This paper presents a control methodology that enables nonlinear model-based control of pulse width modulated (PWM) pneumatic servo actuators. An averaging approach is developed to describe the equivalent continuous-time dynamics of a PWM controlled nonlinear system, which renders the system, originally discontinuous and possibly nonaffine in the input, into an equivalent system that is both continuous and affine in control input (i.e., transforms the system to nonlinear control canonical form). This approach is applied to a pneumatic actuator controlled by a pair of three-way solenoid actuated valves. The pneumatic actuation system is transformed into its averaged equivalent control canonical form, and a sliding mode controller is developed based on the resulting model. The controller is implemented on an experimental system, and the effectiveness of the proposed approach validated by experimental trajectory tracking.

1.
Shearer
,
J. L.
, 1956, “
Study of Pneumatic Processes in the Continuous Control of Motion With Compresses Air—I
,”
Trans. ASME
0097-6822,
78
, pp.
233
242
.
2.
Shearer
,
J. L.
, 1956, “
Study of Pneumatic Processes in the Continuous Control of Motion With Compresses Air—II
,”
Trans. ASME
0097-6822,
78
, pp.
243
249
.
3.
Shearer
,
J. L.
, 1957, “
Nonlinear Analog Study of a High-Pressure Servomechanism
,”
Trans. ASME
0097-6822,
79
, pp.
465
472
.
4.
Mannetje
,
J. J.
, 1981, “
Pneumatic Servo Design Method Improves System Bandwidth Twenty-Fold
,”
Control Eng.
0010-8049,
28
(
6
), pp.
79
83
.
5.
Wang
,
J.
,
Pu
,
J.
, and
Moore
,
P.
, 1999, “
A Practical Control Strategy for Servo-Pneumatic Actuator Systems
,”
Control Eng. Pract.
0967-0661,
7
, pp.
1483
1488
.
6.
Bobrow
,
J.
, and
McDonell
,
B.
, 1998, “
Modeling, Identification, and Control of a Pneumatically Actuated, Force Controllable Robot
,”
IEEE Trans. Rob. Autom.
1042-296X,
14
(
5
), pp.
732
742
.
7.
Richer
,
E.
, and
Hurmuzlu
,
Y.
, 2000, “
A High Performance Pneumatic Force Actuator System: Part I-Nonlinear Mathematical Model
,”
ASME J. Dyn. Syst., Meas., Control
0022-0434,
122
(
3
), pp.
416
425
.
8.
Richer
,
E.
, and
Hurmuzlu
,
Y.
, 2000, “
A High Performance Pneumatic Force Actuator System: Part II-Nonlinear Control Design
,”
ASME J. Dyn. Syst., Meas., Control
0022-0434,
122
(
3
), pp.
426
434
.
9.
Jacobsen
,
S. C.
,
Iversen
,
E. K.
,
Knutti
,
D. F.
,
Johnson
,
R. T.
, and
Biggers
,
K. B.
, 1986, “
Design of the Utah/MIT Dextrous Hand
,”
IEEE International Conference on Robotics and Automation
, pp.
1520
1532
.
10.
Ben-Dov
,
D.
, and
Salcudean
,
S. E.
, 1995, “
A Force-Controlled Pneumatic Actuator
,”
IEEE Trans. Rob. Autom.
1042-296X,
11
(
6
), pp.
906
911
.
11.
Henri
,
P. D.
,
Hollerbach
,
J. M.
, and
Nahvi
,
A.
, 1998, “
An Analytical and Experimental Investigation of a Jet Pipe Controlled Electropneumatic Actuator
,”
IEEE Trans. Rob. Autom.
1042-296X,
14
(
4
), pp.
601
611
.
12.
Noritsugu
,
T.
, 1986, “
Development of PWM Mode Electro-Pneumatic Servomechanism. Part I: Speed Control of a Pneumatic Cylinder
,”
J. Fluid Control
8755-8564,
17
(
1
), pp.
65
80
.
13.
Noritsugu
,
T.
, 1986, “
Development of PWM Mode Electro-Pneumatic Servomechanism. Part II: Position Control of a Pneumatic Cylinder
,”
J. Fluid Control
8755-8564,
17
(
2
), pp.
7
31
.
14.
Kunt
,
C.
, and
Singh
,
R.
, 1990, “
A Linear Time Varying Model for On-Off Valve Controlled Pneumatic Actuators
,”
ASME J. Dyn. Syst., Meas., Control
0022-0434,
112
(
4
), pp.
740
747
.
15.
Ye
,
N.
,
Scavarda
,
S.
,
Betemps
,
M.
, and
Jutard
,
A.
, 1992, “
Models of a Pneumatic PWM Solenoid Valve for Engineering Applications
,”
ASME J. Dyn. Syst., Meas., Control
0022-0434,
114
(
4
), pp.
680
688
.
16.
Shih
,
M.
, and
Hwang
,
C.
, 1997, “
Fuzzy PWM Control of the Positions of a Pneumatic Robot Cylinder Using High Speed Solenoid Valve
,”
JSME Int. J., Ser. C
1340-8062,
40
(
3
), pp.
469
476
.
17.
van Varseveld
,
R. B.
, and
Bone
,
G. M.
, 1997, “
Accurate Position Control of a Pneumatic Actuator Using On/Off Solenoid Valves
,”
IEEE/ASME Trans. Mechatron.
1083-4435,
2
(
30
), pp.
195
204
.
18.
Barth
,
E. J.
,
Zhang
,
J.
, and
Goldfarb
,
M.
, 2003, “
Control Design for Relative Stability in a PWM-Controlled Pneumatic System
,”
ASME J. Dyn. Syst., Meas., Control
0022-0434,
125
(
3
), pp.
504
508
.
19.
Paul
,
A. K.
,
Mishra
,
J. K.
, and
Radke
,
M. G.
, 1994, “
Reduced Order Sliding Mode Control for Pneumatic Actuator
,”
IEEE Trans. Control Syst. Technol.
1063-6536,
2
(
30
), pp.
271
276
.
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