This paper presents a general theory to determine the sensitivity of tolerances to the performance quality of mechanisms and a technique to identify a robust design, which is the least sensitive to the tolerances. The method is demonstrated in position synthesis of linkages. The sensitivity Jacobian is first introduced to relate the performance tolerances and the dimensional tolerances. The Rayleigh quotient of the sensitivity Jacobian, which is equivalent to Taguchi’s signal to noise ratio, is then used to define the performance quality and a sensitivity index is introduced to measure the sensitivity of the performance quality to the dimensional tolerances for the whole system. The ideal tolerance distribution is obtained in closed form. It shows how the tolerance specification affects the performance quality and that the performance quality can be significantly improved by tightening a key tolerance while loosening the others. The theory is general and the technique can be adapted easily for other mechanical systems, including multiple-loop linkages.

Issue Section:
Research Papers
Topics:
Design, Linkages, Signal to noise ratio
1.
Angeles
J.
,
1992
, “
The Design of Isotropic Manipulator Architectures in the Presence of Redundancies
,”
The International Journal Of Robotics Research
, Vol.
11
, pp.
196
201
.
2.
Angeles
J.
, and
Ma.
O.
,
1991
, “
Performance Evaluation of Four-bar Linkages For Rigid-Body Guidance Based on Generalized Coupler Curves
,”
ASME JOURNAL OF MECHANICAL DESIGN
, Vol.
113
, pp.
17
24
.
3.
Benhabib
B.
,
Fenton
R. G.
, and
Goldensberg
A. A.
,
1987
, “
Computer-aided Joint Error Analysis of Robots
,”
IEEE Journal of Robotics and Automation
, Vol.
RA-3
, No.
4
, pp.
317
322
.
4.
Benner, M. M., and Erdman, A. G., 1992, “Tolerance Synthesis Method for an Industrial Crank-Rocker Application,” ASME DE-Vol. 46, pp. 463–473.
5.
Bert
Bras and Farrokh Mistree
,
1993
, “
A Compromise Decision Support Problem For Axiomatic and Robust Design
,”
Advances in Design Automation
, DE-Vol.
65–1
, pp.
359
366
.
6.
Cheng, H., and Gupta, K. C., 1988, “Design of Mechanisms via Constrained Least-squares Method and its Variants,” ASME DE Vol. 15–1, pp. 305–315.
7.
Chakraborthy
J.
,
1975
, “
Synthesis of Mechanical Error in Linkages
,”
Mechanisms and Machine Theory
, Vol.
10
No.
1
, pp.
155
165
.
8.
Chase
K. W.
, and
Greenwood
W. H.
,
1988
, “
Design Issues in Mechanical Tolerance Analysis
,”
ASME Manufacturing Review
, Vol.
1
, No.
1
, pp.
50
59
.
9.
Chase, K. W., and Sorensen C. D., 1989, “Recent Developments in Tolerance Analysis Software for Mechanical Assemblies, Part A: Two-Dimensional Modeling,” Proceedings of the ASQC Western Regional Conference, pp. 73–80.
10.
Cleghorn, W. L., Fenton, R. G., and Fu, J. F., 1988, “Optimum Tolerancing of Planar Mechanisms Based on An Error Sensitivity Analysis,” Trends and Developments in Mechanisms, Machines, and Robotics, pp. 209–215.
11.
Cheng
Hui
, and
Gupta
K. C.
,
1988
, “
Design of Mechanisms Via Constrained Least-Squares Method and Its Variants
,”
ASME JOURNAL OF MECHANISMS, TRANSMISSIONS AND AUTOMATION IN DESIGN
, Vol.
110
, pp.
429
434
.
12.
Craig, J. J., 1989, Introduction to Robotics: Mechanics and Control, Second Edition, Addison Wesley.
13.
Dhande
S. G.
, and
Chakraborty
J.
,
1973
, “
Analysis and Synthesis of Mechanical Errors in Linkages-A Stochastic Approach
,”
ASME JOURNAL OF ENGINEERING FOR INDUSTRY
, Vol.
95
, pp.
672
676
.
14.
Dhande
S. G.
, and
Chakraborty
J.
,
1978
, “
Mechanical Error Analysis of Spatial Linkages
,”
ASME JOURNAL OF MECHANICAL DESIGN
, Vol.
100
, pp.
732
738
.
15.
Dubowsky
S.
,
1974
, “
On Predicting the Effects of Clearances in Planar Mechanisms
,”
ASME JOURNAL OF ENGINEERING FOR INDUSTRY
, Vol.
95
, Series B, No.
1
, pp.
609
615
.
16.
Faik
S.
, and
Erdman
A. G.
,
1991
, “
Sensitivity Distribution in Synthesis Solution Space of Four-bar Linkages
,”
ASME JOURNAL OF MECHANICAL DESIGN
, Vol.
113
, pp.
3
9
.
17.
Fenton
R. G.
,
Cleghorn
W. L.
, and
Fu
J. F.
,
1989
, “
Allocation of Dimensional Tolerances for Multiple Loop Mechanisms
,”
ASME JOURNAL OF MECHANISMS, TRANSMISSIONS, AND AUTOMATION IN DESIGN
, Vol.
111
, pp.
465
470
.
18.
Forsythe, G. E., Malcolm, M. M., and Moler, C. B., 1977, Computer Methods for Mathematic Computations, Prentice Hall, Englewood Cliffs, NJ.
19.
Golub, G., and Van Loan, C. F., 1983, Matrix Computations, Johns Hopkins University Press.
20.
Gosselin
C.
, and
Angeles
J.
,
1991
, “
A Global Performance Index for the Kinematic Optimization of Robotic Manipulators
,”
ASME JOURNAL OF MECHANICAL DESIGN
, Vol.
113
, pp.
220
226
.
21.
James, P. A., and Roth, B., 1990, “Unified Theory for Finite, Infinitesimal, and Hybrid Kinematic Synthesis,” ASME DE Vol. 25, pp. 461–469.
22.
Klein
C. A.
, and
Blaho
B. E.
,
1987
, “
Dexterity Measures for the Design and Control of Kinematically Redundant Manipulators
,”
The International Journal Of Robotics Research
, Vol.
6
, pp.
72
83
.
23.
Klema
V. C.
, and
Laub
A. J.
,
1980
, “
The Singular Value Decomposition, Its Computation and Some Applications
,”
IEEE Transactions on Automatic Control
, Vol.
25
, pp.
164
176
.
24.
Lancaster, P., 1969, Theory of Matrices, Academic Press, Inc., New York.
25.
Lee
M.
,
Erdman
A. G.
, and
Faik
S.
,
1992
, “
A Generalized Performance Sensitivity Synthesis Methodology for Four-bar Mechanisms
,”
Mechanical Design and Synthesis
, DE-Vol.
46
, pp.
1
4
.
26.
Lee
S. J.
, and
Gilmore
B. J.
,
1991
, “
The Determination of the Probabilistic Properties of Velocities and Accelerations in Kinematic Chains with Uncertainty
,”
ASME JOURNAL OF MECHANICAL DESIGN
, Vol.
113
, pp.
84
90
.
27.
Long, Y., 1991, “On the Minimum Errors of Mechanisms and the Optimum Tolerances of Structural Parameters,” Chinese Journal of Mechanical Engineering, No. 3, pp. 45–49.
28.
Long
Y.
, and
Lu
J. Q.
,
1993
, “
On the Optimum Tolerances of Structural Parameters and Kinematic Parameters of Robot Manipulators
,”
Mechanisms and Machine Theory
, Vol.
28
, No.
6
, pp.
819
824
.
29.
Mahableshwarkar
S. V.
, and
Kramer
S. N.
,
1990
, “
Sensitivity Analysis of the Burmester Equations of Planar Motion
,”
ASME JOURNAL OF MECHANICAL DESIGN
, Vol.
112
, pp.
299
306
.
30.
Mistree
F.
,
Muster
D.
,
Srinivasan
, and
Mudali
S.
,
1990
a, “
Design of Linkages: A Conceptual Exercise in Designing for Concept
,”
Mechanism and Machine Theory
, Vol.
25
, No.
3
, pp.
273
286
.
31.
Nahvi, F., and Midha, A., 1988, “Approximate Circular and Straight-line Path Generation with High Performance Function-Generating Linkages,” ASME DE-Vol. 15-1, pp. 379–387.
32.
Sabada
S.
,
Srinivasan
U.
,
Kinzel
G. L.
, and
Waldron
K. J.
,
1988
, “
Automatic Synthesis of Four-bar Mechanisms for Four-position Motion Generation
,”
ASME
DE-Vol.
15-2
, pp.
121
128
.
33.
Salisbury
J. K.
, and
Craig
J. J.
,
1982
, “
Articulated Hands: Force Control and Kinematic Issues
,”
The International Journal Of Robotics Research
, Vol.
1
, pp.
4
17
.
34.
Sandor, G. N., and Erdman, A. G., 1984, Advanced Mechanisms Design: Analysis and Synthesis, Vol. 2, Prentice-Hall, INC., Englewood Cliffs, New Jersey.
35.
Soni
A. H.
,
Mohammad
H. F.
, and
Weng
Y.
,
1988
, “
Automated Procedure for Intelligent Mechanism Selection and Dimensional Synthesis
,”
ASME JOURNAL OF MECHANISMS, TRANSMISSIONS, AND AUTOMATION IN DESIGN
, Vol.
110
, pp.
130
137
.
36.
Sutherland
G. H.
, and
Roth
B.
,
1975
, “
Mechanism Design: Accounting for Manufacturing Tolerances and Costs in Function Generating Problems
,”
ASME JOURNAL OF ENGINEERING FOR INDUSTRY
, Vol.
97
, No.
1
, pp.
283
286
.
37.
Tesar, D., and Sparks, J. W., 1968, “Multiply Separated Position Synthesis,” ASME paper No. 68-MECH-66.
38.
Tucker
M.
,
1987
, “
Generalized Inverse for Robotic Manipulators
,”
Mechanisms and Machine Theory
, Vol.
2
, pp.
211
215
.
39.
Venkataraman, S. C, Kinzel, G. L., and Waldron, K. J., 1992, “Optimal Synthesis of Four-bar Linkages for Four-position Rigid-body Guidance with Selective Tolerance Specifications,” DE-Vol. 46, pp. 651–659.
40.
Waldron, K. J., and Kumar, A., 1979, “Development of a Theory of Errors for Manipulators,” ASME Proceedings of 5th World Congress of Theory of Machines and Mechanisms, pp. 821–826.
41.
Wang
H. H. S.
, and
Roth
B.
,
1989
, “
Position Errors Due to Clearances In Journal Bearings
,”
ASME JOURNAL OF MECHANISMS, TRANSMISSIONS, AND AUTOMATION IN DESIGN
, Vol.
111
, pp.
315
320
.
42.
Wu
F.
, and
Lankarani
H. M.
,
1992
, “
A New Parameter for Transmission Quality and Output Sensitivity Analysis of Mechanisms
,”
ASME Mechanical Design and Synthesis
, DE-Vol.
46
, pp.
103
109
.
43.
Wu
Z.
,
Elmaraghy
W. H.
, and
Elmaraghy
H. A.
,
1988
, “
Evaluation of Cost-tolerance Algorithms for Design Tolerance Analysis and Synthesis
,”
Manufacturing Review
, Vol.
1
, No.
3
, pp.
168
179
.
44.
Yoshihiko, N., 1991, Advanced Robotics: Redundancy and Optimization, Addison Wesley.
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