Author Info
Name
Affiliation
Papers
JUAN L. REUTTER
University of Edinburgh, Edinburgh, United Kingdom
75
Collaborators
Citations 
PageRank 
77
390
34.15
Referers 
Referees 
References 
575
788
910
Search Limit
100788
Title
Citations
PageRank
Year
Querying APIs with SPARQL00.342022
Optimal Joins Using Compressed Quadtrees00.342022
Recursion In Sparql00.342021
Worst-Case Optimal Graph Joins in Almost No Space10.342021
Ensuring Data Readiness for Quality Requirements with Help from Procedure Reuse00.342021
Is it Possible to Verify if a Transaction is Spendable?00.342021
Graph Neural Networks with Local Graph Parameters.00.342021
Optimal Joins Using Compact Data Structures.00.342020
The Expressive Power of Graph Neural Networks as a Query Language10.352020
Stable Model Semantics for Recursive SHACL00.342020
Current Challenges in Graph Databases (Invited Talk).00.342020
JSON: Data model and query languages.00.342020
Cryptocurrency Mining Games with Economic Discount and Decreasing Rewards.00.342020
In-Database Graph Analytics With Recursive Sparql10.342020
The Logical Expressiveness of Graph Neural Networks10.342020
SHACL2SPARQL - Validating a SPARQL Endpoint against Recursive SHACL Constraints.00.342019
Rapid Sequence Matching for Visualization Recommender Systems00.342019
Validating Shacl Constraints over a Sparql Endpoint.10.382019
Bitcoin Price Prediction Through Opinion Mining00.342019
Schemas for Graphs and Other Forms of Semi-Structured Data.00.342019
Querying APIs With SPARQL.00.342019
A Tractable Notion of Stratification for SHACL.00.342018
Querying APIs with SPARQL: Language and Worst-Case Optimal Algorithms.00.342018
Towards a Robust Semantics for SHACL: Preliminary Discussion.00.342018
Semantics and Validation of Recursive SHACL.20.392018
TriAL: A Navigational Algebra for RDF Triplestores.10.342018
The Data Readiness Problem for Relational Databases.00.342018
Containment of queries for graphs with data.00.342018
DataSlicer: Task-Based Data Selection for Visual Data Exploration.00.342017
Foundations of Modern Query Languages for Graph Databases.310.932017
JSON: data model, query languages and schema specification.80.632017
Evaluating navigational RDF queries over the Web.10.342017
Assessing Achievability of Queries and Constraints.00.342017
A Framework for Assessing Achievability of Data-Quality Constraints.00.342017
Incorporating API Data into SPARQL Query Answers.10.362016
Property Paths over Linked Data: Can It Be Done and How To Start?10.352016
Foundations of JSON Schema.180.982016
Foundations of Modern Graph Query Languages.110.582016
Navigational and Rule-Based Languages for Graph Databases.00.342016
Static analysis of navigational XPath over graph databases.20.372016
An Interactive Visualisation for RDF Data.10.412016
A Visual Aide for Understanding Endpoint Data.10.352016
Nested Constructs vs. Sub-Selects in SPARQL.00.342016
CONSTRUCT Queries in SPARQL.50.422015
Recursion in SPARQL120.542015
Xpath For Dl Ontologies70.442015
Regular Queries on Graph Databases.100.612015
Complexity of answering counting aggregate queries over DL-Lite.30.372015
SPARQL with Property Paths250.702015
Querying Regular Graph Patterns40.392014
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