Yiting Lu scite author profile

Yiting Lu

4Publications

124Citation Statements Received

85Citation Statements Given

How they've been cited

137

123

How they cite others

106

Affiliations

Imec the Netherlands, University of Cambridge, Zhejiang Gongshang University

Publications

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Estimating Sheep Pain Level Using Facial Action Unit Detection

Mahmoud

Robinson

2017

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Assessing pain levels in animals is a crucial, but time-consuming process in maintaining their welfare. Facial expressions in sheep are an efficient and reliable indicator of pain levels. In this paper, we have extended techniques for recognising human facial expressions to encompass facial action units in sheep, which can then facilitate automatic estimation of pain levels. Our multi-level approach starts with detection of sheep faces, localisation of facial landmarks, normalisation and then extraction of facial features. These are described using Histogram of Oriented Gradients, and then classified using Support Vector Machines. Our experiments show an overall accuracy of 67% on sheep Action Units classification. We argue that with more data, our approach on automated pain level assessment can be generalised to other animals.

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Enabling Robust Radar-Based Localization and Vital Signs Monitoring in Multipath Propagation Environments

Mercuri

Polito

et al. 2021

IEEE Trans. Biomed. Eng.

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Over the last two decades, radarbased contactless monitoring of vital signs (heartbeat and respiration rate) has raised increasing interest as an emerging and added value to health care. However, until now, the flaws caused by indoor multipath propagation formed a fundamental hurdle for the adoption of such technology in practical healthcare applications where reliability and robustness are crucial. Multipath reflections, originated from one person, combine with the direct signals and multipaths of other people and stationary objects, thus jeopardizing individual vital signs extraction and localization. This work focuses on tackling indoor multipath propagation. Methods: We describe a methodology, based on accurate models of the indoor multipaths and of the radar signals, that enables separating the undesired multipaths from desired signals of multiple individuals, removing a key obstacle to real-world contactless vital signs monitoring and localization. Results: We also demonstrated it by accurately measure individual heart rates, respiration rates, and absolute distances (range information) of paired volunteers in a challenging real-world office setting. Conclusion: The approach, validated using a frequency-modulated continuous wave (FMCW) radar, was shown to function in an indoor environment where radar signals are severely affected by multipath reflections. Significance: Practical applications arise for health care, assisted living, geriatric and quarantine medicine, rescue and security purposes.

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Estimation of Pain in Sheep Using Computer Vision

Mahmoud

Hou

et al. 2018

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Spoken Language ‘Grammatical Error Correction’

Gales

Wang

2020

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Spoken language 'grammatical error correction' (GEC) is an important mechanism to help learners of a foreign language, here English, improve their spoken grammar. GEC is challenging for non-native spoken language due to interruptions from disfluent speech events such as repetitions and false starts and issues in strictly defining what is acceptable in spoken language. Furthermore there is little labelled data to train models. One way to mitigate the impact of speech events is to use a disfluency detection (DD) model. Removing the detected disfluencies converts the speech transcript to be closer to written language, which has significantly more labelled training data. This paper considers two types of approaches to leveraging DD models to boost spoken GEC performance. One is sequential, a separately trained DD model acts as a pre-processing module providing a more structured input to the GEC model. The second approach is to train DD and GEC models in an end-to-end fashion, simultaneously optimising both modules. Embeddings enable endto-end models to have a richer information flow. Experimental results show that DD effectively regulates GEC input; endto-end training works well when fine-tuned on limited labelled in-domain data; and improving DD by incorporating acoustic information helps improve spoken GEC.

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Yiting Lu

Estimating Sheep Pain Level Using Facial Action Unit Detection

Enabling Robust Radar-Based Localization and Vital Signs Monitoring in Multipath Propagation Environments

Estimation of Pain in Sheep Using Computer Vision

Spoken Language ‘Grammatical Error Correction’

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