This article proposes the development of a supervisory system for wireless sensor networks using standards Wi-Fi and ZigBee networks. In this system, it is proposed a gateway that communicates between these network standards and then capture and transmit ZigBee network data to a mobile device. The article also aims to analyze network configurations, equipment and features that can influence latency supervisor - as the arrangement of devices - and each network response time. | International Journal of Computer Networks and Communications Security VOL. 5, NO. 2, FEBRUARY 2017, 28–37 Available online at: E-ISSN 2308-9830 (Online) / ISSN 2410-0595 (Print) Supervisory Android for Network Sensor Wireless WI-FI/ZIGBEE ALICE COSTA DE OLIVEIRA1, BÁRBARA RAMOS DE OLIVEIRA2, OTÁVIO RODRIGUES GOMES3, STÉPHANE RODRIGUES DA SILVA4, FABIANO PEREIRA BHERING5, LINDOLPHO OLIVEIRA DE ARAÚJO JÚNIOR6 1, 2, 3, 4 Control and Automation Engineering, CEFET-MG, Leopoldina-MG, Brazil 5 CEFET-MG, Department of Computer and Mechanics, Leopoldina-MG, Brazil 6 CEFET-MG, Department of Electricity and Eletronics, Leopoldina-MG, Brazil 1 alicecosta31@, 2barbararamosdeoliveira@, , stephanerodrigues1@, 5fabianobhering@, 6lindolpho@ 4 ABSTRACT This article proposes the development of a supervisory system for wireless sensor networks using standards Wi-Fi and ZigBee networks. In this system, it is proposed a gateway that communicates between these network standards and then capture and transmit ZigBee network data to a mobile device. The article also aims to analyze network configurations, equipment and features that can influence latency supervisor - as the arrangement of devices -and each network response time. Keywords: Android, Network Sensor, Wireless, Zigbee, Wi-fi, Supervisory. 1 INTRODUCTION The Wireless Sensing Networks (WSN) technology consists of a set of sensor nodes capable of performing the collection of information from the environment and transmit them using a wireless network to the manager node. Besides the ability to transmit such information, a WSN is responsible for processing and monitoring them. It is at this moment enters the supervisory systems, which are a computer systems able to monitor process variables that are frequently updated [1]. In this context, the focus of this study is the development of a mobile supervisory system for wireless .
