Z formaliuju metodu panaudojimas informaciniu sistemu projektavime / The use of Z for informational systems design

Paulauskaitė, Agnė

20 May 2005

Summary Still today informal methods are the most common for informational systems design. They don‘t allows unambiguously understand formulating tasks, moreover availably specifications not always are complete. Because of this informational system does not correspond to users needs. Using informal methods specification transformation to software code isn‘t always possible. In real time informational systems problematic domain is varying in time. Thus are changing requirements for informational systems. Using informal methods, to solve this problem, usually we need to rewrite software. Using formal methods we don‘t have to rewrite software, it is enough organization business instructions specified in Z transform to software code. In this paper we present research results about Z specification method use for formal requirements specification for informational systems design. Using Z/EVES - an interactive system for composing, checking, and analyzing Z specifications, was accomplished Z specification validation, theretofore reviewing the list of available Z specification validation tools. Z specification language was compared with object-oriented language Object–Z to find out advantages and disadvantages of these two formal specification languages. Were discussed questions about Z specification transformation to Object-Z, which facilities an object-oriented specification extension to object-oriented programming languages. In this paper transformation methodology from object-Z... [to full text]

Informatics

Transformavimas

Object-Z

Formalieji metodai

Formal methods

Transformation

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Formal verification of control software

Jobredeaux, Romain J.

21 September 2015

In a context of heightened requirements for safety-critical embedded systems and ever-increasing costs of verification and validation, this research proposes to advance the state of formal analysis for control software. Formal methods are a field of computer science that uses mathematical techniques and formalisms to rigorously analyze the behavior of programs. This research develops a framework and tools to express and prove high level properties of control law implementations. One goal is to bridge the gap between control theory and computer science. An annotation language is extended with symbols and axioms to describe control-related concepts at the code level. Libraries of theorems, along with their proofs, are developed to enable an interactive proof assistant to verify control-related properties. Through integration in a prototype tool, the process of verification is made automatic, and applied to several example systems.In a context of heightened requirements for safety-critical embedded systems and ever-increasing costs of verification and validation, this research proposes to advance the state of formal analysis for control software. Formal methods are a field of computer science that uses mathematical techniques and formalisms to rigorously analyze the behavior of programs. This research develops a framework and tools to express and prove high level properties of control law implementations. One goal is to bridge the gap between control theory and computer science. An annotation language is extended with symbols and axioms to describe control-related concepts at the code level. Libraries of theorems, along with their proofs, are developed to enable an interactive proof assistant to verify control-related properties. Through integration in a prototype tool, the process of verification is made automatic, and applied to several example systems.

Formal methods

LMI

Lyapunov

Static analysis

Control software

Theorem proving

Ethics and the practice of software design

Turilli, Matteo

January 2012

No description available.