Evolving the Web into a Global Data Space |
Data Integration in a Networked World |
Reliable Provenance Information for Multimedia Data Using Invertible Fragile Watermarks |
Reliable Provenance Information for Multimedia Data Using Invertible Fragile Watermarks |
Reliable Provenance Information for Multimedia Data Using Invertible Fragile Watermarks |
Reliable Provenance Information for Multimedia Data Using Invertible Fragile Watermarks |
Reliable Provenance Information for Multimedia Data Using Invertible Fragile Watermarks |
Reliable Provenance Information for Multimedia Data Using Invertible Fragile Watermarks |
Reliable Provenance Information for Multimedia Data Using Invertible Fragile Watermarks |
Reliable Provenance Information for Multimedia Data Using Invertible Fragile Watermarks |
Reliable Provenance Information for Multimedia Data Using Invertible Fragile Watermarks |
Reliable Provenance Information for Multimedia Data Using Invertible Fragile Watermarks |
Reliable Provenance Information for Multimedia Data Using Invertible Fragile Watermarks |
Reliable Provenance Information for Multimedia Data Using Invertible Fragile Watermarks |
Reliable Provenance Information for Multimedia Data Using Invertible Fragile Watermarks |
Reliable Provenance Information for Multimedia Data Using Invertible Fragile Watermarks |
Reliable Provenance Information for Multimedia Data Using Invertible Fragile Watermarks |
ECOS: Evolutionary Column-Oriented Storage |
ECOS: Evolutionary Column-Oriented Storage |
ECOS: Evolutionary Column-Oriented Storage |
ECOS: Evolutionary Column-Oriented Storage |
ECOS: Evolutionary Column-Oriented Storage |
ECOS: Evolutionary Column-Oriented Storage |
ECOS: Evolutionary Column-Oriented Storage |
ECOS: Evolutionary Column-Oriented Storage |
ECOS: Evolutionary Column-Oriented Storage |
ECOS: Evolutionary Column-Oriented Storage |
ECOS: Evolutionary Column-Oriented Storage |
ECOS: Evolutionary Column-Oriented Storage |
ECOS: Evolutionary Column-Oriented Storage |
ECOS: Evolutionary Column-Oriented Storage |
ECOS: Evolutionary Column-Oriented Storage |
X-HYBRIDJOIN for Near-Real-Time Data Warehousing |
X-HYBRIDJOIN for Near-Real-Time Data Warehousing |
X-HYBRIDJOIN for Near-Real-Time Data Warehousing |
X-HYBRIDJOIN for Near-Real-Time Data Warehousing |
X-HYBRIDJOIN for Near-Real-Time Data Warehousing |
X-HYBRIDJOIN for Near-Real-Time Data Warehousing |
X-HYBRIDJOIN for Near-Real-Time Data Warehousing |
X-HYBRIDJOIN for Near-Real-Time Data Warehousing |
X-HYBRIDJOIN for Near-Real-Time Data Warehousing |
X-HYBRIDJOIN for Near-Real-Time Data Warehousing |
X-HYBRIDJOIN for Near-Real-Time Data Warehousing |
X-HYBRIDJOIN for Near-Real-Time Data Warehousing |
X-HYBRIDJOIN for Near-Real-Time Data Warehousing |
X-HYBRIDJOIN for Near-Real-Time Data Warehousing |
X-HYBRIDJOIN for Near-Real-Time Data Warehousing |
Achieving High Freshness and Optimal Throughput in CPU-Limited Execution of Multi-join Continuous Queries |
Achieving High Freshness and Optimal Throughput in CPU-Limited Execution of Multi-join Continuous Queries |
Achieving High Freshness and Optimal Throughput in CPU-Limited Execution of Multi-join Continuous Queries |
Achieving High Freshness and Optimal Throughput in CPU-Limited Execution of Multi-join Continuous Queries |
Achieving High Freshness and Optimal Throughput in CPU-Limited Execution of Multi-join Continuous Queries |
Achieving High Freshness and Optimal Throughput in CPU-Limited Execution of Multi-join Continuous Queries |
Achieving High Freshness and Optimal Throughput in CPU-Limited Execution of Multi-join Continuous Queries |
Achieving High Freshness and Optimal Throughput in CPU-Limited Execution of Multi-join Continuous Queries |
Achieving High Freshness and Optimal Throughput in CPU-Limited Execution of Multi-join Continuous Queries |
Achieving High Freshness and Optimal Throughput in CPU-Limited Execution of Multi-join Continuous Queries |
Achieving High Freshness and Optimal Throughput in CPU-Limited Execution of Multi-join Continuous Queries |
Achieving High Freshness and Optimal Throughput in CPU-Limited Execution of Multi-join Continuous Queries |
Achieving High Freshness and Optimal Throughput in CPU-Limited Execution of Multi-join Continuous Queries |
Achieving High Freshness and Optimal Throughput in CPU-Limited Execution of Multi-join Continuous Queries |
Achieving High Freshness and Optimal Throughput in CPU-Limited Execution of Multi-join Continuous Queries |
Achieving High Freshness and Optimal Throughput in CPU-Limited Execution of Multi-join Continuous Queries |
Achieving High Freshness and Optimal Throughput in CPU-Limited Execution of Multi-join Continuous Queries |
Achieving High Freshness and Optimal Throughput in CPU-Limited Execution of Multi-join Continuous Queries |
Mining Image Databases by Content |
Mining Image Databases by Content |
Searching for Complex Patterns over Large Stored Information Repositories |
Searching for Complex Patterns over Large Stored Information Repositories |
Searching for Complex Patterns over Large Stored Information Repositories |
Searching for Complex Patterns over Large Stored Information Repositories |
Searching for Complex Patterns over Large Stored Information Repositories |
Searching for Complex Patterns over Large Stored Information Repositories |
Searching for Complex Patterns over Large Stored Information Repositories |
Searching for Complex Patterns over Large Stored Information Repositories |
Searching for Complex Patterns over Large Stored Information Repositories |
Searching for Complex Patterns over Large Stored Information Repositories |
Searching for Complex Patterns over Large Stored Information Repositories |
Searching for Complex Patterns over Large Stored Information Repositories |
Searching for Complex Patterns over Large Stored Information Repositories |
Searching for Complex Patterns over Large Stored Information Repositories |
Searching for Complex Patterns over Large Stored Information Repositories |
Using the Euclidean Distance for Retrieval Evaluation |
Using the Euclidean Distance for Retrieval Evaluation |
Using the Euclidean Distance for Retrieval Evaluation |
Using the Euclidean Distance for Retrieval Evaluation |
Using the Euclidean Distance for Retrieval Evaluation |
Using the Euclidean Distance for Retrieval Evaluation |
Using the Euclidean Distance for Retrieval Evaluation |
Using the Euclidean Distance for Retrieval Evaluation |
Using the Euclidean Distance for Retrieval Evaluation |
Using the Euclidean Distance for Retrieval Evaluation |
Using the Euclidean Distance for Retrieval Evaluation |
Using the Euclidean Distance for Retrieval Evaluation |
Using the Euclidean Distance for Retrieval Evaluation |
Using the Euclidean Distance for Retrieval Evaluation |
Expanding Sensor Networks to Automate Knowledge Acquisition |
Expanding Sensor Networks to Automate Knowledge Acquisition |
Expanding Sensor Networks to Automate Knowledge Acquisition |
Expanding Sensor Networks to Automate Knowledge Acquisition |
Expanding Sensor Networks to Automate Knowledge Acquisition |
Expanding Sensor Networks to Automate Knowledge Acquisition |
Expanding Sensor Networks to Automate Knowledge Acquisition |
Expanding Sensor Networks to Automate Knowledge Acquisition |
Expanding Sensor Networks to Automate Knowledge Acquisition |
Expanding Sensor Networks to Automate Knowledge Acquisition |
Expanding Sensor Networks to Automate Knowledge Acquisition |
Utilising the MISM Model Independent Schema Management Platform for Query Evaluation |
Utilising the MISM Model Independent Schema Management Platform for Query Evaluation |
Utilising the MISM Model Independent Schema Management Platform for Query Evaluation |
Utilising the MISM Model Independent Schema Management Platform for Query Evaluation |
Utilising the MISM Model Independent Schema Management Platform for Query Evaluation |
Utilising the MISM Model Independent Schema Management Platform for Query Evaluation |
Utilising the MISM Model Independent Schema Management Platform for Query Evaluation |
Utilising the MISM Model Independent Schema Management Platform for Query Evaluation |
Utilising the MISM Model Independent Schema Management Platform for Query Evaluation |
Utilising the MISM Model Independent Schema Management Platform for Query Evaluation |
Mining Sequential Patterns from Probabilistic Databases by Pattern-Growth |
Mining Sequential Patterns from Probabilistic Databases by Pattern-Growth |
Mining Sequential Patterns from Probabilistic Databases by Pattern-Growth |
Mining Sequential Patterns from Probabilistic Databases by Pattern-Growth |
Mining Sequential Patterns from Probabilistic Databases by Pattern-Growth |
Mining Sequential Patterns from Probabilistic Databases by Pattern-Growth |
Mining Sequential Patterns from Probabilistic Databases by Pattern-Growth |
Mining Sequential Patterns from Probabilistic Databases by Pattern-Growth |
Mining Sequential Patterns from Probabilistic Databases by Pattern-Growth |
Mining Sequential Patterns from Probabilistic Databases by Pattern-Growth |
Smile: Enabling Easy and Fast Development of Domain-Specific Scheduling Protocols |
Smile: Enabling Easy and Fast Development of Domain-Specific Scheduling Protocols |
Smile: Enabling Easy and Fast Development of Domain-Specific Scheduling Protocols |
Smile: Enabling Easy and Fast Development of Domain-Specific Scheduling Protocols |
On Integrating Data Services Using Data Mashups |
On Integrating Data Services Using Data Mashups |
On Integrating Data Services Using Data Mashups |
On Integrating Data Services Using Data Mashups |
Executing In-network Queries Using SNEE |
Executing In-network Queries Using SNEE |
Executing In-network Queries Using SNEE |
Executing In-network Queries Using SNEE |
Extracting Data Records from Query Result Pages Based on Visual Features |
Extracting Data Records from Query Result Pages Based on Visual Features |
Extracting Data Records from Query Result Pages Based on Visual Features |
Extracting Data Records from Query Result Pages Based on Visual Features |
Extracting Data Records from Query Result Pages Based on Visual Features |
Extracting Data Records from Query Result Pages Based on Visual Features |
Extracting Data Records from Query Result Pages Based on Visual Features |
Extracting Data Records from Query Result Pages Based on Visual Features |
Extracting Data Records from Query Result Pages Based on Visual Features |
Extracting Data Records from Query Result Pages Based on Visual Features |
Extracting Data Records from Query Result Pages Based on Visual Features |
Extracting Data Records from Query Result Pages Based on Visual Features |
Extracting Data Records from Query Result Pages Based on Visual Features |
Extracting Data Records from Query Result Pages Based on Visual Features |
Updates on Grammar-Compressed XML Data |
Updates on Grammar-Compressed XML Data |
Updates on Grammar-Compressed XML Data |
Updates on Grammar-Compressed XML Data |
Updates on Grammar-Compressed XML Data |
Updates on Grammar-Compressed XML Data |
Updates on Grammar-Compressed XML Data |
Updates on Grammar-Compressed XML Data |
Updates on Grammar-Compressed XML Data |
Updates on Grammar-Compressed XML Data |
Updates on Grammar-Compressed XML Data |
Updates on Grammar-Compressed XML Data |
Updates on Grammar-Compressed XML Data |
Reverting the Effects of XQuery Update Expressions |
Reverting the Effects of XQuery Update Expressions |
Reverting the Effects of XQuery Update Expressions |
Reverting the Effects of XQuery Update Expressions |
Reverting the Effects of XQuery Update Expressions |
Reverting the Effects of XQuery Update Expressions |
Reverting the Effects of XQuery Update Expressions |
Reverting the Effects of XQuery Update Expressions |
Reverting the Effects of XQuery Update Expressions |
Reverting the Effects of XQuery Update Expressions |
Reverting the Effects of XQuery Update Expressions |
Reverting the Effects of XQuery Update Expressions |
Reverting the Effects of XQuery Update Expressions |
Reverting the Effects of XQuery Update Expressions |
Reverting the Effects of XQuery Update Expressions |
TraCX: Transformation of Compressed XML |
TraCX: Transformation of Compressed XML |
TraCX: Transformation of Compressed XML |
TraCX: Transformation of Compressed XML |
TraCX: Transformation of Compressed XML |
TraCX: Transformation of Compressed XML |
TraCX: Transformation of Compressed XML |
TraCX: Transformation of Compressed XML |
TraCX: Transformation of Compressed XML |
TraCX: Transformation of Compressed XML |
TraCX: Transformation of Compressed XML |
TraCX: Transformation of Compressed XML |
Satisfiability of Simple XPath Fragments under 3/7/2016Fixed DTDs |
Satisfiability of Simple XPath Fragments under 3/7/2016Fixed DTDs |
Satisfiability of Simple XPath Fragments under 3/7/2016Fixed DTDs |
Satisfiability of Simple XPath Fragments under 3/7/2016Fixed DTDs |
Satisfiability of Simple XPath Fragments under 3/7/2016Fixed DTDs |
Satisfiability of Simple XPath Fragments under 3/7/2016Fixed DTDs |
Satisfiability of Simple XPath Fragments under 3/7/2016Fixed DTDs |
Satisfiability of Simple XPath Fragments under 3/7/2016Fixed DTDs |
Satisfiability of Simple XPath Fragments under 3/7/2016Fixed DTDs |
Satisfiability of Simple XPath Fragments under 3/7/2016Fixed DTDs |
Satisfiability of Simple XPath Fragments under 3/7/2016Fixed DTDs |
Satisfiability of Simple XPath Fragments under 3/7/2016Fixed DTDs |
Satisfiability of Simple XPath Fragments under 3/7/2016Fixed DTDs |
Satisfiability of Simple XPath Fragments under 3/7/2016Fixed DTDs |
Satisfiability of Simple XPath Fragments under 3/7/2016Fixed DTDs |
Computing Compressed XML Data from Relational Databases |
Computing Compressed XML Data from Relational Databases |
Computing Compressed XML Data from Relational Databases |
Computing Compressed XML Data from Relational Databases |
Computing Compressed XML Data from Relational Databases |
Computing Compressed XML Data from Relational Databases |
Computing Compressed XML Data from Relational Databases |
Computing Compressed XML Data from Relational Databases |
Computing Compressed XML Data from Relational Databases |
Computing Compressed XML Data from Relational Databases |
Computing Compressed XML Data from Relational Databases |
Computing Compressed XML Data from Relational Databases |
Data Mining Project: A Critical Element in Teaching, Learning and Assessment of a Data Mining Module |
Data Mining Project: A Critical Element in Teaching, Learning and Assessment of a Data Mining Module |
Data Mining Project: A Critical Element in Teaching, Learning and Assessment of a Data Mining Module |
Data Mining Project: A Critical Element in Teaching, Learning and Assessment of a Data Mining Module |
Data Mining Project: A Critical Element in Teaching, Learning and Assessment of a Data Mining Module |
Data Mining Project: A Critical Element in Teaching, Learning and Assessment of a Data Mining Module |
Data Mining Project: A Critical Element in Teaching, Learning and Assessment of a Data Mining Module |
Data Mining Project: A Critical Element in Teaching, Learning and Assessment of a Data Mining Module |
Data Mining Project: A Critical Element in Teaching, Learning and Assessment of a Data Mining Module |
Data Mining Project: A Critical Element in Teaching, Learning and Assessment of a Data Mining Module |
Data Mining Project: A Critical Element in Teaching, Learning and Assessment of a Data Mining Module |
Data Mining Project: A Critical Element in Teaching, Learning and Assessment of a Data Mining Module |
Data Mining Project: A Critical Element in Teaching, Learning and Assessment of a Data Mining Module |
Data Mining Project: A Critical Element in Teaching, Learning and Assessment of a Data Mining Module |
Data Mining Project: A Critical Element in Teaching, Learning and Assessment of a Data Mining Module |