A BDS Interference Suppression Technique Based on Linear Phase Adaptive IIR Notch Filters

Zhao, Hongbo; Hu, Yong; Sun, Hao; Feng, Wenquan

doi:10.3390/s18051515

Cited by 8 publications

(5 citation statements)

References 13 publications

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“…The equalization of the continuous sound level, weighted A, is achieved by the constant sound level for a period of time and contains the same acoustic energy as its variation in real time [ 50 , 51 , 52 , 53 , 54 ]. Mathematical expressions are defined by:

where p ( t ) is the A-weighted instantaneous sound pressure,

is the reference sound pressure equal to 20 × 10 −5 N/m 2 , and t 1 , t 2 are the time periods [ 50 ].…”

Section: Resultsmentioning

confidence: 99%

Urban Traffic Noise Analysis Using UAV-Based Array of Microphones

Minea

Dumitrescu

2023

Sensors

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(1) Background: Transition to smart cities involves many actions in different fields of activity, such as economy, environment, energy, government, education, living and health, safety and security, and mobility. Environment and mobility are very important in terms of ensuring a good living in urban areas. Considering such arguments, this paper proposes monitoring and mapping of a 3D traffic-generated urban noise emissions using a simple, UAV-based, and low-cost solution. (2) Methods: The collection of relevant sound recordings is performed via a UAV-borne set of microphones, designed in a specific array configuration. Post-measurement data processing is performed to filter unwanted sound and vibrations produced by the UAV rotors. Collected noise information is location- and altitude-labeled to ensure a relevant 3D profile of data. (3) Results: Field measurements of sound levels in different directions and altitudes are presented in the paperwork. (4) Conclusions: The solution of employing UAV for environmental noise mapping results in being minimally invasive, low-cost, and effective in terms of rapidly producing environmental noise pollution maps for reports and future improvements in road infrastructure.

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where p ( t ) is the A-weighted instantaneous sound pressure,

is the reference sound pressure equal to 20 × 10 −5 N/m 2 , and t 1 , t 2 are the time periods [ 50 ].…”

Section: Resultsmentioning

confidence: 99%

Urban Traffic Noise Analysis Using UAV-Based Array of Microphones

Minea

Dumitrescu

2023

Sensors

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“…The former obtains the power spectrum of the received signal and then designs a transverse filter to significantly attenuate the interference signal's frequency band [12,13]. While the latter directly estimate the pole position of the filter through the signal and suppresses the interference signal through linear prediction [14]. The adaptive algorithms based on linear prediction, such as least-mean-square (LMS) algorithm [15], Recursiveleast-square (RLS) algorithm [16], Levinson-Durbin algorithm [17], Burg algorithm [18], can be used in the time-domain anti-jamming navigation receivers and have achieved good results in anti-narrowband interference [19].…”

Section: Introductionmentioning

confidence: 99%

Optimal Order of Time-Domain Adaptive Filter for Anti-Jamming Navigation Receiver

Song

Xiao

et al. 2021

Remote Sensing

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Adaptive filtering algorithms can be used on the time-domain processing of navigation receivers to suppress interference and maintain the navigation and positioning function. The filter length can affect the interference suppression performance and hardware utilization simultaneously. In practical engineering, the filter length is usually set to a large number to guarantee anti-jamming performance, which means a high-performance receiver requires a high-complexity anti-jamming filter. The study aims at solving the problem by presenting a design method for the optimal filter order in the time-domain anti-jamming receiver, with no need for detailed interference information. According to interference bandwidth and jam-to-signal ratio (JSR), the approach designed a band-stop filter by Kaiser window for calculating the optimal filter order to meet interference suppression requirements. The experimental results show that the time-domain filtering processing has achieved good interference suppression performance for engineering requirements with optimal filter order in satellite navigation receivers.

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“…Digital multi-notch filters are required in various applications, among which navigation satellite system receivers, 1 preprocessing of the electrocardiogram 2,3 and electromyogram 4 signals, frequency estimation, 5,6 and dynamic weighing systems. 7 The purpose of the multi-notch filter is to suppress a certain number of input signal spectral components while passing the other components unchanged.…”

Section: Introductionmentioning

confidence: 99%

The least‐square design of minimum‐order allpass‐based infinite impulse response multi‐notch filters

Krstić

2021

Circuit Theory & Apps

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The paper investigates the least-square design of minimum-order infinite impulse response multi-notch filters. Monotonically decreasing nature of the stable allpass filter's phase response, characterizing the allpass-based multinotch filter, along with the simple relation between coefficients and the phase response of the allpass filter, allows the formulation of the multi-notch filter's magnitude response specifications as the linear equality constraints regarding the positions of notch, left-and right-hand cutoff frequencies. Since the number of such constraints equals triple the number of notch frequencies,

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A BDS Interference Suppression Technique Based on Linear Phase Adaptive IIR Notch Filters

Cited by 8 publications

References 13 publications

Urban Traffic Noise Analysis Using UAV-Based Array of Microphones

Urban Traffic Noise Analysis Using UAV-Based Array of Microphones

Optimal Order of Time-Domain Adaptive Filter for Anti-Jamming Navigation Receiver

The least‐square design of minimum‐order allpass‐based infinite impulse response multi‐notch filters

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