Receivers
- Metrics
- Resiliency
- RFI
- satellite navigation
- signal-to-noise ratio
- SNR
- system analysis and design
- system design
- threat mitigation
- white narrowband interference
- Wireless communication
- WNBI
- FPGA
- band-stop filters
- cascading IIR band-stop filters
- cGNSS-R
- continuous wave interference
- conventional GNSS-R
- CWI
- DDM
- delay-Doppler map
- detection
- field programmable gate arrays
- fixed-point implementation
- Band-pass filters
- Global navigation satellite system
- Global Navigation Satellite Systems-reflectometry
- GNSS-R
- Human behavior
- Human Factors
- iGNSS-R
- IIR BSF
- IIR filters
- IIR notch filter
- interference suppression
- interferometric GNSS-R receivers