@techreport{jena,
	title = {Jena: Implementing the Semantic Web Recommendations},
	author = {J.J. Carroll and I. Dickinson and C. Dollin and D. Reynolds and A. Seaborne and K. Wilkinson},
	institution = {Hewlett Packard},
	year = {2003},
	biburl = {http://www.bibsonomy.org/bibtex/2478f431fc9d29b5dc51e6b550ca6d965/vzach},
	keywords = {jena semantic web }
}

@inproceedings{conf/www/StockerSBKR08,
	title = {SPARQL basic graph pattern optimization using selectivity estimation.},
	author = {Markus Stocker and Andy Seaborne and Abraham Bernstein and Christoph Kiefer and Dave Reynolds},
	booktitle = {WWW},
	crossref = {conf/www/2008},
	editor = {Jinpeng Huai and Robin Chen and Hsiao-Wuen Hon and Yunhao Liu and Wei-Ying Ma and Andrew Tomkins and Xiaodong Zhang},
	pages = {595-604},
	publisher = {ACM},
	url = {http://dblp.uni-trier.de/db/conf/www/www2008.html#StockerSBKR08},
	year = {2008},
	biburl = {http://www.bibsonomy.org/bibtex/25ac734c07971d872a2a076c02c65720b/dblp},
	description = {dblp},
	date = {2008-05-13}, ee = {http://doi.acm.org/10.1145/1367497.1367578}, isbn = {978-1-60558-085-2},
	keywords = {dblp }
}

@inproceedings{Bizer04,
	title = {D2RQ - Treating Non-RDF Databases as Virtual RDF Graphs},
	author = {Christian Bizer and Andy Seaborne},
	booktitle = {ISWC2004 (posters)},
	month = {November},
	url = {http://sites.wiwiss.fu-berlin.de/suhl/bizer/pub/Bizer-D2RQ-ISWC2004-Poster.pdf},
	year = {2004},
	biburl = {http://www.bibsonomy.org/bibtex/2875e8edccde38b8167e3455e04e0d362/sebastian},
	keywords = {dbowl implemented printed tool }
}

@techreport{Prud'hommeaux2007,
	title = {{SPARQL} Query Language for {RDF}},
	author = {Eric Prud'hommeaux and Andy Seaborne},
	institution = {W3C},
	month = {January},
	type = {Recommentation},
	url = {http://www.w3.org/TR/rdf-sparql-query/},
	year = {2008},
	biburl = {http://www.bibsonomy.org/bibtex/2f156278e58de586730e51d791f3b5f69/berrueta},
	timestamp = {2007.05.06}, owner = {berrueta},
	keywords = {bibtex mythesis query rdf sparql trabajodeinvestigacion turruta-eswc2008 w3c }
}

@inproceedings{carroll-j-2004-74-a,
	title = {Jena: implementing the semantic web recommendations.},
	author = {Jeremy J. Carroll and Ian Dickinson and Chris Dollin and Dave Reynolds and Andy Seaborne and Kevin Wilkinson},
	booktitle = {Proceedings of the 13th international conference on {W}orld {W}ide {W}eb - {A}lternate {T}rack {P}apers {\&} {P}osters, {WWW} 2004, {N}ew {Y}ork, {NY}, {USA}, {M}ay 17-20, 2004},
	editor = {Stuart I. Feldman and Mike Uretsky and Marc Najork and Craig E. WillsSemanti},
	pages = {74--83},
	year = {2004},
	biburl = {http://www.bibsonomy.org/bibtex/2fc81d6c42a4c7757d4604a49a4fcab73/marciomr},
	description = {Artigos e livros que tenho impresso},
	abstract = {The new {S}emantic {W}eb recommendations for {RDF}, {RDFS} and {OWL} have, at their heart, the {RDF} graph. {J}ena2, a second-generation {RDF} toolkit, is similarly centered on the {RDF} graph. {RDFS} and {OWL} reasoning are seen as graph-to-graph transforms, producing graphs of virtual triples. {R}ich {API}s are provided. {T}he {M}odel {API} includes support for other aspects of the {RDF} recommendations, such as containers and reification. {T}he {O}ntology {API} includes support for {RDFS} and {OWL}, including advanced {OWL} {F}ull support. {J}ena includes the de facto reference {RDF}/{XML} parser, and provides {RDF}/{XML} output using the full range of the rich {RDF}/{XML} grammar. {N}3 {I}/{O} is supported. {RDF} graphs can be stored in-memory or in databases. {J}ena s query language, {RDQL}, and the {W}eb {API} are both offered for the next round of standardization.},
	keywords = {impresso jena }
}

@techreport{RDQL2004,
	title = {RDQL - A Query Language for RDF (Member Submission)},
	author = {Andy Seaborne},
	day = {9},
	institution = {W3C},
	month = {January},
	organization = {Hewlett-Packard},
	url = {http://www.w3.org/Submission/2004/SUBM-RDQL-20040109/},
	year = {2004},
	biburl = {http://www.bibsonomy.org/bibtex/2408f2e3765a74ac11f4a09032fb7b391/haschek},
	abstract = {The document describes RDQL (RDF Data Query Language) which has been implemented in a number of RDF systems for extracting information from RDF graphs. First, there is a brief introduction to the language, then a more formal description of the grammar.},
	keywords = {English RDF RDQL Semantic Web _Diplomathesis }
}

@techreport{SPARQL-QL2008,
	title = {{SPARQL} Query Language for {RDF}},
	author = {Eric Prud'hommeaux and Andy Seaborne},
	day = {15},
	editor = {Eric Prud'hommeaux and Andy Seaborne},
	institution = {W3C},
	month = {January},
	type = {W3C Recommentation},
	url = {http://www.w3.org/TR/rdf-sparql-query/},
	year = {2008},
	biburl = {http://www.bibsonomy.org/bibtex/2bc888057ccf0e4f578386681e19f922d/haschek},
	abstract = {RDF is a directed, labeled graph data format for representing information in the Web. This specification defines the syntax and semantics of the SPARQL query language for RDF. SPARQL can be used to express queries across diverse data sources, whether the data is stored natively as RDF or viewed as RDF via middleware. SPARQL contains capabilities for querying required and optional graph patterns along with their conjunctions and disjunctions. SPARQL also supports extensible value testing and constraining queries by source RDF graph. The results of SPARQL queries can be results sets or RDF graphs.},
	keywords = {English RDF SPARQL Specification Standard W3C _Diplomathesis }
}

@inproceedings{carroll-j-2004-74-a,
	title = {Jena: implementing the semantic web recommendations.},
	author = {Jeremy J. Carroll and Ian Dickinson and Chris Dollin and Dave Reynolds and Andy Seaborne and Kevin Wilkinson},
	booktitle = {Proceedings of the 13th international conference on {W}orld {W}ide
	{W}eb - {A}lternate {T}rack {P}apers {\&} {P}osters, {WWW} 2004,
	{N}ew {Y}ork, {NY}, {USA}, {M}ay 17-20, 2004},
	editor = {Stuart I. Feldman and Mike Uretsky and Marc Najork and Craig E. WillsSemanti},
	pages = {74-83},
	year = {2004},
	biburl = {http://www.bibsonomy.org/bibtex/2fc81d6c42a4c7757d4604a49a4fcab73/bergo},
	abstract = {The new {S}emantic {W}eb recommendations for {RDF}, {RDFS} and {OWL}
	have, at their heart, the {RDF} graph. {J}ena2, a second-generation
	{RDF} toolkit, is similarly centered on the {RDF} graph. {RDFS} and
	{OWL} reasoning are seen as graph-to-graph transforms, producing
	graphs of virtual triples. {R}ich {API}s are provided. {T}he {M}odel
	{API} includes support for other aspects of the {RDF} recommendations,
	such as containers and reification. {T}he {O}ntology {API} includes
	support for {RDFS} and {OWL}, including advanced {OWL} {F}ull support.
	{J}ena includes the de facto reference {RDF}/{XML} parser, and provides
	{RDF}/{XML} output using the full range of the rich {RDF}/{XML} grammar.
	{N}3 {I}/{O} is supported. {RDF} graphs can be stored in-memory or
	in databases. {J}ena s query language, {RDQL}, and the {W}eb {API}
	are both offered for the next round of standardization.},
	keywords = {jabref:noKeywordAssigned }
}

@techreport{seaborne-a-2004--a,
	title = {R{DQL} - {A} {Q}uery {L}anguage for {RDF}},
	author = {Andy Seaborne},
	institution = {#W3C#},
	month = {09 #jan#},
	note = {http://www.w3.org/Submission/2004/SUBM-RDQL-20040109/},
	type = {#W3C:sub#},
	url = {http://www.w3.org/Submission/2004/SUBM-RDQL-20040109/},
	year = {2004},
	biburl = {http://www.bibsonomy.org/bibtex/2cbfb965876f7347a97cad06445251bfd/seebi},
	abstract = {The document describes {RDQL} ({RDF} {D}ata {Q}uery {L}anguage) which has been implemented in a number of {RDF} systems for extracting information from {RDF} graphs. {F}irst, there is a brief introduction to the language, then a more formal description of the grammar.},
	keywords = {Query RDF }
}

@techreport{prudhommeaux-e-2004--a,
	title = {S{PARQL} {Q}uery {L}anguage for {RDF} ({W}orking {D}raft)},
	author = {Eric Prud'hommeaux and Andy Seaborne},
	institution = {#W3C#},
	note = {http://www.w3.org/TR/2004/WD-rdf-sparql-query-20041012/},
	type = {#W3C:wd#},
	url = {http://www.w3.org/TR/2004/WD-rdf-sparql-query-20041012/},
	year = {2004},
	biburl = {http://www.bibsonomy.org/bibtex/2b5044995be5ab846c9c724f85158f12f/seebi},
	abstract = {R{DF} is a flexible, extensible way to represent information about {W}orld {W}ide {W}eb resources. {I}t is used to represent, among other things, personal information, social networks, metadata about digital artifacts like music and images, as well as provide a means of integration over disparate sources of information. {A} standardized query language for {RDF} data with multiple implementations offers developers and end users a way to write and to consume the results of queries across this wide range of information. {T}his document describes a query language for {RDF}, called {SPARQL}, for querying {RDF} data. {T}his document describes the query language part of {SPARQL} for easy access to {RDF} stores. {I}t is designed to meet the requirements and design objectives described in the {W}3{C} {RDF} {D}ata {A}ccess {W}orking {G}roup ({DAWG}) document "{RDF} {D}ata {A}ccess {U}se {C}ases and {R}equirements".},
	keywords = {Query RDF Spec WorkingDraft }
}