Seven wastes of negotiation: Difference between revisions
Amwelladmin (talk | contribs) No edit summary |
Amwelladmin (talk | contribs) No edit summary |
||
Line 17: | Line 17: | ||
*'''{{wasteprov|Defects}}''': Products that don’t work as billed and which may require replacement or re-tooling. Consider the factors that lead to defects: complexity in the product design and manufacturing process. Which is more likely to break down, and what would you rather fix: a Range Rover Evoque, or a 1982 [[Toyota Hilux]]? | *'''{{wasteprov|Defects}}''': Products that don’t work as billed and which may require replacement or re-tooling. Consider the factors that lead to defects: complexity in the product design and manufacturing process. Which is more likely to break down, and what would you rather fix: a Range Rover Evoque, or a 1982 [[Toyota Hilux]]? | ||
===On machines, humans, and the relations between=== | ===On machines, humans, and the relations between=== | ||
Here is wisdom, taken directly from the Toyota site: | Here is wisdom, taken directly from the Toyota site, which you might think explains the dissatisfaction of [[reg-tech]] and [[outsourcing]]: | ||
:''Machines and robots do not think for themselves or evolve on their own. Rather, they evolve as we transfer our skills and craftsmanship to them. In other words, craftsmanship is achieved by learning the basic principles of manufacturing through manual work, then applying them on the factory floor to steadily make improvements. This cycle of improvement in both human skills and technologies is the essence of Toyota's [[jidoka]].<ref>Literally, “automation with a human touch”.</ref> ''Advancing [[jidoka]] in this way helps to reinforce both our manufacturing competitiveness and human resource development''. | :''Machines and robots do not think for themselves or evolve on their own. Rather, they evolve as we transfer our skills and craftsmanship to them. In other words, craftsmanship is achieved by learning the basic principles of manufacturing through manual work, then applying them on the factory floor to steadily make improvements. This cycle of improvement in both human skills and technologies is the essence of Toyota's [[jidoka]].<ref>Literally, “automation with a human touch”.</ref> ''Advancing [[jidoka]] in this way helps to reinforce both our manufacturing competitiveness and human resource development''. |
Revision as of 10:06, 1 October 2019
Negotiation Anatomy™
|
The Toyota Production System (TPS) was created by Toyota’s chief engineer Taiichi Ohno to eliminate waste, called “muda.” Waste — as opposed to cost, is the enemy on any production line: a process that is inherently necessary must add value, even if it is expensive[1] so you should be cool about paying a fair value for it.
Processes which do not add value are inherently wasteful. The job is to eliminate waste, not cost per se. To get rid of waste, you have to know exactly what waste is and where it exists.
Ohno-sensei categorised seven types of waste and for each one, suggested reduction strategies.
Even though he was talking about a physical manufacturing line, Ohno-sensei’s categories of waste cross over pretty well to the contract negotiation process, a fact which seems to have escaped every management consultant who has ever ruminated on the issue. A lot of them have.
Summary
The seven wastes, as applied to contract negotiation, are these:
- Overproduction: Negotiating contracts that are never ultimately executed, or which are, but where there is low (or no) order flow. Cars which you can’t sell.
- Waiting: Any point in the negotiation process where you are waiting for continuing the negotiation: drafts to client; questions to sales; escalations to risk.
- Transport: Any unnecessary hand-offs to other departments (or the client) is the equivalent of transporting stock in trade in a physical manufacture process. Keep it to a minimum by sequencing the production inputs.
- Over-processing: Unncessary complexity in product design and manufacture that doesn’t have any practical application for the client, or utility for your risk management team. Hint: this is the gorilla in the room.
- Inventory: Work in progress that is not finished product on the shop floor. In a negotiation, that is the client agreement for the time between inception and execution. The longer that average period the larger the inventory. You can’t make any money out of a product while it’s still in the factory.
- Motion: The longer and more convoluted a contract is the longer it takes to read, understand, comment on and conclude. All other things being equal, any unnecessary formal complexity will add time and effort to the job. Short, utilitarian, Spartan contracts. Easy to handle. Robust.
- Defects: Products that don’t work as billed and which may require replacement or re-tooling. Consider the factors that lead to defects: complexity in the product design and manufacturing process. Which is more likely to break down, and what would you rather fix: a Range Rover Evoque, or a 1982 Toyota Hilux?
On machines, humans, and the relations between
Here is wisdom, taken directly from the Toyota site, which you might think explains the dissatisfaction of reg-tech and outsourcing:
- Machines and robots do not think for themselves or evolve on their own. Rather, they evolve as we transfer our skills and craftsmanship to them. In other words, craftsmanship is achieved by learning the basic principles of manufacturing through manual work, then applying them on the factory floor to steadily make improvements. This cycle of improvement in both human skills and technologies is the essence of Toyota's jidoka.[2] Advancing jidoka in this way helps to reinforce both our manufacturing competitiveness and human resource development.