Scilab Home page | Wiki | Bug tracker | Forge | Mailing list archives | ATOMS | File exchange
Please login or create an account
Change language to: English - Français - Português - 日本語 -

Please note that the recommended version of Scilab is 6.1.1. This page might be outdated.
See the recommended documentation of this function

Справка Scilab >> CACSD > leqr


H-infinity LQ gain (full state)

Calling Sequence




syslin list


symmetric nonnegative matrix (should be small enough)


two real matrices


a real number (l1 norm of LHS of Riccati equation)


leqr computes the linear suboptimal H-infinity LQ full-state gain for the plant P12=[A,B2,C1,D12] in continuous or discrete time.

P12 is a syslin list (e.g. P12=syslin('c',A,B2,C1,D12)).

[C1' ]               [Q  S]
[    ]  * [C1 D12] = [    ]
[D12']               [S' R]

Vx is related to the variance matrix of the noise w perturbing x; (usually Vx=gama^-2*B1*B1').

The gain K is such that A + B2*K is stable.

X is the stabilizing solution of the Riccati equation.

For a continuous plant:


For a discrete time plant:


with Abar=A-B2*inv(R)*S' and Qbar=Q-S*inv(R)*S'

The 3-blocks matrix pencils associated with these Riccati equations are:

discrete                        continuous
|I  -Vx  0|   | A    0    B2|       |I   0   0|   | A    Vx    B2|
z|0   A'  0| - |-Q    I    -S|      s|0   I   0| - |-Q   -A'   -S |
|0   B2' 0|   | S'   0     R|       |0   0   0|   | S'   -B2'   R|

See Also

  • lqr — LQ compensator (full state)
Scilab Enterprises
Copyright (c) 2011-2017 (Scilab Enterprises)
Copyright (c) 1989-2012 (INRIA)
Copyright (c) 1989-2007 (ENPC)
with contributors
Last updated:
Fri Apr 11 14:19:38 CEST 2014