Research Proposal on Computing Visual Computing and Robotics Dr. Nancy Agens, Head, Technical Operations, Phdassistance info@phdassistance.com
Keywords: Computer Science, Engineering, Internet of things (IoT), Artificial Intelligence, Visual Computing and Robotics I. INTRODUCTION The advancement of the Internet and cloud computing has pushed the desktopbased peripheral device into a web-based Computing Infrastructure. It has transformed the actual goods or items principle into facilities. The support and dedication of several governments and major tech companies around the world to create and use cloud computing environments as an interconnected storage and connectivity system have contributed to the rapid growth of various commercial and mission-critical technologies in the modern architecture, including the Introduction of physical devices, which provides the Internet of Things has unlimited computing capabilities. Internet of Things (IoT) was initially suggested and adhered in the Radio Frequency Identification RFID-tags to commemorate the Electronic Product Code (Auto-ID Lab). The IoT idea is expanded to the globe where physical artifacts are deeply integrated into the information system and where physical artifacts could become actively involved in business operations. The Internet of Intelligent Things (IoIT) interacts with smart devices with sufficient computing capability. The IoIT is an aspect of dispersed intelligence (Du Plessis et al., 2015). As per Intel's study, there are 15 billion systems connected to the Internet, 4 billion of which have the 32-bit processing
power, and 1 billion of those are smart systems (Steenman, 2012). The Autonomous Decentralized System (ADS) is a distributed system consisting of components or materials intended to function separately but competent of communicating with each other to meet the overall objective of the system. The ADS components are intended to function in a composable manner and the data is shared via a content-oriented protocol. This architecture model allows the machine to continue to operate in the case of device failures. It also allows servicing and restoration to be carried out whilst the machine is in service. ADS and associated developments have a broad variety of uses in automotive production lines, train signalling and robotics (Mori, 2008). ADS principles became the basis for subsequent developments like cloud storage and the Internet of Things. Robot as a Service (RaaS) is a cloud computing platform that enables the seamless incorporation of robots and integrated devices into network and cloud computing environments (Chen et al., 2010; Chen & Zhou, 2015). Despite service-oriented architecture (SOA), the RaaS framework comprises configuration tools, the exploration software registry and the user's direct access application clients (Chen & Tsai, 2012). The new RaaS architecture enables SOAP and RESTful connectivity between RaaS and other cloud storage systems. Hardwaresoftware and specifications are required to facilitate the introduction of RaaS. For instance, Devices Profile for Web Services (DPWS) specifies deployment restrictions that require safe Web Service messaging, discovery, definition, and eventing on
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