Criteria for evaluating cognitive systems

Question

In the first chapter of the book "How to Build a Brain", Chris Eliasmith quickly establishes some criteria which he will use to evaluate Spaun, the cognitive system described in the book. He describes them in great detail in Chapter 8, but below is my attempt at summarizing them.

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1. Representational Structure

Systematicity

The system should connect concepts in an inter-connected way and understand there are classes of concepts, since human thought is systematic. For example, given blue ball and red square, it should be possible for the system to reason about the concept of blue square.

Compositionality

Concepts should be created off of the combination of concepts to the degree supported by real cognitive systems. For example, given the concepts of pet and fish, it should be possible to reason about the novel concept pet fish.

Productivity

The system should be able to create many representation based off of a few basic representations to the degree supported by real cognitive systems.

The Massive Binding Problem

The system should identify a binding operation that scales well.

2. Performance Concerns

Syntactic generalization

Ability to exploit the structure of language regardless of content.

Robustness

Losing a few neurons or being exposed to noise shouldn't break the system.

Adaptability

You should be able to use a single system for multiple task.

Memory

The system should be able to show the relation to the various types of memory (working, long-term).

Scalability

Large portions of the brain should be modeled and able to complete a wide variety of tasks.

3. Scientific merit

Triangulation

Contact with the most sources of experimental data as possible.

Compactness

Good theories can be stated compactly and without ad-hoc additions.

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He explains in the chapter that this is actually a synthesis of various other criteria proposed by various authors. Although the scientific merit seems rather straightforward to me and has been elaborated upon on great length, the other criteria I am less certain about in terms of completeness and acceptance. Have attempts at unified criteria been made before? Are there more complete criteria? Are these criteria at odds with any other ideas about what a cognitive system should embody?

Answer 1

Hofstadter provides a detailed set of criteria in Fluid Concepts and Creative Analogies. Some of his criteria that I do not see mentioned above concern the flow of information-processing: whether or not the model evaluated flows through possibility space in a psychologically plausible way, and how to measure that.

For instance... Suppose the following: "A bat and a ball cost usd110. The bat costs usd100 more than the ball. How much is the ball?"

Now, cognitive psychology has shown that people are primed to say "the ball costs usd10." Which is wrong! A good cognitive model should also "think" usd10, before considering usd5. Otherwise, it doesn't respect information-processing flow.

He also mentions, metaphorically, the idea of including "lesions" in the model, such that, if some component of the model is "lesioned", the expected outcome from that component should drastically change.

Answer 2

Some things omitted

1. Although the criteria addresses learning new tasks in Adaptibility, it doesn't address the ability to switch between tasks easily.

2. Although Triangulation does address matching data, it doesn't discuss grounding the data in the real world vs. data fed from a dataset. In other words, it doesn't address the quality of the data matched.

3. Compactness doesn't address how easy anything is to explain or grasp. This might actually be wise, as understanding is highly dependent on tools available to the person grasping at comprehension.

Are there more complete criterion?

The criterion provided above provide a high-level view of the goals that should be sought after by any cognitive system, however this does not address how a system should pursue this goal.

For a more complete evaluation of the methods and tools that should be used, please see Terry Stewart's PHD thesis A Methodology for Computational Cognitive Modelling which outlines a set of statistical methods and tools for cognitive scientists (even without a significant statistical background) to use.