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Energy and Power Engineering, 2017, 9, 581-588
http://www.scirp.org/journal/epe
ISSN Online: 1947-3818
ISSN Print: 1949-243X
DOI: 10.4236/epe.2017.94B064 April 6, 2017
The Design of VLC-PLC System for Substation
Inspection
De-Dong Sun1, Tao-Rong Gong2,3, Rui Liu2,3, Jian Song4, Guan-Hong Wang5
1State Grid Information & Telecommunication Group Co. Ltd., Beijing, China
2State Grid Key Laboratory of Power Industrial Chip Design and Analysis Technology, Beijing Smart-Chip Microelectronics
Technology Co., Ltd. Beijing, China
3Beijing Engineering Research Center of High-reliability IC with Power Industrial Grade, Beijing Smart-Chip Microelectronics
Technology Co., Ltd. Beijing, China
4Tsinghua University, Beijing, China
5China Electric Power Research Institute, Beijing, China
Abstract
A kind of integrated network architecture visible light communication
(VLC)
and power line communication (PLC) is put forward. This architecture is
low
cost and easy to implement which overcomes the shortcoming of the trad
i-
tional network architecture. Furthermore, the VLC-PLC integration techno
l-
ogy is applied to typical power grid business scene, which is substation inte
l-
ligent inspection. The business process of master station platform is analyzed
.
During the intelligent inspection, the VLC-PLC system provides voice co
m-
munication for on-
site inspection personnel and management personnel, and
position service. The system can ensure the safety and security of power pr
o-
duction.
Keywords
VLC, PLC, Intelligent Inspection, Voice Communication, Location Service
1. Introduction
Visible light communication (VLC) is a technical means to realize wireless
communication based on LED lighting. With the traditional radio communica-
tion and other wireless optical communication technology, VLC does not occu-
py the radio spectrum resources [1]. It is ubiquitous, high transmission rate, no
electromagnetic radiation, no electromagnetic interference, and so on. It is be-
lieved that when the wireless spectrum resource is limited, deep fading or sensi-
tive electromagnetic, the VLC is with prospects and advantages [2] [3] [4]. So it
How to cite this paper: Sun, D.-D., Gong,
T
.-R., Liu, R., Song, J. and Wang, G.-H
.
(201
7) The Design of VLC-
PLC System for
Substation Inspection
.
Energy and Power
Engineering
,
9
, 581-588.
https://doi.org/10.4236/epe.2017.94B064
Received:
March 9, 2017
Accepted:
March 30, 2017
Published:
April 6, 2017
D.-D. Sun et al.
582
has been widely concerned by academic and industrial circles. Power line com-
munication (PLC) makes power transmission and communication signal trans-
mission on a cable to complete, and make the signal can be transmitted directly
to the LED through the power line. Therefore, the combination of PLC and VLC
has a natural advantage, overcoming the shortcomings of traditional wired net-
works and radio frequency networks [5] [6] [7]. On the other hand, there are
many radio signals and other sensitive electromagnetic deep fading scenarios in
power grid business environment, such as smart substation and power produc-
tion. The traditional communication radio network is difficult to apply, but
based on hybrid VLC-PLC network can be very good for these occasions. In or-
der to overcome the drawbacks of traditional integrated VLC-PLC [8], network
architecture is proposed with VLC-PLC deep integration. Taking typical scenes
in power grid services as an example, the analysis of the current difficult to meet
the needs of the business can be used by this system.
2. VLC-PLC Network Architecture
At present, the research of VLC and PLC integrated network architecture is very
limited. As shown in Figure 1, as traditional network architecture of VLC and
PLC collaborative work, PLC signal needed to be demodulating, decoding,
re-encoding which drives LED lamp before accessing each LED. The disadvan-
tage of this architecture is to scale the existing lighting network, and the recon-
struction project is complex. Also the cost is high. Mainly there are following
problems.
1) Due to the overlap of adjacent LED light irradiation area, there are serious
adjacent area interference;
2) Due to the small coverage area of each LED lamp, the user will face fre-
quent switching in different LED coverage area, which leads to the instability of
signal reception;
3) Infrared or radio frequency technology as a low speed uplink is asymmetry
with VLC high speed downlink [9].
In order to solve these problems, a kind of broadband access network is stu-
died based on VLC-PLC depth fusion, as shown in Figure 2. Multiple LED
Figure 1. The collaborative work network architecture of traditional VLC and PLC.
D.-D. Sun et al.
583
Figure 2. The network architecture VLC-PLC depth integrated communication.
lamps are connected to the same power line, which is connected with the PLC
modem for the information exchange with the background Ethernet. Multiple
LED lamps transmit to the user with VLC independent data signal, and the user
receives the signal through the handheld terminal, which supports VLC uplink
transmission. The detector of LED lamp demodulates the uplink signal, and then
transmits to the PLC backbone network. This scheme encodes and modulates for
the VLC-PLC joint channel uniformly, which avoid the problems of traditional
VLC-PLC.
This hybrid VLC-PLC system collaboratively works, and doesn’t upgrade to
existing lighting network. There are not regional interference and handover
problems because of the user in the LED mobile regional. In addition, the
VLC-PLC communication network can have uniform coverage due to the light-
ing illumination satisfying uniform coverage characteristics. The means that this
architecture is lower cost and easier to achieve than that of traditional architec-
ture.
3. The Application of VLC-PLC for Substation Inspection
3.1. Substation Inspection
Substation realizes voltage levels alternation. It is the key energy node of a city.
So the safe and stable operation of substation is related to the social and eco-
nomic development and social stability. In order to ensure the normal operation
of substation, the regular manual inspection of substation is needed. During
substation inspection activities, “in place detection” is an important content of
the assessment for inspection personnel. There are following problems.
1) How to ensure that the inspection personnel reach each subject position in
the inspection process.
2) How to ensure that the inspection personnel and operating equipment
maintain a safe distance to other facilities in the station.
Therefore, in order to ensure the safety and normal work of patrol personnel,
the real-time position of the inspector is demanded.
At the same time, there is a strong demand for the network information ser-
D.-D. Sun et al.
584
vice in the substation inspection, which can provide the patrol officers with the
functions of reporting, remote guidance, real-time information recording, arc-
hiving, and so on. On the other hand, patrol officers often need to voice calls
with the dispatcher when they found the problem in the work. They need to re-
turn to the office to call the internal telephone, and then back to the scene.
However, due to the factors such as electromagnetic interference and security, it
is difficult to meet the above requirements based on traditional radio frequency
communication.
3.2. Intelligent Patrol Network Structure
The VLC-PLC system can be used to solve the problems of substation inspec-
tion. The use of LED lights in the substation will not produce radio waves, not
interfere with the substation equipment. LED is as a communication node, so
inspection personnel can always maintain network connectivity with backstage
operation system in the inspection, gain information services, and communicate
securely. At the same time, accurate positioning for inspection personnel and
equipment operation is obtained.
Using VLC and PLC fusion technology set up the optical communication local
area network in the substation, as shown in Figure 3, which is network sche-
matic diagram for the intelligent substation inspection. The work data of service
system is transmitted to the LED lighting at different positions in substation
through the network. Then the data is modulated by the transceiver at the
source. The modulated optical signal is loaded to the LED to transmit. The
on-site inspection personnel can receive VLC signal through the transceiver at
the user terminal, which realizes the data communication service and position-
ing service. At the same time, the user terminal transceiver transmits location
information and communication data through uplink VLC signal, realizing
real-time monitoring and interactive information with backstage management
operator. On the one hand the system can confirm that the inspection personnel
Figure 3. The sketch of intelligent network structure of substation or cable tunnel.
D.-D. Sun et al.
585
arrive at the scene and inspect according to predetermined route, on the other
hand secure and convenient wireless information service is provided for the in-
spection personnel. There for the inspection personnel can acquire the informa-
tion, report the field data, and upload examined numerical value, and so on
through the handheld whenever and wherever possible. In addition, the use of
VLC positioning confirm the exact location of the patrol personnel and their
equipment in space, make timely warning to their illegal operation, and ensure
their life safety in the whole process of inspection.
3.3. Business Process and Function of the System
The hybrid VLC-PLC system mainly includes the master server, PLC mater sta-
tion, LED light transceiver which is including PLC base station, handheld ter-
minal. There is only one master node in each PLC transmission network, and
others are the base station node. PLC base station is connected to the base sta-
tion node, and PLC master station connected to the master node. Only the base
station node and the master node can communicate each other, the base station
node and the base station node can’t communicate each other. The PLC master
node has the function of broadcast and unicast, and the PLC base station node
only has the function of unicast. The diagram of hybrid VLC-PLC system busi-
ness is shown in Figure 3, the main processes are as follows.
1) The master station transmits the information source through the power
line to the LED light source terminal transceiver, which is converted into optical
signal and sent to the handheld terminal.
2) The use of LED lighting and PLC network, not only can send the data of
the master station to handheld terminal, and also can receive, and process VLC
data sent by the handheld terminal. At the same time, the master station can
share upload data of a terminal user to other terminal users.
The function of the system is as follows mainly:
1) Positioning and track record: the system can locate the personnel with
handheld device and their real-time and historical trajectory.
2) The main station sound broadcast and the equipment calls the mutual
transmission: the master station may broadcast to all equipment; the equipment
may also carry on the conversation through the system.
3) Sound harmonic and instant storage: many people speaking of the voice
playback and voice storage problems are solved by real-time mixing technology.
4) Equipment health status monitoring: it is monitored that and showed on
the interface whether the LED device is online or whether it is in the working
state.
3.4. The Design of Master Platform
The diagram of master station business structure is shown in Figure 4 for the
hybrid VLC-PLC system, including the application layer, the control layer and
the support layer. The function of each layer is as follows.
1) The application layer provide users with communication services, location
D.-D. Sun et al.
586
Figure 4. The diagram of hybrid VLC-PLC system service.
Figure 5. The diagram of master station business structure of hybrid VLC-PLC system.
services, track statistics display services and system management services
2) On one hand the control layer provide the application layer call interface
with various functions, on the other hand, the management users and data re-
sources of system. The control layer provides data transfer, terminal positioning,
audio processing, selective communication and other functions. Also it manage
systems user, allowing access system equipment and recording all data.
3) The support layer mainly completes load balancing, cache acceleration, da-
ta storage and so on.
D.-D. Sun et al.
587
Load balancing is built on the existing network structure. It provides a cheap,
effective and transparent method of expansion of network equipment and server
bandwidth, increasing throughput, enhancing network data processing ability,
increasing network flexibility and availability.
Cache acceleration is a strategy of using server memory fully, which can speed
up the whole system running smoothly. Combined with VLC master system, it is
demonstrated mainly that using buffer queue and multi thread parallel processing
technology improve performance of the system when the system receive termin-
al data, encode, assemble, transmit data, and parallel process multiplex data.
The relational database storage system is a kind of easy to use, stable and reli-
able, retractable on-line database service. It is with multiple safety protection
measures and perfect performance monitoring system, and provide professional
database backup, recovery and optimization scheme.
4. Conclusion
A VLC-PLC deep integration network architecture and communication system
is presented, which can be used for wireless RF signal fading deeply and elec-
tromagnetic sensitive scenes. Furthermore the system is applied to the substation
intelligent inspection system in power grid service. The network structure, busi-
ness process and the mater station of the system are analyzed, which can realize
two-way voice communication and positioning service. Next step the system will
be verified and tested in a power supply, which will provide experience for the
application of hybrid VLC-PLC system in the power grid business.
Acknowledgements
The work is supported by Science and Technology project of State Grid Corpo-
ration of China (Grant No. SGHAZZ00FCJS1500238).
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