Partial Updates in Complex-Value Databases

Klaus-Dieter Schewe; Qing Wang

Partial Updates in Complex-Value Databases

Klaus-Dieter Schewe, Qing Wang

Institute for Application-oriented Knowledge Processing

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

Partial updates arise when a location bound to a complex value is updated in parallel. Compatibility of such partial updates to disjoint locations can be assured by applying applicative algebras. However, due to the arbitrary nesting of type constructors, locations of complex-value database are often defined at multiple abstraction levels and thereby non-disjoint. Thus, applicative algebras is not as smooth as its simple definition suggests. In this paper, we investigate this problem in the context of complex-value databases, where partial updates arise naturally in database transformations. We show that a more efficient solution can be obtained when generalising the notion of location and thus permitting dependencies between locations. On these grounds we develop a systematic approach to consistency checking for update sets that involve partial updates.

Original language	English
Title of host publication	Information Modelling and Knowledge Bases XXII
Publisher	IOS Press
Pages	37-56
Number of pages	20
Volume	225
Publication status	Published - 2011

Publication series

Name	Frontiers in Artificial Intelligence and Applications

Fields of science

102 Computer Sciences
102001 Artificial intelligence

JKU Focus areas

Computation in Informatics and Mathematics

Cite this

@inbook{9569c5ab049542feb0014f92689b5011,

title = "Partial Updates in Complex-Value Databases",

abstract = "Partial updates arise when a location bound to a complex value is updated in parallel. Compatibility of such partial updates to disjoint locations can be assured by applying applicative algebras. However, due to the arbitrary nesting of type constructors, locations of complex-value database are often defined at multiple abstraction levels and thereby non-disjoint. Thus, applicative algebras is not as smooth as its simple definition suggests. In this paper, we investigate this problem in the context of complex-value databases, where partial updates arise naturally in database transformations. We show that a more efficient solution can be obtained when generalising the notion of location and thus permitting dependencies between locations. On these grounds we develop a systematic approach to consistency checking for update sets that involve partial updates.",

author = "Klaus-Dieter Schewe and Qing Wang",

year = "2011",

language = "English",

volume = "225",

series = "Frontiers in Artificial Intelligence and Applications",

publisher = "IOS Press",

pages = "37--56",

booktitle = "Information Modelling and Knowledge Bases XXII",

}

TY - CHAP

T1 - Partial Updates in Complex-Value Databases

AU - Schewe, Klaus-Dieter

AU - Wang, Qing

PY - 2011

Y1 - 2011

N2 - Partial updates arise when a location bound to a complex value is updated in parallel. Compatibility of such partial updates to disjoint locations can be assured by applying applicative algebras. However, due to the arbitrary nesting of type constructors, locations of complex-value database are often defined at multiple abstraction levels and thereby non-disjoint. Thus, applicative algebras is not as smooth as its simple definition suggests. In this paper, we investigate this problem in the context of complex-value databases, where partial updates arise naturally in database transformations. We show that a more efficient solution can be obtained when generalising the notion of location and thus permitting dependencies between locations. On these grounds we develop a systematic approach to consistency checking for update sets that involve partial updates.

AB - Partial updates arise when a location bound to a complex value is updated in parallel. Compatibility of such partial updates to disjoint locations can be assured by applying applicative algebras. However, due to the arbitrary nesting of type constructors, locations of complex-value database are often defined at multiple abstraction levels and thereby non-disjoint. Thus, applicative algebras is not as smooth as its simple definition suggests. In this paper, we investigate this problem in the context of complex-value databases, where partial updates arise naturally in database transformations. We show that a more efficient solution can be obtained when generalising the notion of location and thus permitting dependencies between locations. On these grounds we develop a systematic approach to consistency checking for update sets that involve partial updates.

M3 - Chapter

VL - 225

T3 - Frontiers in Artificial Intelligence and Applications

SP - 37

EP - 56

BT - Information Modelling and Knowledge Bases XXII

PB - IOS Press

ER -