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98 results on '"Labeau F"'

1. Internet of vehicles for e-health applications: A potential game for optimal network capacity

Author

Lin, D, Tang, Y, Labeau, F, Yao, Y, Imran, M, Vasilakos, AV, Lin, D, Tang, Y, Labeau, F, Yao, Y, Imran, M, and Vasilakos, AV

Abstract

Wireless technologies are pervasive to support ubiquitous healthcare applications. However, a critical issue of using wireless communications under a healthcare scenario rests at the electromagnetic interference (EMI) caused by RF transmission, and a high level of EMI may lead to a critical malfunction of medical sensors. In view of EMI on medical sensors, we propose a power control algorithm under a noncooperative game theoretic framework to schedule data transmission. Our objective is to ensure that the noncooperative game of power control can achieve a network-level objective - the optimal network capacity, although the wireless users are selfish and only interested in optimizing their own channel capacity. To obtain this objective, we show that our proposed noncooperative game is a potential game and propose the best-response-dynamics algorithm which can ensure that the game strategy of each user is induced to the optimal solution to the problem of network-level optimal capacity. Numerical results illustrate that the proposed algorithm can achieve an enhancement of 8% of network performance than the existing algorithm against the variations of mobile hospital environments.

Published
2017

2. Optimal Network QoS over the Internet of Vehicles for E-Health Applications

Author

Lin, D, Yao, Y, Labeau, F, Tang, Y, Vasilakos, AV, Lin, D, Yao, Y, Labeau, F, Tang, Y, and Vasilakos, AV

Abstract

Wireless technologies are pervasive to support ubiquitous healthcare applications. However, a critical issue of using wireless communications under a healthcare scenario is the electromagnetic interference (EMI) caused by RF transmission, and a high level of EMI may lead to a critical malfunction of medical sensors. In consideration of EMI on medical sensors, we study the optimization of quality of service (QoS) within the whole Internet of vehicles for E-health and propose a novel model to optimize the QoS by allocating the transmit power of each user. Our results show that the optimal power control policy depends on the objective of optimization problems: a greedy policy is optimal to maximize the summation of QoS of each user, whereas a fair policy is optimal to maximize the product of QoS of each user. Algorithms are taken to derive the optimal policies, and numerical results of optimizing QoS are presented for both objectives and QoS constraints.

Published
2016

3. Admission Control Over Internet of Vehicles Attached With Medical Sensors for Ubiquitous Healthcare Applications.

Author

Lin, D, Labeau, F, Yao, Y, Vasilakos, AV, Tang, Y, Lin, D, Labeau, F, Yao, Y, Vasilakos, AV, and Tang, Y

Abstract

Wireless technologies and vehicle-mounted or wearable medical sensors are pervasive to support ubiquitous healthcare applications. However, a critical issue of using wireless communications under a healthcare scenario rests at the electromagnetic interference (EMI) caused by radio frequency transmission. A high level of EMI may lead to a critical malfunction of medical sensors, and in such a scenario, a few users who are not transmitting emergency data could be required to reduce their transmit power or even temporarily disconnect from the network in order to guarantee the normal operation of medical sensors as well as the transmission of emergency data. In this paper, we propose a joint power and admission control algorithm to schedule the users' transmission of medical data. The objective of this algorithm is to minimize the number of users who are forced to disconnect from the network while keeping the EMI on medical sensors at an acceptable level. We show that a fixed point of proposed algorithm always exists, and at the fixed point, our proposed algorithm can minimize the number of low-priority users who are required to disconnect from the network. Numerical results illustrate that the proposed algorithm can achieve robust performance against the variations of mobile hospital environments.

Published
2016

6. Combat sports analytics: Boxing punch classification using overhead depthimagery

Author

Labeau, F, Thiran, J P, Kasiri Bidhendi, Soudeh, Fookes, Clinton, Morgan, Stuart, Martin, David, Sridharan, Sridha, Labeau, F, Thiran, J P, Kasiri Bidhendi, Soudeh, Fookes, Clinton, Morgan, Stuart, Martin, David, and Sridharan, Sridha

Abstract

In competitive combat sporting environments like boxing, the statistics on a boxer's performance, including the amount and type of punches thrown, provide a valuable source of data and feedback which is routinely used for coaching and performance improvement purposes. This paper presents a robust framework for the automatic classification of a boxer's punches. Overhead depth imagery is employed to alleviate challenges associated with occlusions, and robust body-part tracking is developed for the noisy time-of-flight sensors. Punch recognition is addressed through both a multi-class SVM and Random Forest classifiers. A coarse-to-fine hierarchical SVM classifier is presented based on prior knowledge of boxing punches. This framework has been applied to shadow boxing image sequences taken at the Australian Institute of Sport with 8 elite boxers. Results demonstrate the effectiveness of the proposed approach, with the hierarchical SVM classifier yielding a 96% accuracy, signifying its suitability for analysing athletes punches in boxing bouts.

Published
2015

7. Class-specific sparse codes for representing activities

Author

Labeau, F, Thiran, J P, Umakanthan, Sabanadesan, Denman, Simon, Fookes, Clinton, Sridharan, Sridha, Labeau, F, Thiran, J P, Umakanthan, Sabanadesan, Denman, Simon, Fookes, Clinton, and Sridharan, Sridha

Abstract

In this paper we investigate the effectiveness of class specific sparse codes in the context of discriminative action classification. The bag-of-words representation is widely used in activity recognition to encode features, and although it yields state-of-the art performance with several feature descriptors it still suffers from large quantization errors and reduces the overall performance. Recently proposed sparse representation methods have been shown to effectively represent features as a linear combination of an over complete dictionary by minimizing the reconstruction error. In contrast to most of the sparse representation methods which focus on Sparse-Reconstruction based Classification (SRC), this paper focuses on a discriminative classification using a SVM by constructing class-specific sparse codes for motion and appearance separately. Experimental results demonstrates that separate motion and appearance specific sparse coefficients provide the most effective and discriminative representation for each class compared to a single class-specific sparse coefficients.

Published
2015

8. Improving deep convolutional neural networks with unsupervised feature learning

Author

Labeau, F, Thiran, J P, Nguyen Thanh, Kien, Fookes, Clinton, Sridharan, Sridha, Labeau, F, Thiran, J P, Nguyen Thanh, Kien, Fookes, Clinton, and Sridharan, Sridha

Abstract

The latest generation of Deep Convolutional Neural Networks (DCNN) have dramatically advanced challenging computer vision tasks, especially in object detection and object classification, achieving state-of-the-art performance in several computer vision tasks including text recognition, sign recognition, face recognition and scene understanding. The depth of these supervised networks has enabled learning deeper and hierarchical representation of features. In parallel, unsupervised deep learning such as Convolutional Deep Belief Network (CDBN) has also achieved state-of-the-art in many computer vision tasks. However, there is very limited research on jointly exploiting the strength of these two approaches. In this paper, we investigate the learning capability of both methods. We compare the output of individual layers and show that many learnt filters and outputs of the corresponding level layer are almost similar for both approaches. Stacking the DCNN on top of unsupervised layers or replacing layers in the DCNN with the corresponding learnt layers in the CDBN can improve the recognition/classification accuracy and training computational expense. We demonstrate the validity of the proposal on ImageNet dataset.

Published
2015

9. Application of image processing techniques for frog call classification

Author

Labeau, F, Thiran, J P, Xie, Jie, Towsey, Michael, Zhang, Jinglan, Dong, Xueyan, Roe, Paul, Labeau, F, Thiran, J P, Xie, Jie, Towsey, Michael, Zhang, Jinglan, Dong, Xueyan, and Roe, Paul

Abstract

Frogs have received increasing attention due to their effectiveness for indicating the environment change. Therefore, it is important to monitor and assess frogs. With the development of sensor techniques, large volumes of audio data (including frog calls) have been collected and need to be analysed. After transforming the audio data into its spectrogram representation using short-time Fourier transform, the visual inspection of this representation motivates us to use image processing techniques for analysing audio data. Applying acoustic event detection (AED) method to spectrograms, acoustic events are firstly detected from which ridges are extracted. Three feature sets, Mel-frequency cepstral coefficients (MFCCs), AED feature set and ridge feature set, are then used for frog call classification with a support vector machine classifier. Fifteen frog species widely spread in Queensland, Australia, are selected to evaluate the proposed method. The experimental results show that ridge feature set can achieve an average classification accuracy of 74.73% which outperforms the MFCCs (38.99%) and AED feature set (67.78%).

Published
2015

15. Performances of linear tools and models for error detection and concealment in subband image transmission

Author

UCL - FSA/ELEC - Département d'électricité, Labeau, F., Desset, C, Vandendorpe, Luc, Macq, Benoît, UCL - FSA/ELEC - Département d'électricité, Labeau, F., Desset, C, Vandendorpe, Luc, and Macq, Benoît

Abstract

In this paper, we investigate the performances of Gaussian modeling and linear prediction tools for error detection and concealment in the transmission of still images. We consider the transmission of subband encoded images through two types of channels. We model the residual correlation between subband coefficients by considering them as jointly Gaussian variables. The first transmission medium considered is a packet-oriented channel, where some packets are lost during transmission. The problem is to estimate the values of missing coefficients. In this case, particular care must be taken while evaluating correlation matrices from incomplete data. The other system considered is based on a discrete memoryless noisy channel affecting the data being transmitted. The challenge is here first to determine the locations of the errors-which is done through hypotheses tests-and then to replace them by estimates based on their neighbors. The reconstruction via linear prediction is shown to give better results than median filtering based reconstruction. Error detection through this Gaussian model also shows promising results, in particular when channel statistics are taken into account in a joint source-channel decoding framework.

Published
2002

17. Structures, factorizations, and design criteria for oversampled paraunitary filterbanks yielding linear-phase filters

Author

UCL - FSA/ELEC - Département d'électricité, Labeau, F., Vandendorpe, Luc, Macq, Benoît, UCL - FSA/ELEC - Département d'électricité, Labeau, F., Vandendorpe, Luc, and Macq, Benoît

Abstract

We present here a special class of oversampled filterbanks (FBs), namely, paraunitary FBs with linear-phase filters. We propose some necessary conditions for the existence of such banks, based on the repartition between type VII and type III/IV linear-phase filters in the bank. For a subset of these FBs, we develop a factorization that leads to a minimal implementation, as well as a direct parameterization of the FBs in terms of elementary rotation angles. This factorization is applied to some design examples, with two different optimization criteria: coding gain and reconstructibility of lost coefficients.

Published
2000

18. Image processing for multimedia terminals and related architectures

Author

UCL - FSA/ELEC - Département d'électricité, Macq, Benoît, Labeau, F., Desset, C, Vandendorpe, Luc, Workshop on Emerging Techniques for Communication Terminals, UCL - FSA/ELEC - Département d'électricité, Macq, Benoît, Labeau, F., Desset, C, Vandendorpe, Luc, and Workshop on Emerging Techniques for Communication Terminals

Abstract

The multimedia terminals of tomorrow are seen today as toolboxes containing flexible solutions not only able to compress audio-visual flows, but also to interact with the contents, provide tools for copyright protection, adapt the signal representations to the communication channels, etc. The aim of this paper is to overview a flexible architecture suited for dynamically downloadable environments, discuss briefly new functionalities demanded for image communications and present more deeply a system globally optimized for noisy channels. The description of these three items illustrates the needs for image processing research to integrate in a global approach the communication software design, the new functionalities, among which security and copyright protection are of major importance, and to globally optimize the different codings, e.g. source and channel codings. (C) 2000 Elsevier Science B.V. All rights reserved.

Published
2000

19. Gaussian modeling for channel errors diagnosis in image transmission

Author

UCL - FSA/ELEC - Département d'électricité, Labeau, F., Vandendorpe, Luc, Macq, Benoît, 1999 IEEE International Conference on Acoustics, Speech, and Signal Processing. Proceedings. ICASSP99, UCL - FSA/ELEC - Département d'électricité, Labeau, F., Vandendorpe, Luc, Macq, Benoît, and 1999 IEEE International Conference on Acoustics, Speech, and Signal Processing. Proceedings. ICASSP99

Abstract

In this paper we propose an original study of the reconstruction of subband compressed images impaired by channel transmission errors. The method proceeds in two steps:first a detection scheme is applied to determine which coefficients of the subband decomposition have been affected by transmission, and then an estimation step tries to evaluate the erroneous coefficients. In our model, subband coefficients are considered to be drawn from jointly Gaussian random processes. Based on this assumption, conditional statistics can be computed which enable to test the likelihood of a given set of received coefficients with respect to the rest of the image. The detection and estimation processes are derived from these statistics. The method is validated through simulation and visual results are provided. The drawbacks of the method are outlined and explained through the discrepancies between the Gaussian assumption and real world images, namely around image edges., Anglais

Published
1999

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