Acoustic Indoor Localization Augmentation by Self-Calibration and Machine Learning

Bordoy, Joan; Schott, Dominik Jan; Xie, Jizhou; Bannoura, Amir; Klein, Philip N.; Striet, Ludwig; Höflinger, Fabian; Haering, Ivo; Reindl, L.; Schindelhauer, Christian

doi:10.3390/s20041177

Cited by 6 publications

(5 citation statements)

References 25 publications

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“…For a spatial point x such that x = ∞, let K ∈ N be the total number of sensor pairs c p such that x ∈ Λ p τ 0 p (x s ), T R (a s ) . According to Equation (15) and Inequality (22), it follows that…”

Section: Discussionmentioning

confidence: 99%

“…Particularly, WASN-based sound source localization has captured researchers’ attention in the last two decades [ 1 , 2 , 3 , 4 , 5 ]. The existing methods available for passive source localization in WASNs include (1) the received energy-based approaches [ 6 , 7 , 8 , 9 ]; (2) the direction of arrival (DOA)-based approaches [ 10 , 11 ]; (3) the time of arrival (TOA)-based approaches [ 12 ]; (4) the time difference of arrival (TDOA)-based approaches [ 13 , 14 , 15 ] and (5) the steered response power (SRP)-based approaches [ 16 , 17 , 18 , 19 , 20 , 21 , 22 ].…”

Section: Introductionmentioning

confidence: 99%

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A Robust Steered Response Power Localization Method for Wireless Acoustic Sensor Networks in an Outdoor Environment

Huang

Tong

et al. 2021

Sensors

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The localization of outdoor acoustic sources has attracted attention in wireless sensor networks. In this paper, the steered response power (SRP) localization of band-pass signal associated with steering time delay uncertainty and coarser spatial grids is considered. We propose a modified SRP-based source localization method for enhancing the localization robustness in outdoor scenarios. In particular, we derive a sufficient condition dependent on the generalized cross-correlation (GCC) waveform function for robust on-grid source localization and show that the SRP function with GCCs satisfying this condition can suppress the disturbances induced by the grid distance and the uncertain steering time delays. Then a GCC refinement procedure for band-pass GCCs is designed, which uses complex wavelet functions in multiple sub-bands to filter the GCCs and averages the envelopes of the filtered GCCs as the equivalent GCC to match the sufficient condition. Simulation results and field experiments demonstrate the excellent performance of the proposed method against the existing SRP-based methods.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A Robust Steered Response Power Localization Method for Wireless Acoustic Sensor Networks in an Outdoor Environment

Huang

Tong

et al. 2021

Sensors

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“…The former offers low-complexity systems with cheap hardware [ 14 , 15 ], whereas with the latter one, higher accuracy may be achieved [ 16 ]. The other main concept employed in indoor presence detection is using ultrasonic waves, which are applied in active trackers indoors [ 17 , 18 ] and even underwater [ 19 , 20 ]. An entirely passive approach, as in [ 21 ], generally analyzes audible frequencies, which can include speech and potentially violate privacy regulations, similar to vision-based approaches.…”

Section: Related Workmentioning

confidence: 99%

Comparison of Direct Intersection and Sonogram Methods for Acoustic Indoor Localization of Persons

Schott

Saphala

Fischer

et al. 2021

Sensors

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We discuss two methods to detect the presence and location of a person in an acoustically small-scale room and compare the performances for a simulated person in distances between 1 and 2 m. The first method is Direct Intersection, which determines a coordinate point based on the intersection of spheroids defined by observed distances of high-intensity reverberations. The second method, Sonogram analysis, overlays all channels’ room impulse responses to generate an intensity map for the observed environment. We demonstrate that the former method has lower computational complexity that almost halves the execution time in the best observed case, but about 7 times slower in the worst case compared to the Sonogram method while using 2.4 times less memory. Both approaches yield similar mean absolute localization errors between 0.3 and 0.9 m. The Direct Intersection method performs more precise in the best case, while the Sonogram method performs more robustly.

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“…The third example case is an indoor ultrasound localization system (Bordoy et al 2020) (Ens et al 2015) (Hoeflinger et al 2015), which offers high localization accuracy when compared to alternative technologies, e.g., Wi-Fi-based fingerprinting approaches (Tiku et al 2020), Bluetooth, ZigBee, Ultra Wide Band (UWB), vision and acoustic-based (Zafari et al 2019). It localizes ultrasound transmitters on objects (e.g., goods, transport systems, robots) using receivers on the ceiling by application of time difference of arrival algorithms (TDOA) for the case of known receiver positions.…”

Section: Data Sources and Selection Criteria For Application Casesmentioning

confidence: 99%

A performance-based tabular approach for joint systematic improvement of risk control and resilience applied to telecommunication grid, gas network, and ultrasound localization system

et al. 2021

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Organizational and technical approaches have proven successful in increasing the performance and preventing risks at socio-technical systems at all scales. Nevertheless, damaging events are often unavoidable due to a wide and dynamic threat landscape and enabled by the increasing complexity of modern systems. For overall performance and risk control at the system level, resilience can be a versatile option, in particular for reducing resources needed for system development, maintenance, reuse, or disposal. This paper presents a framework for a resilience assessment and management process that builds on existing risk management practice before, during, and after potential and real events. It leverages tabular and matrix correlation methods similar as standardized in the field of risk analysis to fulfill the step-wise resilience assessment and management for critical functions of complex systems. We present data needs for the method implementation and output generation, in particular regarding the assessment of threats and the effects of counter measures. Also included is a discussion of how the results contribute to the advancement of functional risk control and resilience enhancement at system level as well as related practical implications for its efficient implementation. The approach is applied in the domains telecommunication, gas networks, and indoor localization systems. Results and implications are further discussed.

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Acoustic Indoor Localization Augmentation by Self-Calibration and Machine Learning

Cited by 6 publications

References 25 publications

A Robust Steered Response Power Localization Method for Wireless Acoustic Sensor Networks in an Outdoor Environment

A Robust Steered Response Power Localization Method for Wireless Acoustic Sensor Networks in an Outdoor Environment

Comparison of Direct Intersection and Sonogram Methods for Acoustic Indoor Localization of Persons

A performance-based tabular approach for joint systematic improvement of risk control and resilience applied to telecommunication grid, gas network, and ultrasound localization system

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