Joint Conference
2017 International Conference on Electronic
Industry and Automation [EIA2017]
2017 International Conference on Environmental
Science and Sustainable Energy [ESSE2017]
2016 年电子工业与自动化国际会议
2016 年环境科学与可持续能源国际会议
June 23rd-25th, 2017
Suzhou, China
EIA2017 & ESSE2017
Program Book
Organizer:
Publisher:
EIA2017
ESSE2017
SCHEDULE OF THE CONFERENCE
Friday, June 23rd, 2017
10:00-16:30
Conference Registration, Grand Trustel Aster Suzhou, Suzhou, China
Saturday, June 24th, 2017
08:00-08:10
Open Ceremony, Rose Hall, 2F (二楼玫瑰厅)
08:10-08:50
Keynote Speech by Prof. Wen-Tsai Sung
08:50-09:30
Keynote Speech by Prof. Lim Teik Thye
09:30-09:40
Tea Break
09:40-10:20
Keynote Speech by Prof. Wei Chih Hsu
10:20-11:00
Keynote Speech by Prof. Yong Wang
11:00-11:40
Keynote Speech by Prof. Hajime Hirao
11:40-12:00
Oral Presentation
12:00-14:00
Lunch Time, Coffee Hall, 1F (一楼咖啡厅)
14:00-14:40
Keynote Speech by Prof. Xiao-Hua WANG
14:40-15:20
Keynote Speech by Dr. Mohd Hudzari Bin Haji Razali
15:20-16:00
Keynote Speech by Prof. I-Shyan Hwang
16:00Oral Presentation
KEYNOTE SPEAKERS
Keynote Speaker
Prof. Wen-Tsai Sung
Department of Electrical Engineering, National Chin-Yi University of Technology, Taiwan
Speech Title: Innovative IoT System View Based on Wireless Sensors Networks Technology
Abstract: IoT (Internet of Things) System is a rapidly developing area, a combination of Network,
mathematics and computing technology, in order to enhance the complex sensors network and data
aggregation. Traditional Wireless Sensors Networks method does not have the ability to process hung
amounts sensors signals that is why the Wireless Sensors Networks design often only one cluster or
one layer framework. This speech issue brings together some of the optimal fusion of innovative
information technology and methods and it provides to the listeners on this issue have further
improved System Integration and Applications in Wireless Sensors Networks. This will allow
scientists to develop smarter process strategies for multi-sensors signals and data.
Keynote Speaker
Prof. Wei Chih Hsu
Department of Computer and Communication Engineering, National Kaoshiung First University of
Science and Technology, Taiwan
Speech Title: A Methodology for Applying IoT into the Real World
Abstract: Many researchers have been believing that the application of Internet of things(IoT) in the
future will be integrated into the lives and work of human society. Before this future world has not yet
come, how to apply the IoT into different areas of the real world still faces many challenges. Talking
about IoT, generally, we use the three-tier architecture to describe it. Three-tier architecture is the
perception layer, network layer, and application layer. In helping understand what is the IoT, the
three-tier architecture has its advantages, but in applying IoT into a specific application field, it still
has its shortcomings. The main reason is that the three-tier architecture is not a concept of system
architecture, but a concept of body of knowledge. There are a number of techniques, methods, devices,
and equipment for the perceptual layer, the network layer, and the application layer, respectively.
However, from the application point of view, the system architecture concept is much easier to
describe the operation steps and mechanisms. Therefore, it is suggested that we should use IoT service
system architecture rather than three-tier architecture when applying IoT into the real world. The IoT
service system architecture consists of (1) the identifiable IoT objects, (2) the gateway subsystems, (3)
data collection and analysis cloud platforms,(4) the application services , (5) the applications running
on mobile devices used as the graphical user interfaces, and (6) the communication interfaces and
protocols between components or sub-systems. The IoT objects comprise sensors and actuators which
is used to control some devices and equipment. The IoT object has the key feature of being
identifiable so that the object can be recognized by the IoT service system. Gateway subsystem could
have inbound and outbound data. Inbound data includes the messages and commands from the cloud
platform to the gateway subsystem. The commands are further used to control external devices or
equipment through the actuators. Outbound data is the data measured by the sensors and sent to the
cloud platform.
In terms of matching the IoT service system architecture to the three-tier body of knowledge, IoT
objects and gateway subsystems could map to the perception layer and the focus is on how to receive
messages. Data collection and analysis cloud platforms, application services, and mobile device
applications could map to the application layer, focusing on how data is utilized. Communication
interfaces and protocols between components or sub-systems correspond to the network layer,
focusing on how to deliver messages. There is one important point to notice. Among the components
and subsystems, there are many choices of the communication interface and protocols. Thus the key
point is home to decide the application specifications, such as the minimum requirement for
transmission bit rate, the choice of master-slave or peer-to-peer communication way, and so on.
Taking an example of the application of smart city, low-power wide area network (LPWAN) is the
key point.
As for the methodological of applying IoT into real world, we propose the following five steps: (1)
analyzing the existing applications, (2) using activity diagram to draw out the existing business
processes, (3) setting the purposes of applying IoT, (4) utilizing the proposed IoT service system
architecture to refactor the existing applications, (5)Implementing. The reason for using activity
diagram in step (2) is that the activity diagram can express three kinds of complex situations which are
common in the real world, such as (1) synchronization division (2) synchronization waiting (3) event
triggering.
Keynote Speaker
Dr. Mohd Hudzari Haji Razali
MARA University of Technology, Malaysia
Speech Title: Development of Intelligence Technique in Shariah Compliance Washing Machine
via PLC
Abstract: This project was conducted to describe the integration intelligence technique of water inlet
valve and optical sensor through the Programming Logic Control (PLC). The concept of today’s
washing machine that uses control technology to clean clothing is based on clothing weight factor
proportionately to the amount of water used irrespective of the nature of the contaminants. However
according to Islamic law, clothing such as being contaminated with children’s urine for an example
has to be cleaned using continuous flowing water especially during the initial stage of washing. With
the concept of algorithm system and integrated into the washing machine, the continuous running
water will be subjected during the initial wash and spin option. The light sensors used on both inlet
and outlet valve will ensure the contaminated solids or liquids will be accordingly removed. PLC is an
essential automation tool in many different applications that may benefits to the mankind in helping
their compulsory practises especially for a Muslim. This novelty is not to deny the existing washing
machine in the market but here is to introduce the best practise for complying Islamic Shariah on the
flowing water technique in nowadays washing machine. The water flow is expected to flow
continuously in Spin mode process which simultaneously for drying purpose.
In this project, a washing machine was modified on two major parts prototype of artificial water blend
circulation which are hardware contaning modified washing machine,sensors and display, others are
the software development of PLC which stand the most crucial part. Through the design of the
hardware and software in this system, the water was supplied through the water inlet valve
automatically when the switch is ON. The water inlet valve will also close automatically by setting
embedded timer in ladder diagram in PLC software. The flow of water in and out of machine is
influenced by the detection of optical sensor by execution instruction of PLC at spinning mode of
washing machine; clean water will flow into rotating drum that having clothed then will flow out
through water outlet valve.
Keynote Speaker
Prof. I-Shyan Hwang
Chung-Yuan Christian University
Prof. I-Shyan Hwang received B.S. and M.S. degrees in Electrical Engineering and Electronic
Engineering from Chung-Yuan Christian University, Chung-Li, Taiwan, in 1982 and 1984,
respectively, and M.S. and Ph.D. degrees in Electrical and Computer Engineering from the State
University of New York at Buffalo, NY, in 1991 and 1994, respectively. In Feb. 2007, he was
promoted to Full Professor in the Department of Computer Science & Engineering at the Yuan Ze
University, Chung-Li, Taiwan. He was Chairman of Department of Computer science & Engineering
and Department of Information Communication from 2007 to 2013, respectively. Prof. Hwang has
published more than 120 journal and 180 conference peer-reviewed papers, and 10 book chapters. His
current research interests are fault-tolerant computing, high-speed networks, fixed mobile convergence,
heterogeneous multimedia services over fiber optic networks, next generation networking, green
computing and optical-network based infrastructure over cloud computing, software-defined optical
networking, optical networks for Internet of Things. He serves as a member of the Editorial Board for
the Springer Photonic Network Communications Journal.
Keynote Speaker
Dr. Yong WANG
University of Electronic Science and Technology of China
Speech Title: A Glass Half Full or Half Empty: Water Resouces in Western China – an Earth
Observation and Data Analytics Perspective
Abstract: Water cycles through the Earth's atmosphere, lithosphere, and hydrosphere redistributing
fresh water globally. As civilization evolves on the planet, the increase of human population and
activities demands additional food, infrastructure, housing, manufacturing, and commerce. The
ever-increasing stresses on water resources and significant change in the global hydrologic regime
would entail serious and negative consequences in many places where water resources are already
scarce and are strained. Possession of adequate water and managing it wisely are elevated to the level
of the national security and prosperity strategically. Precipitation and melting of snow and glacier in
mountain ranges of Tibet Plateau and southwest of China are sources of water infiltrating into ground
as ground water, and flowing through vast land surface feeding major river systems (e.g., Changjiang).
With the population growth, and rapid social and economic development, the water in western China
is more precious than ever. Moreover, the climate change can alter the water cycle in the region. Thus,
it is critical for us to have abilities to observe and quantify the amount of available ground water and
surface water in liquid and solid forms, to analyze the resulting large data flows and long time-series,
and ultimately to forecast the future availability of fresh water. Capabilities of Earth observation and
data analytics are well suited to undertake these tasks. The challenge, recent progress, and crucial
future need are presented.
Keynote Speaker
Prof. Teik-Thye Lim
Nanyang Technological University
Speech Title: Heterogeneous Catalysis and Environmental Nanomaterials for Water
Decontamination: Promises, Challenges and Research Needs
Abstract: Heterogeneous catalysis for environmental remediation has been a fertile research field in
the recent decades. For environmental applications of the heterogeneous catalysis,
environmentally-benign, efficient and robust catalysts are desired for the removal of hazardous
substances in waste streams. This presentation will cover an overview of applications of the
heterogeneous catalysis in environmental remediation with specific focus on water treatment. Several
examples of nanomaterials and nanocomposites which have been developed for water remediation will
be presented. Among these include photocatalyst /adsorbent composite for synergistic
adsorption-photocatalysis, photocatalytic ceramic membrane for simultaneous separation and
degradation of organic pollutants, bismuth ferrite for switchable multiplex catalysis under light and
dark conditions, metal oxide catalysts for catalytic activation of peroxymonosulfate and generation of
sulfate radical, and carbocatalysts. Despite immense researches and significant progress in developing
advanced nanomaterials, there remain several challenges for field-scale adoption of heterogeneous
catalytic processes in water decontamination. The final part of this presentation will provide a
snapshot of these challenges and the future research needs to propel the research toward achieving
practical adoption of heterogeneous environmental catalysis in water treatment.
Keynote Speaker
Dr.Hajime Hirao
City University of Hong Kong, China
Speech Title: Computational Studies of Molecules and Materials Pertaining to Environmental
Science and Sustainable Energy
Abstract: The physical principles used in computational chemistry underlie all branches of chemistry;
as such, computational chemistry has unlimited potential to contribute to the advancement of
fundamental chemistry in every different subdiscipline as well as to finding solutions to critical
challenges that humankind faces today, such as healthcare and energy/environmental issues. With this
in mind, our computational exploration of chemistry applies quantum chemistry, multiscale QM/MM
and QM/QM approaches, and many other advanced computational chemistry techniques to a broad
range of complex molecular systems such as metalloenzymes, transition-metal catalysts, drugs/drug
targets, metal-organic frameworks, and nanomaterials. In particular, using computational approaches
and often with experimental collaborators, we seek to derive information about chemical reaction
mechanisms and bonding patterns of these complex molecules.
Keynote Speaker
Prof. Xiao-Hua WANG
Nanjing Agricultural University
Speech Title: Research on China’s Rural Household Energy Consumption -- Household
investigation of typical counties in 8 economic zones
Abstract: Rural household energy consumption is an important component of national energy
consumption and plays an important role in rural social and ecological environment developments. In
this paper, energy consumption of 1,440 households in 8 typical counties of 8 China’s economic zones
was investigated. The investigation data analysis revealed significant difference of different economic
zones in rural household energy consumption level and structure. For 8 studying counties, the annual
average energy consumption per capita was 26.7 GJ, 10.4 GJ the lowest (Shanghang County) and 86.6
GJ the highest (Shulan County). In energy consumption, straw, biogas, fuel wood and electricity
accounted for 44.33%, 23.13%, 12.79% and 9.61%, respectively. Rural families with high incomes
preferred commercial energies (e.g. electricity and liquefied petroleum gas (LPG)) to biomass energy
(e.g. straw and fuel wood). The traditional biomass energy is still the main energy source for China’s
rural household. Research results provide references to understand current situations and future
development of China’s rural household energy consumption, and formulate related energy and
environmental policies.
ORAL PRESENTATION OVERVIEW
ID
Paper ID
Title
The study of control strategy for bolt tightening robot on power
transmission lines
Identification of Key Odor Compounds from Three Kinds of Wood
Species
A Large-scale Distribution and Deployment of Robot Task Based on
MQTT Protocol and ROS
1
E 2131
2
ESSE139
3
E 2137
4
ESSE117
5
E 2139
6
ESSE135
7
E 2098
8
ESSE134
9
E 2022
Defective Edge Detection System Design for Long Bamboo Batten
10
ESSE137
Design of the Cabin in the Ultra Low-temperature Refrigerated Vessel
11
ESSE125
A Health Assessment of the Ecosystem in Shuangtaihekou Wetland
Research Status of Sorghum Straw Utilization
Design and Realization of Intelligent Upgrade Based on Temperature
Control of Electirc Heating Cooker
Adsorption Properties of Phenol in Aqueous Solution with Different
Acidic Adsorption Resins
Design and Implementation of Intelligent Self Extracting Cabinet
Control System
Research on Popularization and Application of Agricultural Water
Saving Technology in China
Poster PRESENTATION OVERVIEW
ID
Paper ID
Title
1
E 2111
Stability Analysis of Micro-grid with Mutiple Convertors
2
E 2112
A Knowledge
Component
3
E 2132
A Visual Navigation Control Method of Substation Inspection Robot
4
ESSE138
5
ESSE141
6
ESSE113
7
ESSE111
8
ESSE120
Reuse
Method
for
Product
Design-Knowledge
Removal of an Azo Dye Acid Red 114 by Iris Pseudacorus and Its
Photosynthetic Response
On the Relationship between Industrial Growth and Environmental
Pollution in Jiangsu Province and Policy Recommendations
Study on the Reflection Characteristics of Ceramic tile Building
Materials to Solar Energy
Climate Change and Externality: Empirical Evidences from the EKC of
CO2 and PM10
The Technical Method and Key Issues of the Delimitation of Ecological
Protection Red Line at County Scale: A Case Study of Zhenlai County,
Baicheng City
Saturday, June 24th, 2017
Plenary Session
Conference Room : Rose Hall, 2F, Grand Trustel Aster Suzhou (二楼玫瑰厅)
08:10-08:50
Keynote Speech by Prof. Wen-Tsai Sung
08:50-09:30
Keynote Speech by Prof. Lim Teik Thye
09:30-09:40
Tea Break
09:40-10:20
Keynote Speech by Prof. Wei Chih Hsu
10:20-11:00
Keynote Speech by Prof. Yong Wang
11:00-11:40
Keynote Speech by Prof. Hajime Hirao
11:40-12:00
Oral Presentation
12:00-14:00
Lunch Time, Coffee Hall, 1F (一楼咖啡厅)
14:00-14:40
Keynote Speech by Prof. Xiao-Hua WANG
14:40-15:20
Keynote Speech by Dr. Mohd Hudzari Bin Haji Razali
15:20-16:00
Keynote Speech by Prof. I-Shyan Hwang
16:00-
Oral Presentation
ORAL PRESENTATION
1.
E 2131 The study of control strategy for bolt tightening robot on power transmission lines
Liqiang Zhong, Shaosheng Fan, Ruoyun Li, Di Yang
2.
ESSE139 Identification of Key Odor Compounds from Three Kinds of Wood Species
Qi-Fan WANG, Ya-Li SHAO, Tian-Yu CAO and Jun SHEN
3.
E 2137 A Large-scale Distribution and Deployment of Robot Task Based on MQTT Protocol and ROS
Jing Wei, Dianxi Shi, Bingzheng Yan, Yerong Hu
4.
ESSE117 Research Status of Sorghum Straw Utilization
Xiao-Qian BAI , Feng LUO, Yan-Ling LI, Jin-Yu HAO, Peng-Pai YU and Zhong-You PEI
5.
E 2139 Design and Realization of Intelligent Upgrade Based on Temperature Control of Electirc
Heating Cooker
Li Chen, Junzhi Chen, Hao Mi, Ming Yang
6.
ESSE135 Adsorption Properties of Phenol in Aqueous Solution with Different Acidic Adsorption
Resins
Nan WANG, Shang WANG, Chen DOU, Guang-Fei PENG, Wei-Hua TAO, Jian CHEN, Jie FANG
and Zheng-Hao FEI
7.
E 2098 Design and Implementation of Intelligent Self Extracting Cabinet Control System
Xin LI, Xiangfei MENG*, Qiming GU
8.
ESSE134 Research on Popularization and Application of Agricultural Water Saving Technology in
China
Hong-Na LIU and Hui XIAO
9.
E 2022 Defective Edge Detection System Design for Long Bamboo Batten
Tian SUN, Xiangwei MOU*, Shuxiang SONG, Jianhui LI
10. ESSE137 Design of the Cabin in the Ultra Low-temperature Refrigerated Vessel
Shang-Wu YU, Fa-Xin ZHU and Jin-Chao YANG
11. ESSE125 A Health Assessment of the Ecosystem in Shuangtaihekou Wetland
Yi-Min SUN
CONFERENCE MAP GUIDE
All presentations and activities will be held at Grand Trustel Aster Suzhou (No. 488, Sanxiang
Road, Suzhou, China)
Tel for Reservation: (+86) 15250018339, Mr. Cui
Email for Reservation: [email protected]
本次 EIA2017 会议将于 6 月 23-25 日在苏州国信雅都大酒店举办。
地址：苏州市三香路 488 号
订房电话：(+86) 15250018339, 崔先生
订房邮箱：[email protected]
Any question about EIA2017, please contact the secretary with +86 13317124331
Any question about ESSE2017, please contact the secretary with +86-13317124325