IEEE Electrification Magazine - June 2018 - 59

accordingly. the integrated management platform for
intelligent building can fulfill independent construction
and applications of functional modules or single
scenes, and meet the needs of development and expansion, to achieve comprehensive management of the
entire building.
the operating efficiency of building energy consumption system are improved by smart buildings, and
help to and reduce the adverse impact on the environment by the unified management of the building energy
usage based on the integrated weak electricity system.
using standardized and modularized open design, a unified integrated supervision platform is established to
enable the functions of monitoring, control, and management. using the technology of the iot, an organic whole of
every system of the building can be built to attain optimal
control and decision making of the whole system, and
achieve the efficient, economic, energy-saving and coordinated operational state of the building.

Smart Environmental Production

service mode to establish an object-oriented business
application and information service portal, providing a
more intelligent decision for environmental quality, pollution prevention, ecological protection, radiation management, and other businesses.
smart environment protection can achieve a more
comprehensive and flexible way of urban environmental
awareness, and the more sustainable development of the
iot in the application of environmental protection by constructing a wired and wireless data transmission channel,
integrating perception, transmission, application, and
decision-making organically.

Smart Lighting
smart lighting establishes wireless communications,
monitoring and resource management platform to connect the whole city lighting network, to provide information support for urban lighting management planning and
management, using various technologies including: online
monitoring, data acquisition, multimedia and computer
communication, electromechanical integration, automatic
control, network, graphic information system (Gis), power
line communication, wireless network communication,
information management and other advanced technologies, as shown in figure 10. this solution builds efficient
infrastructure for urban lighting, which can monitor the
running status of local devices, realize information sharing of urban green lighting operation management system, reduce operation and maintenance costs, and
decrease the time of troubleshooting.
smart lighting adopts dc power supply mode to supply
power for the light-emitting diode (LeD) street lighting
system, and the intelligent control of the LeD street lamp
can be achieved with many advantages. first of all, the
LeD street lamp with dc power supply saves significant

based on technologies such as the iot, cloud computing,
artificial intelligence, data mining, and business models,
smart environmental production makes full use of various
information, communication, perception, analysis, integration to response various demands, to make the decision more satisfied environmental development needs.
the architecture of this scheme consists of the following layers: intelligent sense, network transmission, smart
service, and smart application, as shown in figure 9.
the sense layer uses a device, system or process that
perceives, measures, captures, and transmits information
in real time, providing a thorough perception of factors
such as environmental quality, pollution sources, ecology,
radiation, and so on. the transmission layer interacts and
shares the environmental information stored in personal devices,
social organizations, and government information systems with
Smart
Emergency Portal Department Environment
Mobile
the technology of environmental
Application
Response Service Coordination Monitoring Application
protection private and operator
networks, combined with thirdgeneration (3G) and satellite comSmart
Environmental Data Center
Application Platform
munication technology, to achieve
Services
more comprehensive interoperability. the service layer integrates
cloud computing, virtualization,
Network
Cable Network
3G/4G
Transmission
and high-performance computing
technology to integrate and analyze massive cross-regional and
Intelligent
Smart
cross-industry environmental
RFID
GPS
QR Code
Video
Sense
Terminal
information, to achieve massive
storage, real-time processing, deep
QR: Quick Response
mining and model analysis, so as
to achieve deeper intelligence. the
application layer uses a cloud Figure 9. A smart environmental production system.
	

IEEE Elec trific ation Magazine / j u n e 201 8

59



Table of Contents for the Digital Edition of IEEE Electrification Magazine - June 2018

Contents
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https://www.nxtbook.com/nxtbooks/pes/electrification_june2022
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https://www.nxtbook.com/nxtbooks/pes/electrification_december2021
https://www.nxtbook.com/nxtbooks/pes/electrification_september2021
https://www.nxtbook.com/nxtbooks/pes/electrification_june2021
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