Presentation is loading. Please wait.

Presentation is loading. Please wait.

1 On Generating Safe Controllers for Discrete-Time Linear Systems By Adam Cataldo EE 290N Project UC Berkeley December 10, 2004 unsafe state disable this.

Publish Modified over 9 years ago

Similar presentations

Presentation on theme: "1 On Generating Safe Controllers for Discrete-Time Linear Systems By Adam Cataldo EE 290N Project UC Berkeley December 10, 2004 unsafe state disable this."— Presentation transcript:

1 1 On Generating Safe Controllers for Discrete-Time Linear Systems By Adam Cataldo EE 290N Project UC Berkeley December 10, 2004 unsafe state disable this transition

2 Cataldo 2 Talk Outline Research Question Background –Transition Systems –Discrete-Time Systems Relation Between Models of Computation Future Directions/Conclusions

3 Cataldo 3 The Question For what discrete-time linear systems can I compute a controller which will guarantee a safety constraint? –Safety constraint specified as a linear temporal logic constraint over the state space –I must have a method to compute the desired controller or know that no such controller exits

4 Transition Systems: A Concurrent Model of Computation The set of tags is T = {0, 1, 2, …}

5 Cataldo 5 Behavior Initialized runs: Language (Behavior):

6 Cataldo 6 Fixed-Point Computation of the Language Computing the set of all initialized runs: F is monotonic and Knowing the set of all initialized runs gives us the language

7 Cataldo 7 Composing Transition Systems

8 Cataldo 8 Simulation If there are simulation relations from P 2 to P 1 and P 1 to P 2, then P 1 and P 2 are bisimilar and L(P 1 ) = L(P 2 )

9 Cataldo 9 Linear Temporal Logic Given a set of predicates P over the set of values, we are interested in enforcing certain time-dependent safety properties Example: w always satisfies predicate p We can use linear temporal logic express these properties When we have finite number of states, we can compute a “controller” whose composition with our system enforces these constraints

10 A Discrete-Time, Real-Valued Concurrent Model of Computation This is actually a special class of discrete- time, real-valued systems (LTI)

11 Cataldo 11 Feedback Composition Feedback composition holds if (I – BH) and (I – FD) are invertible

12 Cataldo 12 Feedback Composition Equivalent system: We can start with initial values to compute fixed-point behavior

13 Cataldo 13 Another Feedback Composition The following feedback system also makes a valid composition: Our problem is to design f to make x satisfy a safety property

14 Cataldo 14 Discrete-Time Systems as Transition Systems We will be interested in the case where V is finite

15 A Nice Result (Tabuada, Pappas) V is a finite partition of W

16 A Nice Result (Tabuada, Pappas) There exists a bisimilar transition system to P with a finite number of states We can compute c by first computing a controller for the finite-state system

Download ppt "1 On Generating Safe Controllers for Discrete-Time Linear Systems By Adam Cataldo EE 290N Project UC Berkeley December 10, 2004 unsafe state disable this."

Similar presentations

The Quest for Correctness Joseph Sifakis VERIMAG Laboratory 2nd Sogeti Testing Academy April 29th 2009.

The Quest for Correctness Joseph Sifakis VERIMAG Laboratory 2nd Sogeti Testing Academy April 29th 2009.
Modeling Software Systems Lecture 2 Book: Chapter 4.

Modeling Software Systems Lecture 2 Book: Chapter 4.
1 October 16 th, 2009 Meaning to motion: Transforming specifications to provably-correct control Hadas Kress-Gazit Cornell University George Pappas University.

1 October 16 th, 2009 Meaning to motion: Transforming specifications to provably-correct control Hadas Kress-Gazit Cornell University George Pappas University.
Translation-Based Compositional Reasoning for Software Systems Fei Xie and James C. Browne Robert P. Kurshan Cadence Design Systems.

Translation-Based Compositional Reasoning for Software Systems Fei Xie and James C. Browne Robert P. Kurshan Cadence Design Systems.
Automatic Verification Book: Chapter 6. What is verification? Traditionally, verification means proof of correctness automatic: model checking deductive:

Automatic Verification Book: Chapter 6. What is verification? Traditionally, verification means proof of correctness automatic: model checking deductive:
Temporal Logic and the NuSMV Model Checker CS 680 Formal Methods Jeremy Johnson.

Temporal Logic and the NuSMV Model Checker CS 680 Formal Methods Jeremy Johnson.
Hybrid Systems Presented by: Arnab De Anand S. An Intuitive Introduction to Hybrid Systems Discrete program with an analog environment. What does it mean?

Hybrid Systems Presented by: Arnab De Anand S. An Intuitive Introduction to Hybrid Systems Discrete program with an analog environment. What does it mean?
Supervisory Control of Hybrid Systems Written by X. D. Koutsoukos et al. Presented by Wu, Jian 04/16/2002.

Supervisory Control of Hybrid Systems Written by X. D. Koutsoukos et al. Presented by Wu, Jian 04/16/2002.
Model Checker In-The-Loop Flavio Lerda, Edmund M. Clarke Computer Science Department Jim Kapinski, Bruce H. Krogh Electrical & Computer Engineering MURI.

Model Checker In-The-Loop Flavio Lerda, Edmund M. Clarke Computer Science Department Jim Kapinski, Bruce H. Krogh Electrical & Computer Engineering MURI.
Model Checking Genetic Regulatory Networks with Parameter Uncertainty Grégory Batt, Calin Belta, Ron Weiss HSCC 2007 Presented by Spring Berman ESE 680-003:

Model Checking Genetic Regulatory Networks with Parameter Uncertainty Grégory Batt, Calin Belta, Ron Weiss HSCC 2007 Presented by Spring Berman ESE :
Verification of Hybrid Systems An Assessment of Current Techniques Holly Bowen.

Verification of Hybrid Systems An Assessment of Current Techniques Holly Bowen.
ECE 720T5 Fall 2012 Cyber-Physical Systems Rodolfo Pellizzoni.

ECE 720T5 Fall 2012 Cyber-Physical Systems Rodolfo Pellizzoni.
August 27-29 2007Moscow meeting1August 27-29 2007Moscow meeting1August 27-29 2007Moscow meeting11 Deductive tools in insertion modeling verification A.Letichevsky.

August Moscow meeting1August Moscow meeting1August Moscow meeting11 Deductive tools in insertion modeling verification A.Letichevsky.
Possibilistic and probabilistic abstraction-based model checking Michael Huth Computing Imperial College London, United Kingdom.

Possibilistic and probabilistic abstraction-based model checking Michael Huth Computing Imperial College London, United Kingdom.
EECS 20 Lecture 38 (April 27, 2001) Tom Henzinger Review.

EECS 20 Lecture 38 (April 27, 2001) Tom Henzinger Review.
Discrete Abstractions of Hybrid Systems Rajeev Alur, Thomas A. Henzinger, Gerardo Lafferriere and George J. Pappas.

Discrete Abstractions of Hybrid Systems Rajeev Alur, Thomas A. Henzinger, Gerardo Lafferriere and George J. Pappas.
Constraint Logic Programming Ryan Kinworthy. Overview Introduction Logic Programming LP as a constraint programming language Constraint Logic Programming.

Constraint Logic Programming Ryan Kinworthy. Overview Introduction Logic Programming LP as a constraint programming language Constraint Logic Programming.
Programming Language Semantics Denotational Semantics Chapter 5 Based on a lecture by Martin Abadi.

Programming Language Semantics Denotational Semantics Chapter 5 Based on a lecture by Martin Abadi.
A denotational framework for comparing models of computation Daniele Gasperini.

A denotational framework for comparing models of computation Daniele Gasperini.
1 8. Safe Query Languages Safe program – its semantics can be at least partially computed on any valid database input. Safety is tied to program verification,

1 8. Safe Query Languages Safe program – its semantics can be at least partially computed on any valid database input. Safety is tied to program verification,

Similar presentations

Ads by Google