A framework for information systems architecture
IBM Systems Journal
Advanced C++ programming styles and idioms
Advanced C++ programming styles and idioms
Documenting frameworks using patterns
OOPSLA '92 conference proceedings on Object-oriented programming systems, languages, and applications
New clients with old servers: a pattern language for client/server frameworks
Pattern languages of program design
Fault-tolerant telecommunication system patterns
Pattern languages of program design 2
Pattern-oriented software architecture: a system of patterns
Pattern-oriented software architecture: a system of patterns
Building secure software: how to avoid security problems the right way
Building secure software: how to avoid security problems the right way
Enterprise System Architectures
Enterprise System Architectures
Patterns of Enterprise Application Architecture
Patterns of Enterprise Application Architecture
Domain-Driven Design: Tacking Complexity In the Heart of Software
Domain-Driven Design: Tacking Complexity In the Heart of Software
Threat Modeling
Sequences as a basis for pattern language composition
Science of Computer Programming - Special issue on new software composition concepts
Security Patterns: Integrating Security and Systems Engineering
Security Patterns: Integrating Security and Systems Engineering
Software Design Patterns for Information Visualization
IEEE Transactions on Visualization and Computer Graphics
Designing Interfaces
IEEE Software
Evolution of the MTA architecture: the impact of security
Software—Practice & Experience
Patterns for Fault Tolerant Software
Patterns for Fault Tolerant Software
The nature of order: from security patterns to a pattern language
Proceedings of the 3rd annual conference on Systems, programming, and applications: software for humanity
Hi-index | 0.00 |
Researchers and practitioners have been successfully documenting software patterns for over two decades. But the next step--building pattern languages--has proven much more difficult. This paper describes an approach for building a large pattern language for security: an approach that can be used to create pattern languages for other software domains. We describe the mechanism of growing this pattern language: how we cataloged the security patterns from books, papers and pattern collections written by all security experts over the last 15 years, how we classified the patterns to help developers find the appropriate ones, and how we identified and described the relationships between patterns in the language. To our best knowledge, this is the largest pattern language in software. But the most significant contribution of this paper is the story behind how the pattern language is grown; it illustrates the steps that can be adapted to create and grow pattern languages for other domains.