Poka-yoke

is a Japanese term that means "mistake-proofing" or "inadvertent error prevention". A poka-yoke is any mechanism in a process that helps an equipment operator avoid (''yokeru'') mistakes (''poka'') and defects by preventing, correcting, or drawing attention to human errors as they occur. The concept was formalized, and the term adopted, by Shigeo Shingo as part of the Toyota Production System.

Etymology

Poka-yoke was originally ''baka-yoke'', but as this means "fool-proofing" (or " idiot-proofing") the name was changed to the milder ''poka-yoke''.
Poka-yoke is derived from ''poka o yokeru'' (ポカを避ける), a term in shogi that means avoiding an unthinkably bad move.

Usage

More broadly, the term can refer to any behavior-shaping constraint designed into a process to prevent incorrect operation by the user.

A simple poka-yoke example is demonstrated when a driver of the car equipped with a manual gearbox must press on the clutch pedal (a process step, therefore a poka-yoke) prior to starting an automobile. The interlock serves to prevent unintended movement of the car. Another example of poka-yoke would be the car equipped with an automatic transmission, which has a switch that requires the car to be in "Park" or "Neutral" before the car can be started (some automatic transmissions require the brake pedal to be depressed as well). These serve as behavior-shaping constraints as the action of "car in Park (or Neutral)" or "foot depressing the clutch/brake pedal" must be performed before the car is allowed to start. The requirement of a depressed brake pedal to shift most of the cars with an automatic transmission from "Park" to any other gear is yet another example of a poka-yoke application. Over time, the driver's behavior is conformed with the requirements by repetition and habit.

History

The term poka-yoke was applied by Shigeo Shingo in the 1960s to industrial processes designed to prevent human errors. Shingo redesigned a process in which factory workers, while assembling a small switch, would often forget to insert the required spring under one of the switch buttons. In the redesigned process, the worker would perform the task in two steps, first preparing the two required springs and placing them in a placeholder, then inserting the springs from the placeholder into the switch. When a spring remained in the placeholder, the workers knew that they had forgotten to insert it and could correct the mistake effortlessly.

Shingo distinguished between the concepts of inevitable human Error, mistakes and Product defect, defects in the production. Defects occur when the mistakes are allowed to reach the customer. The aim of poka-yoke is to design the process so that mistakes can be detected and corrected immediately, eliminating defects at the source.

Implementation in manufacturing

Poka-yoke can be implemented at any step of a manufacturing process where something can go wrong or an error can be made. For example, a fixture (tool), fixture that holds pieces for processing might be modified to only allow pieces to be held in the correct orientation, or a digital counter might track the number of spot welds on each piece to ensure that the worker executes the correct number of welds.

Shigeo Shingo recognized three types of poka-yoke for detecting and preventing errors in a mass production system:

# The ''contact'' method identifies product defects by testing the product's shape, size, color, or other physical attributes.
# The ''fixed-value'' (or ''constant number'') method alerts the operator if a certain number of movements are not made.
# The ''motion-step'' (or ''sequence'') method determines whether the prescribed steps of the process have been followed.

Either the operator is alerted when a mistake is about to be made, or the poka-yoke device actually prevents the mistake from being made. In Shingo's lexicon, the former implementation would be called a ''warning'' poka-yoke, while the latter would be referred to as a ''control'' poka-yoke.

Shingo argued that errors are inevitable in any manufacturing process, but that if appropriate poka-yokes are implemented, then mistakes can be caught quickly and prevented from resulting in defects. By eliminating defects at the source, the cost of mistakes within a company is reduced.

A methodic approach to build up poka-yoke countermeasures has been proposed by the Applied Problem Solving (APS) methodology,Ivan Fantin (2014). Applied Problem Solving. Method, Applications, Root Causes, Countermeasures, Poka-Yoke and A3. How to make things happen to solve problems. Milan, Italy: Createspace, an Amazon company. which consists of a three-step analysis of the risks to be managed:
# Identification of the need
# Identification of possible mistakes
# Management of mistakes before satisfying the need
This approach can be used to emphasize the technical aspect of finding effective solutions during brainstorming sessions.

Benefits of poka-yoke implementation

A typical feature of poka-yoke solutions is that they don't let an error in a process happen. Other advantages include:
* Less time spent on training workers;
* Elimination of many operations related to quality control;
* Unburdening of operators from repetitive operations;
* Promotion of the work improvement-oriented approach and actions;

* A reduced number of rejects;
* Immediate action when a problem occurs;
* 100% built-in quality control;
*Preventing bad products from reaching customers;
*Detecting mistakes as they occur;
*Eliminating defects before they occur.

See also

* Idiot-proof
* Defensive design
* Fail-safe
* Interlock (engineering), Interlock
* Murphy's law

References

Further reading

*
*
*
*

External links

Mistake-Proofing Example Wiki



{{Six Sigma Tools, state=collapsed

Japanese business terms
Lean manufacturing