会議情報
SciVis 2017: IEEE Scientific Visualization
http://ieeevis.org/year/2017/info/call-participation/scivis-paper-types提出日: |
2017-03-21 |
通知日: |
2017-06-06 |
会議日: |
2017-10-01 |
場所: |
Phoenix, Arizona, USA |
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論文募集
The IEEE Scientific Visualization (SciVis) Conference solicits novel research ideas and innovative applications in all areas of scientific visualization. The scope of the conference, co-located at VIS with the annual IEEE Visual Analytics and IEEE Information Visualization Conferences, includes both fundamental research contributions within scientific visualization, as well as advances towards understanding or solving real world problems, or that impact a particular application in a significant way. Please note that topics focused on visual analytics, e.g., computational solutions facilitated by visual interfaces to support analysis, might be a better match for the IEEE VAST Conference at IEEE VIS. Similarly, topics which clearly focus on information visualization, e.g., graphical representation of abstract data to aid cognition, might be a better match for the IEEE InfoVis Conference, also at IEEE VIS. Papers chairs reserve the right to move papers between conferences based on its topic and perceived fit. Topics Research contributions are welcomed across a range of topics including, but not limited to: Visualization, rendering, and manipulation of spatial data Scalar, vector and tensor fields Multidimensional multi-field, multi-modal, and multivariate data, Time-varying data Regular and unstructured grids Point-based data Volumetric data Streaming data Multi-resolution Compression. Visual computing, systems and methodologies System and toolkit design Topology-based and geometry-based techniques Feature extraction and pattern analysis Uncertainty visualization View-dependent visualization PDEs Glyph-based techniques Texture based techniques Illustrative visualization Integrating spatial and non-spatial data visualization Applications of visual analytics approaches Computational steering. Interaction techniques and devices User interfaces Interaction design Coordinated and multiple views Data editing for validation Manipulation and deformation Multimodal input devices Haptics for visualization Mobile and ubiquitous visualization Visual interaction for data science Interaction with visualizations in different display environments. Data Science Large-scale computing Storage and data analytics Distributed, cluster, and grid computing Scalable data management on and off the cloud High-performance computing on multi-core, GPUs, FPGA, and embedded devices Information extraction and knowledge discovery from big data Petascale visualization Application of computer vision techniques Statistical modeling Data mining, machine learning Clustering techniques Reduced-order modeling Visual steering for data retrieval. Display techniques Large and high-res displays Giga-pixel displays Wrist displays/wearable displays Stereo displays Immersive and virtual environments Mixed and augmented visualization Projector-camera systems Perception and cognition coupled displays Small displays Mobile Devices Foundations Collaborative and distributed visualization Visual design and design studies Mathematical theories for visualization Scalability issues Visualization verification Information theoretic approaches Perception theory Color Texture Scene and motion perception Knowledge-assisted visualization Evaluation Usability studies and task analysis Design and user studies Validation and verification visualization Statistical techniques Crowdsourcing Human computation Visual computing applications Mathematics, physical sciences and engineering Earth, space, and environmental sciences Flow fields Terrain visualization Geographic/geospatial visualization Molecular, biomedical and medical visualization Bioinformatics visualization Software visualization Business and finance visualization Social and information sciences Education Humanities For the masses Multimedia (image/video/music) Visual computing for emerging applications Nano-assembly Live cell imaging Imaging genetics Micro-biology Robotics Sensor networks Cybersecurity Urban science Computational architecture Paper Types Paper Type: Technique A technique paper describes a new or significantly improved algorithm or technique in sufficient detail so that other researchers can reproduce the results. This technique should ideally be of general application rather than being restricted to a single task or single source of data, and the exposition should be focused on what the technique does, how it does it, when to use it, and what the computational and other costs are. Paper Type: System A system paper describes a solution to a problem where the major task is building a large complex software artifact, applying largely known visualization techniques. Here, the focus should be on the design decisions, the implications for software / hardware structure, and comparison with other systems. Paper Type: Application An application paper normally starts with an encapsulated description of a problem domain and the questions to be resolved by visualization, then describes the application of visualization to the task, any novel techniques developed, and how the visualization solution answered the questions posed. Techniques related to a single problem are normally application papers, and evaluation is often limited because many application papers are essentially custom software for a specific problem. Paper Type: Evaluation An evaluation paper is usually an empirical assessment of how effective a technique or system is when used by humans. As such, these often involve rigorous experimental protocols and statistical analysis, but this is not the only possible form of evaluation. Good evaluation papers go beyond statistical analysis to explain causes, construct models and predict effectiveness of related systems. Paper Type: Theory A theory paper describes aspects of the process by which humans construct visualizations to explore data or communicate with other humans. These papers do not usually involve implementation, but contribute by illuminating the role of visualization in data analysis and often by proposing models for improving visualization as a discipline.
最終更新 Dou Sun 2017-02-25
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省略名 | 完全な名前 | 提出日 | 会議日 |
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SMI | Shape Modeling International | 2024-03-25 | 2024-07-12 |
Vis | IEEE Visualization Conference | 2024-03-21 | 2024-10-13 |
DISC | International Symposium on Distributed Computing | 2024-05-07 | 2024-10-28 |
LID | International Workshop on Logic in Databases | 2011-03-25 | |
NETCOM | International Conference on Networks & Communications | 2023-06-03 | 2023-06-17 |
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FAT* | Conference on Fairness, Accountability, and Transparency | 2017-09-29 | 2018-02-23 |
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完全な名前 | インパクト ・ ファクター | 出版社 |
---|---|---|
IEEE Communications Standards Magazine | IEEE | |
IEEE Geoscience and Remote Sensing Magazine | 16.20 | IEEE |
Proceedings of the IEEE | 23.20 | IEEE |
Coatings | 2.900 | MDPI |
IEEE Internet of Things Magazine | IEEE | |
International Journal of Technology Management | 1.400 | Inderscience |
Games: Research and Practice | ACM | |
Virtual Archaeology Review | Universitad Politecnica de Valencia | |
Advances in Power Electronics | Hindawi | |
The Electronic Library | 1.900 | Emerald |
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