Job offer: 1-year postdoc position at LSP (with a possibility of 1-year extension)

The Laboratoire des Systèmes Perceptifs (LSP, ENS Paris / CNRS, https://lsp.dec.ens.fr/en) is offering a postdoc position for the ANR project fastACI ('Exploring phoneme representations and their adaptability using fast Auditory Classification Images') supervised by Léo Varnet (leo.varnet@ens.psl.eu).

The fastACI project aims to develop a fast and robust experimental method to visualize and characterize the auditory mechanisms involved in phoneme recognition. The fast-ACI method relies on a stimulus-response model, combined with a reverse correlation (revcorr) experimental paradigm. This approach, producing an 'instant picture' of a participant’s listening strategy in a given context, has already yielded conclusive results, but remains very time-consuming. Therefore, the main objectives of this postdoc contract will be (1) to improve the efficiency of the process using advanced supervised learning techniques (e.g. sparse priors on a smooth basis) and an online adaptive protocol (e.g. Bayesian optimisation); then (2) to use this technique to map the phonemic representations used by normal-hearing listeners. For this purpose, a large number of experiments on phoneme-in-noise categorization tasks (e.g. /aba/ vs. /ada/) will be carried out, in order to insure the broadest possible mapping of the French phonological inventory. As a second step, the new tool will be used to explore the adaptability of speech comprehension in the case of sensorineural hearing loss and noisy backgrounds.

The post-doc will be involved in all activities in line with the project, including data collection, coding and statistical analyses. The post-doc will also coordinate trainees’ and students’ work involved in the project, and contribute significantly to publication of the findings.

Required profile:

 Background in psychoacoustics and/or machine learning (the candidate should preferably hold a PhD in one of these fields)

 High skills in statistical data processing (in particular supervised learning algorithms) and practical knowledge in psychophysics

 Basic understanding of psychoacoustics and psycholinguistics

 Good knowledge of Matlab programming (other languages such as R can also be useful)

 Strong communication skills in English (working language in the lab) and French (interactions with participants, etc.).

Duration: 12 months or 24 months

Start: Early 2021

Net salary: ~ 2100€/ month

Application Procedure:

Applications must include a detailed CV and a motivation letter, a link to (or copy of) the PhD thesis, PhD Viva report, plus the email contact of 2 referees. Applications are to be sent to: Léo Varnet (leo.varnet@ens.psl.eu) before 08/11 (interviews should take place on the 18/11 by videoconference)

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Privacy preserving and personalized transformations for speech recognition

This research position fits within the scope of a collaborative project (funded by the French National Research Agency) involving several French teams, among which, the MULTISPEECH team of Inria Nancy - Grand-Est.

One objective of the project is to transform speech data in order to hide some speaker characteristics (such as voice identity, gender information, emotion, ...) in order to safely share the transformed data while keeping speaker privacy. The shared data is to be used to train and optimize models for speech recognition.

The selected candidate will collaborate with other members of the project, and will participate to the project meetings.

Scientific Context

Over the last decade, great progress has been made in automatic speech recognition [Saon et al., 2017; Xiong et al., 2017]. This is due to the maturity of machine learning techniques (e.g., advanced forms of deep learning), to the availability of very large datasets, and to the increase in computational power. Consequently, the use of speech recognition is now spreading in many applications, such as virtual assistants (as for instance Apple’s Siri, Google Now, Microsoft’s Cortana, or Amazon’s Alexa) which collect, process and store personal speech data in centralized servers, raising serious concerns regarding the privacy of the data of their users. Embedded speech recognition frameworks have recently been introduced to address privacy issues during the recognition phase: in this case, a (pretrained) speech recognition model is shipped to the user's device so that the processing can be done locally without the user sharing its data. However, speech recognition technology still has limited performance in adverse conditions (e.g., noisy environments, reverberated speech, strong accents, etc.) and thus, there is a need for performance improvement. This can only be achieved by using large speech corpora that are representative of the actual users and of the various usage conditions. There is therefore a strong need to share speech data for improved training that is beneficial to all users, while preserving the privacy of the users, which means at least keeping the speaker identity and voice characteristics private [1].

Missions: (objectives, approach, etc.)

Within this context, the objective is twofold. First, it aims at improving privacy preserving transforms of the speech data, and, second, it will investigate the use of additional personalized transforms, that can be applied on the user’s terminal, to increase speech recognition performance.

In the proposed approach, the device of each user will not share its raw speech data, but a privacy preserving transformation of the user speech data. In such approach, some private computations will be handled locally, while some cross-user computations may be carried out on a server using the transformed speech data, which protect the speaker identity and some of his/her features (gender, sentiment, emotions...). More specifically, this rely on a representation learning to separate the features of the user data that can expose private information from generic ones useful for the task of interest, i.e., here, the recognition of the linguistic content. On this topic, recent experiments have relied on Generative Adversarial Networks (GANs) for proposing a privacy preserving transform [Srivastava et al., 2019], and on voice conversion approaches [Srivastava et al., 2020].

In addition, as devices are getting more and more personal, this creates opportunities to make speech recognition more personalized. Some recent studies have investigated approaches that takes benefit of speaker information [Turan et al., 2020].

The candidate will investigate further approaches along these lines. Other topics such as investigating the impact and benefit of adding some random noise in the transforms will be part of the studies, as well as dealing with (hiding) some paralinguistic characteristics. Research directions and priorities will take into account new state-of-the-art results and on-going activities in the project.

Skills and profile:

PhD or Master in machine learning or in computer science

Background in statistics, and in deep learning

Experience with deep learning tools is a plus

Good computer skills (preferably in Python)

Experience in speech and/or speaker recognition is a plus

Bibliography:

[Saon et al., 2017] G. Saon, G. Kurata, T. Sercu, K. Audhkhasi, S. Thomas, D. Dimitriadis, X. Cui, B. Ramabhadran, M. Picheny, L.-L. Lim, B. Roomi, and P. Hall: English conversational telephone speech recognition by humans and machines. Technical report, arXiv:1703.02136, 2017.

[Srivastava et al., 2019] B. Srivastava, A. Bellet, M. Tommasi, and E. Vincent: Privacy preserving adversarial representation learning in ASR: reality or illusion? INTERSPEECH 2019 - 20th Annual Conference of the International Speech Communication Association , Sep 2019, Graz, Austria.

[Srivastava et al., 2020] B. Srivastava, N. Tomashenko, X. Wang, E. Vincent, J. Yamagishi, M. Maouche, A. Bellet, and M. Tommasi: Design choices for x-vector based speaker anonymization. INTERSPEECH 2020, 21th Annual Conference of the International Speech Communication Association, Oct 2020, Shanghai, China.

[Turan et al., 2020] T. Turan, E. Vincent, and D. Jouvet: Achieving multi-accent ASR via unsupervised acoustic model adaptation. INTERSPEECH 2020, 21th Annual Conference of the International Speech Communication Association, Oct 2020, Shanghai, China.

[Xiong et al., 2017] W. Xiong, J. Droppo, X. Huang, F. Seide, M. Seltzer, A. Stolcke, D. Yu, and G. Zweig. Achieving human parity in conversational speech recognition. Technical report, arXiv:1610.05256, 2017.

Additional information:

Supervision and contact:

Denis Jouvet (denis.jouvet@inria.fr; https://members.loria.fr/DJouvet/)

Duration: 2 years

Starting date: autumn 2020

Location: Inria Nancy – Grand Est, 54600 Villers-lès-Nancy

footnote [1] : Note that when sharing data, users may want not to share data conveying private information at the linguistic level (e.g., phone number, person name, …). Such privacy aspects also need to be taken into account, but they are out-of-the scope of this project.

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There is a fully funded PhD position open at Idiap Research Institute on 'Speech
recognition and natural language processing for digital interviews'.

At a high level, we are interested in how candidates for jobs respond in structured
selection interviews; in particular how they are able to tell stories about past work
situations. More concretely, we will investigate speech recognition architectures
suitable for such interviews, and natural language processing solutions that are able to
infer the higher level semantics required by our collaborators in the social sciences.

A-priori, given that it is the higher level semantics that are of interest, we expect to
make use of recent lexicon-free approaches to speech recognition. We also expect to draw
from the rapidly advancing language modelling field with tools such as BERT and its
successors. There will be ample opportunity for research in the component technologies,
which are all currently pertinent in the general machine learning landscape. In
particular, we expect to make advances in the technological interfaces between component
technologies, and in the humanist interfaces between the machine learning practitioners
and social scientists.

For more information, and to apply, please follow this link:
 http://www.idiap.ch/education-and-jobs/job-10312

Idiap is located in Martigny in French speaking Switzerland, but functions in English and
hosts many nationalities.  PhD students are registered at EPFL. All positions offer quite
generous salaries. Martigny has a distillery and a micro-brewery and is close to all
manner of skiing, hiking and mountain life.

There are other open positions on Idiap's main page
 https://www.idiap.ch/en/join-us/job-opportunities

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Dans le cadre de la Chaire ' Bayesian Cognition and Machine Learning for Speech
Communication' (http://www.gipsa-lab.fr/projet/MIAI-Speech/) financée par Le
Multidisciplinary Institute in Artificial Intelligence (MIAI) de l'Université Grenoble
Alpes (https://miai.univ-grenoble-alpes.fr/), nous proposons une thèse sur le contrôle de
la production de la parole. Cette thèse étudiera comment planification et exécution
motrices interagissent pour atteindre, dans des conditions très variées et parfois
variables au cours de l'élocution, les buts auditifs et somatosensoriels qui permettent
une communication parlée efficace. Pour cela le travail consistera à implémenter et à
approfondir l'hypothèse selon laquelle le cerveau développe et exploite des
représentations ou modèles internes de la dynamique des articulateurs et de leur
influence sur l'acoustique, afin de prédire à chaque instant l'état du système
articulatoire et les corrélats auditifs du signal acoustique. Une attention particulière
sera portée sur la modélisation de la façon dont le cerveau peut intégrer en temps réel
ces prédictions avec les retours somatosensoriels et auditifs effectifs, bruités et
retardés par les temps de transmission dans les systèmes physiques et physiologiques,
pour assurer une prononciation correcte des sons, en toute condition et, en visant une
minimisation de l'effort produit.

Mots Clés :Contrôle moteur de la parole ; Contrôle moteur ; Théorie du contrôle ;
Sciences Cognitives ; Machine Learning

Pour plus d'information voir:
http://www.gipsa-lab.fr/projet/MIAI-Speech/thesis/DEEPTONGUE_PhD_Proposal_Baraduc_Perrier.pdf
Bien cordialement

Pierre Baraduc et Pascal Perrier

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Postdoctoralposition in Mobile Sensing and Child Mental Health

Beckman Institute for Advanced Science & Technology

University ofIllinois at Urbana-Champaign

Our interdisciplinary research team at the Beckman Institute for Advance Science and Technology is developing and applying innovative tools and methods from mobile sensing, signal processing and machine learning to gain insight into the dynamic processes underlying the emergence of disturbances in child mental health. We have engineered a wearable sensing platform that captures speech, motion, and physiological signals of infants and young children in their natural environments, and we are applying data-driven machine-learning approaches and dynamic statistical modeling techniques to large-scale, naturalistic, and longitudinal data sets to characterize dynamic child-parent transactions and children’s developing stress regulatory capacities and to ultimately capture reliable biomarkers of child mental health disturbance.

We seek outstanding candidates for a postdoctoral scholar position that combines multimodal sensing and signal processing, dynamic systems modeling, and child mental health. The ideal candidate would have expertise in one or more of the following domains related to wearable sensors:

• signal processing of audio, motion or physiological data

• statistical modeling of multivariate time series data

• mobile health interventions including wearable sensors

• activity recognition

• machine learning

• digital phenotyping

In addition to joining a highly interdisciplinary team and making contributions to high impact research on mobile sensing and child mental health, this position provides strong opportunities for professional development and mentorship by faculty team leaders, including Drs. Mark Hasegawa-Johnson, Romit Roy Choudhury, and Nancy McElwain. In collaboration with the larger team, the postdoctoral scholar will play a central role in preparing conference papers and manuscripts for publication, contributing to the preparation of future grant proposals, and assisting with further development of our mobile sensing platform for use with infants and young children.

Applicants should have a doctoral degree in computer engineering, computer science, or a field related to data analytics of wearable sensors, as well as excellent skills in programming, communication, and writing. Appointment is for at least two years, contingent on first-year performance. The position start date is negotiable.

Please send a coverletter and CV to Drs. Mark Hasegawa-Johnson (jhasegaw@illinois.edu) and Nancy McElwain (mcelwn@illinois.edu). Applications will be considered until the position is filled, with priority given to applications submitted by November 15th.

The University of Illinois is an Equal Opportunity, Affirmative Action employer. Minorities, women, veterans and individuals with disabilities are encouraged to apply. For more information, visit http://go.illinois.edu/EEO.

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we have openings for TWO positions in Trinity College Dublin, Ireland, available from Dec 1st, 2020 for 14 months. We are seeking:

A Research Assistant (qualified to Masters level)

A Research Fellow (holds a PhD)

The Project:

RoomReader is a project led by Prof. Naomi Harte in TCD and Prof. Ben Cowan in UCD, Ireland. The research is exploring and modelling online interactions, and is funded by the Science Foundation Ireland Covid 19 Rapid Response Call. The candidate will be working with a team to drive research into multimodal cues of engagement in online teaching scenarios. The work involves a collaboration with Microsoft Research Cambridge, and Microsoft Ireland.

The Research Assistant will have a psychology/linguistics/engineering background (we are flexible) and will be tasked with researching and designing a new online task to elicit speech based interactions relevant to online teaching scenarios (think multi-party MapTask or Diapix, but different). They will also be responsible for the capture of that dataset and subsequent editing/labelling for deployment in the project and eventual sharing with the wider research community. Annual gross salary up to ?34,930 per annum depending on experience.

The Research Fellow needs a background, including a PhD, in deep learning and the modelling of multimodal cues in speech. Their previous experience might be in conversational analysis, multimodal speech recognition or other areas. They should have a proved track record with publications commensurate with career stage. Annual gross salary up  to ?50030 depending on experience.

The project starts on Dec 1^st, and the positions can start from that date and continue for 14 months. Please email nharte@tcd.ie for a more detailed description of either role, or to discuss. I am open to a person remote-working for the remainder of 2020, but the ideal candidate will be in a position to move to Ireland for Jan 2021 and work with the team in TCD.

Sigmedia Research Group @ Trinity College Dublin, Ireland

The Signal Processing and Media Applications (aka Sigmedia) Group was founded in 1998 in Trinity College Dublin, Ireland. Originally with a focus on video and image processing, the group today spans research in areas across all aspects of media ? video, images, speech and audio. Prof. Naomi Harte leads the Sigmedia research endeavours in human speech communication. The group has active research in audio-visual speech recognition, evaluation of speech synthesis, multimodal cues in human conversation, and birdsong analysis. The group is interested in all aspect of human interaction, centred on speech. Much of our work is underpinned by signal processing and machine learning, but we also have researchers with a background in linguistic and psychology aspects of speech processing to keep us all grounded.

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3 Tenure Track Professors (W2) at Saarland University

Saarland University is seeking to hire up to

3 Tenure Track Professors (W2)

in computer science and related areas with six-year tenure track to a permanent
professorship (W3). We are looking for highly motivated young researchers in any modern
area of Computer Science, especially in one or more of the following research areas:

. Artificial Intelligence, Machine Learning
. Natural Language Processing
. Data Science, Big Data
. Graphics, Visualization, Computer Vision
. Human-Computer Interaction
. Programming Languages and Software Engineering
. Computer Architecture and High-Performance Computing
. Networked, Distributed, Embedded, Real-Time Systems
. Bioinformatics
. Computational Logic and Verification
. Theory and Algorithms
. Societal Aspects of Computing
. Robotics
. Quantum Computing

The position will be established in the Department for Computer Science or in the
Department for Language Science and Technology of Saarland University, which is part of
the Saarland Informatics Campus (SIC), located in Saarbrücken. With its 800 researchers
and more than 2.000 students from 81 countries, the SIC belongs to one of the leading
locations for Computer Science in Germany and in Europe. All areas of computer science
are covered at five globally renowned research institutes and three collaborating
university departments, as well as in a total of 21 academic programs.

Our Offer: Tenure track professors (W2) have faculty status at Saarland University,
including the right to supervise bachelor?s, master?s and PhD students. They focus on
world-class research, will lead their own research group and will have a significantly
reduced teaching load. In case of outstanding performance, the position will be tenured
as full professor (W3). The tenure decision is made after at most 6 years.

The position provides excellent working conditions in a lively scientific community,
embedded in the vibrant research environment of the Saarland Informatics Campus. Saarland
University has leading departments in Computer Science and Computational Linguistics,
with more than 350 PhD students working on timely topics (see
https://saarland-informatics-campus.de/ for additional information).

Qualifications:

Applicants must hold an outstanding PhD degree, typically have completed a postdoc stay
and have teaching experience. They must have demonstrated outstanding research abilities
and the potential to successfully lead their own research group. Active contribution to
research and teaching, including basic lectures in computer science, is expected.
Teaching languages are English or German (basic courses). We expect sufficient German
language skills after an appropriate period.

Your Application: Candidates should submit their application online at:
https://applications.saarland-informatics-campus.de
No additional paper copy is required. The application must contain:

. a cover letter and curriculum vitae
. a full list of publications
. a short prospective research plan (2-5 pages)
. copies of degree certificates
. full text copies of the five most important publications
. a list of references: 3-5 (including email addresses), at least one of whom must be
  a person who is outside the group of your current or former supervisors or
  colleagues.

Applications will be accepted until December 11th, 2020. Application talks will take
place between Feb. 01 and Feb. 26, 2021. Please refer to reference W1786 in your
application. Please contact apply@saarland-informatics-campus.de if you have any
questions.

Saarland University is an equal opportunity employer. In accordance with its policy of
increasing the proportion of women in this type of employment, the University actively
encourages applications from women. For candidates with equal qualifications, preference
will be given to people with disabilities. In addition, Saarland University regards
internationalization as a university-wide cross-sectional task and therefore encourages
applications that align with activities to further internationalize the university. When
you submit a job application to Saarland University you will be transmitting personal
data. Please refer to our privacy notice (https://www.uni-
saarland.de/verwaltung/datenschutz/) for information on how we collect and process
personal data in accordance with Art. 13 of the General Data Protection Regulation
(GDPR). By submitting your application you confirm that you have taken note of the
information in the Saarland University privacy notice.

Links:

https://www.uni-saarland.de/fileadmin/user_upload/verwaltung/stellen/wissenschaftler/W1786_W2TT-Informatik_Ausschreibung_final.pdf

Saarland University, https://www.uni-saarland.de/en/home.html

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 Fully-funded PhD studentships in Speech and NLP at the University of Sheffield

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UKRI Centre for Doctoral Training (CDT) in Speech and Language Technologies (SLT) and their Applications 

Department of Computer Science

Faculty of Engineering 

University of Sheffield, UK

Fully-funded 4-year PhD studentships for research in speech technologies and NLP

** Applications now open for September 2021 intake **

Deadline for applications: 31 January 2021. 

Speech and Language Technologies (SLTs) are a range of Artificial Intelligence (AI) approaches which allow computer programs or electronic devices to analyse, produce, modify or respond to human texts and speech. SLTs are underpinned by a number of fundamental research fields including natural language processing (NLP / NLProc), speech processing, computational linguistics, mathematics, machine learning, physics, psychology, computer science, and acoustics. SLTs are now established as core scientific/engineering disciplines within AI and have grown into a world-wide multi-billion dollar industry.

Located in the Department of Computer Science at the University of Sheffield ? a world leading research institution in the SLT field ? the UKRI Centre for Doctoral Training (CDT) in Speech and Language Technologies and their Applications is a vibrant research centre that also provides training in engineering skills, leadership, ethics, innovation, entrepreneurship, and responsibility to society.

Apply now: https://slt-cdt.ac.uk/apply/ 

The benefits:

• Four-year fully-funded studentship covering fees and an enhanced stipend (£17,000 pa)

• Generous personal allowance for research-related travel, conference attendance, specialist equipment, etc.

• A full-time PhD with Integrated Postgraduate Diploma (PGDip) incorporating 6 months of foundational speech and NLP training prior to starting your research project 

• Bespoke cohort-based training programme running over the entire four years providing the necessary skills for academic and industrial leadership in the field.

• Supervision from a team of over 20 internationally leading SLT researchers, covering all core areas of modern SLT research, and a broader pool of over 50 academics in cognate disciplines with interests in SLTs and their application

• Every PhD project is underpinned by a real-world application, directly supported by one of our industry partners. 

• A dedicated CDT workspace within a collaborative and inclusive research environment hosted by the Department of Computer Science

• Work and live in Sheffield - a cultural centre on the edge of the Peak District National Park which is in the top 10 most affordable UK university cities (WhatUni? 2019).

About you:

We are looking for students from a wide range of backgrounds interested in speech and NLP. 

• High-quality (ideally first class) undergraduate or masters (ideally distinction) degree in a relevant discipline. Suitable backgrounds include (but are not limited to) computer science/software engineering; informatics; AI; speech and language processing; mathematics; physics; linguistics; cognitive science; and engineering.

• Regardless of background, you must be able to demonstrate strong mathematical aptitude (minimally to A-Level standard or equivalent) and experience of programming.

• We particularly encourage applications from groups that are underrepresented in technology.

• The majority of candidates must satisfy the UKRI funding eligibility criteria for ?home? students. Full details can be found on our website.

Applying:

Applications are now sought for the September 2021 intake. The deadline is 31 January 2021. 

Applications will be reviewed within 6 weeks of the deadline and short-listed applicants will be invited to interview. Interviews will be held in Sheffield or via videoconference. 

See our website for full details and guidance on how to apply: https://slt-cdt.ac.uk 

For an informal discussion about your application please contact us by email at: sltcdt-enquiries@sheffield.ac.uk

By replying to this email or contacting sltcdt-enquiries@sheffield.ac.uk you consent to being contacted by the University of Sheffield in relation to the CDT. You are free to withdraw your permission in writing at any time. 

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Master2 Internship: Semantic information from the past in a speech recognition system: does the past help the present?

Supervisor:  Irina Illina, MdC, HDR

Team and Laboratory: Multispeech, LORIA-INRIA

Contact: illina@loria.fr

Co-Supervisor:  Dominique Fohr, CR CNRS

Team and Laboratory: Multispeech, LORIA-INRIA

Contact : dominique.fohr@loria.fr

Motivation and context

Semantic and thematic spaces are vector spaces used for the representation of words, sentences or textual documents. The corresponding models and methods have a long history in the field of computational linguistics and natural language processing. Almost all models rely on the hypothesis of statistical semantics that states that: statistical schemes of appearance of words (context of a word) can be used to describe the underlying semantics. The most used method to learn these representations is to predict a word using the context in which this word appears [Mikolov et al., 2013, Pennington et al., 2014], and this can be realized with neural networks. These representations have proved their effectiveness for a range of natural language processing tasks. In particular, Mikolov's Skip-gram and CBOW models [Mikolov et al., 2013] and BERT model [Devlin et al., 2019] have become very popular because of their ability to process large amounts of unstructured text data with reduced computing costs. The efficiency and the semantic properties of these representations motivate us to explore these semantic representations for our speech recognition system.

Robust automatic speech recognition (ASR) is always a very ambitious goal. Despite constant efforts and some dramatic advances, the ability of a machine to recognize the speech is still far from equaling that of the human being. Current ASR systems see their performance significantly decrease when the conditions under which they were trained and those in which they are used differ. The causes of variability may be related to the acoustic environment, sound capture equipment, microphone change, etc.

Objectives

Our speech recognition (ASR) system [Povey et al, 2011] is  supplemented by a semantic analysis for detecting the words of the processed sentence that could have been misrecognized and for finding words having a similar pronunciation and matching better the context [Level et al., 2020]. For example, the sentence « Silvio Berlusconi, prince de Milan » can be recognized by the speech recognition system as: « Silvio Berlusconi, prince de mille ans ». A good semantic context representation of the sentence could help to find and correct this error. This semantic analysis re-evaluates (rescores) the N-best transcription hypotheses and can be seen as a form of dynamic adaptation in the case of noisy speech data. A semantic analysis is performed in combining predictive representations using continuous vectors. All our models are based on the powerful technologies of DNN. We use for this the BERT model. The semantic analysis contains the following two modules: the semantic analysis module and the module for re-evaluating sentence hypotheses (rescoring) taking into account the semantic information.

The semantic module improves significantly the performance of speech recognition system. But we would like to go beyond the semantic information of the current sentence. Indeed, sometimes the previous sentences could help to understand and to recognize the current sentence.  The Master internship will be devoted to the innovative study of the taking into account the past recognized sentences to improve the recognition of the current sentence. Research will be conducted on the combination of semantic information from one or several past sentences with semantic information from current sentence to improve the speech recognition. As deep neural networks (DNNs) can model complex functions and get outstanding performance, they will be used in all our modeling. The performance of the different modules will be evaluated on artificially noisy speech data.

Required skills: background in statistics, natural language processing and computer program skills (Perl, Python).

Candidates should email a detailed CV with diploma

Bibliography

[Devlin  et al., 2019] Devlin, J., Chang, M.-W., Lee, K.  and Toutanova K. (2019). BERT: Pre-training of Deep Bidirectional Transformers for Language Understanding, Proceedings of the 2019 Conference of the North American Chapter of the Association for Computational Linguistics: Human Language Technologies, Volume 1 (Long and Short Papers).

[Level et al., 2020] Level S., Illina I., Fohr D. (2020).  Introduction of semantic model to help speech recognition. International Conference on TEXT, SPEECH and DIALOGUE.

 [Mikolov et al., 2013] Mikolov, T., Sutskever, I., Chen, T. Corrado, G.S.,and Dean, J. (2013). Distributed representations of words and phrases and their compositionality, in Advances in Neural Information Processing Systems, pp. 3111?3119.

[Pennington et al., 2014] Pennington, J., Socher, R., and Manning, C. (2014). Glove: Global vectors for word representation. In Proceedings of the Conference on Empirical Methods in Natural Language Processing (EMNLP), pages 1532-1543.

[Povey et al., 2011] Povey, D., Ghoshal, A., Boulianne, G., Burget, L., Glembek, O., Goel, N., Hannemann, M., Motl?cek, P., Qian, Y., Schwarz, Y., Silovsky, J., Stemmer, G., Vesely, K. (2011). The Kaldi Speech Recognition Toolkit, Proc. ASRU.

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Le laboratoire Commun ALAIA, destiné à l'Apprentissage des langues Assisté par Intelligence Artificielle, recrute un ingénieur de recherche en CDD (12 mois avec prolongation possible).

Le travail à réaliser se fera en coordination avec les deux partenaires impliqués dans le LabCom : l'IRIT (Institut de Recherche en Informatique de Toulouse) et la société Archean Technologies et plus particulièrement son pôle R&D Archean Labs (Montauban 82).

ALAIA est centré sur l'expression et la compréhension orale d'une langue étrangère (L2). Les missions consisteront à concevoir, développer et intégrer des services innovants basés sur l'analyse des productions des apprenants L2, la détection et la caractérisation d'erreurs allant du niveau phonétique au niveau linguistique.

Les compétences attendues portent sur le traitement automatique de la parole et du langage, le machine learning et le développement d'application web. 

• Détail de l'offre :  https://www.irit.fr/SAMOVA/site/wp-content/uploads/2020/11/ALAIA_ResearchEngineerPosition_2021.pdf
• Lien vers le LabCom : https://anr.fr/Projet-ANR-18-LCV3-0001 et https://www.irit.fr/SAMOVA/site/projects/current/labcom-alaia/
• Salaire : selon la grille en vigueur, le profil et l'expérience
• Date limite de candidature : le poste est à pourvoir au plus tôt, si possible dès janvier 2021 (délai demande d'accès au laboratoire (ZRR) à prévoir)
  

Les candidatures sont à adresser à Isabelle Ferrané (isabelle.ferrane@irit.fr) et Lionel Fontan (lfontan@archean.tech). N'hésitez pas à nous contacter pour de plus amples informations.

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Dublin City University is seeking to make a strategic appointment to support existing academic and research leadership in the area of Multimodal Information Systems within the DCU School of Computing, home of the ADAPT Centre for Digital Content Technology.

Applications are invited from suitably qualified candidates for a new post of Full Professor of Computing (Multimodal Information Systems) at DCU under the Senior Academic Leadership Initiative (SALI) Call 2019, in line with the requirements set out in the Higher Education Authority (HEA) Call document:

https://hea.ie/assets/uploads/2019/06/FINAL-Call-document-2019-06-21.pdf

The full job job description is available at:

https://www.dcu.ie/sites/default/files/inline-files/nr029a-full-professor-of-computing-multimodal-information-processing-ad_final.pdf

The Appointee will have the benefit of interaction and collaboration with the wider ADAPT research teams -- a significant body of researchers, including PhD students, postdoctoral researchers, Research Fellows and ADAPT staff -- working on aspects of Language Technology, Machine Translation, Personalisation, Multimodal Processing, VR/AR and Privacy and Ethics across the eight ADAPT partner universities.  This is an exciting time for the ADAPT Centre as it transitions from the first phase of SFI funding to the phase II extension from 2021-26. Accordingly, the successful candidate has the perfect opportunity to shape their future research goals by contributing to the envisaged programme of work during the next cycle of ADAPT.

For further information, please contact Prof. Brian Corcoran, Acting Executive Dean, Faculty of Engineering and Computing (brian.corcoran@dcu.ie) at DCU, or Prof. Andy Way, Deputy Director of the ADAPT Centre at DCU (andy.way@adaptcentre.ie), who will be delighted to engage with you further about this role.

The application form is available at:

https://www.dcu.ie/sites/default/files/inline-files/dcu_application_sali-3.doc

The closing date for applications is Dec 2nd, 2020.

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Détection de locuteur·rice actif·ve dans les flux télévisuels

Sujet de Stage - M2 informatique ou école d?ingénieur

Mots clés (Fr): Détection de locuteur actif, analyse multimodale, traitement de la parole, détection du visage, apprentissage automatique, apprentissage profond, audiovisuel, humanités numériques, place des femmes dans les médias, indexation automatique, gender equality monitor

Keywords (En): Active speaker detection, multimodal analysis, speech processing, face detection, machine learning, deep learning, audiovisual, digital humanities, women in media, automatic indexing, gender equality monitor

Contexte

L?Institut national de l?audiovisuel (INA) est en charge du Dépôt Légal de la télévision, de la radio et du web médias. À ce titre, l?INA capte en continu 170 chaînes de télévision et stocke plus de 20 millions d?heures de contenu audiovisuel.

Un processus d?indexation, généralement réalisé par des documentalistes, est nécessaire pour décrire les contenus audiovisuels et retrouver des documents au sein de ces grandes collections. Ce travail consiste, entre autres, à référencer les personnes apparaissant dans les programmes, les sujets évoqués, ou encore produire des résumés des documents. Les activités du service de la recherche de l?INA visent à automatiser certains processus d?indexation: soit en automatisant certaines tâches sans valeur ajoutée humaine (segmentation, repérage de noms propres dans l?image, etc.), soit en réalisant des tâches qui ne sont pas faites par les documentalistes (décompte exhaustif du temps de parole). 

Le sujet proposé s?inscrit dans le cadre du projet Gender Equality Monitor (GEM), financé par l?Agence nationale de la recherche, qui vise à décrire les différences de représentation existant entre les femmes et les hommes dans les médias. Dans ce cadre, des campagnes d?indexation automatique massives des fonds INA ont permis de créer de nouvelles connaissances en science humaines en se fondant sur le temps de parole, le temps d?exposition visuelle, ou encore le contenu des incrustations texte [Dou19a, Dou19b, Dou20].

L?amélioration des systèmes d?indexation automatique nécessite de mettre au point des bases d?exemples représentatives de la diversité des matériaux traités, utilisées pour l?entraînement et l?évaluation. La constitution de bases d?exemples est un enjeu stratégique pour la conception de systèmes fondés sur des processus d?apprentissage automatique et des stratégies d?automatisation de constitution des bases peuvent être envisagées [Sal14].

Objectifs

La détection de locuteur·rice actif·ve (DLA) est une tâche d?analyse multimodale qui consiste à analyser une vidéo, déterminer si les mouvements d?un des visages apparaissant à l?écran correspondent au signal de parole contenu dans la piste audio. La conception de système DLA peut-être envisagée à l?aide d?approches non supervisées [Chun16] ou supervisées [Rot20]. La DLA répond à plusieurs problématiques métier rencontrées par l?INA.

• Synchronisation audio/vidéo: il est fréquent que le flux vidéo et audio de documents numérisés soient désynchronisés. La DLA permet d?estimer la durée de décalage existant entre la piste audio et vidéo et synchroniser automatiquement ces deux flux.

• Amélioration des systèmes de detection du sexe à partir de la voix ou des visages: les logiciels open-source inaSpeechSegmenter et inaFaceGender permettent respectivement de détecter le sexe d?une personne à partir de sa voix ou de son visage. Ces systèmes ont été conçus à partir d?un nombre d?exemples nécessairement fini, qui ne reflète pas parfaitement la diversité des contenus INA. L?utilisation de systèmes de détection de locuteur·rice actif·ve est envisagée pour constituer automatiquement des jeux de données pour lesquelles les prédictions du sexe de la personne sont différentes pour les modalités audio et vidéo, et ainsi accroître la robustessse des outils INA. Les cas limites obtenus peuvent également faire l?objet d?analyses plus poussées visant à décrire les limites des approches binaires pour la description des personnes.

• Constitution de base multimodales: l?utilisation de système DLA, combinée aux notices documentaires INA et à un nombre d?exemples limité, peut être envisagée pour concevoir de nouvelles bases de visages et de parole [Nag20].

L?objectif général du stage consiste à mettre au point un système DLA, l?évaluer par rapport aux implémentations open-source existantes, le déployer sur les fonds INA pour constituer des bases d?exemples permettant d?améliorer les logiciels inaSpeechSegmenter et inaFaceGender. En fonction des résultats obtenus, le stage peut déboucher sur une diffusion open-source du système réalisé et/ou une publication scientifique.

Compétences requises

• Apprentissage automatique

• Vision artificielle et traitement d?images

• Traitement du signal audio

• Aisance en python

• Ingénierie logicielle

• Capacité à effectuer des recherches bibliographiques

• Rigueur, Synthèse, Autonomie, Capacité à travailler en équipe

• Intérêt pour la recherche académique et industrielle

Conditions du stage

Le stage se déroulera sur une période de 4 à 6 mois au sein du service de la Recherche de l?Ina et pourra débuter à partir de Janvier 2021. Il aura lieu sur le site Bry2, situé au 18 Avenue des frères Lumière, 94366 Bry-sur-Marne. Le stagiaire sera encadré par David Doukhan, Ingénieur R&D au service de la recherche et coordinateur du projet GEM.

Contact

Les candidat·e·s intéressé·e·s peuvent contacter David Doukhan (ddoukhan@ina.fr) pour plus d?informations, ou directement adresser par courriel une lettre de candidature incluant un Curriculum Vitae.

Bibliographie

[Chun16] Chung, J. S., & Zisserman, A. (2016). Out of time: automated lip sync in the wild. In Asian conference on computer vision (pp. 251-263). Springer, Cham.

[Dou18] Doukhan, D., Carrive, J., Vallet, F., Larcher, A., & Meignier, S. (2018). An open-source speaker gender detection framework for monitoring gender equality. In ICASSP (pp. 5214-5218). 

[Dou19a] Doukhan, D. (2019) À la radio et à la télé, les femmes parlent deux fois moins que les hommes. La revue des médias

[Dou19b] Doukhan, D., Rezgui, Z., Poels, G., & Carrive, J. (2019). Estimer automatiquement les différences de représentation existant entre les femmes et les hommes dans les médias.

[Dou20] Doukhan, D., Méadel, C., Coulomb-Gully, M. (2020) En période de coronavirus, la parole d?autorité dans l?info télé reste largement masculine. La revue des médias

[Nag20] Nagrani, A., Chung, J. S., Xie, W., & Zisserman, A. (2020). Voxceleb: Large-scale speaker verification in the wild. Computer Speech & Language, 60, 101027.

[Rot20] Roth, J., Chaudhuri, S., Klejch, O., Marvin, R., Gallagher, A., Kaver, L., & Pantofaru, C. (2020). Ava Active Speaker: An Audio-Visual Dataset for Active Speaker Detection. In ICASSP IEEE.

[Sal14] Salmon, F., & Vallet, F. (2014). An Effortless Way To Create Large-Scale Datasets For Famous Speakers. In LREC (pp. 348-352).

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Funded PhD Position at University of Edinburgh

PhD Position: Automatic Affective Behaviour Monitoring through speech and/or multimodal means while preserving user’s privacy

For details please visit:

https://www.findaphd.com/phds/project/automatic-affective-behaviour-monitoring-through-speech-while-preserving-user-s-privacy/?p125956

……………………………………………………………………………………………………………………………………………………………………….

About the Project

The Advanced Care Research Centre at the University of Edinburgh is a new £20m interdisciplinary research collaboration aiming to transform later life with person centred integrated care

The vision of the ACRC is to play a vital role in addressing the Grand Challenge of ageing by transformational research that will support the functional ability of people in later life so they can contribute to their own welfare for longer. With fresh and diverse thinking across interdisciplinary perspectives our academy students will work to creatively embed deep understanding, data science, artificial intelligence, assistive technologies and robotics into systems of health and social care supporting the independence, dignity and quality-of-life of people living in their own homes and in supported care environments.

The ACRC Academy will equip future leaders to drive society’s response to the challenges of later life care provision; a problem which is growing in scale, complexity and urgency. Our alumni will become leaders in across a diverse range of pioneering and influential roles in the public, private and third sectors.

Automatic affect recognition technologies can monitor a person’s mood and mental health by processing verbal and non-verbal cues extracted from the person’s speech. However, the speech signal contains biometric and other personal information which can, if improperly handled, threaten the speaker’s privacy. Hence there is a need for automatic inference and monitoring methods that preserve privacy for speech data in terms of collection, training of machine learning models and use of such models in prediction. This project will focus on research, implementation and assessment of solutions for handling of speech data in the user’s own environment while protecting their privacy. We are currently studying the use of speech in healthy ageing and care in combination with IoT/Ambient Intelligence technologies in a large research project. This project will build on our research in this area.

The goals of this PhD project are:

• to establish and assess user privacy requirements,
• to devise privacy-preserving automatic affect recognition methods,
• to develop speech data collection methods and tools for privacy-sensitive contexts, and
• to evaluate these methods with respect to performance and privacy preservation requirements.

Training outcomes include machine learning methods for inference of mental health status, privacy-preserving machine learning and signal processing, and applications of such methods in elderly care.

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Deep learning-based speech coding and synthesis in adverse conditions.

Projet : Vokkero 2023

Type : Internship, 6 months, start of 2021

Offre : vogo-bernin-pfe-2

Contact : r.vincent@vogo.fr

Keywords : Neural vocoding, deep-learning, speech synthesis, training dataset, normalisation.

Résumé : The project consists in evaluating the performances of the LPCNet neural vocoder for

speech coding and decoding under adverse conditions (noisy environment, varied speech style, etc.)

and in proposing learning techniques to improve the quality of synthesis.

1 L’entreprise VOGO, le Gipsa-lab

Vogo is an SME based in Montpellier, south of France : www.vogo-group.com. Vogo is the first Sportech

listed on Euronext Growth and develops solutions that enrich the experience of fans and professionals

during sporting events. Its brand Vokkero is specialized in the design and production of radio communication

systems : www.vokkero.com. It offers solutions for teams working in very noisy environments and

is notably a world reference in the professional sports refereeing market.

Gipsa-lab is a CNRS research unit joint with Grenoble-INP (Grenoble Institute of Technology), and

Université Grenoble Alpes. With 350 people, including about 150 doctoral students, Gipsa-lab is a multidisciplinary

research unit developing both basic and applied researches on complex signals and systems.

Gipsa-lab is internationally recognised for the research achieved in Automatic Control, Signal and Images

processing, Speech and Cognition, and develops projects in the strategic areas of energy, environment,

communication, intelligent systems, Life and Health and language engineering.

2 Le projet Vokkero 2023

Every 3 years, Vokkero renews its Hardware (radio, cpu) and Software (rte, audio processing) platforms,

in order to design new generations of products. The project extends over several years of study

and it is within this framework that the internship is proposed. In the form of a partnership with the Gipsalab,

the project consists in the study of speech coding using « neural networks » approaches, in order

to obtain performances not yet reached by classical approaches. The student will work at the GIPSA-lab

in the CRISSP team of the Speech and Cognition cluster under the supervision of Olivier PERROTIN, research

fellow at CNRS, and at the R&D of Vogo Bernin, with Rémy VINCENT, project leader on the Vogo

side.

3 Context & Objectives

The project consists in evaluating the performances of the LPCNet neural vocoder for speech coding

and decoding under adverse conditions (noisy environment, varied speech style, etc.) and in proposing

learning techniques to improve the quality of synthesis.

3.1 Context

Vocoders (voice coders) are models that allow a speech signal to be first reduced to a small set of

parameters (this is speech analysis or coding) and then reconstructed from these parameters (this is

speech synthesis or decoding). This coding/decoding process is essential in telecommunication applications,

where speech is coded, transmitted and then decoded at the receiver. The challenge is to minimise

the quantity of information transmitted, while keeping the quality of the reconstructed speech signal as

high as possible. Current techniques use high-quality speech signal models, with a constraint on algorithmic

complexity to ensure real-time processes in embedded systems. Examples of Codecs widelay

used are Speex (Skype) and its little brother, Opus (Zoom). A few orders of magnitude : OPUS converts a

sampled stream at 16kHz into a bitstream at 16kbits (i.e. a compression ratio of 1 :16), the reconstructed

signal is also at 16kHz and has 20ms of latency.

Since 2016 a new type of vocoder has emerged, called neural vocoder. Based on deep neural network

architectures, these are able to generate a speech signal from the classical input parameters of a

vocoder, without a priori knowledge of an explicit speech model, but using machine learning. The first

system, Google’s WaveNet [1], is capable of reconstructing a signal almost identical to natural speech,

but at a very high computation cost (20 seconds to generate a sample, 16,000 samples per second).

Since then, models have been simplified and are capable of generating speech in real time (WaveRNN

[2], WaveGlow [3]). In particular, the LPCNet neural vocoder [4, 5], also developed by Mozilla, is able to

convert a 16kHz sampled stream into a 4kbits bitstream, and reconstruct a 16kHz audio signal. This mix

of super-compression combined with bandwidth extension leads to much higher equivalent compression

ratios than 1 :16 !

However, the ability of these systems to generate high-quality speech has only been evaluated following

training on large and homogeneous databases, i.e. 24 hours of speech read by a single speaker

and recorded in a quiet environment [6]. On the other hand, in the application of Vokkero, speech is

recorded in adverse conditions (very noisy environment), and presents a significant variability (spoken

voice, shouted voice, multiplicity of referees, etc.). Is a neural vocoder trained on a read speech database

capable of decoding speech of this type? If not, is it possible to train the model on such data, while

they are only available in small quantities ?

The aim of this internship is to explore the limits of the LPCNet vocoder in application to the decoding

of referee speech. Various learning strategies (curriculum training, transfer learning, learning on

augmented data, etc.) will then be explored to try to adapt pre-trained models to our data.

3.2 Tasks

The student will evaluate the performance of a pre-trained LPCNet vocoder on referee speech data,

and will propose learning strategies to adapt the model to this new data, in a coding/re-synthesis scena

rio :

1. Get familiar with the system, performance evaluation on an audio-book database (baseline) ;

2. Evaluation of LPCNet on the Vokkero database and identification of the limits (ambient noise, pretreatments,

voice styles, etc.) ;

3. Study of strategies to improve system performance by data augmentation :

— Creation of synthetic and specific databases : noisy atmospheres, shouted voices ;

— Recording campaigns on Vokkero systems, in anechoic rooms and/or real conditions if the sanitary

situation allows it ;

— Comparison of the 2 approaches according to various learning strategies to learn a new model

from this data.

3.3 Required Skills

The student is expected to have a solid background in speech signal processing and an interest in

Python development. Experience in programming deep learning models in Python is a plus. The student

is expected to show curiosity for research, scientific rigour in methodology and experimentation, and

show autonomy for technical and organisational aspects. Depending on the candidate’s motivation, and

subject to obtaining funding, it is possible to pursue this topic as a PhD thesis.

The student will be able to subscribe to the company’s insurance system, will have luncheon vouchers

and will receive a monthly gratuity of 800€.

Références

[1] A. van den Oord, S. Dieleman, H. Zen, K. Simonyan, O. Vinyals, A. Graves, N. Kalchbrenner, A. W.

Senior et K. Kavukcuoglu, “WaveNet : A Generative Model for Raw Audio”, CoRR, t. abs/1609.03499,

2016. arXiv : 1609.03499 (cf. p. 1).

[2] N. Kalchbrenner, E. Elsen, K. Simonyan, S. Noury, N. Casagrande, E. Lockhart, F. Stimberg, A. van

den Oord, S. Dieleman et K. Kavukcuoglu, “Efficient Neural Audio Synthesis”, CoRR, t. abs/1802.08435,

2018. arXiv : 1802.08435 (cf. p. 1).

[3] R. Prenger, R. Valle et B. Catanzaro, “Waveglow : A Flow-based Generative Network for Speech Synthesis”,

in Proceedings of the International Conference on Acoustics, Speech and Signal

Processing (ICASSP), Brighton, UK : IEEE, mai 2019, p. 3617-3621 (cf. p. 1).

[4] J.-M. Valin et J. Skoglund, “LPCNET : Improving Neural Speech Synthesis through Linear Prediction”,

in IEEE International Conference on Acoustics, Speech, and Signal Processing (ICASSP),

sér. ICASSP ’19, Brighton, UK : IEEE, mai 2019, p. 5891-5895 (cf. p. 1).

[5] ——, “A Real-Time Wideband Neural Vocoder at 1.6kb/s Using LPCNet”, in Proceedings of Interspeech,

Graz, Austria : ISCA, sept. 2019, p. 3406-3410 (cf. p. 1).

[6] P. Govalkar, J. Fischer, F. Zalkow et C. Dittmar, “A Comparison of Recent Neural Vocoders for Speech

Signal Reconstruction”,

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Dans le cadre du projet interdisciplinaire INGPRO, projet Région Occitanie sur l'étude de l'Incidence des Gestes sur la PROnonciation, l'IRIT (équipe SAMoVA https://www.irit.fr/SAMOVA/site/) propose 6 mois de post-doctorat pour travailler sur le traitement des donne?es de parole (évaluation manuelle et automatique) recueillies lors d'une expe?rimentation qui se de?roulera au printemps 2021. Cette expe?rimentation implique le recueil de donne?es orales dans différentes conditions expe?rimentales ainsi que l'analyse des données collectées. 

Ce travail se fera en collaboration  avec la société Archean Technologie (http://www.archean.tech/archean-labs-en.html) et le laboratoire Octogone de l'UT2J (https://octogone.univ-tlse2.fr/), partenaires du projet. Si vous êtes intéressé.e, vous trouverez ci-dessous le détail de l'offre proposée.

Offre : https://www.irit.fr/SAMOVA/site/wp-content/uploads/2020/12/Ficheposte_PostDoc_INGPRO_2021.pdf

Des compléments sur le projet INGPRO sont accessibles ici : https://www.irit.fr/SAMOVA/site/projects/current/ingpro/

Poste à pourvoir : CDD (post-doc catégorie A)
Durée : 6 mois
Lieux : IRIT, 118, route de Narbonne - 31062 TOULOUSE, déplacements ponctuels à prévoir à Mautauban ( ARCHEAN LABS, 20 place Prax-Paris - 82000 MONTAUBAN)
Contacts : Isabelle Ferrané (isabelle.ferrane@irit.fr), Charlotte Alazard (charlotte.alazard@univ-tlse2.fr) porteuse du projet
Salaire : selon expérience
Dossier de candidature : à envoyer avant le 15 janvier 2021 pour une prise de poste au plus tard au 1/04/2021
Diplôme : Doctorat en linguistique avec une spécialisation en phonétique (une dimension acquisitionnelle en L2 serait un plus)

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Deep learning for speech perception
(Apprentissage profond pour la perception de la parole)

Length of internship: 5-6 months
Start date: between January and March
Contact: Ricard Marxer

Context
---
Recent deep learning (DL) developments have been key to breakthroughs in many artificial
intelligence (AI) tasks such as automatic speech recognition (ASR) [1] and speech
enhancement [2]. In the past decade the performance of such systems on reference corpora
has consistently increased driven by improvements in data-modeling and representation
learning techniques. However our understanding of human speech perception has not
benefited from such advancements. This internship sets the ground for a project that
proposes to gain knowledge about our perception of speech by means of large-scale
data-driven modeling and statistical methods. By leveraging modern deep learning
techniques and exploiting large corpora of data we aim to build models capable of
predicting human comprehension of speech at a higher level of detail than any other
existing approaches [3].

This internship is funded by the ANR JCJC project MIM (Microscopic Intelligibility
Modeling). It aims at predicting and describing speech perception at the stimuli,
listener and sub-word level. The project will also fund a PhD position, the call for
applications will be published in the coming months. A potential followup in PhD could be
foreseen for the successful candidate of this internship.

Subject
---
In an attempt to use DL methods for speech perception tasks, this internship aims at
participating in the first Clarity challenge. This challenge tackles the difficult task
of performing speech enhancement for optimising intelligibility of a speech signal in
noisy conditions. The challenge opens in January 2021, it is the first of its kind with
the objective of advancing hearing-aid signal processing and the modelling of
speech-in-noise perception.

Several research directions will be explored, including but not limited to:
- perceptual-based loss functions
- advanced speech representation learning pipelines
- DL-based multichannel processing techniques

Given that the baseline and data of the challenge are to be published in January 2021 and
the difficulty of the task remains uncertain, a backup plan is foreseen for this
internship that is more tightly related to the context of the ANR project.

In the MIM project, we focus on corpora of consistent confusions: speech-in-noise stimuli
that evoke the same misrecognition among multiple listeners.  In order to simplify this
first approach to microscopic  intelligibility  prediction,  we  will  restrict  to 
single-word  data.   This  should  reduce  the  lexical factors to aspects such as usage
frequency and neighborhood density, significantly limiting the complexity of the required
language model. Consistent confusions are valuable experimental data about the human
speech perception process. They provide targets for how intelligibility models should
dif-ferentiate from automatic speech recognition (ASR) systems.  While ASR models are
optimised to recognise what has been uttered, the proposed models should output what has
been perceived by a set of listeners. A sub-task encompasses creating baseline models
that predict listeners? responses to the noisy speech stimuli. We will target predictions
at different levels of granularity such as predicting the type of confusion, which phones
are misperceived or how a particular phone is confused.

Several models regularly used in speech recognition tasks will be trained and evaluated
in predicting the misperceptions of the consistent confusion corpora. We will first focus
on well established models such as GMM-HMM and/or simple deep learning architectures.
Advanced neural topologies such as TDNNs, CTC-based or attention-based models will also
be explored, even though the relatively small amount of training data in the corpora is
likely to be a limiting factor. As a starting point we envisage solving the 3 tasks
described in [3] consisting of 1) predicting the probability of occurrence of
misrecognitions at each position of the word, 2) given the position, predicting a
distribution of particular phone misperceptions, and 3) predicting the words and the
number of times they have been perceived among a set of listeners.  Predictions will be
evaluated using the metrics also defined in [3] and random and oracle predictions will be
used as references. These baseline models will be trained using only in-domain data and
optimized on word recognition tasks.


Profile
---
The candidate shall have the following profile:
- Master 2 level or equivalent in one of the following fields: machine learning, computer
science, applied mathematics, statistics, signal processing
- Good English written and spoken language skills
- Programming skills, preferably in Python

Furthermore the ideal candidate would have:
- Experience in one of the main DL frameworks (e.g. PyTorch, Tensorflow)
- Notions in speech or audio processing

Application procedure
---
In order to apply send the following to the contact address ricard.marxer@lis-lab.fr:
- CV
- Motivation letter
- Latest grades transcript (M1 and the 1st semester of M2 if available)

References
---
[1] Barker, J., Marxer, R., Vincent, E., & Watanabe, S. (2017). The third ?CHiME? speech
separation and recognition challenge: Analysis and outcomes. Computer Speech & Language,
46, 605?626.
[2] Marxer, R., & Barker, J. (2017). Binary Mask Estimation Strategies for Constrained
Imputation-Based Speech Enhancement. In Proc. Interspeech 2017 (pp. 1988?1992).
[3] Marxer, R., Cooke, M., & Barker, J. (2015). A framework for the evaluation of
microscopic intelligibility models. In Proceedings of the Annual Conference of the
International Speech Communication Association, INTERSPEECH (Vol. 2015-January, pp.
2558?2562).

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Le laboratoire de phonétique de l?UMONS (https://sharepoint1.umons.ac.be/FR/universite/facultes/fpse/serviceseetr/sc_langage/Pages/default.aspx), rattaché à l?Institut de Recherches en Sciences du Langage (https://langage.be/), est un labo SHS partenaire d?un projet R&D porté par la société https://roomfourzero.com/ et financé par la DG06 Wallonie (https://recherche-technologie.wallonie.be/): le projet « SALV », pour « sens à la voix ».

Pour mener à bien ce projet, nous recrutons un chercheur à mi-temps pour une première période de 6 mois ou à temps plein pour une première période de 3 mois à partir de janvier 2021 (avec possibilité d?extension à 1 ou 2 ans).

La mission est double :

• Le/la candidat.e sera en charge des missions dévolues à l?UMONS dans le cadre du projet SALV (+ d?infos sur le projet ci-dessous) ; à ce titre il/elle sera la personne qui fera l?interface avec Room 40 et coordonnera les activités d?éventuels autres participants au projet dans le labo (p.ex. étudiants, stagiaires, chercheurs)
• Le/la candidat.e recherché.e développera une stratégie générale (voire des outils spécifiques) permettant aux chercheurs du labo (originaires pour la plupart des SHS) d?optimiser leurs procédures de collecte, transcription et analyse de données parole en utilisant les techniques de traitement automatique de la parole.

Les modalités pratiques de l?engagement sont à ce stade très flexibles, à discuter avec les possibilités/souhaits du candidat retenu. Le salaire est fixé selon le diplôme (idéalement : doctorat en informatique ; autres formations : à discuter) et l?expérience.

Si vous êtes intéressé.e ou si vous voulez simplement en savoir plus : veronique.delvaux@umons.ac.be

****************

SALV

Room 40 (https://roomfourzero.com/) est une société jeune et dynamique qui fournit un ensemble de produits et services incluant notamment l?analyse en temps réel et la détection d?anomalie dans des flux audios et vidéos, ainsi que l?analyse contextuelle fine, basée sur le concept d?ontologie, des significations explicites et implicites de textes et bribes de textes tels que ceux échangés sur les réseaux sociaux ou via SMS.

Le projet SALV a pour objectif de développer une technologie de transcription et d?analyse de contenu vocal incluant un ensemble d?informations paralinguistiques contextuelles (émotions, stress, attitudes). Il se base en partie sur l?utilisation de technologies d?analyse de texte en temps réel et d?ontologies spécifiques que Room 40 a sous licence et commercialise déja?. Pour ce projet, de nouveaux outils de transcription de parole en texte devront e?tre développés afin d?intégrer ces informations paralinguistiques sous forme de métadonnées au texte de la transcription. La conjonction de ces deux types d?information devrait grandement améliorer la qualité du résultat de l?analyse.

Au terme du projet, on vise une solution d?analyse de parole comportant: (i) une approche pour retranscrire des paroles en texte; (ii) une méthode pour annoter le texte de métadonnées reprenant des éléments paralinguistiques; (iii) un syste?me pour l?analyse pertinente du contenu audio combinant la retranscription et des éléments paralinguistiques; enfin (iv) une couche applicative intégrant les éléments ci-dessus et comprenant des algorithmes d?analyse de contenu, des interfaces graphiques spécifiques a? certains segments de marché, ainsi qu?un nombre d?APIs garantissant l?interopérabilité du syste?me avec les infrastructures existantes des partenaires.

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L?équipe SAMoVA de l?IRIT à Toulouse propose plusieurs stages de fin d?étude (M2, ingénieur) en 2021 :

- Apprentissage profond (deep learning) de représentation audio
- Apprentissage profond (deep learning) pour la segmentation en locuteurs en flux
- Caractérisation et modélisation de voix pathologiques
- Mesure d?intelligibilité pour la parole pathologique

Tous les détails (sujets, contacts) sont disponibles dans la section 'Jobs' de l?équipe :
https://www.irit.fr/SAMOVA/site/jobs/

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 6 mois de stage Master 2

Détection de baisse d’engagement

VUE D'ENSEMBLE

L’objectif principal de ce stage est la détection de baisse d’engagement durant une interaction

avec nos agents conversationnels. La solution peut être trouvée en utilisant des modèles à base

de règles ou en utilisant des techniques de machine/deep learning [1, 2, 3, 4, 5].

OBJECTIFS

1. Analyser le comportement (mouvement de tête, émotion, ...) pour trouver les

caractéristiques de baisse d’engagement.

2. Modélisation et détection de la baisse d’engagement

3. Evaluation

4. Application en temps réel

Conditions du stage

Le stage se déroulera sur une période de 6 mois dans le département R&D du Ludo-Vic SAS.

Des outils de travail à distance sont disponibles au sein de l’entreprise.

Profil recherché

Bac +5 dans le domaine de l’informatique et de l'IA.

Capacité à réaliser des interactions et des animations 3D.

Expérience avec Unity3D et compétence en langage C# sont un vrai plus.

Rémunération : conditions standards de rémunération de stage.

CONTACTS ET CANDIDATURE

Merci d’envoyer votre CV (vos relevés de notes, vos rapports de projets/stages…) à :

- Jack Amberg : jack@ludo-vic.com

- Atef Ben-Youssef : atef@ludo-vic.com

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Stage MASTER / PFE 2020-2021

REAL-TIME SILENT SPEECH SYNTHESIS

BASED ON END-TO-END DEEP LEARNING MODELS

Context

Various pathologies affect the voice sound source, i.e. the vibration of the vocal folds, thus preventing any sound

production despite the normal functioning of articulators (movements of the jaw, tongue, lips, etc.): this is known as

silent speech. Silent speech interfaces [Denby et al., 2010] consist in converting inaudible cues such as articulators

movements into an audible speech signal to rehabilitate the speaker’s voice. At GIPSA-lab, we have a system for

measuring articulators using ultrasound imaging and video and for converting this data into acoustic parameters that

describe a speech signal, using machine learning [Hueber and Bailly, 2016, Tatulli and Hueber, 2017]. The speech

signal is then reconstructed from the predicted acoustic parameters using a vocoder [Imai et al., 1983]. Current

silent speech interfaces have two main limitations: 1) The intonation (or speech melody), normally produced by

the vibration of the vocal folds, is absent in the considered type of pathologies and is difficult to reconstruct from

articulatory information only; 2) The generated speech quality is often limited by the type of vocoder used. While the

recent emergence of neural vocoders has allowed a leap in the quality of speech synthesis [van den Oord et al., 2016],

they have not yet been integrated into silent speech interface, where the constraint of real-time generation is crucial.

Objectives

Mapping

We propose in this internship to address these two problems, by implementing an

end-to-end silent speech synthesis system with deep learning models. In particular,

it will consist in interfacing our system for articulation measurement and acoustic parameter

generation with the LPCNet neural vocoder [Valin and Skoglund, 2019].

The latter takes asinput acoustic parameters coming from articulation on the one hand,

and the intonation on the other hand. This distinction offers the possibility of decorrelating

both controls, by proposing a gestural control of the intonation for example [Perrotin, 2015].

Regarding the acoustic parameters, the first step will be to adapt the acoustic output

of our system to match theinput of LPCNet. Moreover, LPCNet is trained by default

on acoustic parameters extracted from natural speech, forwhich large databases

are available. However, the acoustic parameters predicted from silent speech are degraded,

and produced in small quantities. We will thus study the robustness of LPCNet to a degraded input, and several re-training strategies (adaptation of LPCNet to new data, end-to-end learning, etc.) will be explored. Once the system is functional, the second part of the

internship will consist in implementing the system in real-time, so that the speech s

ynthesis is generated synchronously with the user’s articulation. All stages of

implementation (learning strategies, real-time system) will be evaluated in terms of intelligibility, sound quality, and intonation reconstruction.

Tasks

The tasks expected during this internship are:

 Implement the full silent speech synthesis pipeline by interfacing the lab ultrasound

system with LPCNet, and explore training strategies.

 Evaluate the performance of the system regarding speech quality and reconstruction

errors.

 Implement and evaluate a real-time version of the system.

Required skills

 Signal processing and machine learning.

 Knowledge of Python and C is required for implementation.

 Knowledge of Max/MSP environment would be a plus for real-time implementation.

 Strong motivation for methodology and experimentation.

Allowance

The internship allowance is fixed by ministerial decree (about 570 euros / month).

Grenoble Images Parole Signal Automatique

UMR CNRS 5216 – Grenoble Campus

38400 Saint Martin d’Hères - FRANCE

Stage MASTER / PFE 2020-2021

Contact

Olivier PERROTIN + 33 4 76 57 45 36 olivier.perrotin@grenoble-inp.fr

Thomas HUEBER + 33 4 76 57 49 40 thomas.hueber@grenoble-inp.fr

References

[Denby et al., 2010] Denby, B., Schultz, T., Honda, K., Hueber, T., Gilbert, J. M., and Brumberg, J. S. (2010). Silent speech interfaces.

Speech Communication, 52(4):270–287.

[Hueber and Bailly, 2016] Hueber, T. and Bailly, G. (2016). Statistical conversion of silent articulation into audible speech using fullcovariance

hmm. Computer Speech & Language, 36(Supplement C):274–293.

[Hueber et al., 2010] Hueber, T., Benaroya, E.-L., Chollet, G., Denby, B., Dreyfus, G., and Stone, M. (2010). Development of a silent

speech interface driven by ultrasound and optical images of the tongue and lips. Speech Communication, 52(4):288–300.

[Imai et al., 1983] Imai, S., Sumita, K., and Furuichi, C. (1983). Mel log spectrum approximation (mlsa) filter for speech synthesis.

Electronics and Communications in Japan (Part I: Communications), 66(2):10–18.

[Perrotin, 2015] Perrotin, O. (2015). Chanter avec les mains: Interfaces chironomiques pour les instruments de musique numériques. PhD

thesis, Université Paris-Sud, Orsay, France.

[Tatulli and Hueber, 2017] Tatulli, E. and Hueber, T. (2017). Feature extraction using multimodal convolutional neural networks for visual

speech recognition. In Proceedings of the International Conference on Acoustics, Speech and Signal Processing (ICASSP), ICASSP ’17,

pages 2971–2975, New Orleans, LA, USA.

[Valin and Skoglund, 2019] Valin, J.-M. and Skoglund, J. (2019). Lpcnet: Improving neural speech synthesis through linear prediction.

In IEEE International Conference on Acoustics, Speech, and Signal Processing (ICASSP), ICASSP ’19, pages 5891–5895, Brighton, UK.

IEEE.

[van den Oord et al., 2016] van den Oord, A., Dieleman, S., Zen, H., Simonyan, K., Vinyals, O., Graves, A., Kalchbrenner, N., Senior,

A. W., and Kavukcuoglu, K. (2016). Wavenet: A generative model for raw audio. CoRR, abs/1609.03499.

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Le laboratoire Commun ALAIA, destiné à l'Apprentissage des langues Assisté par Intelligence Artificielle, recrute un ingénieur de recherche en CDD (12 mois avec prolongation possible).

Le travail à réaliser se fera en coordination avec les deux partenaires impliqués dans le LabCom : l'IRIT (Institut de Recherche en Informatique de Toulouse) et la société Archean Technologies et plus particulièrement son pôle R&D Archean Labs (Montauban 82).

ALAIA est centré sur l'expression et la compréhension orale d'une langue étrangère (L2). Les missions consisteront à concevoir, développer et intégrer des services innovants basés sur l'analyse des productions des apprenants L2, la détection et la caractérisation d'erreurs allant du niveau phonétique au niveau linguistique.

Les compétences attendues portent sur le traitement automatique de la parole et du langage, le machine learning et sont indispensables pour être opérationnel dès la prise de fonction. De bonnes connaissances en développement d'applications web seraient un plus.

• Détail de l'offre :  https://www.irit.fr/SAMOVA/site/wp-content/uploads/2020/11/ALAIA_ResearchEngineerPosition_2021.pdf
• Lien vers le LabCom : https://anr.fr/Projet-ANR-18-LCV3-0001 et https://www.irit.fr/SAMOVA/site/projects/current/labcom-alaia/
• Salaire : selon la grille en vigueur, le profil et l'expérience
• Date limite de candidature : le poste est à pourvoir au plus tôt (janvier-février 2021), un délai dû à la demande d'accès au laboratoire (ZRR) est à prévoir.
  

Les candidatures sont à adresser à Isabelle Ferrané (isabelle.ferrane@irit.fr) et Lionel Fontan (lfontan@archean.tech). N'hésitez pas à nous contacter pour de plus amples informations.

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We are seeking a highly motivated and ambitious post-doctoral researcher for the project of ?socially and culturally aware human-agent interaction,? led by Prof. Yukiko Nakano at Seikei University in Tokyo, Japan. The project is part of a larger government funded project for a human-avatar symbiotic society. The mission of our group (http://iui.ci.seikei.ac.jp/en/) is to research and develop technologies for human-agent/robot interaction, behavior generation, and behavior adaptation by focusing on social and cultural awareness.

Qualifications
- The ideal candidate must have a PhD degree and a strong background in machine learning and human-agent/robot interaction.
- Skills: Good skills in programming, such as Python and C#. Solid knowledge and experience in machine learning and deep learning using PyTorch. Solid knowledge of statistical analysis.
- Preferred qualifications: Programming skill in Unity or any animation engines.
- Research interests: human-agent/robot interaction, behavior generation (gestures, facial expressions, eye gaze, posture etc.), multimodal dialogue systems, social signal processing, multimodal machine learning, avatar communication, cross-cultural communication.

Employment
- Full time position.
- The employment contract can be extended based on the annual evaluation until November 2025 at the longest.
- Start date: after April 2021.
- The salary will be determined based on experience and expertise.
 
Application
Please submit your application by e-mail to y.nakano@st.seikei.ac.jp. Please send your application as soon as possible. The recruitment will end when a person is selected. The application should include;
1. Curriculum vitae including relevant professional experience and knowledge
2. One-page summary of your research background and interests
3. Summary of your Doctoral dissertation

Contact
If you have any questions, please contact Yukiko Nakano (y.nakano@st.seikei.ac.jp).

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There is a fully funded PhD position open at Idiap Research Institute on 'Neural
Architectures for Speech Technology'.

The research will build on work done over the past few years at Idiap on creating tools
for physiologically plausible modelling of speech. The current 'toolbox' contains
rudimentary muscle models and means to drive these using conventional (deep) neural
networks. More recently, the focus has been on theoretical underpinnings via rigorous
Bayesian techniques.

Although the project remit is quite open, a significant research thread will be to
factorise current neural vocoders into physiological and probabilistic components; this
will be with a focus on identifying how they may be controlled by external agents such as
dialogue managers. Another possible thread is to examine these models in the context of
speech recognition. In doing this, we hope not only to enable the next generation of
expressive speech recognition and synthesis, but also to make inference about the
underlying physiological mechanisms of speech production and perception.

For more information, and to apply, please follow this link:
 https://www.idiap.ch/education-and-jobs/job-10313

Idiap is located in Martigny in French speaking Switzerland, but functions in English and
hosts many nationalities. PhD students are typically registered at EPFL. All positions
offer quite generous salaries. Martigny is a local art, culture and viticulture hub, and
is close to all manner of skiing, hiking and mountain life.

There are other open positions on Idiap's main page:
 https://www.idiap.ch/en/join-us/job-opportunities

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DESCRIPTION

REQUIRED SKILLS

APPLICATION INSTRUCTIONS

ABOUT NAVER LABS

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Speech-NLP Master 2 Internship Year 2020-2021

Speech Segmentation and Automatic Detection of Conflicts in

Political Interviews

LISN – Université Paris-Saclay

Internship for Last Year Engineer or Master 2 Students

Keywords: Machine Learning, Diarization, Digital Humanities, Political Speech, Prosody,

Expressive Speech

Context

This internship is part of the Ontology and Tools for the Annotation of Political Speech

(OOPAIP 2018), a transdisciplinary project funded under the DIM-STCN (Text Sciences and

New Knowledge) by the Regional Council of Ile de France. The project is carried out by the

European Center for Sociology and Political Science (CESSP) of the University of Paris 1

Panthéon-Sorbonne, the National Audiovisual Institute (INA), and the LISN. Its objective is to

design new approaches to develop detailed, qualitative, and quantitative analyzes of political

speech in the French media. Part of the project concerns the study of the dynamics of conflicting

interactions in interviews and political debates, which requires a detailed description and a

large corpus to allow for the models’ generalization. Some of the main challenges concern the

performance of speaker and speech style segmentation, e.g., improving the segmentation accuracy,

detecting superimposed speech, measuring vocal effort and other expressive elements.

Objectives

The main objective of the internship is to improve the automatic segmentation of political

interviews. In this context, we will be particularly interested in the detection of hubbub (strong

and prolonged overlapped speech). More precisely, we would like to extract features from the

speech signal (Eyben et al. 2015) correlated with the level of conflictual content in the exchanges,

based, for example, on the arousal level in the speaker’s voice—intermediate level between

the speech signal analysis and the expressivity description (Rilliard, d’Alessandro, and Evrard

2018)—or vocal effort (Liénard 2019).

The internship will initially be based on two corpora of 30 political interviews manually annotated

in speech turns and speech acts—within the framework of the OOPAIP project. It will begin

with a state of the art review of speech diarization and overlapped speech detection (Chowdhury

et al. 2019). The aim will then be to propose solutions based on recent frameworks (Bredin

et al. 2020) to improve the precise localization of speaking segments, in particular when the

frequency of speaker changes is high.

In the second part of the internship, we will look at a more detailed measurement and prediction

of the conflicting level of exchanges. We will search for the most relevant features to describe the

conflicting level and by adapting or developing a neural network architecture for its modeling.

The programming language used for this internship will be Python. The candidate will have

access to the LISN computing resources (servers and clusters with recent generation GPUs).

Publications

Depending on the degree of maturity of the work carried out, we expect the applicant to:

• Distribute the tools produced under an open-source license

• Write a scientific publication

Conditions

The internship will take place over a period of 4 to 6 months at the LISN (formerly LIMSI) in the

TLP group (spoken language processing). The laboratory is located near the plateau de Saclay,

university campus building 507, rue du Belvédère, 91400 Orsay. The candidate will be supervised

by Marc Evrard (evrard@limsi.fr). Allowance under the official standards (service-public.fr).

Applicant profile

• Student in the last year of a 5-years diploma in the field of computer science (AI is a plus)

• Proficiency in Python language and experience in using ML libraries (Scikit-Learn, Tensor-

Flow, PyTorch)

• Strong interest in digital humanities and political science in particular

• Experience in automatic speech processing is preferred

• Ability to carry out a bibliographic study from scientific articles written in English

To apply: Send an email to evrard@limsi.fr including a résumé and a cover letter.

Bibliography

Bredin, Hervé, Ruiqing Yin, Juan Manuel Coria, Gregory Gelly, Pavel Korshunov, Marvin

Lavechin, Diego Fustes, Hadrien Titeux, Wassim Bouaziz, and Marie-Philippe Gill. 2020.

“Pyannote. Audio: Neural Building Blocks for Speaker Diarization.” In ICASSP. IEEE.

Chowdhury, Shammur Absar, Evgeny A Stepanov, Morena Danieli, and Giuseppe Riccardi.

2019. “Automatic Classification of Speech Overlaps: Feature Representation and Algorithms.”

Computer Speech & Language 55: 145–67.

Eyben, Florian, Klaus R Scherer, Björn W Schuller, Johan Sundberg, Elisabeth André, Carlos

Busso, Laurence Y Devillers, et al. 2015. “The Geneva Minimalistic Acoustic Parameter Set

(GeMAPS) for Voice Research and Affective Computing.” IEEE Transactions on Affective

Computing 7 (2): 190–202.

Liénard, Jean-Sylvain. 2019. “Quantifying Vocal Effort from the Shape of the One-Third Octave

Long-Term-Average Spectrum of Speech.” The Journal of the Acoustical Society of America

146 (4): EL369–75.

OOPAIP. 2018. “(Ontologie Et Outil Pour l’annotation Des Interventions Politiques).”

DIM STCN (Sciences du Texte et connaissances nouvelles) Conseil régional d’Ile de

France. http://www.dim-humanites-numeriques.fr/projets/oopaip-ontologie-et-outilspour-

lannotation-des-interventions-politiques/.

Rilliard, Albert, Christophe d’Alessandro, and Marc Evrard. 2018. “Paradigmatic Variation of

Vowels in Expressive Speech: Acoustic Description and Dimensional Analysis.” The Journal

of the Acoustical Society of America 143 (1): 109–22.

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Telecom Paris is hiring an associate professor in machine learning for distributed/multi-view machine listening and audio content analysis


Institut Polytechnique de Paris [1] - Telecom Paris [2], LTCI lab [3], ADASP group [4]


-- Important Dates (UPDATED!)
? *March 20th 2021: closing date*
?    End of April 2021: hearings of preselected candidates


Applications are invited for a permanent (indefinite tenure) faculty position at the Associate Professor level (Maitre de Conferences) in machine learning for distributed/multi-view machine listening and audio content analysis.

-- Context

Telecom Paris [2] is a French public institution for engineering higher education (grande ecole) and scientific research, founded in July 1878. It is a founding member of the Institut Polytechnique de Paris [1], a world-class scientific and technological institution. Located in Palaiseau, at the Plateau de Saclay (Paris outskirts), this Institution is a partnership between Ecole Polytechnique, ENSTA Paris, ENSAE Paris, Telecom Paris and Telecom SudParis, with HEC as a key partner. Students and faculty benefit from close relationships between the different institutions.
The Information Processing and Communication Laboratory (LTCI) [3] is Telecom Paris? in-house research laboratory. Since January 2017, it has continued the work previously carried out by the CNRS joint research unit of the same name. The LTCI was created in 1982 and is known for its extensive coverage of topics in the field of information and communication technologies. The LTCI?s core subject areas are computer science, networks, data science, signal and image processing and digital communications. The laboratory is also active in issues related to systems engineering and applied mathematics.
The open position will be hosted by Telecom Paris? Audio Data Analysis and Signal Processing (ADASP) group [4], a subgroup of the statistics, signal processing and machine learning (S²A) team, within the Images, Data & Signals (IDS) department [5].


-- Main missions

The hired associate professor will be expected to:

[Research activities]
?    Develop research in multi-view/distributed machine learning applied to machine listening, in line with the topics of Telecom Paris? Audio Data Analysis and Signal Processing (ADASP) group
?    Develop both academic and industrial collaborations, including collaborative activities with other Telecom Paris research departments and teams, and research contracts with industrial players
?    Submit proposals to national and international research project calls


[Teaching activities]
?    Participate in teaching activities at Telecom Paris and its partners (as part of joint Master programs), especially in machine learning, signal processing, and machine listening, including life-long training programs (e.g. the local Data Scientist certificate)

[Impact]
?    Publish high quality research work in leading journals and conferences
?    Play an active role in the research communities relevant to the position (serving in scientific committees and boards, organizing seminars, workshops, special sessions...)


-- Candidate profile

As a minimum requirement, the successful candidate will have:

?    A PhD degree
?    A track record of research and publication in one or more of the following areas: machine learning, signal processing or machine listening
?    Experience in deep learning, audio data analysis, machine listening, music data analysis, multi-view learning, distributed learning
?    Experience in teaching
?    Good command of English

The ideal candidate will also (optionally) have:
?    Knowledge in frugal learning techniques
?    Experience in source separation/enhancement and signal denoising techniques
?    Experience in distributed computing environments

Other skills expected include:
?    Capacity to work in a team and develop good relationships with colleagues and peers
?    Good communication and pedagogical skills

-- Place of work

Palaiseau (Paris outskirts), France

-- How to apply (UPDATED!)

The application shall be submitted, through this link: https://institutminestelecom.recruitee.com/o/maitre-de-conference-en-machine-listening, as a single pdf file, including:

?    a letter of motivation
?    a complete and detailed curriculum vitae
?    statements of research and teaching interests (4 pages)
?    three main publications
?    contact information for two references, to be sent to Slim Essid

-- Contact

Slim Essid (Coordinator of the ADASP group), https://perso.telecom-paris.fr/~essid/



[1] https://www.ip-paris.fr/en
[2] https://www.telecom-paris.fr/en/home
[3] https://www.telecom-paris.fr/en/research/laboratories/information-processing-and-communication-laboratory-ltci
[4] https://adasp.telecom-paris.fr
[5] http://www.tsi.telecom-paristech.fr/en/      

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Un poste d'ingénieur contractuel à la section audio de la police technique et scientifique est à pourvoir.
Pour plus d'informations, voici le lien

https://place-emploi-public.gouv.fr/offre-emploi/police-scientifique---ipts--adjoint-au-chef-de-la-section-audio-reference-2021-545548/

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A fully funded PhD position in Deep Learning for Conversational AI

KTH, Royal Institute of Technology, Stockholm, Sweden. Apply here (deadline 2/4)

https://www.kth.se/en/om/work-at-kth/lediga-jobb/what:job/jobID:379667/where:4/

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Two  

Two PhD positions are open at NTNU Trondheim, Norway

https://www.jobbnorge.no/en/available-jobs/job/200820/2-phd-positions-in-machine-learning-for-speech-analysis-and-recognition

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 Telecom Paris is hiring an associate professor in machine learning for
distributed/multi-view machine listening and audio content analysis

See offer here:
https://adasp.telecom-paris.fr/news/job_offers/highlights/adasp_position_machine_listening_2021/ or read
on...


Institut Polytechnique de Paris [1] - Telecom Paris [2], LTCI lab [3], ADASP group [4]


-- Important Dates
? *March 20th 2021: closing date*
?    End of April 2021: hearings of preselected candidates


Applications are invited for a permanent (indefinite tenure) faculty position at the
Associate Professor level (Maitre de Conferences) in machine learning for
distributed/multi-view machine listening and audio content analysis.

-- Context

Telecom Paris [2] is a French public institution for engineering higher education (grande
ecole) and scientific research, founded in July 1878. It is a founding member of the
Institut Polytechnique de Paris [1], a world-class scientific and technological
institution. Located in Palaiseau, at the Plateau de Saclay (Paris outskirts), this
Institution is a partnership between Ecole Polytechnique, ENSTA Paris, ENSAE Paris,
Telecom Paris and Telecom SudParis, with HEC as a key partner. Students and faculty
benefit from close relationships between the different institutions.
The Information Processing and Communication Laboratory (LTCI) [3] is Telecom Paris?
in-house research laboratory. Since January 2017, it has continued the work previously
carried out by the CNRS joint research unit of the same name. The LTCI was created in
1982 and is known for its extensive coverage of topics in the field of information and
communication technologies. The LTCI?s core subject areas are computer science, networks,
data science, signal and image processing and digital communications. The laboratory is
also active in issues related to systems engineering and applied mathematics.
The open position will be hosted by Telecom Paris? Audio Data Analysis and Signal
Processing (ADASP) group [4], a subgroup of the statistics, signal processing and machine
learning (S²A) team, within the Images, Data & Signals (IDS) department [5].


-- Main missions

The hired associate professor will be expected to:

[Research activities]
?    Develop research in multi-view/distributed machine learning applied to machine
listening, in line with the topics of Telecom Paris? Audio Data Analysis and Signal
Processing (ADASP) group
?    Develop both academic and industrial collaborations, including collaborative
activities with other Telecom Paris research departments and teams, and research
contracts with industrial players
?    Submit proposals to national and international research project calls


[Teaching activities]
?    Participate in teaching activities at Telecom Paris and its partners (as part of
joint Master programs), especially in machine learning, signal processing, and machine
listening, including life-long training programs (e.g. the local Data Scientist
certificate)

[Impact]
?    Publish high quality research work in leading journals and conferences
?    Play an active role in the research communities relevant to the position (serving in
scientific committees and boards, organizing seminars, workshops, special sessions...)


-- Candidate profile

As a minimum requirement, the successful candidate will have:

?    A PhD degree
?    A track record of research and publication in one or more of the following areas:
machine learning, signal processing or machine listening
?    Experience in deep learning, audio data analysis, machine listening, music data
analysis, multi-view learning, distributed learning
?    Experience in teaching
?    Good command of English

The ideal candidate will also (optionally) have:
?    Knowledge in frugal learning techniques
?    Experience in source separation/enhancement and signal denoising techniques
?    Experience in distributed computing environments

Other skills expected include:
?    Capacity to work in a team and develop good relationships with colleagues and peers
?    Good communication and pedagogical skills

Note that you do *not* need to speak French to apply. 

-- Place of work

Palaiseau (Paris outskirts), France

-- How to apply

The application shall be submitted, through this link:
https://institutminestelecom.recruitee.com/o/maitre-de-conference-en-machine-listening,
as a single pdf file, including:

?    a letter of motivation
?    a complete and detailed curriculum vitae
?    statements of research and teaching interests (4 pages)
?    three main publications
?    contact information for two references, to be sent to Slim Essid

-- Contact

Slim Essid (Coordinator of the ADASP group), https://perso.telecom-paris.fr/~essid/

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