This thesis proposes an extension to the i* framework to address scalability
issues. The notion of “view� is exploited to selectively present
portions of an i* “baseline model�, which contains all modeled
objects for a given application using i* notations. We first reformulate
the i* framework and define four types of views—Actor Class, Strategic
Dependency, Strategic Rationale, and Evaluation Results. Next, we
define sub view types based on the four types of views and supply
a view management framework. The views and sub-views are defined
using meta-models, and formalized using the Telos conceptual modeling
language. Each view type is associated with a formally defined “selection
rule� so that the projection of a specific view from a baseline
model can be automated. Relationships among views are depicted in
View Maps. Illustrative examples are taken from the London Ambulance
Service and the Trusted Computing Group case studies.
%0 Thesis
%1 you04
%A You, Jane
%D 2004
%K i-star modeling openome requirements visualization
%T Using Meta-model Driven Views to Address Scalability in i*
%U http://www.cs.toronto.edu/~janeyou/#Evolvement
%X This thesis proposes an extension to the i* framework to address scalability
issues. The notion of “view� is exploited to selectively present
portions of an i* “baseline model�, which contains all modeled
objects for a given application using i* notations. We first reformulate
the i* framework and define four types of views—Actor Class, Strategic
Dependency, Strategic Rationale, and Evaluation Results. Next, we
define sub view types based on the four types of views and supply
a view management framework. The views and sub-views are defined
using meta-models, and formalized using the Telos conceptual modeling
language. Each view type is associated with a formally defined “selection
rule� so that the projection of a specific view from a baseline
model can be automated. Relationships among views are depicted in
View Maps. Illustrative examples are taken from the London Ambulance
Service and the Trusted Computing Group case studies.
@mastersthesis{you04,
abstract = {This thesis proposes an extension to the i* framework to address scalability
issues. The notion of “view� is exploited to selectively present
portions of an i* “baseline model�, which contains all modeled
objects for a given application using i* notations. We first reformulate
the i* framework and define four types of views—Actor Class, Strategic
Dependency, Strategic Rationale, and Evaluation Results. Next, we
define sub view types based on the four types of views and supply
a view management framework. The views and sub-views are defined
using meta-models, and formalized using the Telos conceptual modeling
language. Each view type is associated with a formally defined “selection
rule� so that the projection of a specific view from a baseline
model can be automated. Relationships among views are depicted in
View Maps. Illustrative examples are taken from the London Ambulance
Service and the Trusted Computing Group case studies.},
added-at = {2006-09-18T06:26:07.000+0200},
author = {You, Jane},
biburl = {https://www.bibsonomy.org/bibtex/297bf69653be0ae6d3484112306689f16/neilernst},
citeulike-article-id = {594630},
description = {Not previously uploaded},
interhash = {a032e33cd515e4f64856e114f194c9df},
intrahash = {97bf69653be0ae6d3484112306689f16},
keywords = {i-star modeling openome requirements visualization},
priority = {2},
school = {University of Toronto},
timestamp = {2008-08-27T21:47:10.000+0200},
title = {Using Meta-model Driven Views to Address Scalability in i*},
url = {http://www.cs.toronto.edu/~janeyou/#Evolvement},
year = 2004
}