Blackboard (design pattern)

In software engineering, the blackboard pattern is a behavioral design pattern[1] that provides a computational framework for the design and implementation of systems that integrate large and diverse specialized modules, and implement complex, non-deterministic control strategies.[2][1]

This pattern was identified by the members of the HEARSAY-II project and first applied to speech recognition.[2]

Structure

The blackboard model defines three main components:

  • blackboard - a structured global memory containing objects from the solution space
  • knowledge sources - specialized modules with their own representation
  • control component - selects, configures and executes modules.[2]

Implementation

The first step is to design the solution space (i.e. potential solutions) that leads to the blackboard structure. Then, knowledge sources are identified. These two activities are closely related.[2]

The next step is to specify the control component; it generally takes the form of a complex scheduler that makes use of a set of domain-specific heuristics to rate the relevance of executable knowledge sources.[2]

System Structure[2]

Applications

Usage-domains include:

Consequences

The blackboard pattern provides effective solutions for designing and implementing complex systems where heterogeneous modules have to be dynamically combined to solve a problem. This provides non-functional properties such as:

  • reusability
  • changeability
  • robustness.[2]

The blackboard pattern allows multiple processes to work closer together on separate threads, polling and reacting when necessary.[1]

Example

An example of the Blackboard pattern has been provided by Microsoft.

https://social.technet.microsoft.com/wiki/contents/articles/13461.blackboard-design-pattern-a-practical-example-radar-defense-system.aspx

See also

References
  1. "Blackboard Design Pattern". Microsoft TechNet. Microsoft. Retrieved 5 February 2016.
  2. Lalanda, P., Two complementary patterns to build multi-expert systems, Orsay, France: Thomson CSF Corporate Research Laboratory
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