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463 results on '"Candan, K. Selçuk"'

1. Introducing CausalBench: A Flexible Benchmark Framework for Causal Analysis and Machine Learning

Author

Kapkiç, Ahmet, Mandal, Pratanu, Wan, Shu, Sheth, Paras, Gorantla, Abhinav, Choi, Yoonhyuk, Liu, Huan, and Candan, K. Selçuk

Subjects
Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

While witnessing the exceptional success of machine learning (ML) technologies in many applications, users are starting to notice a critical shortcoming of ML: correlation is a poor substitute for causation. The conventional way to discover causal relationships is to use randomized controlled experiments (RCT); in many situations, however, these are impractical or sometimes unethical. Causal learning from observational data offers a promising alternative. While being relatively recent, causal learning aims to go far beyond conventional machine learning, yet several major challenges remain. Unfortunately, advances are hampered due to the lack of unified benchmark datasets, algorithms, metrics, and evaluation service interfaces for causal learning. In this paper, we introduce {\em CausalBench}, a transparent, fair, and easy-to-use evaluation platform, aiming to (a) enable the advancement of research in causal learning by facilitating scientific collaboration in novel algorithms, datasets, and metrics and (b) promote scientific objectivity, reproducibility, fairness, and awareness of bias in causal learning research. CausalBench provides services for benchmarking data, algorithms, models, and metrics, impacting the needs of a broad of scientific and engineering disciplines.

Published
2024

2. DataStorm-EM: Exploration of Alternative Timelines within Continuous-Coupled Simulation Ensembles

Author

Azad, Fahim Tasneema, Anton, Javier Redondo, Mitra, Shubhodeep, Singh, Fateh, Behrens, Hans, Li, Mao-Lin, Arslan, Bilgehan, Candan, K. Selçuk, and Sapino, Maria Luisa

Subjects
Computer Science - Multiagent Systems
Abstract

Many socio-economical critical domains (such as sustainability, public health, and disasters) are characterized by highly complex and dynamic systems, requiring data and model-driven simulations to support decision-making. Due to a large number of unknowns, decision-makers usually need to generate ensembles of stochastic scenarios, requiring hundreds or thousands of individual simulation instances, each with different parameter settings corresponding to distinct scenarios, As the number of model parameters increases, the number of potential timelines one can simulate increases exponentially. Consequently, simulation ensembles are inherently sparse, even when they are extremely large. This necessitates a platform for (a) deciding which simulation instances to execute and (b) given a large simulation ensemble, enabling decision-makers to explore the resulting alternative timelines, by extracting and visualizing consistent, yet diverse timelines from continuous-coupled simulation ensembles. In this article, we present DataStorm-EM platform for data- and model-driven simulation ensemble management, optimization, analysis, and exploration, describe underlying challenges and present our solution.

Published
2024

3. Prioritizing Potential Wetland Areas via Region-to-Region Knowledge Transfer and Adaptive Propagation

Author

Choi, Yoonhyuk, Shah, Reepal, Sabo, John, Candan, K. Selcuk, and Liu, Huan

Subjects
Computer Science - Information Retrieval
Abstract

Wetlands are important to communities, offering benefits ranging from water purification, and flood protection to recreation and tourism. Therefore, identifying and prioritizing potential wetland areas is a critical decision problem. While data-driven solutions are feasible, this is complicated by significant data sparsity due to the low proportion of wetlands (3-6\%) in many areas of interest in the southwestern US. This makes it hard to develop data-driven models that can help guide the identification of additional wetland areas. To solve this limitation, we propose two strategies: (1) The first of these is knowledge transfer from regions with rich wetlands (such as the Eastern US) to sparser regions (such as the Southwestern area with few wetlands). Recognizing that these regions are likely to be very different from each other in terms of soil characteristics, population distribution, and land use, we propose a domain disentanglement strategy that identifies and transfers only the applicable aspects of the learned model. (2) We complement this with a spatial data enrichment strategy that relies on an adaptive propagation mechanism. This mechanism differentiates between node pairs that have positive and negative impacts on each other for Graph Neural Networks (GNNs). To summarize, given two spatial cells belonging to different regions, we identify domain-specific and domain-shareable features, and, for each region, we rely on adaptive propagation to enrich features with the features of surrounding cells. We conduct rigorous experiments to substantiate our proposed method's effectiveness, robustness, and scalability compared to state-of-the-art baselines. Additionally, an ablation study demonstrates that each module is essential in prioritizing potential wetlands, which justifies our assumption.

Published
2024

4. An Interdisciplinary Perspective of the Built-Environment Microbiome

Author

McAlister, John S., Blum, Michael J., Bromberg, Yana, Fefferman, Nina H., He, Qiang, Lofgren, Eric, Miller, Debra L., Schreiner, Courtney, Candan, K. Selcuk, Szabo-Rogers, Heather, and Reed, J. Michael

Subjects
Quantitative Biology - Populations and Evolution
Abstract

The built environment provides an excellent setting for interdisciplinary research on the dynamics of microbial communities. The system is simplified compared to many natural settings, and to some extent the entire environment can be manipulated, from architectural design, to materials use, air flow, human traffic, and capacity to disrupt microbial communities through cleaning. Here we provide an overview of the ecology of the microbiome in the built environment. We address niche space and refugia, population and community (metagenomic) dynamics, spatial ecology within a building, including the major microbial transmission mechanisms, as well as evolution. We also address the landscape ecology connecting microbiomes between physically separated buildings. At each stage we pay particular attention to the actual and potential interface between disciplines, such as ecology, epidemiology, materials science, and human social behavior. We end by identifying some opportunities for future interdisciplinary research on the microbiome of the built environment., Comment: 23 pages

Published
2024

6. UPREVE: An End-to-End Causal Discovery Benchmarking System

Author

Unni, Suraj Jyothi, Sheth, Paras, Ding, Kaize, Liu, Huan, and Candan, K. Selcuk

Subjects
Computer Science - Machine Learning, Computer Science - Human-Computer Interaction, Statistics - Methodology
Abstract

Discovering causal relationships in complex socio-behavioral systems is challenging but essential for informed decision-making. We present Upload, PREprocess, Visualize, and Evaluate (UPREVE), a user-friendly web-based graphical user interface (GUI) designed to simplify the process of causal discovery. UPREVE allows users to run multiple algorithms simultaneously, visualize causal relationships, and evaluate the accuracy of learned causal graphs. With its accessible interface and customizable features, UPREVE empowers researchers and practitioners in social computing and behavioral-cultural modeling (among others) to explore and understand causal relationships effectively. Our proposed solution aims to make causal discovery more accessible and user-friendly, enabling users to gain valuable insights for better decision-making., Comment: 8 pages, Accepted to SBP-BRiMS 2023

Published
2023

7. DeepMapping: Learned Data Mapping for Lossless Compression and Efficient Lookup

Author

Zhou, Lixi, Candan, K. Selçuk, and Zou, Jia

Subjects
Computer Science - Databases
Abstract

Storing tabular data to balance storage and query efficiency is a long-standing research question in the database community. In this work, we argue and show that a novel DeepMapping abstraction, which relies on the impressive memorization capabilities of deep neural networks, can provide better storage cost, better latency, and better run-time memory footprint, all at the same time. Such unique properties may benefit a broad class of use cases in capacity-limited devices. Our proposed DeepMapping abstraction transforms a dataset into multiple key-value mappings and constructs a multi-tasking neural network model that outputs the corresponding values for a given input key. To deal with memorization errors, DeepMapping couples the learned neural network with a lightweight auxiliary data structure capable of correcting mistakes. The auxiliary structure design further enables DeepMapping to efficiently deal with insertions, deletions, and updates even without retraining the mapping. We propose a multi-task search strategy for selecting the hybrid DeepMapping structures (including model architecture and auxiliary structure) with a desirable trade-off among memorization capacity, size, and efficiency. Extensive experiments with a real-world dataset, synthetic and benchmark datasets, including TPC-H and TPC-DS, demonstrated that the DeepMapping approach can better balance the retrieving speed and compression ratio against several cutting-edge competitors.

Published
2023
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8. Class-Specific Attention (CSA) for Time-Series Classification

Author

Hao, Yifan, Cao, Huiping, Candan, K. Selcuk, Liu, Jiefei, Chen, Huiying, and Ma, Ziwei

Subjects
Computer Science - Machine Learning
Abstract

Most neural network-based classifiers extract features using several hidden layers and make predictions at the output layer by utilizing these extracted features. We observe that not all features are equally pronounced in all classes; we call such features class-specific features. Existing models do not fully utilize the class-specific differences in features as they feed all extracted features from the hidden layers equally to the output layers. Recent attention mechanisms allow giving different emphasis (or attention) to different features, but these attention models are themselves class-agnostic. In this paper, we propose a novel class-specific attention (CSA) module to capture significant class-specific features and improve the overall classification performance of time series. The CSA module is designed in a way such that it can be adopted in existing neural network (NN) based models to conduct time series classification. In the experiments, this module is plugged into five start-of-the-art neural network models for time series classification to test its effectiveness by using 40 different real datasets. Extensive experiments show that an NN model embedded with the CSA module can improve the base model in most cases and the accuracy improvement can be up to 42%. Our statistical analysis show that the performance of an NN model embedding the CSA module is better than the base NN model on 67% of MTS and 80% of UTS test cases and is significantly better on 11% of MTS and 13% of UTS test cases., Comment: 12 pages

Published
2022

9. Domain Generalization -- A Causal Perspective

Author

Sheth, Paras, Moraffah, Raha, Candan, K. Selçuk, Raglin, Adrienne, and Liu, Huan

Subjects
Computer Science - Machine Learning
Abstract

Machine learning models rely on various assumptions to attain high accuracy. One of the preliminary assumptions of these models is the independent and identical distribution, which suggests that the train and test data are sampled from the same distribution. However, this assumption seldom holds in the real world due to distribution shifts. As a result models that rely on this assumption exhibit poor generalization capabilities. Over the recent years, dedicated efforts have been made to improve the generalization capabilities of these models collectively known as -- \textit{domain generalization methods}. The primary idea behind these methods is to identify stable features or mechanisms that remain invariant across the different distributions. Many generalization approaches employ causal theories to describe invariance since causality and invariance are inextricably intertwined. However, current surveys deal with the causality-aware domain generalization methods on a very high-level. Furthermore, we argue that it is possible to categorize the methods based on how causality is leveraged in that method and in which part of the model pipeline is it used. To this end, we categorize the causal domain generalization methods into three categories, namely, (i) Invariance via Causal Data Augmentation methods which are applied during the data pre-processing stage, (ii) Invariance via Causal representation learning methods that are utilized during the representation learning stage, and (iii) Invariance via Transferring Causal mechanisms methods that are applied during the classification stage of the pipeline. Furthermore, this survey includes in-depth insights into benchmark datasets and code repositories for domain generalization methods. We conclude the survey with insights and discussions on future directions.

Published
2022

10. A New Paradigm for Pandemic Preparedness

Author

Fefferman, Nina H., McAlister, John S., Akpa, Belinda S., Akwataghibe, Kelechi, Azad, Fahim Tasneema, Barkley, Katherine, Bleichrodt, Amanda, Blum, Michael J., Bourouiba, L., Bromberg, Yana, Candan, K. Selçuk, Chowell, Gerardo, Clancey, Erin, Cothran, Fawn A., DeWitte, Sharon N., Fernandez, Pilar, Finnoff, David, Flaherty, D. T., Gibson, Nathaniel L., Harris, Natalie, He, Qiang, Lofgren, Eric T., Miller, Debra L., Moody, James, Muccio, Kaitlin, Nunn, Charles L., Papeș, Monica, Paschalidis, Ioannis Ch., Pasquale, Dana K., Reed, J. Michael, Rogers, Matthew B., Schreiner, Courtney L., Strand, Elizabeth B., Swanson, Clifford S., Szabo-Rogers, Heather L., and Ryan, Sadie J.

Published
2023
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11. Causal Disentanglement with Network Information for Debiased Recommendations

Author

Sheth, Paras, Guo, Ruocheng, Cheng, Lu, Liu, Huan, and Candan, K. Selçuk

Subjects
Computer Science - Information Retrieval, Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

Recommender systems aim to recommend new items to users by learning user and item representations. In practice, these representations are highly entangled as they consist of information about multiple factors, including user's interests, item attributes along with confounding factors such as user conformity, and item popularity. Considering these entangled representations for inferring user preference may lead to biased recommendations (e.g., when the recommender model recommends popular items even if they do not align with the user's interests). Recent research proposes to debias by modeling a recommender system from a causal perspective. The exposure and the ratings are analogous to the treatment and the outcome in the causal inference framework, respectively. The critical challenge in this setting is accounting for the hidden confounders. These confounders are unobserved, making it hard to measure them. On the other hand, since these confounders affect both the exposure and the ratings, it is essential to account for them in generating debiased recommendations. To better approximate hidden confounders, we propose to leverage network information (i.e., user-social and user-item networks), which are shown to influence how users discover and interact with an item. Aside from the user conformity, aspects of confounding such as item popularity present in the network information is also captured in our method with the aid of \textit{causal disentanglement} which unravels the learned representations into independent factors that are responsible for (a) modeling the exposure of an item to the user, (b) predicting the ratings, and (c) controlling the hidden confounders. Experiments on real-world datasets validate the effectiveness of the proposed model for debiasing recommender systems.

Published
2022

13. Evaluation Methods and Measures for Causal Learning Algorithms

Author

Cheng, Lu, Guo, Ruocheng, Moraffah, Raha, Sheth, Paras, Candan, K. Selcuk, and Liu, Huan

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Statistics - Methodology
Abstract

The convenient access to copious multi-faceted data has encouraged machine learning researchers to reconsider correlation-based learning and embrace the opportunity of causality-based learning, i.e., causal machine learning (causal learning). Recent years have therefore witnessed great effort in developing causal learning algorithms aiming to help AI achieve human-level intelligence. Due to the lack-of ground-truth data, one of the biggest challenges in current causal learning research is algorithm evaluations. This largely impedes the cross-pollination of AI and causal inference, and hinders the two fields to benefit from the advances of the other. To bridge from conventional causal inference (i.e., based on statistical methods) to causal learning with big data (i.e., the intersection of causal inference and machine learning), in this survey, we review commonly-used datasets, evaluation methods, and measures for causal learning using an evaluation pipeline similar to conventional machine learning. We focus on the two fundamental causal-inference tasks and causality-aware machine learning tasks. Limitations of current evaluation procedures are also discussed. We then examine popular causal inference tools/packages and conclude with primary challenges and opportunities for benchmarking causal learning algorithms in the era of big data. The survey seeks to bring to the forefront the urgency of developing publicly available benchmarks and consensus-building standards for causal learning evaluation with observational data. In doing so, we hope to broaden the discussions and facilitate collaboration to advance the innovation and application of causal learning., Comment: 21 pages. Accepted to IEEE TAI

Published
2022

15. Evaluation of data imputation approaches for multi-stream building systems data1.

Author

Pradhan, Ojas, Wen, Jin, Hälleberg, David, Chen, Zhelun, Varman, Noresh, Huang, Jiajing, Wu, Teresa, Candan, K. Selçuk, and O'Neill, Zheng

Subjects
ENTROPY (Information theory), STATISTICAL models, PREDICTION models, ACQUISITION of data, DATA analysis, MULTIPLE imputation (Statistics), MISSING data (Statistics)
Abstract

Increasing advancements in building digitization, smart sensing, and metering technologies have allowed large amounts of timeseries data to be collected for monitoring, analyzing, and controlling building systems. However, due to sensor or communication failures, the data collected are often incomplete and poor in quality. Data imputation approaches to replace the missing values, specifically based on either statistical or predictive models have been widely adopted for multivariate datasets in other domains. It is hence of interest to find an effective way to impute timeseries data collected from a building system. In this paper, we evaluate multiple data imputation approaches using data collected from a medium sized building situated in Stockholm, Sweden and a small commercial building from the ASHRAE RP-1312 research project. Sensors with widely varying characteristics from the case study buildings were selected to evaluate the imputation methods. The imputation accuracy and the impact of each chosen imputation method on information entropy, short-term building forecasting model performance, and fault detection strategy were evaluated. Results demonstrate that incorporating time-lagged cross correlations within a k -nearest neighbor ( k NN) model provide the most accurate imputations without affecting the quality of subsequent data analysis. [ABSTRACT FROM AUTHOR]

Published
2024
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16. W2FM: The Doubly-Warped Factorization Machine

Author

Li, Mao-Lin, Candan, K. Selçuk, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Karlapalem, Kamal, editor, Cheng, Hong, editor, Ramakrishnan, Naren, editor, Agrawal, R. K., editor, Reddy, P. Krishna, editor, Srivastava, Jaideep, editor, and Chakraborty, Tanmoy, editor

Published
2021
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18. GTT: Guiding the Tensor Train Decomposition

Author

Li, Mao-Lin, Candan, K. Selçuk, Sapino, Maria Luisa, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Satoh, Shin'ichi, editor, Vadicamo, Lucia, editor, Zimek, Arthur, editor, Carrara, Fabio, editor, Bartolini, Ilaria, editor, Aumüller, Martin, editor, Jónsson, Björn Þór, editor, and Pagh, Rasmus, editor

Published
2020
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19. Noise Adaptive Tensor Train Decomposition for Low-Rank Embedding of Noisy Data

Author

Li, Xinsheng, Candan, K. Selçuk, Sapino, Maria Luisa, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Satoh, Shin'ichi, editor, Vadicamo, Lucia, editor, Zimek, Arthur, editor, Carrara, Fabio, editor, Bartolini, Ilaria, editor, Aumüller, Martin, editor, Jónsson, Björn Þór, editor, and Pagh, Rasmus, editor

Published
2020
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20. A Practical Data Repository for Causal Learning with Big Data

Author

Cheng, Lu, Guo, Ruocheng, Moraffah, Raha, Candan, K. Selçuk, Raglin, Adrienne, Liu, Huan, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Gao, Wanling, editor, Zhan, Jianfeng, editor, Fox, Geoffrey, editor, Lu, Xiaoyi, editor, and Stanzione, Dan, editor

Published
2020
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27. sDTW: Computing DTW Distances using Locally Relevant Constraints based on Salient Feature Alignments

Author

Candan, K. Selçuk, Rossini, Rosaria, Sapino, Maria Luisa, and Wang, Xiaolan

Subjects
Computer Science - Databases
Abstract

Many applications generate and consume temporal data and retrieval of time series is a key processing step in many application domains. Dynamic time warping (DTW) distance between time series of size N and M is computed relying on a dynamic programming approach which creates and fills an NxM grid to search for an optimal warp path. Since this can be costly, various heuristics have been proposed to cut away the potentially unproductive portions of the DTW grid. In this paper, we argue that time series often carry structural features that can be used for identifying locally relevant constraints to eliminate redundant work. Relying on this observation, we propose salient feature based sDTW algorithms which first identify robust salient features in the given time series and then find a consistent alignment of these to establish the boundaries for the warp path search. More specifically, we propose alternative fixed core&adaptive width, adaptive core&fixed width, and adaptive core&adaptive width strategies which enforce different constraints reflecting the high level structural characteristics of the series in the data set. Experiment results show that the proposed sDTW algorithms help achieve much higher accuracy in DTWcomputation and time series retrieval than fixed core & fixed width algorithms that do not leverage local features of the given time series., Comment: VLDB2012

Published
2012

33. PACMMOD V1 N2 Editorial

Author

Agrawal, Divyakant, primary, Amer-Yahia, Sihem, additional, Candan, K. Selçuk, additional, Floratou, Avrilia, additional, and Hacıgümüş, Hakan, additional

Published
2023
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35. DeepMapping: The Case for Learned Data Mapping for Compression and Efficient Query Processing

Author

Zhou, Lixi, Candan, K. Selçuk, and Zou, Jia

Subjects
FOS: Computer and information sciences, Computer Science - Databases, Databases (cs.DB)
Abstract

Storing tabular data in a way that balances storage and query efficiencies is a long standing research question in the database community. While there are several lossless compression techniques in the literature, in this work we argue and show that a novel Deep Learned Data Mapping (or DeepMapping) abstraction, which relies on the impressive memorization capabilities of deep neural networks, can provide better storage cost, better latency, and better run-time memory footprint, all at the same time. Our proposed DeepMapping abstraction transforms a data set into multiple key-value mappings and constructs a multi-tasking neural network model that outputs the corresponding values for a given input key. In order to deal with the memorization errors, DeepMapping couples the learned neural network with a light-weight auxiliary data structure capable of correcting errors. The auxiliary structure further enables DeepMapping to efficiently deal with insertions, deletions, and updates, without having to re-train the mapping. Since the shape of the network has a significant impact on the overall size of the DeepMapping structure, we further propose a multi-task hybrid architecture search strategy to identify DeepMapping architectures that strike a desirable balance among memorization capacity, size, and efficiency. Extensive experiments with synthetic and benchmark datasets, including TPC-H and TPC-DS, demonstrated that the proposed DeepMapping approach can significantly reduce the latency of the key-based queries, while simultaneously improving both offline and run-time storage requirements against several cutting-edge competitors.

Published
2023

36. At the Frontiers of Information and Software as Services

Author

Candan, K. Selçuk, Li, Wen-Syan, Phan, Thomas, Zhou, Minqi, van der Aalst, Will, Series editor, Mylopoulos, John, Series editor, Sadeh, Norman M., Series editor, Shaw, Michael J., Series editor, Szyperski, Clemens, Series editor, Agrawal, Divyakant, editor, Candan, K. Selçuk, editor, and Li, Wen-Syan, editor

Published
2011
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41. Pancommunity: Non-Monolithic Complex Epidemic and Pandemic Modeling

Author

Azad, Fahim Tasneema, primary, Redondo Antón, Javier, additional, Arslan, Bilgehan, additional, Candan, K. Selçuk, additional, Sapino, Maria Luisa, additional, Chowell-Puente, Gerardo, additional, Pedrielli, Guilia, additional, Mitra, Shubhodeep, additional, Singh, Fateh, additional, Behrens, Hans, additional, and Li, Mao-Lin, additional

Published
2023
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47. FMware: Middleware for Efficient Filtering and Matching of XML Messages with Local Data

Author

Candan, K. Selçuk, Dönderler, Mehmet E., Qi, Yan, Ramamoorthy, Jaikannan, Kim, Jong W., Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Nierstrasz, Oscar, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Sudan, Madhu, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Dough, Series editor, Vardi, Moshe Y., Series editor, Weikum, Gerhard, Series editor, van Steen, Maarten, editor, and Henning, Michi, editor

Published
2006
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48. Replicating Multi-quality Web Applications Using ACO and Bipartite Graphs

Author

Mayer, Christopher B., Dressler, Judson, Harlow, Felicia, Brault, Gregory, Candan, K. Selçuk, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Dough, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Dorigo, Marco, editor, Gambardella, Luca Maria, editor, Birattari, Mauro, editor, Martinoli, Alcherio, editor, Poli, Riccardo, editor, and Stützle, Thomas, editor

Published
2006
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49. Modular Design of Media Retrieval Workflows Using ARIA

Author

Peng, Lina, Kwon, Gisik, Chen, Yinpeng, Candan, K. Selçuk, Sundaram, Hari, Chatha, Karamvir, Sapino, Maria Luisa, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Dough, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Sundaram, Hari, editor, Naphade, Milind, editor, Smith, John R., editor, and Rui, Yong, editor

Published
2006
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