Antonio Ramírez Treviño scite author profile

This work, presents the design of a Joint State-Mode observer for SLS, where the state of both parts, continuous and discrete, are observed The continuous part is represented by a family of linear systems (LS) and the discrete part is represented by an interpreted Petri net (IP N ), enlarging the class of systems that can be represented and adding structural information to the system. The design of an asymptotic hybrid observer is presented, in this observer the information of both continuous and discrete parts are used to estimate the SLS state.This hybrid observer is an observer composed by an IP N observer and a sliding modes observer for the continuous part. It is known that in each linear system the convergence time is nite and the observer is robust to parametric variations.

show abstract

Output regulation and consensus of a class of multi-agent systems under switching communication topologies

Herrera

Leon

Limón

et al. 2015

CyS

View full text Add to dashboard Cite

Lyapunov function is proposed to study the convergence of the consensus algo rithms. In [6] and [20], necessary and sufficient conditions for an appropriate decentralized linear stabilizing feedback are established. In [16], the problem of flocking with obstacles is addressed, where flocking is defined as achieving both structural and navigational stability. The sys tems considered are restricted to have integrator dynamics, and stability results are not presented. A feedback control strategy that achieves con vergence of a MAS, for single-integrator dynamics, with a desired formation and avoiding collisions is proposed in [1]. A connection between formation infeasibility and a sort of fiocking is established. Consensus of multiple autonomous vehicles is ad dressed in [7], by using virtual leaders and artificial potential fields among neighboring vehicles. Re sults are also restricted to vehicles with integra tor dynamics. A decentralized dynamic controller dealing with the problem of cooperation among a collection of vehicles is presented in [3] and [9]. The problems of consensus (synchronization), model-reference, and regulation for a network of identical multi-input, multi-output linear MAS are considered in [22]. That work proposes a dis tributed protocol to solve such problems for net work Laplacian topologies and asymmetric topolo gies. In [2], consensus output regulation of network connected MAS is addressed. Every agent is rep resented by a nonlinear system, and has identical Abstra£t. Th‫؛‬s paper presents the des‫؛‬gn of a distributed control ‫؛‬aw for the output regulation and output consen sus of a set of N agents. In this approach, each agent dynamics is represented by a switched linear system. The representation of the agents is neither constrained to be the same nor to have the same state dimension, and communication among agents is considered to be switching. It is also considered that some agents get the reference to be followed from the output of a virtual agent, and every agent gets the output information of its neighbors. Using this information, every agent computes the exosystem state to solve its individual regulation problem. The approach herein proposed employs a local switched stabilizing feedback for each agent based on a common Lyapunov function. A numerical example is provided in order to illustrate the proposed control law.

show abstract

Optimal and suboptimal schedules in DEDS modeled using Petri nets

Treviño

View full text Add to dashboard Cite

A Flexible Framework for Real-Time Thermal-Aware Schedulers using Timed Continuous Petri Nets

López

Anguiano

Treviño

et al. 2019

CyS

View full text Add to dashboard Cite

This work presents TCPN-ThermalSim, a software tool for testing Real-Time Thermal-Aware Schedulers 1 . This framework consists of four main modules. The first one helps the user to define the problem: task set with periods, deadlines and worst case execution times in CPU cycles, along with the CPU characteristics, temperature and energy consumption. The second module is the Kernel simulation, which builds up a global simulation model according to the configuration module. In the third module, the user selects the scheduler algorithm.Finally the last module allows the execution of the simulation and present the results. The framework encompasses two modes: manual and automatic. In manual mode the simulator uses the task set data provided in the first section. In automatic mode the task set is generated by parameterizing the integrated UUniFast algorithm.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.