Advances in Databases

Advances in Databases

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