This is a full and free version available for all users in English. This is where you will learn many different lessons on meditation and personal development without any charge!
SDP is a rich pool of knowledge about the development of inner peace that you can learned through:
Guided meditation videos
Daily video provided for you to watch and follow the instruction on meditation step by step
Meditation Journal
A space to record your own meditation experience where you can consult your personal Peace Coach who will mentor you along your self-development journey.
Acts of Self-Discipline
Different lessons on how we can easily cut bad habits with little daily effort.
Daily Reflection
A feature for you to keep track of your own self-development.
Tools for Systems Thinkers: Designing Circular Systems
Over the last five chapters in this series on tools for systems thinkers, I have looked at fundamental concepts, feedback loops, dominant archetypes and shared systems mapping tools.
I have worked on synthesizing the critical tools that assist with the
development of a more three-dimensional perspective of how the world
works. By no means have I covered it all, but I hope to have helped
ignite curiosity around the power of a systems-based perspective and the
opportunity that we all have in learning to love complex problems and
embrace challenges in more proactive ways.
In
the final chapter of this series, I cover some of the ways that
thinking in systems can transition us to a circular economy.
Specifically, I discuss how we can design circular systems that
facilitate sustainable and regenerative outcomes. For a more detailed
introduction to these concepts, take a look at the Circular Systems Design Activation Pack we created.
On Design
First
let me say that while I am a designer and advocate for professionals to
make intentional sustainability and systems based contributions through
their creative productions, when I say ‘design’ in this piece, I am
referring to design as the common practice of producing ‘things’. This
can be anything — artifacts, conversations, or policies, all of which
have impacts on the world. From supermarket designs, to government
regulations, to how we design our own lives, these are all the product
of design — the intent to direct or construct the world in a particular
way.
Design
is a conscious and intuitive effort to impose meaningful order. Design
is both the underlying matrix of order and the tool that creates it. — Victor Papanek
I
have written and spoken extensively on the role that design plays in
scripting out lives, influencing our minds and curating our experience
of the world (see here, here, here and here).
In
some cases ‘designs’ have massive impacts, and in others, only minor
roles. Nonetheless, everyday design is the act of creating something
new, so let’s dive into how we can design circular systems that build in
intentionally for positive impacts on people and the planet.
“You
never change things by fighting the existing reality. To change
something, build a new model that makes the existing model obsolete.” ― R. Buckminster Fuller
The Circular Economy
For many people the term ‘circular economy’
is still new, so allow me to briefly explain what this is all about.
Our current economy is based on a linear system of production where we
take raw materials and natural resources out of nature, process them
into usable goods to meet human needs, and then discard them back into
giant holes in the ground that, ironically, were often where we took the
raw materials from to begin with.
This
entire system is in opposition to the natural systems that sustain life
on Earth — which are circular and regenerative — and it’s
counterintuitive to the way we function as living organisms (for example
we all require nutrients to survive, which is part of the beautifully
designed system of nutrients cycling through bodies and back into the
ground to grow the next generation of food, this nutrient cycle is one
of the fundamental ecosystems that sustain life on Earth).
Basically
humans designed a broken system that creates waste and constantly loses
value through the economy. Our linear economy does not fit in a
circular world.
The
opposite to a linear system is a circular one. When you use the natural
world as a design reference, you quickly see that everything not only
plays a role, but also puts back in what it took out.
Most
organisms in nature, as well as the principles that nature plays by,
are regenerative; humans, however, design systems that are the exception
to this rule. Herein lies the problem that the circular economy
movement, and many other attempts (cleaner production, eco design, life
cycle assessment, industrial ecology etc.), that have come before, have
tried to address.
These
attempts have all worked hard to solve the complex puzzle of meeting
humanity’s growing needs while not screwing up the life support systems
that both nourish all living organisms (thank you food, air, and water)
but work effortlessly in amazingl complex ways to make life happen on
this magical ball of water and soil that we all share.
I
could go on and on about this missing link in our current economic and
social structures, the design mistakes that perpetuate it, how our
education system devalues circularity and prioritizes reductionism… But
right now I’m going to invest this time in the more interesting part,
where we figure out how to not make
a mess of this beautiful planet and instead, start to design out waste
and find unique ways of being a productive contributor to the planet (to
this end I am working on a project for a post disposable future, check it out here).
Everything is Interconnected
All
of this all boils down to the simple reality that we all have an
intuitive understanding of — everything is interconnected to everything
else in some way. Nothing living is in isolation, and we are require
other systems to survive—thus we are all in an interconnected,
interdependent relationship with everything else. I say this in a
non-hippy way, look at the design of a tree and you will see the same
fractile patterns in your lungs, your life is reinforced every few
seconds as you breath in oxygen that was produced free of charge by a
bunch of trees and phytoplankton.
We
live of a closed ecosystem that is perfectly calibrated for success.
Our bodies are small versions of this, and we benefit every second of
the day from the services that this giant ecosystem provides us.
Many
of the human-created systems that we have, such as cities, factories,
governments and industrial food production, are failed emulations of the
way nature designs things because they have not been designed as a
system that nests within other systems. They are isolated and siloed,
linear and reductive.
This
is where humans have really messed up: we have made things based on our
reductive one-dimensional perspective of the world, rather than taken
on the more detailed, systemic and creative perspective of what makes
everything work on Earth.
So
when we are seeking to solve and evolve some of the more complex
problems humanity faces, we must start first with a shift in mindset
from the one dimension of a linear plane to a three-dimensional
perspective of the interconnected and dynamic nature of systems at play
in the world around us.
This
requires not only developing systems thinking skills, but also
understanding sustainability sciences and developing reflexivity,
creativity and fostering more divergent neurological practices that
enhances creativity. These 3 things form the pillars of a practice in
creative systems change and can be applied by anyone who has invested
the energy in learning the practice tools.
We
are not born ignorant to the systems that sustain us (hang out with a
curious 5-year-old to learn all about how nature works), and we know creativity is a learned skill that
maximizes the hidden potential of the human brain. We have the building
blocks for designing a circular and regenerative future.
Circular Systems Design
Designing
for circular systems is about considering the full-picture perspective
of how the status quo of the natural, industrial, and social systems
play out, and then uncovering ways of shifting these to facilitate
circular and regenerative outcomes.
In
some cases this is extremely complicated (like how to circularize spent
nuclear rods, for example), and in others, it’s a no- brainer (like how
to change our collective addiction to disposable items like coffee
cups). But all of the systems changes we need to design have the same
basic elements: people, products, places, and processes. They can all be
redesigned to maximize benefits and minimize negative externalities.
Yes,
there is a level of complexity to this approach. But everything worth
doing requires work, and purpose-driven creatives in this world are at
the forefront of helping to activate this change from linear to circular
design. I will work on more content (additional to what I have already produced
for this new field) to help fuel this shift in the future, but for now I
encourage you to seek out resources that help you start to circularize
your thinking and doing in the world, from how you consume products
through to the decisions you make in your professional role.
There
are many narratives of the future being all f*$cked up, but I
personally refuse to believe in a dystopian future as nothing is
actually defined about what will happen next. We are all making up the
future based on our collective individual actions today.
There
is no definite fact that robots will take over our jobs and that
presidents will push the big red button, just as there is no reason why
we can’t rapidly change the way we get the goods and services we desire
and need. I am completely confident in our capacity as a species to
figure out how to be a sustainable and regenerative contributor to the
magic that is life on Planet Earth.
— —
If this is your thing, check out my 4-week advanced training in circular systems design,
an online rapid learning journey and mentorship program for
professionals wanting to level up their skills in circular systems
design (starting in Jan 4. 2018). I offer one-on-one mentorship and
tailored content to help get you to a confident knowledge and leadership
position.
Beautiful illustrations by the talented Emma Segal
In this series on systems thinking, I share the key insights and tools needed to develop and advance a systems mindset for dealing with complex problem solving and transitioning to the Circular Economy.
I have taught thousands of hours of
workshops in systems, sustainability and design, and over the years
refined ways of rapidly engaging people with the three dimensional
mindset needed to think and work in circular systems. My motivation for
writing this online toolkit is to help expand the ability of
professionals to rapidly adopt to a systems mindset for positive impact.
Words
have power, and in systems thinking, we use some very specific words
that intentionally define a different set of actions to mainstream
thinking. Words like ‘synthesis,’ ‘emergence,’ ‘interconnectedness,’ and
‘feedback loops’ can be overwhelming for some people. Since they have
very specific meanings in relation to systems, allow me to start off
with the exploration of six* key themes.
*There are way more than six, but I picked the most important ones that you definitely need
to know, and as we progress through this systems thinking toolkit
series, I will expand on some of the other key terms that make up a
systems mindset.
1. Interconnectedness
Systems thinking requires a shift in mindset,
away from linear to circular. The fundamental principle of this shift
is that everything is interconnected. We talk about interconnectedness
not in a spiritual way, but in a biological sciences way.
Essentially,
everything is reliant upon something else for survival. Humans need
food, air, and water to sustain our bodies, and trees need carbon
dioxide and sunlight to thrive. Everything needs something else, often a
complex array of other things, to survive.
Inanimate
objects are also reliant on other things: a chair needs a tree to grow
to provide its wood, and a cell phone needs electricity distribution to
power it. So, when we say ‘everything is interconnected’ from a systems
thinking perspective, we are defining a fundamental principle of life.
From this, we can shift the way we see the world, from a linear,
structured “mechanical worldview’ to a dynamic, chaotic, interconnected
array of relationships and feedback loops.
A systems thinker uses this mindset to untangle and work within the complexity of life on Earth.
2. Synthesis
In
general, synthesis refers to the combining of two or more things to
create something new. When it comes to systems thinking, the goal is
synthesis, as opposed to analysis, which is the dissection of complexity
into manageable components. Analysis fits into the mechanical and
reductionist worldview, where the world is broken down into parts.
But
all systems are dynamic and often complex; thus, we need a more
holistic approach to understanding phenomena. Synthesis is about
understanding the whole and the parts at the same time, along with the
relationships and the connections that make up the dynamics of the
whole.
Essentially, synthesis is the ability to see interconnectedness.
3. Emergence
From
a systems perspective, we know that larger things emerge from smaller
parts: emergence is the natural outcome of things coming together. In
the most abstract sense, emergence describes the universal concept of
how life emerges from individual biological elements in diverse and
unique ways.
Emergence
is the outcome of the synergies of the parts; it is about non-linearity
and self-organization and we often use the term ‘emergence’ to describe
the outcome of things interacting together.
A
simple example of emergence is a snowflake. It forms out of
environmental factors and biological elements. When the temperature is
right, freezing water particles form in beautiful fractal patterns
around a single molecule of matter, such as a speck of pollution, a
spore, or even dead skin cells.
Conceptually,
people often find emergence a bit tricky to get their head around, but
when you get it, your brain starts to form emergent outcomes from the
disparate and often odd things you encounter in the world.
There is nothing in a caterpillar that tells you it will be a butterfly — R. Buckminster Fuller
4. Feedback Loops
Since
everything is interconnected, there are constant feedback loops and
flows between elements of a system. We can observe, understand, and
intervene in feedback loops once we understand their type and dynamics.
The two main types of feedback loops are reinforcing and balancing. What can be confusing is a reinforcing feedback loop is not usually a good thing. This happens when elements in a system reinforce more of the same, such as population growth or algae growing exponentially in a pond. In reinforcing loops, an abundance of one element can continually refine itself, which often leads to it taking over.
A balancing feedback loop, however, is where elements within the system balance things
out. Nature basically got this down to a tee with the predator/prey
situation — but if you take out too much of one animal from an
ecosystem, the next thing you know, you have a population explosion of
another, which is the other type of feedback — reinforcing.
5. Causality
Understanding
feedback loops is about gaining perspective of causality: how one thing
results in another thing in a dynamic and constantly evolving system
(all systems are dynamic and constantly changing in some way; that is
the essence of life).
Cause
and effect are pretty common concepts in many professions and life in
general — parents try to teach this type of critical life lesson to
their young ones, and I’m sure you can remember a recent time you were
at the mercy of an impact from an unintentional action.
Causality
as a concept in systems thinking is really about being able to decipher
the way things influence each other in a system. Understanding
causality leads to a deeper perspective on agency, feedback loops,
connections and relationships, which are all fundamental parts of
systems mapping.
6. Systems Mapping
Systems
mapping is one of the key tools of the systems thinker. There are many
ways to map, from analog cluster mapping to complex digital feedback
analysis. However, the fundamental principles and practices of systems
mapping are universal. Identify and map the elements of ‘things’ within a
system to understand how they interconnect, relate and act in a complex
system, and from here, unique insights and discoveries can be used to
develop interventions, shifts, or policy decisions that will
dramatically change the system in the most effective way.
This
introduction to six key concepts are critical building blocks for
developing a detailed perspective of how the world works from a systems
perspective and will enhance your ability to think divergently and
creatively for a positive impact.
Working
and teaching systems thinking for years has led me to develop
additional new tools, as well as employ these time-honored concepts from
the pioneers.
What
stands out to me as critical in order to make a positive impact, is the
ability to develop your own individual agency and actions. To do that,
you first have to wrap your head around the core concepts. I have an
online class where I explain all of this here.
Here are 11 key principles of systems thinking. For a fantastic introduction, please check out this article.
Everything is interconnected: We
live on a closed ecosystem called planet Earth where everything is
connected to everything else. Otherwise, it ceases to survive and
thrive.
The easy way out often leads back in: If the solution were easy then it should have already been found.
Today’s problems are yesterday's solutions: We need to make sure we don't accidentally create tomorrow problems through today's solutions.
There is no blame in complex systems: Everything
is interconnected. Thus, it's impossible to ever find one culprit for a
problem. Systems have both the issue and the solution embedded within.
Parts are elements of a complex whole: Everything is part of something else; there are no isolated elements in a complex system.
There are no simple solutions to complex problems: We
need to embrace complexity in order to truly address complex issues.
Otherwise, we just deflect the problem to somewhere else in the system.
Small, well-placed interventions can have big impacts:
A well-designed, small intervention can result in significant and
enduring systems change if it is in the right place – this is called a
leverage point.
Humans make linear systems – nature makes circular ones: We can learn to create regenerative products and services through understanding nature's design principles.
Time changes complexity: Over
time, things naturally get more complex. Simplicity and efficiency are
very different things, yet we always think we can oversimplify
complexity or reduce it down to the sum of its parts.
‘Failure’ is discovery in disguise: If there is no blame, then there is always an opportunity to discover through failure.
Cause and effect are not related in time nor space: There
is a mismatch and often a delay in the relationship between the cause
of a problem in complex systems and the result (or symptom) appearing
obvious.