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Controller synthesis for linear temporal logic and steady-state specifications

Abstract

The problem of deriving decision-making policies, subject to some formal specification of behavior, has been well-studied in the control synthesis, reinforcement learning, and planning communities. Such problems are typically framed in the context of a non-deterministic decision process, the non-determinism of which is optimally resolved by the computed policy. In this paper, we explore the derivation of such policies in Markov decision processes (MDPs) subject to two types of formal specifications. First, we consider steady-state specifications that reason about the infinite-frequency behavior of the resulting agent. This behavior corresponds to the frequency with which an agent visits each state as it follows its decision-making policy indefinitely. Second, we examine the infinite-trace behavior of the agent by imposing Linear Temporal Logic (LTL) constraints on the behavior induced by the resulting policy. We present an algorithm to find a deterministic policy satisfying LTL and steady-state constraints by characterizing the solutions as an integer linear program (ILP) and experimentally evaluate our approach. In our experimental results section, we evaluate the proposed ILP using MDPs with stochastic and deterministic transitions.

article Article

date_range 2024

language English

link Link of the paper

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Velasquez Alvaro

Alkhouri Ismail

Beckus Andre

Trivedi Ashutosh

Atia George

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Featured Keywords

Planning for deterministic actions

Constrained MDPs

Omega-regular

Multichain MDPs

Steady-state

Controller synthesis

Linear temporal logic

Expected reward

Average reward

Correct-by-construction

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Numerical investigation of precast reinforced concrete beam–to–column joints by replaceable damper

Abstract

This study aimed to investigate the precast reinforced concrete beam-to-column joints behaviors through the replaceable damper under cyclic loading. The precast concrete specimens have been embedded with steel reinforcement and specially shaped connectors. After the application of the replaceable damper under cyclic loading, the energy dissipation shaped very well and increased the bearing capacity of precast specimens. The precast concrete beam–to–column joints were designed and analyzed to compare with the traditional reinforced concrete (RC) specimen. The analysis result of the loading based on the controlled displacement method showed that the precast specimen model with a damper has more hysterical behavior than the traditional RC frame. Also, the specimen (PS-1) is passed the 2.7% chord rotation, which showed higher performance, than the traditional RC specimen. The efficiency of the PS-1 specimen with a special connection has been elaborated with the finite element method (FEM) and simulated by ABAQUS software.

article Article

date_range 2022

language English

link Link of the paper

ABAQUS software F...

Monolotic model-Ampelitude (cae)