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    Remote control of devices using an 8-bit embedded XML & dynamic web-server in a SmartHouse environment : a thesis presented in partial fulfilment of the requirements for the degree of Master of Engineering in Computer Systems Engineering at Massey University
    (Massey University, 2006) Kok, Albert Leon
    This paper focuses on an Embedded System known as "TCP/IC" and its role in the "house of the future" - the SmartHouse. Overall, the aim of the TCP/IC was to design a device which could interact with a user (or AI control system) and allow for the control of various attached peripherals remotely. Although such a device could well be used as a standalone device to aid in home-automation, this paper focuses on its use in a SmartHouse environment - one where a number of these devices are networked and controlled by a central AI. The different technologies and protocols involved in the implementation of the TCP/IC, along with its two primary interfaces, namely HTML (used for user interaction) and XML (used for machine interaction) are also discussed. The reader will also be introduced to Embedded Systems and the various design principles involved in the creation of quality Embedded Systems. Core-concepts of home-automation and its logical extension, the SmartHouse are also covered in detail. Various additional interfaces (e.g. Web, XML, custom-formatted text) are also discussed and compared, as are the result of my work and some ideas for future implementations.
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    Web enabled embedded devices using SNMP technology for real-time monitoring and control applications : a thesis presented in fulfilment of the requirements for Master of Engineering degree in Electronics and Communications Engineering, School of Engineering and Advanced Technology, Massey University at Albany, New Zealand
    (Massey University, 2012) Taimoori, Saba
    Connecting other devices over the internet than just PCs is becoming a common place now. There are web enabled embedded devices almost everywhere. By combining the internet world to the embedded devices, it makes it much easier to be able to achieve the real‐time data from across any location. This thesis aims to web ‐ enable an embedded device, a power supply using a web interface. The development will be constituted with a combination of the correct product and the technology. The technology that we consider using for this project is the SNMPv1 protocol. SNMP (Simple Network Management Protocol) is now a days [sic] the key enabling technology, while, with the development of embedded internet, manufacturers are required to “webenable” the configuration and management of their products. Thus the integration of SNMP and Web in embedded devices will make products competitive. The main task in achieving the aim was the programming and the communication between the power supply and the Lantronix Xport Pro device. The programming was done on the Linux environment for the Xport Pro device and then the integration for loading the web pages were [sic] done using a GUI software through FTP server. The majority of the work involved in this project was developing the correct data and making a stable communication link between the power supply and the Xport Pro device. During the development process, several issues were encountered with the software as well as the Xport Pro devices. The loading of the software on these devices consumed most of the time as it kept on encountering faults which made the devices dead. However, with the help of the FTP server on the windows machine, it was much easier to connect the power supplies and re‐load the software onto the Xport Pro software. Testing was the easiest task and real‐time data was displayed on the web pages with no other faults.