Now, Information and Communications Technologies (ICT) fields are coming into the Internet of Things (IoT) age. The most important thing in the current era of Internet of Things is a perspective of developers, businesses, governments and users on the ... Now, Information and Communications Technologies (ICT) fields are coming into the Internet of Things (IoT) age. The most important thing in the current era of Internet of Things is a perspective of developers, businesses, governments and users on the development of Internet of Things technology. Current Internet of Things is being conducted mainly through technological advancements due to the development of core technologies and advanced services through the fusion of various service fields. In addition, Internet of Things devices are becoming intelligent and modernized. Currently, in Internet of Things fields, billions of users and devices will be connected to the Internet; this will lead beyond the era of super-connection to the era of super-fusion. Gartner predicted that the number of Internet-connected devices would be 4.9 billion more in 2015 than in 2014 and will increase by 30% to 25 billion by 2020. In this era, it is important for technical and service advancement in Internet of Things fields, but in order for the development of the Internet of Things fields it will require consideration of environmental, industrial, and economic aspects. It has to implement a stable Internet of Things, a scalable Internet of Things, and a cost-effective Internet of Things, for this purpose, as well as developing advanced technologies and services. It should also consider a number of other factors, including the overall elements of society, culture, industry, economic, market, public data, price data, the environment and so on. The first challenge for the Internet of Things is a design of a stable IoT system. As an expanding Internet of Things infrastructure, for the advanced technology and stable growth of ICT, it should be implemented by fusion of the various heterogeneous devices and the Internet of Things service to facilitate reliable fusion through standardization and customization of the Internet of Things infrastructure. The second challenge for the Internet of Things is a design for a scalable IoT system. According to Gartner, IoT devices will increase by 30% to 25 billion by 2020. It also can provide a new intelligent and semantic service by collecting data on the number of increasing IoT devices. In order to respond to these changes in any area of Internet of Things, it is required that we find a proper configuration of scalable unified infrastructure based on Internet of Things system, not local configuration. Finally, the primary challenge for the Internet of Things is the “economic production and intelligent design of IoT systems through mass customization” for the explosion of IoT devices. The large number of IoT devices will lead to increased overlapping of service coverage areas, thus incurring unnecessary energy and financial losses. In addition, with the recent explosive increase in IoT devices, the challenge of how to produce IoT devices economically becomes more important. This will approach the technical, service, and industrial aspects for the Internet of Things. In the technical aspects, it will present the network technology, device technology, and open source platform, WSN (Wireless Sensor works), M2M (Machine to Machine), Ubiquitous, and Internet of Things technology. In the service aspect, it will present the context-aware technology, energy-aware technology, green-IT, and security. In the industrial aspect, it will present the design of cost-effective Internet of Things system through the mass-customization. Economic cost variation is due to the supply and demand curves according to the consumer. Finally, it will present the design of an Office Standby-Power Management System in an IoT Environment approach to the technical and services aspects—that it is possible for the standby power of the inner office to decrease by 21.8% over the plug type Power Monitoring System (PMS). In addition, it will present Mass-Customization-based Cost-Effective Internet of Things Sensor System in Smart Building Spaces approach to the industrial aspects by intelligent fusion that extend to four kinds of Internet of Things services, it will show that over 19% of the number of sensors and 15.9% of the sensor cost was reduced. ,韩语论文范文,韩语毕业论文 |
