A Graph-based and Declarative Approach to a
Secure Resource Management in Smart Factories
A. Lawall, and T. Schaller. International Journal on Cryptography and Information Security (IJCIS), 12 (2/3):
1-11(September 2022)
Abstract
The article presents an applied research using the Design Science Research Methodology for securely managing resources of smart
factories via a graph-based approach combined with a declarative query language.This query language can be used to find appropriate production facilities that are able to fulfill specific manufacturing tasks. This
approach is aimed to solve the problem with the management effort for production facilities using enumeration for naming these facilities for the
manufacturing tasks. Thus, the security is ensured by identifying the “current” valid identities (resources). Additionally, the usage of deputy relationships leads to alternative production facilities if resources have a breakdown or have to be serviced which has an effect on the availability
%0 Journal Article
%1 noauthororeditor
%A Lawall, Alexander
%A Schaller, Thomas
%D 2022
%J International Journal on Cryptography and Information Security (IJCIS)
%K 4.0 : Access Control. Factory Identity Industry Management Model· Organizational Smart cryptography digital key public steganography
%N 2/3
%P 1-11
%T A Graph-based and Declarative Approach to a
Secure Resource Management in Smart Factories
%U https://wireilla.com/papers/ijcis/V12N3/12322ijcis01.pdf
%V 12
%X The article presents an applied research using the Design Science Research Methodology for securely managing resources of smart
factories via a graph-based approach combined with a declarative query language.This query language can be used to find appropriate production facilities that are able to fulfill specific manufacturing tasks. This
approach is aimed to solve the problem with the management effort for production facilities using enumeration for naming these facilities for the
manufacturing tasks. Thus, the security is ensured by identifying the “current” valid identities (resources). Additionally, the usage of deputy relationships leads to alternative production facilities if resources have a breakdown or have to be serviced which has an effect on the availability
@article{noauthororeditor,
abstract = {The article presents an applied research using the Design Science Research Methodology for securely managing resources of smart
factories via a graph-based approach combined with a declarative query language.This query language can be used to find appropriate production facilities that are able to fulfill specific manufacturing tasks. This
approach is aimed to solve the problem with the management effort for production facilities using enumeration for naming these facilities for the
manufacturing tasks. Thus, the security is ensured by identifying the “current” valid identities (resources). Additionally, the usage of deputy relationships leads to alternative production facilities if resources have a breakdown or have to be serviced which has an effect on the availability},
added-at = {2023-09-28T07:09:13.000+0200},
author = {Lawall, Alexander and Schaller, Thomas},
biburl = {https://www.bibsonomy.org/bibtex/25d80c01872099a7af29d551b6307896f/alinta},
interhash = {4766d64727e93b0d0b2c16b36f6f3000},
intrahash = {5d80c01872099a7af29d551b6307896f},
journal = {International Journal on Cryptography and Information Security (IJCIS)},
keywords = {4.0 : Access Control. Factory Identity Industry Management Model· Organizational Smart cryptography digital key public steganography},
language = {english},
month = {September},
number = {2/3},
pages = {1-11},
timestamp = {2023-09-28T07:09:13.000+0200},
title = {A Graph-based and Declarative Approach to a
Secure Resource Management in Smart Factories},
url = {https://wireilla.com/papers/ijcis/V12N3/12322ijcis01.pdf},
volume = 12,
year = 2022
}