|
|
The TRIZ Journal
 |
|
|
|
|
|
Assessing The Accuracy Of The Contradiction Matrix For Recent Mechanical
Inventions
[ Previous ] [ Home Page ] [ Up 1 Level ] [ Next ]
Assessing The Accuracy Of The Contradiction
Matrix For Recent Mechanical Inventions
Darrell Mann
Industrial Fellow, University of Bath
Bath, BA2 7AY, UK
Phone: +44 (1225) 826465
Fax: +44 (1225) 826928
E-mail: D.L.Mann@bath.ac.uk
Introduction
While some parts of the TRIZ community might debate the value of the
Contradiction Matrix (Reference 1, 2) as a problem-solving tool, it is
undoubtedly an attractive concept to both users and newcomers. A large part of
the dis-satisfaction with the Matrix seems actually to stem from the fact that
it is out of date rather than conceptually incorrect, and that to update it
would require a lot of effort that might be better spent elsewhere.
A previous article (Reference 3) included the following figure as a way of
highlighting the extent of the problems associated with the current classic
Matrix. Or rather, due to its lack of quantified data, suggested the extent of
the problems.
Figure 1: Relative Efficacy of Contradiction Matrix For
Different Problem Types
This article reports a brief study conducted by 32 final year engineering and
design undergraduates at the University of Bath to calibrate the Matrix against
a cluster of recent mechanically-oriented inventions.
Method
The study was conducted by allowing students to select a random set of
patents from the US and European patent databases, the only criteria being that
the patents should describe an essentially mechanical-based system and that the
patent should have been granted in the last ten and preferably five years. No
other selection criteria were formally applied, although there was an overall
suggested direction towards picking inventions that were ‘interesting’ in some
form or other - this usually meant a solution featuring some kind of ‘wow’
moment. Each student was tasked with identifying four patents for analysis - and
hence the total dataset for analysis comprised over 130 different inventions.
For each patent, the student was required to identify what aspects of a
design the inventor was seeking to improve, what parameters these aspects
conflicted with, and how the inventor overcame the conflict. In broad terms,
these elements can be extracted from the background, summary and claims sections
of the invention disclosure text. For each patent, the student was required to
cut and paste the relevant section of text, show how it mapped onto the terms of
the Matrix, and show if/how the inventive step related to one or more of the
Inventive Principles. There was no instruction to distill either conflict
parameters or Inventive Principles down to a ‘best one’; if the inventor solved
more than one conflict, or if the conflict was blurred across several
parameters, or if more than one Principle was used, the student was asked to
record all of the information.
Below is an example of the type of analysis conducted for each patent:
Figure 2: Exemplar Patent - US6,230,788
From the patent text…..
- BACKGROUND OF THE INVENTION
The invention relates to a device for applying labels, as defined in the
preamble of the independent claim 1.
Applying labels to flat mail items quickly and reliably poses a problem in the
processing of flat mail items,
- particularly letters, post cards, etc., in mail-processing facilities. An
example of this is automatic mail forwarding.
- In this instance, mail items are separated out for forwarding addressing,
and re-addressed with corresponding,
- predetermined data stored in a database. A label that covers the old
address and, if applicable, a barcode
- printed on the surface of the mail item, is affixed to these items. The
label is then provided with a new barcode
- and the corresponding, new address. The label is applied in devices that
are integrated into automatic letter-
- distribution systems. The mail volume for such distribution systems varies
in format, weight and thickness. In
- these systems, the items are conveyed at a speed of, for example, 3.6
m/sec, which places stringent
- requirements on the speed at which the labels must be applied, as well as
on the exact positioning of the
- labels. Furthermore, the handling and especially the transport of the
labels to the item surface represent a
- general problem when the label has a self-adhesive surface.
A device of the above-outlined type is disclosed in U.S. Pat. No. 5,200,007.
It is the object of the present invention to provide a device for applying
labels to flat mail items, wherein the
- supply of the labels to the region of application and the trimming of the
labels is performed inexpensively with
- high advancing speed and accurate positioning.
According to the invention, this object is accomplished by the features of
claim 1. Advantageous embodiments
- of the invention ensue from the dependent claims and the description.
A notable advantage of the invention is a high flexibility in the positioning
of the labels on the mail items, and
- a simple process of supplying the labels to the application region. The
conveying speed of the mail items
- need not be reduced for label application. For the duration of the process
of supplying the labels to the
- application region, and during the application itself, the labels are
mechanically held, so no uncontrolled
- changes in position occur. The labels can be supplied from a simple label
strip or a label carrier strip.
etc
….the student is required to pick out the conflicting parameters….
….see what the classic Matrix recommends as its ‘top 4 most likely’….
Matrix recommends:-
Parameter Changes, Prior Action, Curvature
….and then pick out the Inventive Principles actually used by the inventor….
Siemens used:-
- “…a label conveying and cutting device that is controlled
by a sensor device for determining
- the position of a front edge of the flat mail item…”
Prior Action, Feedback
….and so, in this case, we are able to record a partial match between Matrix
and what the inventor used. Thus, in terms of quantifying the ‘success’ of the
classical Matrix, this invention scores one out of two - i.e. two Principles
were used; the Matrix suggested one of them.
The total success rate of the Matrix was then calculated by summing all the
Principles contained in the Matrix used by each inventor, and dividing that
total by the sum of every Principle used in each of the patents under
evaluation.
Throughout the exercise - carried out over a period of two weeks - students
were also asked to pay attention to either conflict parameters or inventive
strategies that did not fit into the existing Matrix/Inventive Principle
framework.
Results
The following table summarises the analyses for each of the patents
successfully analysed. In order to ensure consistency of analysis across each
patent, this author has monitored each one individually. The table provides
patent number, title, improving parameter(s), worsening parameter(s), Inventive
Principles recommended by the classic Matrix, and Inventive Principles used by
the inventor. Anyone wishing to see the specific analysis for any of the patents
in question may request a copy from the author. Alternatively, you may like to
conduct a few analyses for yourself to see if you agree with the diagnoses
presented here.
| Patent Number |
Short Title |
Improving Parameter |
Worsening Parameter |
Matrix Recommendation |
Inventor Used.. |
| 4923041 |
Liquid Friction Coupling Blade |
10 |
13 3 |
35,10,21 17,19,9,36 |
35, 17, 4 |
| 4966257 |
Shock Absorbing Damper |
10 |
5 |
19,10,15 |
15 |
| 5473723 |
Optical Fibre Sheath |
33 |
24 |
4,10,27,22 |
3 |
| 5485307 |
Binoculars |
35 |
12 |
15,37,1,8 |
1 |
| 5485359 |
Remote control Holder |
18 |
19 |
32,1,19 |
25 |
| 5485360 |
Miniature Flashlight |
11 |
13 31 |
35,33,2,40 2,33,27,18 |
24,23 |
| 5493544 |
Noble Metal Watch Case |
26 2 |
14 |
14,35,34,10 28,2,27,10 |
2,35 |
| 5493551 |
Disk Loading Apparatus |
33 |
36 |
32,26,12,17 |
17 |
| 5493578 |
Ash Melting Furnace |
26 |
22 |
7,18,25 |
25 |
| 5493580 |
Recycling Filter Dust |
23 |
22 |
35,27,2,31 |
1,35,31 |
| 5540495 |
Injection Assembly |
8 |
36 10 |
1,31 2,18,37 |
31,17 |
| 5543179 |
Head Treatment Device |
30 |
14 |
35,18,37,1 |
16,10, 1 |
| 5543179 |
Evaluating Pummelled Glass |
37 |
18 |
2,24,26 |
32,23 |
| 5544090 |
Removal of Entities from Textiles |
30 |
15 26 |
22,15,33,28 35,33,29,31 |
29,23, 1 |
| 5568961 |
Tubular Seat Frame |
14 |
1 |
1,8,15,40 |
1,15 |
| 5569009 |
Loosening Prevention Screw |
27 |
36 |
13,35,1 |
1 |
| 5569282 |
Retractable Surgical Knife |
31 |
33 |
- |
7 |
| 5570342 |
Disk Cartridge |
5 |
36 |
14,1,13 |
1 |
| 5650591 |
Waterproof Casing |
31 |
17 |
22,35,2,24 |
31 |
| 5650983 |
PCB Magnetic Head |
8 2 |
24 |
- 10,15,35 |
5 |
| 5650990 |
Mini-Disc Tray |
10 19 |
13 |
35,10,21 19,13,17,24 |
15 |
| 5651055 |
Digital Secretary |
33 38 |
24 |
4,10,27,22 35,33 |
10,28 |
| 5666803 |
Vectored Thrust Compressor |
31 12 |
36 32 |
19, 1, 31 1,32,17,28 |
1,17 |
| 5666937 |
Repeat-Fire Pellet Rifle |
27 |
36 7 |
1,13,35 3,10,14,24 |
10,13 |
| 5667294 |
Strip Sport Light |
33 |
35 |
15,34,1,16 |
15,1 |
| 5668542 |
Aircraft Cockpit Display |
31 33 |
36 |
1,19,31 12,17,26,32 |
1,32 |
| 5680467 |
Hearing Aid |
28 |
13 |
32,35,13 |
35 |
| 5680468 |
Automotive Speaker Equalisation |
16 |
33 |
1 |
1 |
| 5694827 |
Cushioned Unloading Cycle for Truck |
15 |
9 |
3,35,5 |
3,35,5 |
| 5724415 |
Coin Deflector for Telephone |
7 |
5 |
1,7,4,17 |
17 |
| 5724478 |
Liquid Heater Assembly |
22 |
6 |
17,7,30,18 |
1,17 |
| 5724625 |
Belt_Driven Shutters |
9 |
11 |
6,18,38,40 |
6,1 |
| 5724663 |
Carphone Connected to Audio Unit |
31 33 |
35 |
- 15,34,1,16 |
5 |
| 5746360 |
Coat Hanger Bag |
7 |
31 |
17,2,40,1 |
2,30 |
| 5772623 |
Easy Removal Bandage |
33 |
31 15 |
- 29,3,8,25 |
3,17,5 |
| 5790028 |
Anti-Robbery Handbag |
27 24 |
36 21 |
13,35,1 10,19 |
10,24 |
| 5810078 |
Control of Vehicle Interiors |
17 |
28 |
3,10,19,35 |
10 |
| 5815984 |
Casement Window Operator |
33 |
13 10 |
32,35,30 28,13,35 |
13,24,4 |
| 5824184 |
Peel-off Backing for Adhesive Tape |
33 |
3 |
1,17,13,12 |
3 |
| 5899166 |
Boat Hull Protector |
33 |
7 |
1,16,35,15 |
35,30 |
| 5900705 |
Bicycle Motor Control |
33 |
31 |
- |
13,5 |
| 5900819 |
Drowsy Driver Detector |
30 |
33 3 |
2,25,28,39 17,1,39,4 |
1,5,35 |
| 5900821 |
Rain Sensor System |
32 |
35 |
2,13,15 |
2 |
| 5924704 |
Foot Supporting Roller |
15 |
36 27 |
10,4,29,15 11,2,13 |
15 |
| 5992588 |
Suitcase |
10 |
3 |
17,19,9,36 |
17 |
| 5999869 |
Electric Power Steering |
31 |
15 |
15,22,33,31 |
23 |
| 6003407 |
Motorcycle Toe-Shift Seal |
27 |
36 |
13,35,1 |
7,24 |
| 6050219 |
Animal Milking Apparatus |
15 |
25 |
20,10,28,18 |
20,23 |
| 6053646 |
Ergonomic Computer Input Device |
31 10 |
9 |
35,28,3,21 1,28,3,25 |
28 |
| 6053805 |
Dust Free Sander |
26 |
36 |
13,35,1 |
13,3,5 |
| 6065555 |
Power Assisted Wheelbarrow |
19 |
22 |
12,22,15,24 |
23 |
| 6084576 |
User Friendly Keyboard |
33 |
5 |
1,17,13,16 |
1,13 |
| 6098208 |
Protective Baseball Pads |
5 |
1 |
2,17,29,4 |
14,30 |
| 6099018 |
Snowboard Binding |
31 |
12 |
35,1 |
1,17 |
| 6099150 |
Bicycle Brake Light |
33 |
15 |
29,3,8,25 |
40 |
| 6099658 |
Pool Cleaner |
9 |
31 |
2,24,35,21 |
24 |
| 6157887 |
Brake System |
36 |
32 |
27,26,1,13 |
26,1,28 |
| 6166359 |
Induction Heating for Pipe Welds |
17 |
22 |
21,17,35,38 |
1,28 |
| 6176374 |
Sensitive Component Container |
11 |
14 |
9,18,3,40 |
9,3 |
| 6179727 |
Dual Radius Putter |
35 |
36 |
15,29,37,28 |
4,20 |
| 6182299 |
Baseball Chest Protector |
14 |
33 17 |
2,28,32,40 30,10,40 |
2,3, 40 |
| 6203313 |
Reconfigurable Candle |
35 |
14 |
35,3,32,6 |
1,35 |
| 6204482 |
Cooling a Toaster Oven |
17 22 |
31 |
22,35,2,24 21,17,35,38 |
1,30 |
| 6220333 |
Bar Code Stencil |
24 |
27 |
10,28,23 |
17,28,13 |
| 6213258 |
Auto-Compensating Drum Brake |
4 16 |
8 |
35,8,2,14 35,34,38 |
1,15,35 |
| 6216864 |
Golf Club Holder |
31 |
36 |
19,1,31 |
31,1,35 |
| 6223658 |
Weighted Paintball |
31 |
35 |
- |
1,30 |
| 6227989 |
Line Marking System |
16 33 |
31 |
1,17,40,33 2,25,28,39 |
17,10, 24,31 |
| 6239337 |
Shoulder Rest for Musical Instrument |
35 |
31 |
- |
35 |
| 6256886 |
Device for Cutting Vegetation |
31 1 |
36 |
19,1,31 26,30,36,34 |
15,28 |
| 6257009 |
Ice Dispenser |
39 |
17 23 |
35,21,28,10 28,10,35,23 |
35,23 |
| 6260276 |
Adjustable Length Clipper |
35 |
36 |
15,29,37,28 |
15,6 |
| 6272687 |
Needle-Proof Gloves |
14 |
33 |
32,40,25,2 |
3,40,15 |
| 6279720 |
Coin Handling Mechanism |
27 |
30 |
2,27,35,40 |
2 |
| 6283549 |
Adjustable Office Chair |
35 |
13 |
35,30,14 |
14,4 |
| 6290148 |
Fuel Injection Nozzle Delay |
38 |
36 |
15,24,10 |
24,10 |
| 6290196 |
Holding Device for Surgical Instrument |
3 |
7 |
7,17,4,35 |
3,7, 17 |
| 6293565 |
Roller Hockey Skate |
9 35 |
31 |
2,21,24,35 - |
17,14,3 |
| 6296160 |
Clothes Hanger |
31 33 |
36 |
19,1,31 32,26,12,17 |
8,5 |
| 6298993 |
Diaper Bag |
33 12 |
35 7 |
15,34,1,16 14,4,15,22 |
1,2 |
| 6299550 |
Golf Ball |
3 |
9 |
13,4,8 |
13 |
| 6303074 |
Rotor for Molten Metal Pumping |
7 |
5 19 |
1,7,4,17 35 |
17 |
| 6305305 |
Kneeboard |
3 |
10 |
17,10,4 |
17 |
| 6306040 |
Telescopic Baton |
7 |
36 |
26,1 |
1,15 |
| H1947 |
Expandable Police Baton |
33 14 |
3 |
1,17,13,12 1,15,8,35 |
1,7,17 |
| GB2303376 |
Pigment Ink |
13 |
26 |
15,32,35 |
35,24 |
| GB2303439 |
Gas Turbine Combustor |
13 |
35 |
35,30,34,2 |
35 |
| GB2303469 |
Vehicle Speed Limiter |
24 31 |
36 |
- 19,1,31 |
19 |
| GB2303510 |
Radar Wheel Detector |
30 |
27 21 |
27,34,2,40 19,22,31,2 |
19,28 |
| GB2307485 |
Bubble Generator |
15 |
10 |
2,16,19 |
4,18 |
| GB2309876 |
Ultraviolet Water Treatment |
36 |
30 |
22,19,29,40 |
2 |
| GB2312704 |
Lifting Offshore Platforms |
1 |
30 |
22,21,27,39 |
22 |
| GB2315973 |
Plant Watering System |
23 |
17 |
21,36,39,31 |
31 |
| GB2315980 |
Sports Shoe |
12 |
8 |
7,2,35 |
2,35 |
| GB2315994 |
Rainwater Collection for Automobiles |
26 |
7 |
15,20,29 |
25 |
| GB2316044 |
Vehicle Wheel Trim |
10 |
33 |
1,28,3,25 |
1,15 |
| GB2350145 |
Escape Ladder Assembly |
33 |
35 |
15,34,1,16 |
15 |
| GB2350268 |
Packet Data Transmission |
24 |
27 |
10,28,23 |
10 |
| WO 01/13760 |
Hyperaemia Comb |
7 |
5 |
1,7,4,17 |
17,4 |
| WO 01/70445 |
Airbag Deployment Trim Piece |
28 |
3 |
5,16,26,28 |
5,26 |
Of the patents analysed, the net effectiveness of the Matrix was calculated
as 48%. In other words, in 48% of inventive problem situations, the Matrix in
its current form would have enabled the inventor to reach the eventually
patented solution.
Conclusions
The classical TRIZ Contradiction Matrix was assembled from primarily
mechanically biased patents from twenty or more years ago. While the sample here
is of a significantly smaller size than the original analysis, it is
nevertheless sufficient to allow some statistical comparison to be made. The 48%
success rate, although lower than some estimates (higher than others, however)
should give us at least some confidence that the Matrix is still relevant for
mechanical problems. The most significant shifts in thinking appear to come
through increased use of Principle 23, Feedback, and to a lesser extent 25,
Self-Service - and these now appear to be somewhat under-represented in the
classic Matrix. Conversely, while the Matrix suggests Principle 22, Blessing In
Disguise relatively frequently, the patents analysed suggest it has rarely been
utilized. In terms of the 39 parameters contained in the Matrix, it was evident
throughout the monitoring of the patents that parameter 31’Object Generated
Harmful Effects’ was used in a relatively high number of cases. The parameter
has to be used to wrap up a wide variety of issues (safety, noise, environmental
harm, etc), which would ideally be handled by introducing more parameters into
the Matrix.
The classical Matrix, of course, should not be interpreted as saying that the
Principles used or usable to solve a given contradiction type are limited to the
ones published - merely that these are the ‘most likely’. If the Matrix
recommends any three or four Principles for a given contradiction, it does not
preclude the achievement of a strong solution from one of the other 36 or 37
Principles. The results of this study are suggesting that, for mechanically
oriented problems, the Matrix recommendations will be ‘right’ just under half of
the time. We should continue, therefore, to use the Matrix as a ‘useful start
point’ rather than as a definitive end.
Final Thoughts
If TRIZ is about finding win-win solutions and maximizing the utilization of
resources, the idea of using students to help update the TRIZ methodology
appears to offer a very good match. The activity conducted by this batch of
students served to familiarize them with searching patents, observing the way
patents are written, understanding contradictions, familiarizing themselves with
the Inventive Principles, in addition to providing the TRIZ community with some
hopefully useful data.
It would be good to extend this type of analysis to patents from
non-mechanical areas in the future. The author is happy to pass on teaching and
assignment instruction data for anyone wishing to attempt a similar exercise
with students elsewhere.
Meanwhile, CREAX nv in Belgium is in the process of systematically analyzing
and codifying patents for contradictions, trends of evolution, inventive
standards and knowledge/effects content, starting from the present day and
working back in numerical order, patent-by-patent back to the time when
systematic analysis previously stopped. The fruits of this updating activity
will gradually be published via www.creax.com. Anyone wishing to find out more
about this work, or wishing to participate in some way should get in touch with
the author.
Acknowledgements
The author would like to thank all of the students for participating in the
exercise; without their efforts, this article literally would not have been
possible.
References
- Domb, E., ‘Contradiction Matrix’, TRIZ Journal, September 1998.
- Salamatov, Y., ‘TRIZ: The Right Solution At The Right Time’, Insytec BV,
Netherlands, 1999.
- Mann, D.L., ‘The Space Between Generic and Specific Solution’, TRIZ
Journal, August 2001.
ã 2002, D.L.Mann, all rights reserved.
|
|
|
