5.5: Summary and further reading

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The goal of this chapter was to explain how props formalize signal flow graphs, and provide a new perspective on linear algebra. To do this, we examined the idea of free and presented structures in terms of universal properties. This allowed us to build props that exactly suited our needs.

Paweł Sobociński’s Graphical Linear Algebra blog is an accessible and fun exploration of the key themes of this chapter, which goes on to describe how concepts such as determinants, eigenvectors, and division by zero can be expressed using signal flow graphs [Sob]. For the technical details, one could start with Baez and Erbele [BE15], or Zanasi’s thesis [Zan15] and its related series of papers [BSZ14; BSZ15; BS17]. For details about applications to control theory, see [FSR16]. From the control theoretic perspective, the ideas and philosophy of this chapter are heavily influenced by Willems’ behavioral approach [Wil07].

For the reader that has not studied abstract algebra, we mention that rings, monoids, and matrices are standard fare in abstract algebra, and can be found in any standard introduction, such as [Fra67]. Rigs, also known as semirings, are a bit less well known, but no less interesting; a comprehensive survey of the literature can be found in [Gla13].

Perhaps the most significant idea in this chapter is the separation of structure into syntax and semantics, related by a functor. This is not only present in the running theme of studying signal flow graphs, but in our aside Section 5.4.2, where we talk, for example, about monoid objects in monoidal categories. The idea of functorial semantics is yet another due to Lawvere, first appearing in his thesis [Law04].

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