A Network Control Theory Approach to Modeling and Optimal Control of Zoonoses: Case Study of Brucellosis Transmission in Sub-Saharan Africa

A Network Control Theory Approach to Modeling and Optimal Control of Zoonoses: Case Study of Brucellosis Transmission in Sub-Saharan Africa

Date: October 2011
Creator: Roy, Sandip; McElwain, Terry F. & Wan, Yan
Description: Article on a network control theory approach to modeling and optimal control of zoonoses and a case study of brucellosis transmission in sub-Saharan Africa.
Contributing Partner: UNT College of Engineering
Using Wireless Sensor Network Controls to monitor an indoor Aquaponic System

Using Wireless Sensor Network Controls to monitor an indoor Aquaponic System

Date: 2013
Creator: Guerrero, Jose; Edwards, Fern; Wan, Yan & Sheth, Vardhman
Description: This presentation discusses research on aquaponic control systems. Researchers built a simple automatic control of an aquaponic ecosystem.
Contributing Partner: UNT College of Engineering
Using Wireless Sensor Network to monitor and control an indoor Aquaponic System

Using Wireless Sensor Network to monitor and control an indoor Aquaponic System

Date: 2013
Creator: Guerrero, Jose; Edwards, Fern; Wan, Yan & Sheth, Vardhman
Description: This poster discusses research on using a wireless sensor network (WSN) node to monitor and remotely control various water parameters in an aquaponic system.
Contributing Partner: UNT College of Engineering
Cyber-Physical Systems Can Make Emergency Response Smart

Cyber-Physical Systems Can Make Emergency Response Smart

Date: July 7, 2015
Creator: Zander, Justyna; Mosterman, Pieter J.; Padir, Taskin; Wan, Yan & Fu, Shengli
Description: This paper from the Humanitarian Technology: Science, Systems and Global Impact 2015 conference proceedings discusses the Smart Emergency Response System prototype built in the context of the SmartAmerica Challenge 2013-2014 by a team of nine organizations led by MathWorks.
Contributing Partner: UNT College of Engineering