5 of 5 people found the following review helpful
A modern and detailed text on TRIZ for technologist and beyond,
This review is from: TRIZ for Engineers: Enabling Inventive Problem Solving (Paperback)
I liked TRIZ for Engineers. As a practicing engineer for 20 years, and as a student of TRIZ for five years, I have read a wide range of text on classical TRIZ and higher levels of TRIZ approaches used in inventive problem solving. The book presents real engineering problems in short form scenarios and through case studies that include detailed notes on how to use a range of TRIZ tools to generate solutions. The example problems are engineering based, but less industrial focused, so the examples have a wide application to the engineering market and technologist new to the basic TRIZ concepts.
The book offers problem solving maps and algorithms that illustrate how the TRIZ tools presented in the chapters can combine to form larger algorithms. The solution maps present through out the chapters flow through the early phases of developing a problem statement, identifying which TRIZ tools fit the problem scenario and onward to developing and applying solutions. The book also offers color figures and tables, which compliment the text as it illustrates how TRIZ is used to model systems and analyze functions. Thematic cartoons are included, as the author notes to bring some levity to the educational process. In my opinion, the cartoons present a physical contradiction as a reader, as they both add and distract from the text and the more formal diagrams and figures.
The author emphasizes that TRIZ is a set of tools, which can offer more than one solution to a problem and that all solutions have some level of merit based on the users needs. This perspective is well supported in the book's classical TRIZ modeling examples. The later chapters include examples of the Traditional TRIZ 76 Standard Solutions, Substance-Field modeling, and ARIZ, which adds clarity to modeling problems with higher-level TRIZ tools. These advanced concepts discussions are supported with case study based examples. The book offers illustrations of blank worksheets that students can use as a reference to help analyze and execute the book's algorithms while problem solving. There are also chapters describing how the TRIZ concepts can be used to analyzing trends and inventing with TRIZ beyond the basic problem solving.
The best part of the book from my perspective is the text-based descriptions of creating a functional analysis model and developing solutions through trimming and substitution of the functional models. I complement Karen Gadd on her efforts to bring TRIZ to engineers, and will recommend the book to TRIZ novices and more experienced inventive problem solvers.