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1. Sound Zone Control Robust To Sound Speed Change

Author

Bhattacharjee, Sankha Subhra, Jensen, Jesper Rindom, and Christensen, Mads Græsbøll

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Sound
Abstract

Sound zone control (SZC) implemented using static optimal filters is significantly affected by various perturbations in the acoustic environment, an important one being the fluctuation in the speed of sound, which is in turn influenced by changes in temperature and humidity (TH). This issue arises because control algorithms typically use pre-recorded, static impulse responses (IRs) to design the optimal control filters. The IRs, however, may change with time due to TH changes, which renders the derived control filters to become non-optimal. To address this challenge, we propose a straightforward model called sinc interpolation-compression/expansion-resampling (SICER), which adjusts the IRs to account for both sound speed reduction and increase. Using the proposed technique, IRs measured at a certain TH can be corrected for any TH change and control filters can be re-derived without the need of re-measuring the new IRs (which is impractical when SZC is deployed). We integrate the proposed SICER IR correction method with the recently introduced variable span trade-off (VAST) framework for SZC, and propose a SICER-corrected VAST method that is resilient to sound speed variations. Simulation studies show that the proposed SICER-corrected VAST approach significantly improves acoustic contrast and reduces signal distortion in the presence of sound speed changes., Comment: 5 pages, 4 figures, submitted to ICASSP 2025

Published
2024

2. Robust Fixed-Filter Sound Zone Control with Audio-Based Position Tracking

Author

Bhattacharjee, Sankha Subhra, Fuglsig, Andreas Jonas, Christensen, Flemming, Jensen, Jesper Rindom, and Christensen, Mads Græsbøll

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Electrical Engineering and Systems Science - Signal Processing
Abstract

Performance of sound zone control (SZC) systems deployed in practical scenarios are highly sensitive to the location of the listener(s) and can degrade significantly when listener(s) are moving. This paper presents a robust SZC system that adapts to dynamic changes such as moving listeners and varying zone locations using a dictionary-based approach. The proposed system continuously monitors the environment and updates the fixed control filters by tracking the listener position using audio signals only. To test the effectiveness of the proposed SZC method, simulation studies are carried out using practically measured impulse responses. These studies show that SZC, when incorporated with the proposed audio-only position tracking scheme, achieves optimal performance when all listener positions are available in the dictionary. Moreover, even when not all listener positions are included in the dictionary, the method still provides good performance improvement compared to a traditional fixed filter SZC scheme., Comment: Equal contribution by Sankha Subhra Bhattacharjee and Andreas Jonas Fuglsig. Submitted to ICASSP 2025

Published
2024

3. A machine learning framework for acoustic reflector mapping

Author

Saqib, Usama, Marchegiani, Letizia, and Jensen, Jesper Rindom

Subjects
Computer Science - Robotics
Abstract

Sonar-based indoor mapping systems have been widely employed in robotics for several decades. While such systems are still the mainstream in underwater and pipe inspection settings, the vulnerability to noise reduced, over time, their general widespread usage in favour of other modalities(\textit{e.g.}, cameras, lidars), whose technologies were encountering, instead, extraordinary advancements. Nevertheless, mapping physical environments using acoustic signals and echolocation can bring significant benefits to robot navigation in adverse scenarios, thanks to their complementary characteristics compared to other sensors. Cameras and lidars, indeed, struggle in harsh weather conditions, when dealing with lack of illumination, or with non-reflective walls. Yet, for acoustic sensors to be able to generate accurate maps, noise has to be properly and effectively handled. Traditional signal processing techniques are not always a solution in those cases. In this paper, we propose a framework where machine learning is exploited to aid more traditional signal processing methods to cope with background noise, by removing outliers and artefacts from the generated maps using acoustic sensors. Our goal is to demonstrate that the performance of traditional echolocation mapping techniques can be greatly enhanced, even in particularly noisy conditions, facilitating the employment of acoustic sensors in state-of-the-art multi-modal robot navigation systems. Our simulated evaluation demonstrates that the system can reliably operate at an SNR of $-10$dB. Moreover, we also show that the proposed method is capable of operating in different reverberate environments. In this paper, we also use the proposed method to map the outline of a simulated room using a robotic platform.

Published
2024

4. The Effect of Training Dataset Size on Discriminative and Diffusion-Based Speech Enhancement Systems

Author

Gonzalez, Philippe, Tan, Zheng-Hua, Østergaard, Jan, Jensen, Jesper, Alstrøm, Tommy Sonne, and May, Tobias

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

The performance of deep neural network-based speech enhancement systems typically increases with the training dataset size. However, studies that investigated the effect of training dataset size on speech enhancement performance did not consider recent approaches, such as diffusion-based generative models. Diffusion models are typically trained with massive datasets for image generation tasks, but whether this is also required for speech enhancement is unknown. Moreover, studies that investigated the effect of training dataset size did not control for the data diversity. It is thus unclear whether the performance improvement was due to the increased dataset size or diversity. Therefore, we systematically investigate the effect of training dataset size on the performance of popular state-of-the-art discriminative and diffusion-based speech enhancement systems in matched conditions. We control for the data diversity by using a fixed set of speech utterances, noise segments and binaural room impulse responses to generate datasets of different sizes. We find that the diffusion-based systems perform the best relative to the discriminative systems in terms of objective metrics with datasets of 10 h or less. However, their objective metrics performance does not improve when increasing the training dataset size as much as the discriminative systems, and they are outperformed by the discriminative systems with datasets of 100 h or more., Comment: Accepted version

Published
2024
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5. Deep low-latency joint speech transmission and enhancement over a gaussian channel

Author

Bokaei, Mohammad, Jensen, Jesper, Doclo, Simon, and Østergaard, Jan

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Sound
Abstract

Ensuring intelligible speech communication for hearing assistive devices in low-latency scenarios presents significant challenges in terms of speech enhancement, coding and transmission. In this paper, we propose novel solutions for low-latency joint speech transmission and enhancement, leveraging deep neural networks (DNNs). Our approach integrates two state-of-the-art DNN architectures for low-latency speech enhancement and low-latency analog joint source-channel-based transmission, creating a combined low-latency system and jointly training both systems in an end-to-end approach. Due to the computational demands of the enhancement system, this order is suitable when high computational power is unavailable in the decoder, like hearing assistive devices. The proposed system enables the configuration of total latency, achieving high performance even at latencies as low as 3 ms, which is typically challenging to attain. The simulation results provide compelling evidence that a joint enhancement and transmission system is superior to a simple concatenation system in diverse settings, encompassing various wireless channel conditions, latencies, and background noise scenarios.

Published
2024

6. How to train your ears: Auditory-model emulation for large-dynamic-range inputs and mild-to-severe hearing losses

Author

Leer, Peter, Jensen, Jesper, Tan, Zheng-Hua, Østergaard, Jan, and Bramsløw, Lars

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

Advanced auditory models are useful in designing signal-processing algorithms for hearing-loss compensation or speech enhancement. Such auditory models provide rich and detailed descriptions of the auditory pathway, and might allow for individualization of signal-processing strategies, based on physiological measurements. However, these auditory models are often computationally demanding, requiring significant time to compute. To address this issue, previous studies have explored the use of deep neural networks to emulate auditory models and reduce inference time. While these deep neural networks offer impressive efficiency gains in terms of computational time, they may suffer from uneven emulation performance as a function of auditory-model frequency-channels and input sound pressure level, making them unsuitable for many tasks. In this study, we demonstrate that the conventional machine-learning optimization objective used in existing state-of-the-art methods is the primary source of this limitation. Specifically, the optimization objective fails to account for the frequency- and level-dependencies of the auditory model, caused by a large input dynamic range and different types of hearing losses emulated by the auditory model. To overcome this limitation, we propose a new optimization objective that explicitly embeds the frequency- and level-dependencies of the auditory model. Our results show that this new optimization objective significantly improves the emulation performance of deep neural networks across relevant input sound levels and auditory-model frequency channels, without increasing the computational load during inference. Addressing these limitations is essential for advancing the application of auditory models in signal-processing tasks, ensuring their efficacy in diverse scenarios., Comment: Accepted by IEEE/ACM Transactions on Audio, Speech and Language Processing. This version is the authors' version and may vary from the final publication in details

Published
2024
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7. Neural Networks Hear You Loud And Clear: Hearing Loss Compensation Using Deep Neural Networks

Author

Leer, Peter, Jensen, Jesper, Carney, Laurel, Tan, Zheng-Hua, Østergaard, Jan, and Bramsløw, Lars

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

This article investigates the use of deep neural networks (DNNs) for hearing-loss compensation. Hearing loss is a prevalent issue affecting millions of people worldwide, and conventional hearing aids have limitations in providing satisfactory compensation. DNNs have shown remarkable performance in various auditory tasks, including speech recognition, speaker identification, and music classification. In this study, we propose a DNN-based approach for hearing-loss compensation, which is trained on the outputs of hearing-impaired and normal-hearing DNN-based auditory models in response to speech signals. First, we introduce a framework for emulating auditory models using DNNs, focusing on an auditory-nerve model in the auditory pathway. We propose a linearization of the DNN-based approach, which we use to analyze the DNN-based hearing-loss compensation. Additionally we develop a simple approach to choose the acoustic center frequencies of the auditory model used for the compensation strategy. Finally, we evaluate the DNN-based hearing-loss compensation strategies using listening tests with hearing impaired listeners. The results demonstrate that the proposed approach results in feasible hearing-loss compensation strategies. Our proposed approach was shown to provide an increase in speech intelligibility and was found to outperform a conventional approach in terms of perceived speech quality.

Published
2024

8. Binaural Speech Enhancement Using Deep Complex Convolutional Transformer Networks

Author

Tokala, Vikas, Grinstein, Eric, Brookes, Mike, Doclo, Simon, Jensen, Jesper, and Naylor, Patrick A.

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

Studies have shown that in noisy acoustic environments, providing binaural signals to the user of an assistive listening device may improve speech intelligibility and spatial awareness. This paper presents a binaural speech enhancement method using a complex convolutional neural network with an encoder-decoder architecture and a complex multi-head attention transformer. The model is trained to estimate individual complex ratio masks in the time-frequency domain for the left and right-ear channels of binaural hearing devices. The model is trained using a novel loss function that incorporates the preservation of spatial information along with speech intelligibility improvement and noise reduction. Simulation results for acoustic scenarios with a single target speaker and isotropic noise of various types show that the proposed method improves the estimated binaural speech intelligibility and preserves the binaural cues better in comparison with several baseline algorithms., Comment: Accepted to ICASSP 2024

Published
2024

9. Self-supervised Pretraining for Robust Personalized Voice Activity Detection in Adverse Conditions

Author

Bovbjerg, Holger Severin, Jensen, Jesper, Østergaard, Jan, and Tan, Zheng-Hua

Subjects
Computer Science - Sound, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Audio and Speech Processing, 68T10, I.2.6
Abstract

In this paper, we propose the use of self-supervised pretraining on a large unlabelled data set to improve the performance of a personalized voice activity detection (VAD) model in adverse conditions. We pretrain a long short-term memory (LSTM)-encoder using the autoregressive predictive coding (APC) framework and fine-tune it for personalized VAD. We also propose a denoising variant of APC, with the goal of improving the robustness of personalized VAD. The trained models are systematically evaluated on both clean speech and speech contaminated by various types of noise at different SNR-levels and compared to a purely supervised model. Our experiments show that self-supervised pretraining not only improves performance in clean conditions, but also yields models which are more robust to adverse conditions compared to purely supervised learning., Comment: To be published at ICASSP2024, 14th of April 2024, Seoul, South Korea. Copyright (c) 2023 IEEE. 5 pages, 2, figures, 5 tables

Published
2023

10. Investigating the Design Space of Diffusion Models for Speech Enhancement

Author

Gonzalez, Philippe, Tan, Zheng-Hua, Østergaard, Jan, Jensen, Jesper, Alstrøm, Tommy Sonne, and May, Tobias

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Machine Learning, Computer Science - Sound
Abstract

Diffusion models are a new class of generative models that have shown outstanding performance in image generation literature. As a consequence, studies have attempted to apply diffusion models to other tasks, such as speech enhancement. A popular approach in adapting diffusion models to speech enhancement consists in modelling a progressive transformation between the clean and noisy speech signals. However, one popular diffusion model framework previously laid in image generation literature did not account for such a transformation towards the system input, which prevents from relating the existing diffusion-based speech enhancement systems with the aforementioned diffusion model framework. To address this, we extend this framework to account for the progressive transformation between the clean and noisy speech signals. This allows us to apply recent developments from image generation literature, and to systematically investigate design aspects of diffusion models that remain largely unexplored for speech enhancement, such as the neural network preconditioning, the training loss weighting, the stochastic differential equation (SDE), or the amount of stochasticity injected in the reverse process. We show that the performance of previous diffusion-based speech enhancement systems cannot be attributed to the progressive transformation between the clean and noisy speech signals. Moreover, we show that a proper choice of preconditioning, training loss weighting, SDE and sampler allows to outperform a popular diffusion-based speech enhancement system while using fewer sampling steps, thus reducing the computational cost by a factor of four., Comment: Accepted version

Published
2023
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11. Diffusion-Based Speech Enhancement in Matched and Mismatched Conditions Using a Heun-Based Sampler

Author

Gonzalez, Philippe, Tan, Zheng-Hua, Østergaard, Jan, Jensen, Jesper, Alstrøm, Tommy Sonne, and May, Tobias

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Machine Learning, Computer Science - Sound
Abstract

Diffusion models are a new class of generative models that have recently been applied to speech enhancement successfully. Previous works have demonstrated their superior performance in mismatched conditions compared to state-of-the art discriminative models. However, this was investigated with a single database for training and another one for testing, which makes the results highly dependent on the particular databases. Moreover, recent developments from the image generation literature remain largely unexplored for speech enhancement. These include several design aspects of diffusion models, such as the noise schedule or the reverse sampler. In this work, we systematically assess the generalization performance of a diffusion-based speech enhancement model by using multiple speech, noise and binaural room impulse response (BRIR) databases to simulate mismatched acoustic conditions. We also experiment with a noise schedule and a sampler that have not been applied to speech enhancement before. We show that the proposed system substantially benefits from using multiple databases for training, and achieves superior performance compared to state-of-the-art discriminative models in both matched and mismatched conditions. We also show that a Heun-based sampler achieves superior performance at a smaller computational cost compared to a sampler commonly used for speech enhancement., Comment: Accepted to ICASSP 2024

Published
2023
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13. Joint Minimum Processing Beamforming and Near-end Listening Enhancement

Author

Fuglsig, Andreas J., Jensen, Jesper, Tan, Zheng-Hua, Bertelsen, Lars S., Lindof, Jens Christian, and Østergaard, Jan

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Sound
Abstract

We consider speech enhancement for signals picked up in one noisy environment that must be rendered to a listener in another noisy environment. For both far-end noise reduction and near-end listening enhancement, it has been shown that excessive focus on noise suppression or intelligibility maximization may lead to excessive speech distortions and quality degradations in favorable noise conditions, where intelligibility is already at ceiling level. Recently [1,2] propose to remedy this with a minimum processing framework that either reduces noise or enhances listening a minimum amount given that a certain intelligibility criterion is still satisfied Additionally, it has been shown that joint consideration of both environments improves speech enhancement performance. In this paper, we formulate a joint far- and near-end minimum processing framework, that improves intelligibility while limiting speech distortions in favorable noise conditions. We provide closed-form solutions to specific boundary scenarios and investigate performance for the general case using numerical optimization. We also show concatenating existing minimum processing far- and near-end enhancement methods preserves the effects of the initial methods. Results show that the joint optimization can further improve performance compared to the concatenated approach., Comment: Accepted at IEEE ICASSP 2024 Workshop on Hands-free Speech Communication and Microphone Arrays (HSCMA) 2024

Published
2023

14. Speech inpainting: Context-based speech synthesis guided by video

Author

Montesinos, Juan F., Michelsanti, Daniel, Haro, Gloria, Tan, Zheng-Hua, and Jensen, Jesper

Subjects
Computer Science - Sound, Computer Science - Artificial Intelligence, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

Audio and visual modalities are inherently connected in speech signals: lip movements and facial expressions are correlated with speech sounds. This motivates studies that incorporate the visual modality to enhance an acoustic speech signal or even restore missing audio information. Specifically, this paper focuses on the problem of audio-visual speech inpainting, which is the task of synthesizing the speech in a corrupted audio segment in a way that it is consistent with the corresponding visual content and the uncorrupted audio context. We present an audio-visual transformer-based deep learning model that leverages visual cues that provide information about the content of the corrupted audio. It outperforms the previous state-of-the-art audio-visual model and audio-only baselines. We also show how visual features extracted with AV-HuBERT, a large audio-visual transformer for speech recognition, are suitable for synthesizing speech., Comment: Accepted in Interspeech23

Published
2023

18. Impact of coronary CT image quality on the accuracy of the FFRCT Planner

Author

Andreini, Daniele, Belmonte, Marta, Penicka, Martin, Van Hoe, Lieven, Mileva, Niya, Paolisso, Pasquale, Nagumo, Sakura, Nørgaard, Bjarne L., Ko, Brian, Otake, Hiromasa, Koo, Bon-Kwon, Jensen, Jesper Møller, Mizukami, Takuya, Munhoz, Daniel, Updegrove, Adam, Taylor, Charles, Leipsic, Jonathon, Sonck, Jeroen, De Bruyne, Bernard, and Collet, Carlos

Published
2024
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20. Distributed Adaptive Norm Estimation for Blind System Identification in Wireless Sensor Networks

Author

Blochberger, Matthias, Elvander, Filip, Ali, Randall, Østergaard, Jan, Jensen, Jesper, Moonen, Marc, and van Waterschoot, Toon

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

Distributed signal-processing algorithms in (wireless) sensor networks often aim to decentralize processing tasks to reduce communication cost and computational complexity or avoid reliance on a single device (i.e., fusion center) for processing. In this contribution, we extend a distributed adaptive algorithm for blind system identification that relies on the estimation of a stacked network-wide consensus vector at each node, the computation of which requires either broadcasting or relaying of node-specific values (i.e., local vector norms) to all other nodes. The extended algorithm employs a distributed-averaging-based scheme to estimate the network-wide consensus norm value by only using the local vector norm provided by neighboring sensor nodes. We introduce an adaptive mixing factor between instantaneous and recursive estimates of these norms for adaptivity in a time-varying system. Simulation results show that the extension provides estimation results close to the optimal fully-connected-network or broadcasting case while reducing inter-node transmission significantly., Comment: Accepted to ICASSP 2023

Published
2023

21. Frequency bin-wise single channel speech presence probability estimation using multiple DNNs

Author

Tao, Shuai, Reddy, Himavanth, Jensen, Jesper Rindom, and Christensen, Mads Græsbøll

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Sound
Abstract

In this work, we propose a frequency bin-wise method to estimate the single-channel speech presence probability (SPP) with multiple deep neural networks (DNNs) in the short-time Fourier transform domain. Since all frequency bins are typically considered simultaneously as input features for conventional DNN-based SPP estimators, high model complexity is inevitable. To reduce the model complexity and the requirements on the training data, we take a single frequency bin and some of its neighboring frequency bins into account to train separate gate recurrent units. In addition, the noisy speech and the a posteriori probability SPP representation are used to train our model. The experiments were performed on the Deep Noise Suppression challenge dataset. The experimental results show that the speech detection accuracy can be improved when we employ the frequency bin-wise model. Finally, we also demonstrate that our proposed method outperforms most of the state-of-the-art SPP estimation methods in terms of speech detection accuracy and model complexity., Comment: Accepted for ICASSP 2023

Published
2023

22. Filterbank Learning for Noise-Robust Small-Footprint Keyword Spotting

Author

López-Espejo, Iván, Shekar, Ram C. M. C., Tan, Zheng-Hua, Jensen, Jesper, and Hansen, John H. L.

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Human-Computer Interaction, Computer Science - Machine Learning, Computer Science - Sound
Abstract

In the context of keyword spotting (KWS), the replacement of handcrafted speech features by learnable features has not yielded superior KWS performance. In this study, we demonstrate that filterbank learning outperforms handcrafted speech features for KWS whenever the number of filterbank channels is severely decreased. Reducing the number of channels might yield certain KWS performance drop, but also a substantial energy consumption reduction, which is key when deploying common always-on KWS on low-resource devices. Experimental results on a noisy version of the Google Speech Commands Dataset show that filterbank learning adapts to noise characteristics to provide a higher degree of robustness to noise, especially when dropout is integrated. Thus, switching from typically used 40-channel log-Mel features to 8-channel learned features leads to a relative KWS accuracy loss of only 3.5% while simultaneously achieving a 6.3x energy consumption reduction.

Published
2022

23. Minimum Processing Near-end Listening Enhancement

Author

Fuglsig, Andreas Jonas, Jensen, Jesper, Tan, Zheng-Hua, Bertelsen, Lars Søndergaard, Lindof, Jens Christian, and Østergaard, Jan

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Sound, Electrical Engineering and Systems Science - Signal Processing
Abstract

The intelligibility and quality of speech from a mobile phone or public announcement system are often affected by background noise in the listening environment. By pre-processing the speech signal it is possible to improve the speech intelligibility and quality -- this is known as near-end listening enhancement (NLE). Although, existing NLE techniques are able to greatly increase intelligibility in harsh noise environments, in favorable noise conditions the intelligibility of speech reaches a ceiling where it cannot be further enhanced. Actually, the focus of existing methods solely on improving the intelligibility causes unnecessary processing of the speech signal and leads to speech distortions and quality degradations. In this paper, we provide a new rationale for NLE, where the target speech is minimally processed in terms of a processing penalty, provided that a certain performance constraint, e.g., intelligibility, is satisfied. We present a closed-form solution for the case where the performance criterion is an intelligibility estimator based on the approximated speech intelligibility index and the processing penalty is the mean-square error between the processed and the clean speech. This produces an NLE method that adapts to changing noise conditions via a simple gain rule by limiting the processing to the minimum necessary to achieve a desired intelligibility, while at the same time focusing on quality in favorable noise situations by minimizing the amount of speech distortions. Through simulation studies, we show the proposed method attains speech quality on par or better than existing methods in both objective measurements and subjective listening tests, whilst still sustaining objective speech intelligibility performance on par with existing methods.

Published
2022
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24. Cosmetic Breast Augmentation with Autologous Ex Vivo-Expanded Adipose-Derived Mesenchymal Stem/Stromal Cell (Stemform®)-Enriched Fat Grafts: A Study of the First Twenty-Two Real-World Patients

Author

Mamsen, Frederik Penzien Wainer, Fischer-Nielsen, Anne, Svalgaard, Jesper Dyrendom, Jensen, Jesper Due, Jønsson, Bo, Duscher, Dominik, Christensen, Josef, Van Leeuwen, Michiel, Kiilerich, Claes Hannibal, Roider, Laura, Sterodimas, Aris, Munthe-Fog, Lea, and Kølle, Stig-Frederik Trojahn

Published
2024
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26. Completeness of revascularization by FFRCT in stable angina: Association to adverse cardiovascular outcomes

Author

Madsen, Kristian Tækker, Nørgaard, Bjarne Linde, Øvrehus, Kristian Altern, Jensen, Jesper Møller, Parner, Erik, Grove, Erik Lerkevang, Mortensen, Martin B., Iraqi, Nadia, Fairbairn, Timothy A., Nieman, Koen, Patel, Manesh R., Rogers, Campbell, Mullen, Sarah, Mickley, Hans, Thomsen, Kristian Korsgaard, Bøtker, Hans Erik, Leipsic, Jonathon, and Rønnow Sand, Niels Peter

Published
2024
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27. Artificial Intelligence–Enabled Quantitative Coronary Plaque and Hemodynamic Analysis for Predicting Acute Coronary Syndrome

Author

Koo, Bon-Kwon, Yang, Seokhun, Jung, Jae Wook, Zhang, Jinlong, Lee, Keehwan, Hwang, Doyeon, Lee, Kyu-Sun, Doh, Joon-Hyung, Nam, Chang-Wook, Kim, Tae Hyun, Shin, Eun-Seok, Chun, Eun Ju, Choi, Su-Yeon, Kim, Hyun Kuk, Hong, Young Joon, Park, Hun-Jun, Kim, Song-Yi, Husic, Mirza, Lambrechtsen, Jess, Jensen, Jesper M., Nørgaard, Bjarne L., Andreini, Daniele, Maurovich-Horvat, Pal, Merkely, Bela, Penicka, Martin, de Bruyne, Bernard, Ihdayhid, Abdul, Ko, Brian, Tzimas, Georgios, Leipsic, Jonathon, Sanz, Javier, Rabbat, Mark G., Katchi, Farhan, Shah, Moneal, Tanaka, Nobuhiro, Nakazato, Ryo, Asano, Taku, Terashima, Mitsuyasu, Takashima, Hiroaki, Amano, Tetsuya, Sobue, Yoshihiro, Matsuo, Hitoshi, Otake, Hiromasa, Kubo, Takashi, Takahata, Masahiro, Akasaka, Takashi, Kido, Teruhito, Mochizuki, Teruhito, Yokoi, Hiroyoshi, Okonogi, Taichi, Kawasaki, Tomohiro, Nakao, Koichi, Sakamoto, Tomohiro, Yonetsu, Taishi, Kakuta, Tsunekazu, Yamauchi, Yohei, Bax, Jeroen J., Shaw, Leslee J., Stone, Peter H., and Narula, Jagat

Published
2024
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30. Gaussian theory for estimating fluctuating perturbations with back action evasive oscillator variables

Author

Jensen, Jesper Hasseriis Mohr and Mølmer, Klaus

Subjects
Quantum Physics
Abstract

We apply a Gaussian state formalism to track fluctuating perturbations that act on the position and momentum quadrature variables of a harmonic oscillator. Following a seminal proposal by Tsang and Caves [Phys. Rev. Lett. 105, 123601 (2010)], Einstein-Podolsky-Rosen correlations with the quadrature variables of an ancillary harmonic oscillator are leveraged to significantly improve the estimates as relevant sensor variables can be arbitrarily squeezed while evading adverse effects from the conjugate, anti-squeezed variables. Our real-time analysis of the continuous monitoring of the system employs a hybrid quantum-classical description of the quantum probe and the unknown classical perturbations, and it provides a general formalism to establish the achievements of the sensing scheme and how they depend on different parameters.

Published
2022
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34. Supporting the Legitimacy of Quality Criteria for Multimodal Production in School

Author

Hoffmeyer, Mikkeline Blatt, Jensen, Jesper Juellund, and Olsen, Marie Veisegaard

Abstract

The aim of this article is to examine the significance of teachers' conceptions of quality when assessing digital multimodal student productions. The authors have undertaken a design-based research study to examine how to support teachers' use of explicit quality criteria for multimodal production in 5th to 8th grade Danish and History classes (year 11-15). Through the development of a tool to support teachers' drawing up and use of assessment criteria for digital multimodal products, teachers' conceptions of quality of multimodal products were examined based on interviews and classroom observations. The authors propose four reasons for teachers not regarding qualities of digital multimodal genres as legitimate in school. Firstly, the relevance of product quality is not acknowledged. Second, opposing and confusing communication purposes for multimodal products in school leave no room for clear quality criteria and assessment of the products. Third, the learning potential of other modes than language is not accepted. And finally, the new digital multimodal genres are understood and assessed in the light of traditional school genres.

Published
2020

35. Deep Spoken Keyword Spotting: An Overview

Author

López-Espejo, Iván, Tan, Zheng-Hua, Hansen, John, and Jensen, Jesper

Subjects
Computer Science - Sound, Computer Science - Human-Computer Interaction, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

Spoken keyword spotting (KWS) deals with the identification of keywords in audio streams and has become a fast-growing technology thanks to the paradigm shift introduced by deep learning a few years ago. This has allowed the rapid embedding of deep KWS in a myriad of small electronic devices with different purposes like the activation of voice assistants. Prospects suggest a sustained growth in terms of social use of this technology. Thus, it is not surprising that deep KWS has become a hot research topic among speech scientists, who constantly look for KWS performance improvement and computational complexity reduction. This context motivates this paper, in which we conduct a literature review into deep spoken KWS to assist practitioners and researchers who are interested in this technology. Specifically, this overview has a comprehensive nature by covering a thorough analysis of deep KWS systems (which includes speech features, acoustic modeling and posterior handling), robustness methods, applications, datasets, evaluation metrics, performance of deep KWS systems and audio-visual KWS. The analysis performed in this paper allows us to identify a number of directions for future research, including directions adopted from automatic speech recognition research and directions that are unique to the problem of spoken KWS.

Published
2021

36. Detecting acoustic reflectors using a robot's ego-noise

Author

Saqib, Usama, Deleforge, Antoine, and Jensen, Jesper

Subjects
Computer Science - Sound, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

In this paper, we propose a method to estimate the proximity of an acoustic reflector, e.g., a wall, using ego-noise, i.e., the noise produced by the moving parts of a listening robot. This is achieved by estimating the times of arrival of acoustic echoes reflected from the surface. Simulated experiments show that the proposed nonintrusive approach is capable of accurately estimating the distance of a reflector up to 1 meter and outperforms a previously proposed intrusive approach under loud ego-noise conditions. The proposed method is helped by a probabilistic echo detector that estimates whether or not an acoustic reflector is within a short range of the robotic platform. This preliminary investigation paves the way towards a new kind of collision avoidance system that would purely rely on audio sensors rather than conventional proximity sensors.

Published
2021

37. Joint Far- and Near-End Speech Intelligibility Enhancement based on the Approximated Speech Intelligibility Index

Author

Fuglsig, Andreas Jonas, Østergaard, Jan, Jensen, Jesper, Bertelsen, Lars Søndergaard, Mariager, Peter, and Tan, Zheng-Hua

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Sound
Abstract

This paper considers speech enhancement of signals picked up in one noisy environment which must be presented to a listener in another noisy environment. Recently, it has been shown that an optimal solution to this problem requires the consideration of the noise sources in both environments jointly. However, the existing optimal mutual information based method requires a complicated system model that includes natural speech variations, and relies on approximations and assumptions of the underlying signal distributions. In this paper, we propose to use a simpler signal model and optimize speech intelligibility based on the Approximated Speech Intelligibility Index (ASII). We derive a closed-form solution to the joint far- and near-end speech enhancement problem that is independent of the marginal distribution of signal coefficients, and that achieves similar performance to existing work. In addition, we do not need to model or optimize for natural speech variations.

Published
2021
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38. Position Statement on Cardiac Computed Tomography Following Left Atrial Appendage Occlusion

Author

Korsholm, Kasper, Iriart, Xavier, Saw, Jacqueline, Wang, Dee Dee, Berti, Sergio, Galea, Roberto, Freixa, Xavier, Arzamendi, Dabit, De Backer, Ole, Kramer, Anders, Cademartiri, Filippo, Cochet, Hubert, Odenstedt, Jacob, Aminian, Adel, Räber, Lorenz, Cruz-Gonzalez, Ignacio, Garot, Philippe, Jensen, Jesper Møller, Alkhouli, Mohamad, and Nielsen-Kudsk, Jens Erik

Published
2024
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43. Coronary computed tomography angiography derived fractional flow reserve and risk of recurrent angina: A 3-year follow-up study

Author

Madsen, Kristian Tækker, Nørgaard, Bjarne Linde, Øvrehus, Kristian Altern, Jensen, Jesper Møller, Parner, Erik, Grove, Erik Lerkevang, Mortensen, Martin B., Fairbairn, Timothy A., Nieman, Koen, Patel, Manesh R., Rogers, Campbell, Mullen, Sarah, Mickley, Hans, Thomsen, Kristian Korsgaard, Bøtker, Hans Erik, Leipsic, Jonathon, and Sand, Niels Peter Rønnow

Published
2024
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44. Empagliflozin to elderly and obese patients with increased risk of developing heart failure: Study protocol for the Empire Prevent trial program

Author

Andersen, Camilla Fuchs, Larsen, Julie Hempel, Jensen, Jesper, Omar, Massar, Nouhravesh, Nina, Kistorp, Caroline, Tuxen, Christian, Gustafsson, Finn, Knop, Filip K., Forman, Julie Lyng, Davidovski, Filip Soeskov, Jensen, Lars Thorbjørn, Højlund, Kurt, Køber, Lars, Antonsen, Lisbeth, Poulsen, Mikael Kjær, Schou, Morten, and Møller, Jacob Eifer

Published
2024
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45. Influence of intracoronary hemodynamic forces on atherosclerotic plaque phenotypes

Author

Candreva, Alessandro, Gallo, Diego, Munhoz, Daniel, Rizzini, Maurizio Lodi, Mizukami, Takuya, Seki, Ruiko, Sakai, Koshiro, Sonck, Jeroen, Mazzi, Valentina, Ko, Brian, Nørgaard, Bjarne Linde, Jensen, Jesper Møller, Maeng, Michael, Otake, Hiromasa, Koo, Bon-Kwon, Shinke, Toshiro, Aben, Jean-Paul, Andreini, Daniele, Gallinoro, Emanuele, Stähli, Barbara E., Templin, Christian, Chiastra, Claudio, De Bruyne, Bernard, Morbiducci, Umberto, and Collet, Carlos

Published
2024
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46. Student use of a quantum simulation and visualization tool

Author

Ahmed, Shaeema Zaman, Weidner, Carrie A., Jensen, Jesper H. M., Sherson, Jacob F., and Lewandowski, H. J.

Subjects
Physics - Physics Education
Abstract

Knowledge of quantum mechanical systems is becoming more important for many science and engineering students who are looking to join the emerging quantum workforce. To better prepare a wide range of students for these careers, we must seek to develop new tools to enhance our education in quantum topics. We present initial studies on the use of one of these such tools, Quantum Composer, a 1D quantum simulation and visualization tool developed for education and research purposes. In particular, we conducted five think-aloud interviews with students who worked through an exercise using Quantum Composer that focused on the statics and dynamics of quantum states in a single harmonic well system. Our results show that Quantum Composer helps students to obtain the correct answers to the questions posed, but additional support is needed to facilitate the development of student reasoning behind these answers. We also show that students are able to focus only on the relevant features of Quantum Composer to achieve the task.

Published
2021
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47. On TasNet for Low-Latency Single-Speaker Speech Enhancement

Author

Kolbæk, Morten, Tan, Zheng-Hua, Jensen, Søren Holdt, and Jensen, Jesper

Subjects
Computer Science - Sound, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

In recent years, speech processing algorithms have seen tremendous progress primarily due to the deep learning renaissance. This is especially true for speech separation where the time-domain audio separation network (TasNet) has led to significant improvements. However, for the related task of single-speaker speech enhancement, which is of obvious importance, it is yet unknown, if the TasNet architecture is equally successful. In this paper, we show that TasNet improves state-of-the-art also for speech enhancement, and that the largest gains are achieved for modulated noise sources such as speech. Furthermore, we show that TasNet learns an efficient inner-domain representation, where target and noise signal components are highly separable. This is especially true for noise in terms of interfering speech signals, which might explain why TasNet performs so well on the separation task. Additionally, we show that TasNet performs poorly for large frame hops and conjecture that aliasing might be the main cause of this performance drop. Finally, we show that TasNet consistently outperforms a state-of-the-art single-speaker speech enhancement system.

Published
2021

48. A training programme for early-stage researchers that focuses on developing personal science outreach portfolios

Author

Ahmed, Shaeema Zaman, Hjorth, Arthur, Rafner, Janet Frances, Weidner, Carrie Ann, Kragh, Gitte, Jensen, Jesper Hasseriis Mohr, Bobroff, Julien, Nielsen, Kristian Hvidtfelt, and Sherson, Jacob Friis

Subjects
Physics - Physics Education, Physics - Popular Physics, Quantum Physics
Abstract

Development of outreach skills is critical for researchers when communicating their work to non-expert audiences. However, due to the lack of formal training, researchers are typically unaware of the benefits of outreach training and often under-prioritize outreach. We present a training programme conducted with an international network of PhD students in quantum physics, which focused on developing outreach skills and an understanding of the associated professional benefits by creating an outreach portfolio consisting of a range of implementable outreach products. We describe our approach, assess the impact, and provide a list of guidelines for designing similar programmes across scientific disciplines in the future., Comment: 14 figures, 3 tables

Published
2021

49. Correction: Cosmetic Breast Augmentation with Autologous Ex Vivo-Expanded Adipose-Derived Mesenchymal Stem/Stromal Cell (Stemform®)-Enriched Fat Grafts: A Study of the First Twenty-Two Real-World Patients

Author

Mamsen, Frederik Penzien Wainer, Fischer-Nielsen, Anne, Svalgaard, Jesper Dyrendom, Jensen, Jesper Due, Jønsson, Bo, Duscher, Dominik, Christensen, Josef, Van Leeuwen, Michiel, Kiilerich, Claes Hannibal, Roider, Laura, Sterodimas, Aris, Munthe-Fog, Lea, and Kølle, Stig-Frederik Trojahn

Published
2024
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