FPGA-based architectures for acoustic beamforming with microphone arrays : trends, challenges and research opportunities

Over the past decades, many systems composed of arrays of microphones have been developed to satisfy the quality demanded by acoustic applications. Such microphone arrays are sound acquisition systems composed of multiple microphones used to sample the sound field with spatial diversity. The relatively recent adoption of Field-Programmable Gate Arrays (FPGAs) to manage the audio data samples and to perform the signal processing operations such as filtering or beamforming has lead to customizable architectures able to satisfy the most demanding computational, power or performance acoustic applications. The presented work provides an overview of the current FPGA-based architectures and how FPGAs are exploited for different acoustic applications. Current trends on the use of this technology, pending challenges and open research opportunities on the use of FPGAs for acoustic applications using microphone arrays are presented and discussed

Système d'audition artificielle embarqué optimisé pour robot mobile muni d'une matrice de microphones

Dans un environnement non contrôlé, un robot doit pouvoir interagir avec les personnes d’une façon autonome. Cette autonomie doit également inclure une interaction grâce à la voix humaine. Lorsque l’interaction s’effectue à une distance de quelques mètres, des phénomènes tels que la réverbération et la présence de bruit ambiant doivent être pris en considération pour effectuer efficacement des tâches comme la reconnaissance de la parole ou de locuteur. En ce sens, le robot doit être en mesure de localiser, suivre et séparer les sources sonores présentes dans son environnement. L’augmentation récente de la puissance de calcul des processeurs et la diminution de leur consommation énergétique permettent dorénavant d’intégrer ces systèmes d’audition articielle sur des systèmes embarqués en temps réel. L’audition robotique est un domaine relativement jeune qui compte deux principales librairies d’audition artificielle : ManyEars et HARK. Jusqu’à présent, le nombre de microphones se limite généralement à huit, en raison de l’augmentation rapide de charge de calculs lorsque des microphones supplémentaires sont ajoutés. De plus, il est parfois difficile d’utiliser ces librairies avec des robots possédant des géométries variées puisqu’il est nécessaire de les calibrer manuellement. Cette thèse présente la librairie ODAS qui apporte des solutions à ces difficultés. Afin d’effectuer une localisation et une séparation plus robuste aux matrices de microphones fermées, ODAS introduit un modèle de directivité pour chaque microphone. Une recherche hiérarchique dans l’espace permet également de réduire la quantité de calculs nécessaires. De plus, une mesure de l’incertitude du délai d’arrivée du son est introduite pour ajuster automatiquement plusieurs paramètres et ainsi éviter une calibration manuelle du système. ODAS propose également un nouveau module de suivi de sources sonores qui emploie des filtres de Kalman plutôt que des filtres particulaires. Les résultats démontrent que les méthodes proposées réduisent la quantité de fausses détections durant la localisation, améliorent la robustesse du suivi pour des sources sonores multiples et augmentent la qualité de la séparation de 2.7 dB dans le cas d’un formateur de faisceau à variance minimale. La quantité de calculs requis diminue par un facteur allant jusqu’à 4 pour la localisation et jusqu’à 30 pour le suivi par rapport à la librairie ManyEars. Le module de séparation des sources sonores exploite plus efficacement la géométrie de la matrice de microphones, sans qu’il soit nécessaire de mesurer et calibrer manuellement le système. Avec les performances observées, la librairie ODAS ouvre aussi la porte à des applications dans le domaine de la détection des drones par le bruit, la localisation de bruits extérieurs pour une navigation plus efficace pour les véhicules autonomes, des assistants main-libre à domicile et l’intégration dans des aides auditives

Massive MIMO is a Reality -- What is Next? Five Promising Research Directions for Antenna Arrays

Massive MIMO (multiple-input multiple-output) is no longer a "wild" or "promising" concept for future cellular networks - in 2018 it became a reality. Base stations (BSs) with 64 fully digital transceiver chains were commercially deployed in several countries, the key ingredients of Massive MIMO have made it into the 5G standard, the signal processing methods required to achieve unprecedented spectral efficiency have been developed, and the limitation due to pilot contamination has been resolved. Even the development of fully digital Massive MIMO arrays for mmWave frequencies - once viewed prohibitively complicated and costly - is well underway. In a few years, Massive MIMO with fully digital transceivers will be a mainstream feature at both sub-6 GHz and mmWave frequencies. In this paper, we explain how the first chapter of the Massive MIMO research saga has come to an end, while the story has just begun. The coming wide-scale deployment of BSs with massive antenna arrays opens the door to a brand new world where spatial processing capabilities are omnipresent. In addition to mobile broadband services, the antennas can be used for other communication applications, such as low-power machine-type or ultra-reliable communications, as well as non-communication applications such as radar, sensing and positioning. We outline five new Massive MIMO related research directions: Extremely large aperture arrays, Holographic Massive MIMO, Six-dimensional positioning, Large-scale MIMO radar, and Intelligent Massive MIMO.Comment: 20 pages, 9 figures, submitted to Digital Signal Processin

The University Defence Research Collaboration In Signal Processing

This chapter describes the development of algorithms for automatic detection of anomalies from multi-dimensional, undersampled and incomplete datasets. The challenge in this work is to identify and classify behaviours as normal or abnormal, safe or threatening, from an irregular and often heterogeneous sensor network. Many defence and civilian applications can be modelled as complex networks of interconnected nodes with unknown or uncertain spatio-temporal relations. The behavior of such heterogeneous networks can exhibit dynamic properties, reflecting evolution in both network structure (new nodes appearing and existing nodes disappearing), as well as inter-node relations. The UDRC work has addressed not only the detection of anomalies, but also the identification of their nature and their statistical characteristics. Normal patterns and changes in behavior have been incorporated to provide an acceptable balance between true positive rate, false positive rate, performance and computational cost. Data quality measures have been used to ensure the models of normality are not corrupted by unreliable and ambiguous data. The context for the activity of each node in complex networks offers an even more efficient anomaly detection mechanism. This has allowed the development of efficient approaches which not only detect anomalies but which also go on to classify their behaviour

Special oils for halal and safe cosmetics

Three types of non conventional oils were extracted, analyzed and tested for toxicity. Date palm kernel oil (DPKO), mango kernel oil (MKO) and Ramputan seed oil (RSO). Oil content for tow cultivars of dates Deglect Noor and Moshkan was 9.67% and 7.30%, respectively. The three varieties of mango were found to contain about 10% oil in average. The red yellow types of Ramputan were found to have 11 and 14% oil, respectively. The phenolic compounds in DPKO, MKO and RSO were 0.98, 0.88 and 0.78 mg/ml Gallic acid equivalent, respectively. Oils were analyzed for their fatty acid composition and they are rich in oleic acid C18:1 and showed the presence of (dodecanoic acid) lauric acid C12:0, which reported to appear some antimicrobial activities. All extracted oils, DPKO, MKO and RSO showed no toxic effect using prime shrimp bioassay. Since these oils are stable, melt at skin temperature, have good lubricity and are great source of essential fatty acids; they could be used as highly moisturizing, cleansing and nourishing oils because of high oleic acid content. They are ideal for use in such halal cosmetics such as Science, Engineering and Technology 75 skin care and massage, hair-care, soap and shampoo products

Machine Learning Meets Communication Networks: Current Trends and Future Challenges

The growing network density and unprecedented increase in network traffic, caused by the massively expanding number of connected devices and online services, require intelligent network operations. Machine Learning (ML) has been applied in this regard in different types of networks and networking technologies to meet the requirements of future communicating devices and services. In this article, we provide a detailed account of current research on the application of ML in communication networks and shed light on future research challenges. Research on the application of ML in communication networks is described in: i) the three layers, i.e., physical, access, and network layers; and ii) novel computing and networking concepts such as Multi-access Edge Computing (MEC), Software Defined Networking (SDN), Network Functions Virtualization (NFV), and a brief overview of ML-based network security. Important future research challenges are identified and presented to help stir further research in key areas in this direction