no code implementations • 12 Sep 2024 • Van-Phuc Bui, Pedro Maia de Sant Ana, Soheil Gherekhloo, Shashi Raj Pandey, Petar Popovski
This paper presents a Digital Twin (DT) framework for the remote control of an Autonomous Guided Vehicle (AGV) within a Network Control System (NCS).
no code implementations • 23 Apr 2024 • Van-Phuc Bui, Daniel Abode, Pedro M. de Sant Ana, Karthik Muthineni, Shashi Raj Pandey, Petar Popovski
The paper examines a scenario wherein sensors are deployed within an Industrial Networked Control System, aiming to construct a digital twin (DT) model for a remotely operated Autonomous Guided Vehicle (AGV).
no code implementations • 27 Nov 2023 • Van-Phuc Bui, Shashi Raj Pandey, Pedro M. de Sant Ana, Petar Popovski
The setup considered in the paper consists of sensors in a Networked Control System that are used to build a digital twin (DT) model of the system dynamics.
no code implementations • 17 May 2023 • Van-Phuc Bui, Thinh Q. Dinh, Israel Leyva-Mayorga, Shashi Raj Pandey, Eva Lagunas, Petar Popovski
The amount of data generated by Earth observation satellites can be enormous, which poses a great challenge to the satellite-to-ground connections with limited rate.
no code implementations • 3 Feb 2023 • Van-Phuc Bui, Shashi Raj Pandey, Andreas Casparsen, Federico Chiariotti, Petar Popovski
From the viewpoint of communication and networking, this will represent an evolution of the \emph{game networking} technology, designed to interconnect massive users in real-time online gaming environments.
no code implementations • 26 Jan 2023 • Van-Phuc Bui, Shashi Raj Pandey, Federico Chiariotti, Petar Popovski
This paper presents an approach to schedule observations from different sensors in an environment to ensure their timely delivery and build a digital twin (DT) model of the system dynamics.
no code implementations • 25 Jun 2020 • Kha-Hung Nguyen, Hieu V. Nguyen, Van-Phuc Bui, Oh-Soon Shin
This paper considers a downlink (DL) system where non-orthogonal multiple access (NOMA) beamforming and dynamic user pairing are jointly optimized to maximize the minimum throughput of all DL users.