See my post on LinkedIn (replicated below) and join the discussion there:
https://www.linkedin.com/posts/antlerboy_rough-draft-systemscomplexitycybernetics-activity-7246779585235664896-64Xz
pdf: https://www.dropbox.com/scl/fi/85zlt0t6ph8qarx7d7gic/2024-09-27-rough-draft-systems-thinking-reading-list-v1.1BT.pdf?rlkey=3rfavacsy4n6sl8j0pyedph1q&st=qagh1418&dl=0
Commentable Google Doc: https://docs.google.com/document/d/1Tt8GgQQj4Qw4HnR7DxKeF370o_HlDlpv/edit?usp=sharing&ouid=115526108239573817578&rtpof=true&sd=true
How do you get into systems | complexity | cybernetics?
Here’s my rough reading list.
There are a lot of answers to the question, many of them connecting with some kind of disjointing break from ‘normal’ ways of seeing and being. Anything from being bullied at school to being dyslexic. Being in an outsider group. Naively applying thinking from one domain to another. Studying a technical problem long enough to suddenly see it in a completely different light – then either have your breakthrough celebrated or rejected.
It isn’t some mystic thing and it doesn’t require to you break from polite society. But it is one of the richest, weirdest, most diverse and challenging, inspiring and confounding, confronting and validating things you can study.
I’m often asked for a reading list for people interested in the field, and I usually suck my teeth. Some of the books are engaging, insightful, humorous, relevant. Others are dry as old twigs but less likely to kindle a spark.
Really, it depends on you and your context – as David Ing says, it’s better to talk of the thinkers and their individual constellations of interests, history, learning, and personal tendencies than it is to talk of schools and fields and separate places.
And even presenting this reading list, I’d say that I’d recommend Terry Pratchett, Douglas Adams, Ursula K Le Guin, Italo Calvino, Jorge Luis Borges, Star Trek, old 20th Century Sci-Fi and Apartheid-era South African writing, art movies and music more – if you happen to be a bit like me. You’ll find your thing, if you’re interested.
But. The books are there – and many of them are *really good*. Top ones I’d recommend came out this decade
- Hoverstadt’s Grammar of Systems
- Jackson’s Critical Systems Thinking: A practitioner’s Guide
- Opening the box – a slim little thing from SCiO colleagues
- Essential Balances by Velitchkov
The attached list is a bit systems-practice focused. It is also too long and incomplete and partial simply for lack of time and energy.
There are *so many* flavours of systems thinking / complexity / cybernetics – do yourself a favour and don’t flog through stuff that doesn’t work for you, find things that bring your mind alive. Start with the articles and skim through.
But do start, because you will find in here the thinking and tools to find better ways of doing things for organisations, societies, the ecosystem, for people – and a lot of fun.
Tip: to save the pdf, hover over the image of the first page and find the rectangle bottom right – click that and it should go full screen. Top right you’ll have a download option, which when clicked will then resolve into a download button… (which might then open in your browser, but at least as a proper pdf you can save).
So… deep breath… what would you recommend? What do you think is missing?
of the proposition 
at the point 
where 
and 
the four propositions 
can be taken to indicate the so‑called “cells” or smallest distinguished regions of the universe, otherwise indicated by their coordinates as the “points” 
respectively. In that regard the four propositions are called singular propositions because they serve to single out the minimal regions of the universe of discourse.
so long as we know the frame of reference in force.
the value of the difference proposition 
may be computed in graphical fashion as shown below.
indicated by the difference map 
namely, the following six points or singular propositions.
should be clear enough from a survey of these six points — they tell you what you have to do from each point of 
in order to change the value borne by 
that is, the move you have to make in order to reach a point where the value of the proposition 
is different from what it is where you started.
on propositions of the form 
as illustrated by the example 
and 
The resulting difference map 
Abstracting from that picture, the difference map 
and whose arrows are labeled with the elements of 
as shown in the following Figure.
![\begin{array}{rcccccc} f & = & p & \cdot & q \\[4pt] \mathrm{D}f & = & p & \cdot & q & \cdot & \texttt{((} \mathrm{d}p \texttt{)(} \mathrm{d}q \texttt{))} \\[4pt] & + & p & \cdot & \texttt{(} q \texttt{)} & \cdot & \texttt{~(} \mathrm{d}p \texttt{)~} \mathrm{d}q \texttt{~~} \\[4pt] & + & \texttt{(} p \texttt{)} & \cdot & q & \cdot & \texttt{~~} \mathrm{d}p \texttt{~(} \mathrm{d}q \texttt{)~} \\[4pt] & + & \texttt{(} p \texttt{)} & \cdot & \texttt{(} q \texttt{)} & \cdot & \texttt{~~} \mathrm{d}p \texttt{~~} \mathrm{d}q \texttt{~~} \end{array}](https://s0.wp.com/latex.php?latex=%5Cbegin%7Barray%7D%7Brcccccc%7D++f+%26+%3D+%26+p+%26+%5Ccdot+%26+q++%5C%5C%5B4pt%5D++%5Cmathrm%7BD%7Df+%26+%3D+%26++p+%26+%5Ccdot+%26+q+%26+%5Ccdot+%26++%5Ctexttt%7B%28%28%7D+%5Cmathrm%7Bd%7Dp+%5Ctexttt%7B%29%28%7D+%5Cmathrm%7Bd%7Dq+%5Ctexttt%7B%29%29%7D++%5C%5C%5B4pt%5D++%26+%2B+%26++p+%26+%5Ccdot+%26+%5Ctexttt%7B%28%7D+q+%5Ctexttt%7B%29%7D+%26+%5Ccdot+%26++%5Ctexttt%7B%7E%28%7D+%5Cmathrm%7Bd%7Dp+%5Ctexttt%7B%29%7E%7D+%5Cmathrm%7Bd%7Dq+%5Ctexttt%7B%7E%7E%7D++%5C%5C%5B4pt%5D++%26+%2B+%26++%5Ctexttt%7B%28%7D+p+%5Ctexttt%7B%29%7D+%26+%5Ccdot+%26+q+%26+%5Ccdot+%26++%5Ctexttt%7B%7E%7E%7D+%5Cmathrm%7Bd%7Dp+%5Ctexttt%7B%7E%28%7D+%5Cmathrm%7Bd%7Dq+%5Ctexttt%7B%29%7E%7D++%5C%5C%5B4pt%5D++%26+%2B+%26++%5Ctexttt%7B%28%7D+p+%5Ctexttt%7B%29%7D+%26+%5Ccdot+%26+%5Ctexttt%7B%28%7D+q+%5Ctexttt%7B%29%7D+%26+%5Ccdot+%26++%5Ctexttt%7B%7E%7E%7D+%5Cmathrm%7Bd%7Dp+%5Ctexttt%7B%7E%7E%7D+%5Cmathrm%7Bd%7Dq+%5Ctexttt%7B%7E%7E%7D++%5Cend%7Barray%7D&bg=ffffff&fg=000000&s=0&c=20201002)
has an abstract type and a concrete type. The abstract type is what we invoke when we write things like 
or 
The concrete type takes into account the qualitative dimensions or “units” of the case, which can be explained as follows.
be the set of values 
be the set of values 
as functions of the concrete type 
is a function which takes one function 
written here as 
is more often called the shift operator.
its (first order) differential extension 
is constructed according to the following specifications.
![\begin{array}{rcc} X & = & P \times Q \\[4pt] \mathrm{d}X & = & \mathrm{d}P \times \mathrm{d}Q \\[4pt] \mathrm{d}P & = & \{ \texttt{(} \mathrm{d}p \texttt{)}, ~ \mathrm{d}p \} \\[4pt] \mathrm{d}Q & = & \{ \texttt{(} \mathrm{d}q \texttt{)}, ~ \mathrm{d}q \} \end{array}](https://s0.wp.com/latex.php?latex=%5Cbegin%7Barray%7D%7Brcc%7D++X+%26+%3D+%26+P+%5Ctimes+Q++%5C%5C%5B4pt%5D++%5Cmathrm%7Bd%7DX+%26+%3D+%26+%5Cmathrm%7Bd%7DP+%5Ctimes+%5Cmathrm%7Bd%7DQ++%5C%5C%5B4pt%5D++%5Cmathrm%7Bd%7DP+%26+%3D+%26+%5C%7B+%5Ctexttt%7B%28%7D+%5Cmathrm%7Bd%7Dp+%5Ctexttt%7B%29%7D%2C+%7E+%5Cmathrm%7Bd%7Dp+%5C%7D++%5C%5C%5B4pt%5D++%5Cmathrm%7Bd%7DQ+%26+%3D+%26+%5C%7B+%5Ctexttt%7B%28%7D+%5Cmathrm%7Bd%7Dq+%5Ctexttt%7B%29%7D%2C+%7E+%5Cmathrm%7Bd%7Dq+%5C%7D++%5Cend%7Barray%7D&bg=ffffff&fg=000000&s=0&c=20201002)
means “change 
means “change 
”.
requires four logical dimensions, 
but it is possible to project a suggestion of what the differential features 
reading an arrow as 
in either direction and reading an arrow as 
in either direction, as indicated in the following figure.
says the same thing as 
in other words, there is no change in 
over the differential extension 
or, written out in full:
at a single location in the universe of discourse, namely, at the point picked out by the singular proposition 
in terms of coordinates, at the place where 
or 
and we arrived at the locally applicable law which may be stated and illustrated as follows.
into the following exclusive disjunction.
graphed as two letters attached to a root node, as shown below.
.
may be taken as a boolean function 
where 
is read in such a way that 
means 
and 
means 
and its corresponding graph arise by replacing 
and 
in the boolean product or logical conjunction 
plus and minus are identical operations. This will make the relation between the differential and the integral parts of the appropriate calculus slightly stranger than usual, but we will get into that later.
as shown below.
or 
in formal languages, where it is the identity element for concatenation. To make it visible in context, it may be denoted by the equivalent expression 
or, especially if operating in an algebraic context, by a simple 
Also when working in an algebraic mode, the plus sign 
may be used for exclusive disjunction. Thus we have the following translations of algebraic expressions into cactus expressions.![\begin{matrix} a + b \quad = \quad \texttt{(} a \texttt{,} b \texttt{)} \\[8pt] a + b + c \quad = \quad \texttt{(} a \texttt{,(} b \texttt{,} c \texttt{))} \quad = \quad \texttt{((} a \texttt{,} b \texttt{),} c \texttt{)} \end{matrix}](https://s0.wp.com/latex.php?latex=%5Cbegin%7Bmatrix%7D++a+%2B+b+%5Cquad+%3D+%5Cquad+%5Ctexttt%7B%28%7D+a+%5Ctexttt%7B%2C%7D+b+%5Ctexttt%7B%29%7D++%5C%5C%5B8pt%5D++a+%2B+b+%2B+c++%5Cquad+%3D+%5Cquad+%5Ctexttt%7B%28%7D+a+%5Ctexttt%7B%2C%28%7D+b+%5Ctexttt%7B%2C%7D+c+%5Ctexttt%7B%29%29%7D++%5Cquad+%3D+%5Cquad+%5Ctexttt%7B%28%28%7D+a+%5Ctexttt%7B%2C%7D+b+%5Ctexttt%7B%29%2C%7D+c+%5Ctexttt%7B%29%7D++%5Cend%7Bmatrix%7D&bg=ffffff&fg=000000&s=1&c=20201002)
-ary scope. The syntactic formulas of that calculus map into a family of graph-theoretic structures called “painted and rooted cacti” which lend visual representation to the functional structures of propositions and smooth the path to efficient computation.
to mean exactly one of the propositions 
is false, in short, their minimal negation is true. An expression of that form is associated with a cactus structure called a lobe and is “painted” with the colors 
to mean all the propositions 
may be used for the logical operators.
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