Background: Difference between revisions
No edit summary |
No edit summary |
||
(46 intermediate revisions by 2 users not shown) | |||
Line 1: | Line 1: | ||
{| |
{| |
||
|[[Image:Cube.jpg|150 px]] || |
|||
|[[Image:Cube.jpg|150 px]] ||One important achievement of the Muscle group is the [http://muscle.ercim.eu/ Muscle Network of Excellence], partially funded by the European Commission (FP6-507752, 1 March 2004 - 29 February 2008), managed by ERCIM and coordinated by Eric Pauwels (CWI, NL) and Nozha Boujemaa (INRIA, F) |
|||
One important achievement of the Muscle group is the [http://muscle.ercim.eu/ Muscle Network of Excellence], partially funded by the European Commission (FP6-507752, 1 March 2004 - 29 February 2008), managed by ERCIM and coordinated by Eric Pauwels (CWI, NL) and Nozha Boujemaa (INRIA, F) |
|||
|} |
|} |
||
Line 6: | Line 7: | ||
{| |
{| |
||
|[[Image:Logo_CNR_high.png|150 px]] || |
|||
|[[Image:Silogo_rid.png|150 px]] || The Signal & Images Lab at ISTI-CNR ([http://si.isti.cnr.it/ SI Lab]) is working in the fields of signal processing, image understanding and artificial vision. Sensorial information is increasing its importance in both our everyday lives and the most advanced technological and scientific contexts. In particular, visual and audio information is becoming the most significant part of the global information to be processed, understood and manipulated. Our general goal is to increase the knowledge in signal processing, image understanding and artificial vision. This will be achieved by studying and developing models, methods and machines for the formation, processing, analysis and recognition of images and signals, and by applying them to several areas of scientific and technological interest. |
|||
The Signal & Images Lab at ISTI-CNR ([http://si.isti.cnr.it/ SI Lab]) is working in the fields of signal processing, image understanding and artificial vision. Sensorial information is increasing its importance in both our everyday lives and the most advanced technological and scientific contexts. In particular, visual and audio information is becoming the most significant part of the global information to be processed, understood and manipulated. Our general goal is to increase the knowledge in signal processing, image understanding and artificial vision. This will be achieved by studying and developing models, methods and machines for the formation, processing, analysis and recognition of images and signals, and by applying them to several areas of scientific and technological interest. |
|||
|} |
|} |
||
{| |
|||
|[[Image:Logo-INRIA-science-en-couleur.png|150 px]] || |
|||
The AYIN project-team ([https://team.inria.fr/ayin/ Ayin]) is located at INRIA Sophia-Antipolis Méditerranée and aims to provide image processing tools to aid in the solution of problems arising in a wide range of concrete applications in Earth observation and cartography, for example cartographic updating, land management, and agriculture, while at the same time advancing the state of the art in the image processing methods used to construct those tools. An important recent theme, for example, is the incorporation of geometric information into stochastic and variational techniques, in the probabilistic case via the use of stochastic geometry, and in the variational case via the use of higher-order active contours. |
|||
|} |
|||
Line 14: | Line 23: | ||
{| |
{| |
||
|[[Image:TAU.PNG|150 px]] || |
|||
|[[Image:LogoInria.PNG|150 px]] || The Ariana project-team ([http://www-sop.inria.fr/ariana/ Ariana]) is located at INRIA Sophia-Antipolis Méditerranée and aims to provide image processing tools to aid in the solution of problems arising in a wide range of concrete applications in Earth observation and cartography, for example cartographic updating, land management, and agriculture, while at the same time advancing the state of the art in the image processing methods used to construct those tools. An important recent theme, for example, is the incorporation of geometric information into stochastic and variational techniques, in the probabilistic case via the use of stochastic geometry, and in the variational case via the use of higher-order active contours. |
|||
[http://www.eng.tau.ac.il/~nk/TAU-VISUAL.html TAU-VISUAL] at Tel Aviv University specializes in the extraction and processing of visual information from video and still images. The group has substantial expertise in the use of variational methods to solve fundamentally difficult problems, such as restoration, registration and segmentation of images and video. Typical application domains include medical image analysis, image retrieval, video analytics, environmental monitoring and 3D image acquisition. |
|||
|} |
|} |
||
{| |
|||
|[[Image:Mozscreenshot.png|150 px]] || |
|||
Bilkent EE Signal Processing group is interested in multimedia signal processing topics including Image, Video, Speech, 3D signal processing issues. Specific research topics of the group includes; Human-Computer Interaction using vision and speech, Audio-Visual Multimedia Databases, Speech Processing, Digital Coding of Waveforms ( Image, Video, Speech, and Biomedical Signals), Adaptive Filtering and Adaptive Subband Coding, Wavelet Transform and Applications, Time Series Analysis and Stochastic Processes, Signal Processing for Food Safety and Color Image Dithering. The groups is currently involved in 2 EU projects: FIRESENSE and MIRACLE. |
|||
|} |
|||
Line 22: | Line 39: | ||
{| |
{| |
||
|[[Image:Unige.4505.2008.10.450_logo_70.jpg|150 px]]|| |
|||
|[[Image:TAU.PNG|150 px]] || [http://www.eng.tau.ac.il/~nk/TAU-VISUAL.html TAU-VISUAL] specializes in the extraction and processing of visual information from video and still images. The group has substantial expertise in the use of variational methods to solve fundamentally difficult problems, such as restoration, registration and segmentation of images and video. Typical application domains include medical image analysis, image retrieval, video analytics, environmental monitoring and 3D image acquisition. |
|||
The Computer Vision and Multimedia Laboratory ([http://cvml.unige.ch CVML ]) of the University of Geneva is divided into three groups and carries out research in multimedia data processing, multimedia data management and security, as well as in multimodal human-machine interaction. Content-based Visual Indexing and Retrievalgroup: evelops strategies for the efficient indexing retrieval and exploration of large multimedia databases. Stochastic Information Processing group: studies various aspects of information theory and statistical (stochastic) information analysis and processing. Multimodal Interaction group: studiesvarious forms of interaction between humans, computers, and environment. Some considered interaction modalities are haptic, auditory, and based on physiological signals. Current developments concern: affective state determination and emotion recognition and their use for affective computing, multimodal interaction, brain-computer interfaces, mobility aids for sight handicapped people,object identification and authentication based on unclonable object features in large nonstructured databases, indexing and retrieval in very large multimedia databases, privacy preserving search, indexing and multiclass classification. |
|||
|} |
|} |
||
{| |
|||
|[[Image:TCD.png|150 px]]|| |
|||
The School of Computer Science and Statistics in Trinity College Dublin has two collaborating groups, [http://gv2.cs.tcd.ie/ GV2] and [http://www.scss.tcd.ie/disciplines/statistics/statica/ Statica], that carries out activities on multimedia data (e.g. images, video and sound), sensor network data (e.g. road trafic, communications networks, camera network, motion capture) and environmental data (e.g. weather). STATICA focuses on Bayesian inference to solve statistical problems that arise in computer science, information systems and telecommunications focusing on developing statistical techniques to analyse large and complex data. GV2, the Graphics Vision and Visualisation group, has expertises in computer graphics, computer vision and all aspects of visual computing. GV2 was formed in 2006 with the integration of two longstanding TCD research groups: the Image Synthesis Group [ISG], established in 1993, and the Computer Vision and Robotics Group [CVRG], which was established 1983. |
|||
|} |
|||
Line 30: | Line 55: | ||
{| |
{| |
||
|[[Image:Cwi.PNG|150 px]]|| |
|||
|[[Image:Mozscreenshot.png|150 px]] || Bilkent EE Signal Processing group is interested in multimedia signal processing topics including Image, Video, Speech, 3D signal processing issues. Specific research topics of the group includes; Human-Computer Interaction using vision and speech, Audio-Visual Multimedia Databases, Speech Processing, Digital Coding of Waveforms ( Image, Video, Speech, and Biomedical Signals), Adaptive Filtering and Adaptive Subband Coding, Wavelet Transform and Applications, Time Series Analysis and Stochastic Processes, Signal Processing for Food Safety and Color Image Dithering. The groups is currently involved in 2 EU projects: FIRESENSE and MIRACLE. |
|||
The CWI Stochastic Geometry subgroup (ST2.3) is concerned with random geometric structures, ranging from simple points or line segments to arbitrary closed sets. Although it has roots in geometric probability and integral geometry, the modern theory of random sets was developed in the seventies, independently by David Kendall in Cambridge and Georges Matheron in Fontainebleau with important contributions from the German school around Professors Mecke and Stoyan. Stochastic geometry techniques can be applied in a wide range of fields for instance image analysis, telecommunication networks, forestry, and environmental research. |
|||
|} |
|} |
||
<!-- |
|||
{| |
|||
|[[Image:IbaI_Perner3.JPG|150 px]]|| |
|||
The Institute of Computer Vision and Applied Computer Sciences (IBaI) was founded in 1995. The institute conducts basic and applied research in computer vision, data mining, machine learning, and for image databases. The institute has an excellent staff of highly-qualified researchers from various fields such as computer science, mathematics, electrical engineering, and physics. It has modern equipment and excellent facilities for conducting scientific research. The IBaI is involved in various national and international research projects and RTD projects. The institute is engaged in the developement of research themes such as Machine Learning and Data Mining in Pattern Recognition and Case-Based Reasoning in Computer Vision and Image Processing on the international level. Therefore the institute offers several scientific events such as MLDM, ICDM, MDA and technical committees. The institute provides courses(e.g. Tutorial Days Data Mining) on data mining and computer vision. |
|||
|} |
|||
--> |
|||
{| |
{| |
||
|[[Image: |
|[[Image:Logo_TEA.jpg|150 px]]|| |
||
T.E.A. sas di E. Console & C. is a company based in Catanzaro (Italy), member of the Italian National Research Registry since 2003. The main sectors of activity of T.E.A. are Statistical Consulting (sample surveys, market research and marketing, studies and socio-economic research), Project Management and Technical Assistance, (project planning and implementation, especially for EU projects), Geo-Information (design and implementation of GIS and Web-GIS systems, environmental monitoring, planning and management of resources, geo-marketing, digital image processing, thematic maps), and Cultural Heritage, (hyper/multispectral imaging of documents and artifacts, reflexographic analysis for non-invasive diagnostics, virtual restoration for improving the readability and recovering hidden features in documents and paintings). |
|||
The Computer Vision and Multimedia Laboratory ([http://cvml.unige.ch CVML ]) of the University of Geneva is divided into three |
|||
groups and carries out research in multimedia data processing, |
|||
multimedia data management and security, as well as in multimodal |
|||
human-machine interaction. Content-based Visual Indexing and |
|||
Retrievalgroup: develops strategies for the efficient indexing retrieval |
|||
and exploration of large multimedia databases. Stochastic Information |
|||
Processing group: studies various aspects of information theory and |
|||
statistical (stochastic) information analysis and processing. Multimodal |
|||
Interaction group: studiesvarious forms of interaction between humans, |
|||
computers, and environment. Some considered interaction modalities are |
|||
haptic, auditory, and based on physiological signals. Current |
|||
developments concern: affective state determination and emotion |
|||
recognition and their use for affective computing, multimodal |
|||
interaction, brain-computer interfaces, mobility aids for sight |
|||
handicapped people,object identification and authentication based on |
|||
unclonable object features in large nonstructured databases, indexing |
|||
and retrieval in very large multimedia databases, privacy preserving |
|||
search, indexing and multiclass classification. |
|||
|} |
|} |
||
{| |
{| |
||
|[[Image: |
|[[Image:Logo-INRIA-science-en-couleur.png|150 px]] || |
||
The Linkmedia team of Inria is located in Rennes France, Its seminal idea is that of content-based media linking with the ultimate goal of enabling better multimedia applications and new innovative services. Taking a content-based perspective, the team seek to create explicit links at different levels to better reflect the context: links at the signal level, e.g., with repeating patterns; links at a semantic level, e.g., to follow topics or stories; links at a paradigmatic level, e.g., to have further details or comments on a topic. |
|||
The School of Computer Science and Statistics in Trinity College Dublin has two collaborating groups, [http://gv2.cs.tcd.ie/ GV2] |
|||
|} |
|||
and [http://www.scss.tcd.ie/disciplines/statistics/statica/ Statica], |
|||
<!--{| |
|||
that carries out activities on multimedia data (e.g. images, video and sound), |
|||
|[[Image:Logo-armines.jpg |150 px]] || |
|||
sensor network data (e.g. road trafic, communications networks, camera network, motion capture) and environmental data (e.g. weather). |
|||
[http://cmm.ensmp.fr/index_eng.html ARMINES] is a non-profit French association which acts as the industrial interface serving engineering schools. CMM is a joint research laboratory of ARMINES and MINES ParisTech. Since the CMM was founded in 1967, it has contributed to the growth and dissemination of the theoretical and algorithmic corpus of mathematical morphology, through a very broad field of applications, thereby providing a rich experimental terrain for the development of new concepts and tools. For 40 years now, the CMM has been developing a powerful theoretical framework for image processing, called Mathematical Morphology. The CMM has acquired a leading position in the fields of mathematical foundations of the theory, efficient algorithms design, resolution of applications involving image processing, development of multimedia applications, and specific hardware development. The CMM has capitalized its expertise through common software libraries, creating a synergy between all applications in which the CMM is involved. These libraries provide advanced tools for filtering, segmentation, feature extraction, hyper-spectral image analysis and 3D point cloud analysis. |
|||
STATICA focuses on Bayesian inference to solve statistical problems that arise in computer science, |
|||
information systems and telecommunications focusing on developing statistical techniques to analyse |
|||
large and complex data. GV2, the Graphics Vision and Visualisation group, has expertises in |
|||
computer graphics, computer vision and all aspects of visual computing. |
|||
GV2 was formed in 2006 with the integration of two longstanding TCD research groups: |
|||
the Image Synthesis Group [ISG], established in 1993, and the Computer Vision and Robotics Group [CVRG], which was established 1983. |
|||
contact : Beatriz.Marcotegui@mines-paristech.fr |
|||
|} |
|} |
||
--> |
|||
{| |
{| |
||
|[[Image: |
|[[Image:logoVIP.gif |150 px]] || |
||
The research group [http://decsai.ugr.es/vip/ "Visual Information Processing"] consists of members of the [http://www.ugr.es/ University of Granada] and the [http://www.ujaen.es/ University of Jaén], from complementing fields as mathematics, statistics, computer science and physics, we carry out research on image restoration and enhancement, superresolution from compressed and uncompressed stills and video sequences, information retrieval from image and video databases, extraction of 3D information from video sequences for multimedia applications, tracking algorithms and optical flow, visual-statistical approach to multi-scale multiorientation representation models, computational photography, compressive sensing, active learning, fuzzy image processing, image classification and pattern recognition and multispectral image processing. |
|||
|} |
|||
The overall goal of the Signal and Images group at CWI |
|||
is to understand and interpret multimedia data using |
|||
mathematical tools, including stochastic geometric |
|||
{| |
|||
modelling, Monte Carlo methods, and statistical learning. |
|||
|[[Image:Logo_UTIA.jpg |150 px]] || |
|||
Recent applications include object recognition and |
|||
The Pattern Recognition department of the Institute of Information Theory and Automation of the Academy of Sciences of the Czech Republic is a basic research unit oriented to statistical model-based pattern recognition and computer vision areas. The department has achieved leading position in several areas of statistical pattern recognition, mainly in the physically correct modelling and recognition of visual surface properties and feature selection. The PR department consists of 12 staff members and 6 doctoral students. The department head is [http://ro.utia.cas.cz/?q=people/michal-haindl Prof. Ing. Haindl Michal, DrSc.] |
|||
tracking, segmentation, prediction and detection of |
|||
salient events, and content-based image retrieval. |
|||
|} |
|} |
||
{| |
{| |
||
|[[Image:Logo_SZTAKI.jpg |150 px]] || |
|||
The Institute of Computer Vision and Applied Computer Sciences (IBaI) was founded in 1995. The institute conducts basic and applied research in computer vision, data mining, machine learning, and for image databases. |
|||
Distributed Events Analysis Research Laboratory of MTA SZTAKI aims to interpret and organize information coming from distributed or embedded sensors. The sensor can be a dynamic or static imaging device, other multimedia sources, or a network of different sensors. The challenge is the evaluation, recognition and classification of events occurring at different locations or time. We place special emphasis on machine learning, data mining, human perception, geometrical optics, optimization methods and variational analysis. Our areas of interests include image and video processing, biometrical identification, connections with sensor networks and computer graphics. |
|||
|} |
|||
The institute has an excellent staff of highly-qualified researchers from various fields such as computer science, mathematics, electrical engineering, and physics. It has modern equipment and excellent facilities for conducting scientific research. |
|||
The IBaI is involved in various national and international research projects and RTD projects. The institute is engaged in the developement of research themes such as Machine Learning and Data Mining in Pattern Recognition and Case-Based Reasoning in Computer Vision and Image Processing on the international level. Therefore the institute offers several scientific events such as MLDM, ICDM, MDA and technical committees. |
|||
The institute provides courses(e.g. Tutorial Days Data Mining) on data mining and computer vision. |
|||
{| |
|||
about © shutterstock grid © istock cpu © fotolia |
|||
|[[Image:Logo_VTT.jpg |150 px]] || |
|||
[http://www.vtt.fi VTT], Technical Research Centre of Finland, is the biggest multi-technological applied research organisation in Northern Europe. With its staff of 3,100, its unique research facilities and extensive global co-operation networks, it provides leading-edge technology solutions and innovation services. VTT works to enhance its customers’ competitiveness and competence, creating the prerequisites for society’s sustainable development, employment and wellbeing. Augmented Reality (AR) is the technique of superimposing virtual objects in the user's view of the real world, providing a novel visualisation technology for a wide range of application. The [http://www.vtt.fi/multmedia Augmented Reality research group] consists of two teams: 3D Tracking and Mixed Reality. Teams started working in the AR field in 2000 with the development of virtual advertisements for live TV broadcast. In the following years teams expanded their expertise to several application areas in ICT, media, industry and building & construction. The augmented reality research group has strong scientific competence and has participated in a number of EU projects relating the area, for example INMOVE, CADPIPE, MUSCLE NoE, INTUITION NoE, and the ongoing ITEA2 project ViCoMo. |
|||
|} |
|||
{| |
|||
|[[Image:Logo_SBA.jpg |150 px]] || |
|||
[http://www.sba-research.org SBA Research] is a research center for Information Security funded by the national initiative for COMET Competence Centers for Excellent Technologies. We bring together 25 companies, 4 Austrian universities, one university of applied sciences, a non-university research institute, and many international research partners to jointly work on challenges ranging from organizational to technical security. |
|||
|} |
|||
{| |
|||
|[[Image:Logo_UPC.png |150 px]] || |
|||
The [https://imatge.upc.edu/web/ Image and Video Processing] group at UPC is a research group located in Barcelona. Its main research activities focus on Image Analysis and Video Representation. Regarding analysis, the GPI specializes in basic tools for analysis such as nonlinear filtering, mathematical morphology, segmentation (with Binary Partition Trees), face detection and recognition, multiview analysis for stereo and 3D reconstruction, object tracking, body tracking, gesture analysis, emotion recognition and the modelling of human activity. The Group also develops biomedical, remote-sensing, watermarking applications and multimodal interfaces (Smart Rooms). GPI video compression activities have been the basis of applications related to content-based video coding, video indexing and the creation of tables of content and contributions to international standardization processes such as MPEG-4 and MPEG-7. Most recently GPI is conducting research in multi-view/3D representation and coding. |
|||
|} |
|||
{| |
|||
|[[Image:Logo_INESCTEC.jpg |150 px]] || |
|||
[http://www2.inescporto.pt/ INESC TEC] is involved in scientific research and technological development, advanced training, consulting and technology transfer. The main areas of activity are Telecommunications and Multimedia, Power Systems, Manufacturing Systems, Information and Computer Graphics Systems, Optoelectronics and Electronic Systems, Robotics and Intelligent Systems, Innovation and Technology Transfer. INESC TEC is involved in the ERCIM MUSCLE Working Group with a team that is leading research in multimedia information retrieval within the Information and Computer Graphics Systems unit. |
|||
|} |
|||
{| |
|||
|[[Image:Logo_AIIA.jpg |150 px]] || |
|||
The Artificial Intelligence and Information Analysis ([http://www.aiia.csd.auth.gr/ AIIA]) Lab at the Department of Informatics, Aristotle University of Thessaloniki, Greece, has been working for more than 15 years in digital media and related areas. It has 5 faculty members, 15 researchers and PhD students. AIIA Lab has participated in more than 50 projects (40 competitive R&D projects and in 12 educational ones). It has taken part in 35 EU projects, most of which have been in FP5, 6 and 7. AIIA Lab was prime contractor in 3 such projects. AIIA Lab topics of interest span the areas of networked digital media, semantic and anthropocentric media analysis, computer vision, computational intelligence, digital image and video processing, human centred interfaces, IPR protection, computer graphics and visualization. Lab members have published more than 700 articles in international journals and conferences, 30 book chapters and 7 books. |
|||
|} |
|||
{| |
|||
|[[Image:Logo_ISEP.jpg |150 px]] || |
|||
The research laboratory of ISEP, LISITE (Laboratoire d’Informatique, Signal et Image, Télécommunication et Electronique), is composed of 3 teams: MINARC (Micro and Nanoelectronics & Radio Communications), SITe (Signal, Image and Telecommunications) and RDI (Research and Development in Information sciences). MINARC works in the field of low-voltage and low-power circuits, ultra-low power systems for medical applications and reconfigurable radios, and interaction between circuit design and advanced technologies (SOI, multiple-gate transistors, nano-technologies). SITe conducts research on signal and image processing and analysis for medical imaging and multimodal biometrics, video compression techniques and optimization of radio-resource allocation in post-3G cellular networks. RDI address the quality of Internet applications and architectures and applies its work to various domains related to M2M platforms and mobile services (M2M, Cloud Computing, Recommendation Systems, Dataflow mining, and Formal Methods). |
|||
|} |
|||
{| |
|||
|[[Image:Logo_LMSE.jpg |150 px]] || |
|||
The research staff at LMSE work on three areas of research: |
|||
Production, transportation and management of electrical energy; Monitoring and diagnostics of electrical systems; phenomena of interaction of current and electric field with materials. |
|||
The objectives of the laboratory include |
|||
high capacity research training, renewable electrical energy sources, power transportation and network management, power system control, injection of power from renewable sources in conventional networks, CC energy transmission, and diagnostics of electric machines. |
|||
Research topics: |
|||
PEMFC fuel cell; SOFC fuel cell; generators and applicators for heating and induction melting; magnetic levitation in transportation; robustness of power systems; algorithms and techniques for intelligent control of electrical systems; superconductors in electrical engineering applications, such as fault current limitation, superconducting machines, and superconducting magnets. |
|||
|} |
|||
{| |
|||
|[[Image:Logo_Cankaya.png |150 px]] || |
|||
The activities of the Signal Processing Laboratory at Cankaya University, Ankara, span over the broad fields of signal processing and pattern recognition with applications to image/video analysis and communication systems. Research is focused on developing novel algorithms to analyze the content of signals from multitude of sensors such as visible/infra-red/hyperspectral cameras, microphones, passive infra-red sensors, vibration sensors and spectrum sensors for wireless communications. |
|||
|} |
|||
{| |
|||
|[[Image:Logo_iemn.jpg |150 px]] || |
|||
IEMN is a research institute created by the National Centre for Scientific Research ([http://www.cnrs.fr CNRS]), two universities (University of [http://www.univ-valenciennes.fr/DOAE/comnum-communications-numeriques Valenciennes] and University of [http://exploit.iemn.univ-lille1.fr/en/ Lille 1]) and an Engineer school ([http://www.isen.fr ISEN]) of France northern region. The COMNUM group at IEMN is a research group located in Valenciennes. Its research activities are focused on three main topics: digital communications and radiofrequency systems for intelligent transportation systems, cognitive radio and cooperative networks, and digital image and video processing and communications. Regarding visual data processing and communication techniques, the group is leading research in joint source-channel video coding, optimization of multimedia delivery over wired and wireless networks, video transcoding, pre- and post-processing techniques, and digital image and video quality. |
|||
|} |
|||
{| |
|||
|[[Image:Logo_DSP4.jpg |150 px]] || |
|||
The major research topics of the DSP research group at the Department of Computing and Control Engineering, Institute of Chemical Technology, Prague, cover both theoretical methods of multidimensional and multichannel signal processing and their applications. Mathematical methods studied by group members include algorithms of signal segmentation, feature extraction, classification, signal decomposition and reconstruction based on the Wavelet transform, statistical methods and spatial modelling using computational intelligence, information engineering, optimization and neural networks. Applications include the use of general signal processing methods (i) in biomedical image analysis and neurology, (ii) in video processing and three-dimensional modelling, and (iii) in engineering and robotics as well. |
|||
|} |
|} |
Latest revision as of 09:13, 19 November 2014
One important achievement of the Muscle group is the Muscle Network of Excellence, partially funded by the European Commission (FP6-507752, 1 March 2004 - 29 February 2008), managed by ERCIM and coordinated by Eric Pauwels (CWI, NL) and Nozha Boujemaa (INRIA, F) |
The Signal & Images Lab at ISTI-CNR (SI Lab) is working in the fields of signal processing, image understanding and artificial vision. Sensorial information is increasing its importance in both our everyday lives and the most advanced technological and scientific contexts. In particular, visual and audio information is becoming the most significant part of the global information to be processed, understood and manipulated. Our general goal is to increase the knowledge in signal processing, image understanding and artificial vision. This will be achieved by studying and developing models, methods and machines for the formation, processing, analysis and recognition of images and signals, and by applying them to several areas of scientific and technological interest. |
The AYIN project-team (Ayin) is located at INRIA Sophia-Antipolis Méditerranée and aims to provide image processing tools to aid in the solution of problems arising in a wide range of concrete applications in Earth observation and cartography, for example cartographic updating, land management, and agriculture, while at the same time advancing the state of the art in the image processing methods used to construct those tools. An important recent theme, for example, is the incorporation of geometric information into stochastic and variational techniques, in the probabilistic case via the use of stochastic geometry, and in the variational case via the use of higher-order active contours. |
TAU-VISUAL at Tel Aviv University specializes in the extraction and processing of visual information from video and still images. The group has substantial expertise in the use of variational methods to solve fundamentally difficult problems, such as restoration, registration and segmentation of images and video. Typical application domains include medical image analysis, image retrieval, video analytics, environmental monitoring and 3D image acquisition. |
The Computer Vision and Multimedia Laboratory (CVML ) of the University of Geneva is divided into three groups and carries out research in multimedia data processing, multimedia data management and security, as well as in multimodal human-machine interaction. Content-based Visual Indexing and Retrievalgroup: evelops strategies for the efficient indexing retrieval and exploration of large multimedia databases. Stochastic Information Processing group: studies various aspects of information theory and statistical (stochastic) information analysis and processing. Multimodal Interaction group: studiesvarious forms of interaction between humans, computers, and environment. Some considered interaction modalities are haptic, auditory, and based on physiological signals. Current developments concern: affective state determination and emotion recognition and their use for affective computing, multimodal interaction, brain-computer interfaces, mobility aids for sight handicapped people,object identification and authentication based on unclonable object features in large nonstructured databases, indexing and retrieval in very large multimedia databases, privacy preserving search, indexing and multiclass classification. |
The School of Computer Science and Statistics in Trinity College Dublin has two collaborating groups, GV2 and Statica, that carries out activities on multimedia data (e.g. images, video and sound), sensor network data (e.g. road trafic, communications networks, camera network, motion capture) and environmental data (e.g. weather). STATICA focuses on Bayesian inference to solve statistical problems that arise in computer science, information systems and telecommunications focusing on developing statistical techniques to analyse large and complex data. GV2, the Graphics Vision and Visualisation group, has expertises in computer graphics, computer vision and all aspects of visual computing. GV2 was formed in 2006 with the integration of two longstanding TCD research groups: the Image Synthesis Group [ISG], established in 1993, and the Computer Vision and Robotics Group [CVRG], which was established 1983. |
The research group "Visual Information Processing" consists of members of the University of Granada and the University of Jaén, from complementing fields as mathematics, statistics, computer science and physics, we carry out research on image restoration and enhancement, superresolution from compressed and uncompressed stills and video sequences, information retrieval from image and video databases, extraction of 3D information from video sequences for multimedia applications, tracking algorithms and optical flow, visual-statistical approach to multi-scale multiorientation representation models, computational photography, compressive sensing, active learning, fuzzy image processing, image classification and pattern recognition and multispectral image processing. |
The Pattern Recognition department of the Institute of Information Theory and Automation of the Academy of Sciences of the Czech Republic is a basic research unit oriented to statistical model-based pattern recognition and computer vision areas. The department has achieved leading position in several areas of statistical pattern recognition, mainly in the physically correct modelling and recognition of visual surface properties and feature selection. The PR department consists of 12 staff members and 6 doctoral students. The department head is Prof. Ing. Haindl Michal, DrSc. |
VTT, Technical Research Centre of Finland, is the biggest multi-technological applied research organisation in Northern Europe. With its staff of 3,100, its unique research facilities and extensive global co-operation networks, it provides leading-edge technology solutions and innovation services. VTT works to enhance its customers’ competitiveness and competence, creating the prerequisites for society’s sustainable development, employment and wellbeing. Augmented Reality (AR) is the technique of superimposing virtual objects in the user's view of the real world, providing a novel visualisation technology for a wide range of application. The Augmented Reality research group consists of two teams: 3D Tracking and Mixed Reality. Teams started working in the AR field in 2000 with the development of virtual advertisements for live TV broadcast. In the following years teams expanded their expertise to several application areas in ICT, media, industry and building & construction. The augmented reality research group has strong scientific competence and has participated in a number of EU projects relating the area, for example INMOVE, CADPIPE, MUSCLE NoE, INTUITION NoE, and the ongoing ITEA2 project ViCoMo. |
SBA Research is a research center for Information Security funded by the national initiative for COMET Competence Centers for Excellent Technologies. We bring together 25 companies, 4 Austrian universities, one university of applied sciences, a non-university research institute, and many international research partners to jointly work on challenges ranging from organizational to technical security. |
The Image and Video Processing group at UPC is a research group located in Barcelona. Its main research activities focus on Image Analysis and Video Representation. Regarding analysis, the GPI specializes in basic tools for analysis such as nonlinear filtering, mathematical morphology, segmentation (with Binary Partition Trees), face detection and recognition, multiview analysis for stereo and 3D reconstruction, object tracking, body tracking, gesture analysis, emotion recognition and the modelling of human activity. The Group also develops biomedical, remote-sensing, watermarking applications and multimodal interfaces (Smart Rooms). GPI video compression activities have been the basis of applications related to content-based video coding, video indexing and the creation of tables of content and contributions to international standardization processes such as MPEG-4 and MPEG-7. Most recently GPI is conducting research in multi-view/3D representation and coding. |
INESC TEC is involved in scientific research and technological development, advanced training, consulting and technology transfer. The main areas of activity are Telecommunications and Multimedia, Power Systems, Manufacturing Systems, Information and Computer Graphics Systems, Optoelectronics and Electronic Systems, Robotics and Intelligent Systems, Innovation and Technology Transfer. INESC TEC is involved in the ERCIM MUSCLE Working Group with a team that is leading research in multimedia information retrieval within the Information and Computer Graphics Systems unit. |
The Artificial Intelligence and Information Analysis (AIIA) Lab at the Department of Informatics, Aristotle University of Thessaloniki, Greece, has been working for more than 15 years in digital media and related areas. It has 5 faculty members, 15 researchers and PhD students. AIIA Lab has participated in more than 50 projects (40 competitive R&D projects and in 12 educational ones). It has taken part in 35 EU projects, most of which have been in FP5, 6 and 7. AIIA Lab was prime contractor in 3 such projects. AIIA Lab topics of interest span the areas of networked digital media, semantic and anthropocentric media analysis, computer vision, computational intelligence, digital image and video processing, human centred interfaces, IPR protection, computer graphics and visualization. Lab members have published more than 700 articles in international journals and conferences, 30 book chapters and 7 books. |
IEMN is a research institute created by the National Centre for Scientific Research (CNRS), two universities (University of Valenciennes and University of Lille 1) and an Engineer school (ISEN) of France northern region. The COMNUM group at IEMN is a research group located in Valenciennes. Its research activities are focused on three main topics: digital communications and radiofrequency systems for intelligent transportation systems, cognitive radio and cooperative networks, and digital image and video processing and communications. Regarding visual data processing and communication techniques, the group is leading research in joint source-channel video coding, optimization of multimedia delivery over wired and wireless networks, video transcoding, pre- and post-processing techniques, and digital image and video quality. |