Shipulski On Design

Archive for the ‘Intellectual Intertia’ Category

Whether inventing new technologies, designing new products, or solving manufacturing problems, it’s important to understand assumptions. Assumptions shape the technical approach and focus thinking on what is considered (assumed) most important. Blindness to assumptions is all around us and is a real reason for concern.  And the kicker, the most dangerous ones are also the most difficult to see – your own assumptions. What techniques or processes can we use to ferret out our own implicit assumptions?

By definition, implicit assumptions are made without formalization, they’re not explicit. Unknowingly, fertile design space can be walled off. Like the archeologist digging on the wrong side of they pyramid, dig all he wants, he won’t find the treasure because it isn’t there. Also with implicit assumptions, precious time and energy can be wasted solving the wrong problem. Like the auto mechanic who replaced the wrong part, the real problem remains. Both scenarios can create severe consequences for a product development project.  (NOTE: the notion of implicit assumptions is closely related to the notion of intellectual  inertia.  See Categories – Intellectual Inertia for a detailed treatment.)

Now the tough part. How to identify your own implicit assumptions? When at their best, the halves of our brains play nicely together, but never does either side rise to the level of omnipotence. It’s impossible to stand outside ourselves and watch us make implicit assumptions. We don’t work that way. We need some techniques.

Narrow, narrow, narrow. The probability of making implicit assumptions decreases when the conflict domain is narrowed.

Narrow in space and time to make the conflict domain small and assumptions are reduced.

Narrow the conflict domain in space – narrow to two elements of the design that aren’t getting along. Not three elements – that’s one too many, but two. Narrow further and make sure the two conflicting elements are in direct physical contact, with nothing in between. Narrow further and define where they touch. Get small, really small, so small the direct contact is all you see. Narrowing in space reduces space-based assumptions.

Narrow the conflict domain in time – break it into three time domains: pre-conflict time, conflict time, post-conflict time. This is a foreign idea, but a powerful one. Solutions are different in the three time domains. The conflict can be prevented before it happens in the pre-conflict time, conflict can be dealt with while it’s happening (usually a short time) in the conflict time, and ramifications of the conflict can be cleaned up in the post-conflict time. Narrowing in time reduces time-based assumptions.

Assumptions narrow even further when the conflict domain is narrowed in time and space together, limiting them to the where and when of the conflict. Like the intersection of two overlapping circles, the conflict domain is sharply narrowed at the intersection of space and time – a small space over a short time.

It’s best to create a picture of the conflict domain to understand it in space and time. Below (click to enlarge) is an example where abrasives (brown) in a stream of water (light blue) flow through a hole in a metal plate (gray) creating wear of the sidewall (in red). Pre-conflict time is before the abrasive particles enter the hole from the top; conflict time is while the particles contact the sidewall (conflict domain in red); post-conflict time is after the particles leave the hole. Only the right side of the metal place is shown to focus on the conflict domain. There is no conflict where the abrasive particles do not touch the sidewall.

Even if your radar is up and running, assumptions are tough to see – they’re translucent at best. But the techniques can help, though they’re difficult and uncomfortable, especially at first.  But that’s the point.  The techniques force you to argue with yourself over what you know and what you think you know.  For a good start, try identify the two elements of the design that are not getting along, and make sure they’re in direct physical contact. If you’re looking for more of a challenge, try to draw a picture of the conflict domain. Your assumptions don’t stand a chance.

Everyone wants growth – but how? We know innovation is a key to growth, but how do we do it? Be creative, break the rules, think out of the box, think real hard, innovate. Those words don’t help me. What do I do differently after hearing them?

I am a process person, processes help me. Why not use a process to improve innovation? Try this: set up a meeting with your best innovators and use “process” and “innovation” in the same sentence. They’ll laugh you off as someone that doesn’t know the front of a cat from the back. Take your time to regroup after their snide comments and go back to your innovators.  This time tell them how manufacturing has greatly improved productivity and quality using formalized processes. List them – lean, Six Sigma, DFSS, and DFMA. I’m sure they’ll recognize some of the letters. Now tell them you think a formalized process can improve innovation productivity and quality. After the vapor lock and brain cramp subsides, tell them there is a proven process for improved innovation.

A process for innovation? Is this guy for real? Innovation cannot be taught or represented by a process. Innovation requires individuality of thinking. It’s a given right of innovators to approach it as they wish, kind of  like freedom of speech where any encroachment on freedom is a slippery slope to censorship and stifled thinking. A process restricts, it standardizes, it squeezes out creativity and reduces individual self worth. People are either born with the capability to innovate, or they are not. While I agree that some are better than others at creating new ideas, innovation does not have to be governed by hunch, experience and trial and error. Innovation does not have to be like buying lottery tickets. I have personal experience using a good process to help stack the odds in my favor and help me do better innovation.  One important function of the innovation process is to break intellectual inertia.

Intellectual inertia must be overcome if real, meaningful innovation is to come about. When intellectual inertia reigns, yesterday’s thinking carries the day.  Yesterday’s thinking has the momentum of a steam train puffing and bellowing down the tracks. This old train of thought can only follow a single path – the worn tracks of yesteryear, and few things are powerful enough to derail it. To misquote Einstein:

The thinking that got us into this mess is not the thinking that gets us out of it.

The notion of intellectual inertia is the opposite of  Einstein’s thinking. The intellectual inertia mantra: the thinking that worked before is the thinking that will work again.  But how to break the inertia? Read the rest of this entry »