ELTICOM 2016 Organizing Committees
Honorary Chair:
Prof. Samuel K.C. Chang
(CYCU-Taiwan)
General Chairs:
Prof. Ming-Kuei Lee (CYCU-Taiwan)
Prof. Ying-Yi Hong
(CYCU-Taiwan)
Technical Program Chairs:
Prof. Cheng-Yuan Chang
(CYCU-Taiwan)
Prof. Kang-Ping Lin (CYCU-Taiwan)
Prof. Sen M. Kuo (CYCU-Taiwan)
Prof. Yao-Jen Chang (CYCU-Taiwan)
Prof. Guang- Hwa Shiue (CYCU-Taiwan)
Prof. Yuan-Hsiang Chang (CYCU-Taiwan)
Prof. Hsiao-Rong Tyan (CYCU-Taiwan)
Prof. Chun-Yao Lee (CYCU-Taiwan)
Prof. Shih-Che Hsu (CYCU-Taiwan)
Web
Chair:
Prof. Yu-Kuen Lai
(CYCU-Taiwan)
Publication Chair:
Prof. Chian-Song Chiu
(CYCU-Taiwan)
International Advisory
Board:
Prof. Ratko Magjarevic (University of Zagreb-Croatia)
Dr. Emerson Sinulingga (USU-Indonesia)
Dr. F. Fahmi (USU-Indonesia)
Dr. S. Suherman (USU-Indonesia)
Prof. Alejandro H. Ballado, Jr (Mapúa-Philippines)
Prof. Yoshinobu Kajikawa (KU-Japan)
Secretary:
Ms. Wei-Chieh Lee (CYCU-Taiwan)
Ms. Ching-Yun Liu (CYCU-Taiwan)
Mr. ku-Yeh Shih (CYCU-Taiwan)
Ms. Wun-Yi Fu (CYCU-Taiwan)
Message from Program Chairs
Welcome
to CYCU,
It is our great
honor that we have served as program chairs of the 2nd International Conference
on Electrical, Telecommunication and Computer Engineering (ELTICOM), Taoyuan
city, Taiwan. We are happy that a great number of researchers from all over the
world contribute to ELTICOM 2016. We received 60 research papers from 5
countries for the general technical sessions. We want to thank the University
of Sumatera Utara (USU, Indonesia), Mapúa Institute of Technology (Mapúa,
Philippines), Kansai University (KU, Japan) and the Ministry of Science and
Technology (MOST, Taiwan) for their supporting. This year, the ELTICOM 2016
provides opportunities to explore problems and issues that electrical engineers
and scientists concern about. The keynote speakers, oral presentations and
poster sessions are featured with the theme “Advanced Technology Toward Smart
City.” We believe the ELTICOM 2016 will be instrumental in generating ideas and
disseminating information to a greater extent than most conventional forums.
Finally, we hope that all of you have exciting presentations and discussion in
ELTICOM 2016, and that the conference will be your unforgettable memory in
Taiwan. Please enjoy the conference!
ELTICOM 2016
Program Chairs
Chung Yuan
Christian University, Taoyuan City, Taiwan
August 2016
ELTICOM 2016 Conference Program at a Glance
August 29 (Monday)
|
8:00~
|
Registration
at EE Building 1F
|
9:00-9:20
|
Opening Ceremony
|
105 Convention Hall
|
9:20-10:00
|
Plenary Speech
Prof. Ratko Magjarevic
University of Zagreb, Croatia
|
105 Convention Hall
|
10:00-10:20
|
Tea Break
|
EE Building 1F
|
10:20-12:00
|
Invited Symposium
|
105 Convention Hall
|
Oral Session A1
|
304 Raymond Room
|
Oral Session A2
|
354
|
Lunch (at EE B1 Floor)
|
13:20-15:00
|
Oral Session A3
|
105 Convention Hall
|
Oral Session A4
|
304 Raymond Room
|
Oral Session A5
|
354
|
Poster Session P1
|
EE Building 3F
|
15:00-15:20
|
Tea Break
|
EE Building 3F
|
15:20-17:00
|
Oral Session A6
|
105 Convention Hall
|
Oral Session A7
|
304 Raymond Room
|
Oral Session A8
|
354
|
17:00-17:30
|
Photo Time
|
EE Building 1F
|
18:00-20:30
|
Banquet**
|
H.D.L. Restaurant
|
**Gathering
place: EE building 1F at 17:30
August 30 (Tuesday)
|
8:30-18:00
|
Excursion, Taipei
|
Gathering place: EE building 1F at 8:30 Aug. 30
|
9:00-10:00
|
ELTICOM
2017 Planning Discussion
|
304 Raymond Room
|
Invited Symposium
August 29 (Monday)
|
Keynote
Speech/ 9:20-10:00/
EE105 Convention Hall
|
Speaker: Prof. Ratko
Magjarevic, University of Zagreb, Croatia
Topic: Nationwide
Diabetes Support System Based on Internet of Things
|
Invited
Symposium/ 10:20-12:00/ EE105 Convention Hall
|
Symposium of Bioelectronics for
the 21st Century
|
Speaker: Dr. Jia-Jung
Wang, Department
of Biomedical Engineering, I-Shou University
Topic: A Novel Approach to Quantifying the Dynamic
Elastance of the Superficial Arterial Wall
|
Speaker: Dr.
Shih-Tsang Tang, Department of Biomedical Engineering, Ming Chuan University
Topic: ICT
Integrated Healthcare—the Rehabilitation Example of Parkinson’s Disease
|
Speaker: Dr.
Chih-Chung Huang, Department of Biomedical Engineering, National Chung Kung
University
Topic: High Frequency Ultrasound Elastography and its
Biomedical Applications
|
Speaker: Dr.
Ying-Hui Lai, Department of Electrical
Engineering, Yuan Ze University
Topic: Performance
improvement for assistive hearing devices based on the machine learning
technology
|
Speaker: Dr.
Chen-Ning Huang, CTO, Somnics, Inc.
Topic: The
challenges and opportunities on the development of innovative medical device
|
ELTICOM 2016 - Plenary Speaker
Topic : Nationwide Diabetes Support System Based on Internet
of Things
Speaker : Ratko Magjarevic
Institutional units : Faculty of Electrical Engineering and Computing
Department for
Electronic Systems and Information Processing
Position : Professor
Date/Venue : August 29, 2016 / EE 105 Conference Hall

Abstract
In its first
Global report on diabetes, the WHO reports that the number of people with
diabetes increased nearly fourfold since 1980 and is estimated to 422 million
adults, especially due to rise in type 2 diabetes. WHO reports 1.5 million
deaths caused by diabetes and warns that its complications often lead to heart
attack, stroke, kidney failure, lower limb amputation and blindness. Patients
are regularly advised to self-monitor their blood glucose level, insulin doses
applied, weight, daily exercise and activity and/or blood pressure, all in
order to achieve glycemic control, to prevent hypoglycemia and to unburden
healthcare professionals in adjusting their treatment. WHO would like to adopt
that approach in a way that health systems can, based on Information and Communication
Technology (ICT) and mainly independently, diagnose, treat and care for people
with diabetes as well as enable people in making healthy choices for diet and
physical activity. Lately, the concept of the Internet of Things (IoT) was
introduced into healthcare. Electronic devices connected to the cloud are used
for monitoring and data acquisition, allowing automatic generation of messages
and alerts. Many of those messages still seek intervention of healthcare
professionals. Following that developments, and in order to help patients and
healthcare professionals provide better self-management and management of
diabetes, we have developed a system which is endorsed through the pilot
project by Croatian Health Insurance Fund and Croatian Ministry of Health and
is introduced into several clinical settings. The system introduced into
clinical settings comprises of a device for connecting and communicating with
glucose meters, data management software for data acquisition and
visualization, and database. The system allows connection of mobile units,
which are a part of custom made personal wearable wireless network, and are the
main device for monitoring patients’ basic physiological functions. In addition
to transferring the data on blood glucose measurements from the memory of
glucometers, it monitors physiological parameters such as heart rate, ECG (on
demand), breathing rate and physical activity. Also, the system enables
connection of peripheral devices from different manufacturers (e.g. blood
pressure management) or other custom made sensors to the cloud.
Biography
Professor Ratko Magjarević received his Ph.D. in Electrical Engineering in
1994 from the University of Zagreb, Faculty of Electrical Engineering. After
his appointment in industry at the Institute of Electrical Engineering
“Koncar,“ he joined the Electronic Measurement and Biomedical Engineering Group
at the University of Zagreb Faculty of Electrical Engineering and Computing. He
is full professor teaching several courses in Electronic Instrumentation and
Biomedical Engineering at undergraduate, graduate and at postgraduate studies.
His scientific and professional interest is in fields
of electronic and biomedical instrumentation and health informatics, in
particular in cardiac potentials analysis and pacing, in research of new
methods for drug delivery based on electropermeabilisation and recently in
research of personalised intelligent mobile health systems. He is author or
co-author of numerous journal and conference papers, several text books and
book chapters. R. Magjarevic is the Vice-President of the International Union
for Physical and Engineering Sciences in Medicine (IUPESM) and Immediate
Past-President of the International Federation for Medical and Biological
Engineering (IFMBE).
Symposium of bioelectronics
for the 21st century - Invited Speaker
Topic : A Novel Approach to Quantifying the Dynamic Elastance
of the Superficial Arterial Wall
Speaker : Dr. Jia-Jung Wang
Institutional units : Department of Biomedical Engineering
I-Shou University (Medical Campus)
Date/Venue : August 29, 2016 / EE 105
Conference Hall
Abstract
Arterial
stiffness is frequently associated
with the risk of cardiovascular diseases, cerebral vessel disease, diabetes
mellitus and end-stage renal disease. As a result, to detect the alteration in
arterial stiffness before the emergence of clinical vascular illness may serve
as an early prognostic warning for cardiovascular disease. The purpose of this study
is to propose a novel method for assessing dynamic
elastance of the superficial arterial wall using the sinusoidal minute vibration
method. A sinusoidal signal was used to drive a vibrator which induced a
displacement of 0.15 mm with a frequency range between 40 and 85 Hz. The
vibrator closely contacted with the wall of
a superficial radial artery, and caused the arterial
wall to shift simultaneously. A force sensor attached to the tip of the
vibrator was used to pick up the reactive force exerted by the radial arterial
wall. According to the Voigt and Maxwell models, a linear relationship was
found between the maximum reactive force and the squared angular frequency of
the vibration. The intercept of the linear function represents the arterial
wall elastance. In order to validate the feasibility of our method, twenty-nine
healthy subjects were recruited and the wall elastances of their radial
arteries were measured at room temperature (25oC), after a 5-minute
cold stress (4oC) and a 5-minute hot
stress (42oC), respectively.
After the 5-minute cold stimulation, the maximum
radial wall elastance significantly increased from 0.441±0.182×106
dyne/cm to 0.611±0.251×106 dyne/cm (p=0.001).
In the 5-minute hot stress, the maximum radial wall
elastance significantly decreased to 0.363±0.106×106 dyne/cm
(p=0.013). The sinusoidal minute
vibration method proposed can be employed to
obtain the quantitative elastance of a
superficial artery under different thermal
conditions, and to help assess the severity of arterial stiffness in conduit
arteries.
Biography
Jia-Jung Wang
received the B.S. degree in 1985 and the M.S. degree in 1987 in Biomedical
Engineering from Chung-Yuan Christian University, Taiwan, R. O. C. He received the M.S. degree in 1995 and the
Ph.D. degree in 1996 in Biomedical Engineering from Rutgers University, New
Jersey, USA. After serving two years of
military service, he worked for the National Science Council of the Republic of
China as an Assistant Manager of the Division of Engineering Technology and
Development from 1989 to 1992. He was
the Chairman of the Department of Biomedical Engineering, Yuanpei Technical
College, Taiwan, from 1996 to 2000.
Further, he served as the Chairman of the Department of Biomedical
Engineering, I-Shou University, Taiwan, both from 2004 to 2007 and from 2011 to
2014. He is now a Professor with the
Department of Biomedical Engineering, I-Shou University, Kaohsiung,
Taiwan. His research interests include
the design of biomedical instrumentation, the analysis of cardiovascular
signals, the application of medical transducers, and the circulatory modeling.
Symposium of bioelectronics
for the 21st century - Invited Speaker
Topic : ICT Integrated Healthcare—the Rehabilitation Example
of Parkinson’s Disease
Speaker : Dr. Shih-Tsang Tang
Institutional units : Department of
Biomedical Engineering
Ming Chuan University
Date/Venue : August 29, 2016 / EE 105
Conference Hall
Abstract
The ICT (Information and Communication
Technology) has given the promise to increase the quality of healthcare. Parkinson’s
disease (PD) is a chronic disease, which associates with a long term care
process. As a result, PD would be a classical example for the ICT integrated
healthcare, which efficiently reduces the care efforts and increase the life
quality. Parkinson's disease is a common chronic disease, which morbidity is
15% in the population of over 65 years old. There are usually decades from sick
to death, the patient’s activity will be gradually degradation, slowly losing
action ability, verbal ability, which severely affect the quality of life. During
the end stage, most patients usually suffer dysphagia, and then resulting in
weakness, even death due to the inhalation pneumonia. Besides the surgery and
medicine treatment, rehabilitation is key issue for the life quality. The care
of PD should be integrated with the healthcare institute and the family. And it
is a heavy burden. How to help these patients live with Parkinson's disease and
can live well, is a comprehensive problem. The ICT solution is for addressing
the problems in each stage of Parkinson’s disease. The ICT would integrate healthcare
institute and home rehabilitation program, and then care the patient form the
beginning stage to end stage.
Biography
Shih-Tsang Tang received
the B.S. (1987) from Department of Electronic Engineering, National Taiwan
College of Marine Science and Technology, the M.S. (1995) from Institute of
Maritime Technology, National Taiwan Ocean University, and the Ph.D. (2003)
from Institute of Biomedical Engineering, National Yang Ming University.
Currently he is an Assistant Professor of Biomedical Engineering Dept. at Ming
Chuan University, where his research and teaching focus on medical informatics,
medical instrument, electronics, digital system, and microprocessor. He is also
the General Secretary of the Medical Image Standards Association of Taiwan.
From 2002 to 2003, he was a Instructor of Biomedical Engineering Dept. at
Yuanpei Institute of Science and Technology. From 2003 to 2008, he was an
Assistant Professor of Biomedical Engineering Dept. at Yuanpei University. Dr.
Tang has published over 100 papers in conferences and journals and has
presented many invited and contributed talks. He is also the reviewer of SCI
journals and the Ministry of Science and Technology, Taiwan.
Symposium of bioelectronics
for the 21st century - Invited Speaker
Topic : High Frequency Ultrasound Elastography and its
Biomedical Applications
Speaker : Dr. Chih-Chung Huang
Institutional units : Department of Biomedical Engineering
National Chung Kung
University
Date/Venue : August 29, 2016 / EE 105 Conference Hall
Abstract
It is well known that
the mechanical properties of soft tissues, such as elasticity, viscosity, and
mechanical impedance, change depending on the conditions of tissues, for
instance disease and age, hence the mechanical properties may give useful
information in medical diagnosis. Several ultrasound
elastographs have been proposed to measure the
mechanical properties of tissue quantitatively, such as sonoelastographic
image, shear wave image, and acoustic radiation force impulse image. However,
the image resolutions of above elastographs are insufficient due to
their operational ultrasound frequency. It remains difficult to estimate the
mechanical properties of smaller organs and tissues using current elastographs.
Therefore, the high frequency ultrasound elastographs based on acoustic radiation force impulse imaging and shear wave
imaging were proposed in our Lab to assess the mechanical properties of some
micro-structure tissues, such as cornea, plaque, and vessel wall. In cornea
study, a 50 MHz high frequency acoustic radiation force impulse (ARFI)
imaging system were built for mapping the hardness of cornea. A dual frequency
ultrasonic transducer was designed for this objective. The outer 10 MHz element
was used to push the fibers in cornea and the inner 50 MHz element was used to
detect the displacement of cornea. The experiments were carried out using
artificial porcine cornea and a new algorithm for high frequency ARFI imaging
was established. In plaque study, a 40 MHz shear wave
imaging system was built for measuring the elastic properties of blood
clots. Furthermore, we applied our high frequency ARFI imaging and shear wave
systems into intravascular ultrasound (IVUS). A concept of combining the high
frequency AFRI and shear wave technology on IVUS for assessing the mechanical
properties of thrombus and vessel was proposed in present study.
Biography
Dr Chih-Chung Huang was born in Taiwan. He received the B.S., M.S.,
and Ph.D. degrees in Biomedical Engineering from Chung Yuan Christian
University, Chung-Li, Taiwan, in 2002, 2003, and 2007, respectively. From 2006
to 2007, he worked at NIH Resource
Center for Medical Ultrasonic Transducer Technology at the University of
Southern California, Los Angeles, USA as a Visiting Researcher where he
was engaged in research of high frequency ultrasound imaging and development of
new acoustic methods for cataract diagnosis. In 2008, he joined the Department
of Electrical Engineering, Fu Jen Catholic University, Taiwan as an Assistant
Professor. In 2012, Dr. Huang was promoted as an Associate Professor. Currently, he is a
faculty member at Department of
Biomedical Engineering, National Cheng Kung University, Taiwan. His research interests include ultrasonic tissue characterization,
blood flow measurement, high frequency ultrasound, and ultrasonic instrument
for medical applications, etc.
Symposium of bioelectronics
for the 21st century - Invited Speaker
Topic : Performance
improvement for assistive hearing devices based on the machine learning
technology
Speaker : Dr. Ying-Hui Lai
Institutional units : Department of
Electrical Engineering,
Yuan Ze University
Date/Venue : August 29, 2016 / EE 105 Conference Hall
Abstract
Hearing aids (HAs) and
cochlear implants (CIs) are important assistive hearing devices that provide a
sense of sound in patients with hearing loss. The considerable progress of HAs
and CIs technologies in the past three decades has enabled many users to enjoy
a high level of speech understanding in quiet. For most users, however,
understanding speech in noisy environments remains a challenge. In this talk, I
will present several proposed approaches to address this important issue to
further improve the benefits of speech intelligibility for HAs or CIs users
under noisy conditions. First, I will introduce the deep learning based NR
approach (deep denoising autoencoder, DDAE), which has been investigated its
effectiveness for improving the speech intelligibility for CI recipients.
Second, I will introduce two proposed APPs that can help hearing loss
individual improving audibility based on their mobile phone. Some experimental
results indicated that, under challenging noisy listening conditions, the
above-described method can provide good enough benefits for users and
suggesting these methods could potentially be integrated into CIs and HAs to
overcome speech perception degradation caused by noise.
Biography
Ying-Hui Lai received the
B.S. degree in electrical engineering from the National Taiwan Normal
University, Taipei, Taiwan, in 2005 and the Ph.D. degree in biomedical
engineering from the National Yang-Ming University, Taipei, Taiwan in 2013.
From 2010 to 2012, he was a R&D engineer at Aescu Technologies, working on
development of hearing aids. Following, Dr. Lai has been a postdoctoral
research fellow with the research center for information technology innovation
(CITI), Academia Sinica, Taipei, Taiwan. Currently, he is an assistant
professor at department of electrical engineering, Yuan Ze university. His
research interests focus on hearing aids, cochlear implants, noise reduction,
pattern recognition, and source separation.
Symposium of bioelectronics
for the 21st century - Invited Speaker
Topic : The challenges and opportunities on the development of
innovative medical device
Speaker : Dr. Chen-Ning Huang
Institutional units : CTO, Somnics, Inc.
Date/Venue : August 29, 2016 / EE 105 Conference Hall
Abstract
Innovation is always the key to success, the
development of medical device is no exception. However, there are many
difficulty and challenge during the development process of innovative medical
device. 1. identify the unmet clinical needs: it is no surprise that there are
still many clinical unmet needs that aren't being identity and discovery by
healthcare systems and the medical device company. The answer or solution for
the unmet clinical needs will become the core value of innovation medical
device. 2. develop new medical device from concept to design: The product life
cycle of medical device includes research, development, production, and end of
life. These can certainly be expanded as unmet needed to address a specific
device design or manufacturing procedure 3. Plan and implement the clinical
trial of medical device: The design of medical device clinical trials may
present some special challenges that do not arise with drug trials. (a) Inability to blind, (b) the use of the
medical device is a key part of its clinical performance, (c) Limitation in comparative trial design, 4. regulatory pathways of innovative medical device:
For innovative medical device, it is usually difficult to find predicative
device. Before develop the data and information that is necessary to submit
application, you may need to make sure the product you wish to market is a
medical device. Then determine the class of your device.
With the recent explosion, there are many
new technologies could be the opportunity of innovative medical device. 1.
Mobile app as medical device: mobile platforms allow personal electronic
devices to transmit patient data to doctors, manage documentation and records,
and provide identification and traceability of medical devices. 2. 3D printing
medical device: The flexibility of 3D printing allows designers to make changes
easily. It also enables manufacturers to create devices matched to a patient’s
requirement (ex. Anatomy, disease severity).
Biography
Chen-Ning
Huang was born in Taoyuan, Taiwan in 1979. He received his B.Sc. degree in
Electrical Engineering from Chung Yuan Christian University, Taiwan in 2001 and
Ph.D. degree in Electrical Engineering from National Central University Taiwan,
in 2008.
In 2008 he entered in the Medical
Electronics & Image Technology Division of Industrial Technology Research
Institute (ITRI) as an Engineer and Project leader. As a project leader, he is responsible
for several advance research projects related to treatment of sleep breathing
problem.
In 2012 He
joined the Somnics, Inc. when the company was established. Somnics is a company
focused on develop innovative medical device to treat obstructive sleep apnea
(OSA). He had involved all the activity of developing innovative medical
device, including the product design, prototyping, product verification and
validation, clinical study and regulatory approving process. After completing
the development of the first generation product, he devoted to improve the
product and show more clinical evidence. Currently, he is the chief Technology
Officer and is in charge of new application development and clinical research.
Sessions and Chairs
Oral Session
|
Chairs
|
Room
|
A1:Power and Energy Systems I
|
Michael
Pacis
Arnold
Paglinawan
|
304
Raymond Room
|
A2:Smart Computation and Communication I
|
Febus Reidj G. Cruz
Yao Jen
Chang
|
354
|
A3:Smart Computation and Communication II
|
Suherman
Suherman
Hung-Huan Liu
|
105 Convention
Hall
|
A4:Intelligent Systems I
|
Peter Liu
Charmaine
Paglinawan
|
304
Raymond Room
|
A5:Smart Computation and Communication III
|
Meo Vincent Caya Hung-Huan Liu
|
354
|
A6:Smart Computation and Communication IV
|
Alejandro Ballado Emerson Pascawira Sinulingga
|
105 Convention
Hall
|
A7:Intelligent Systems II
|
Cyrel
Manlises
Shih-Che
Hsu
|
304 Raymond
Room
|
A8:Power and Energy Systems II
|
Julius
Sese
Wen-Chih
Yang
|
354
|
Poster Session
|
Chairs
|
Room
|
P1a:Power and Energy Systems III
|
Guan-Chyun
Hsieh
Jocelyn Villaverde
|
EE Building
3F
|
P1b:Intelligent Systems III
|
ELTICOM
2016 Program
Session A1:Power
and Energy Systems I
10:20-12:00
/ 304 Raymond Room
|
Session Chair
Michael
Pacis
Arnold
Paglinawan
|
1
|
[8]
|
A Study on Vibration Energy Harvesting in Electric Generators
|
Michael
Pacis
|
2
|
[13]
|
Maximum Power Point Tracking for a Grid-Tied Photovoltaic Inverter
System Under Partial Shading Conditions
|
Cheng-Hao Wang Chian-Song Chiu
|
3
|
[43]
|
Real-Time Simulation of Maximum Power Point Tracking Control Using
Fuzzy Logic for Stand Alone PV System
|
Ying-Yi Hong,
Angelo Beltran Jr.
Arnold Paglinawan
|
4
|
[46]
|
Realization Study of Buck Converter for Battery Charger
|
Go Jan
Samuel R., Yi-Chung Feng,
Ual Josiah
C.
Harahap
Juliansyah
|
5
|
[55]
|
Maximum Power Point Tracking of Wind Power Systems with Particle Swarm
Optimization
|
Aidil
Bahari, Christian Luis Velasco, Dirgahayu Goldry Ferdyekaputra, Jiamin Wang,
Mark Angelo
Torres, and Ying Chen
Maickel
Tuegeh
Chun-Yao
Lee
|
Session A2:Smart
Computation and Communication I 10:20-12:00
/ 354
|
Session Chair
Febus Reidj G. Cruz
Yao Jen
Chang
|
1
|
[16]
|
Artificial Test Lung for Human Ventilator with Synchronous
Intermittent Mandatory Ventilation (SIMV)
|
Febus Reidj
G. Cruz and Wen-Yaw Chung
|
2
|
[11]
|
Designing a Serious Game to Help Train Children with Cognitive
Disabilities for Pedestrian Safety
|
Kao Chia Chun,
Yao Jen Chang
Shao-Ting Lu
|
3
|
[32]
|
A Rapid Screening System for Early Autism Children Based on Eye Gaze
Detection Techinques
|
Dung-Sheng Tsai, Shaou-Gang Miaou Dai-Wei Wu, Ya-Shu Kang
|
4
|
[47]
|
Using Tri-axial Accelerometer to Detect Respiratory Rate and Flow
Waveform during Ba Duan Jin Exercise
|
Maryel
Villegas, Yan-Ci Zhu, Gilbert Tindogan, Wen-Chen Lin and Kang-Ping Lin
|
5
|
[33]
|
Multi-user Glucose meter with Insulin Dosage Recommendation
|
Arnold
Paglinawan, Febus Reidj Cruz, Charmaine Paglinawan, Dorothy Faye Blas, John
Colin Daza, Almie Anne Felix and Wen Yaw Chung
|
Session A3:Smart
Computation and Communication II
13:20-15:00
/ 105 Convention Hall
|
Session Chair
Suherman
Suherman
Hung-Chin Jang
|
1
|
[3]
|
The Application of CloudIot in the self-service ordering system: A
Case of School Cafeteria
|
Te-Kwei
Wang, Yu-Hsun Lin, Hong-Ru Liu and Chung-Chih Wang
|
2
|
[28]
|
SDN Based Resource Allocation for Smart Home
|
Hung-Chin Jang, Chi-Wei Huang and Fu-Ku Yeh
|
3
|
[31]
|
UDP-Lite Enhancement Through Checksum Protection
|
Suherman Suherman, Habibi Habibi and Opim S Sitompul
|
4
|
[35]
|
The study on continuous in message transmission by MQTT - Infinite
distance Quadcopter
|
Hung-Huan
Liu, Po-Chang Chin and Da-Wei Zheng
|
5
|
[5]
|
The Application of Time Synchronization Protocol in Cloud-Based Access
Control System
|
Te-Kwei
Wang, Chih-Ming Lin, Fang Po Cheng and Yu-Hsun Lin
|
6
|
[17]
|
Analysis on ISFET’s Calibration Accuracy between Two-Point and
Three-Point Algorithm through Segmented Binary Search in FPGA
|
Cyrel
Manlises, Febus Reidj Cruz, Wen-Yaw Chung and Ramon Garcia
|
Session A4:Intelligent
Systems I
13:20-15:00
/ 304 Raymond Room
|
Session Chair
Peter Liu
Charmaine
Paglinawan
|
1
|
[10]
|
Kinect-based Effectiveness of Bath Training and Movement Assessment on
Exercise Game
|
Chia Chun
Kao, Yao Jen Chang and Shao-Ting Lu
|
2
|
[9]
|
UWB Radar System for Fall Detection
|
Vincent Tseng Cheng-Yuan Chang
|
3
|
[15]
|
SCARA Robot of Human Machine Cooperation and Safe Protection
|
Shao-Gang Huang and Chian-Song Chiu
|
4
|
[24]
|
Motor Characteristics Measurement System Applied on Unmanned Aerial
Vehicle Mathematical Model Building
|
Peter Liu,
Yi Ping Wang, Kuan Yi Lin and Chih-Yu Lin
|
5
|
[29]
|
Arduino-based Urine Glucose Meter Using Glucolor Sensor for Diabetes
Diagnosis
|
Ramon
Garcia, Charmaine Paglinawan, Marianne Sejera, Arnold Paglinawan, Wen Yaw
Chung, Gian Paulo Austria, Josfel James
|
6
|
[57]
|
Acoustic Noise Reduction in PVC Pipe Using Feedback Active Noise
Control
|
Rina
Hasegawa, Kristel Anne Jazmin, Chen-Nien Chung, Yan-Jun Liu, Ming-Han Ho and
Cheng-Yuan Chang
|
Session A5:Smart
Computation and Communication III 13:20-15:00
/ 354
|
Session Chair
Meo Vincent Caya
Hung-Huan Liu
|
1
|
[34]
|
Wiper Tansparency Tchniques Uing Mltiple Frames
|
Yu-Syuan
Syu, Liang-Han Chen, Chia-Chun Tu and Ting-Lan Lin
|
2
|
[27]
|
Implementation of Rough Set Algorithms on Apache Spark
|
Kuo-Min Huang, Hsin-Yu Chen and Kan-Lin Hsiung
|
3
|
[19]
|
On-Off Keying Transmitter for Biomedical Applications in 0.35, 0.25,
and 0.18 Micron CMOS Technologies
|
Febus Reidj G. Cruz and Wen-Yaw Chung
|
4
|
[4]
|
A Cloud-Based Pipeline Leak Detection System with Precision Time
synchronization Protocol
|
Te-Kwei
Wang, Chih-Ming Lin, Xue-Sheng Ko and Yu-Hsun Lin
|
5
|
[26]
|
Design of a Flexible Sketch-based Network Traffic Monitoring System
|
Theophilus
Wellem, Chao-Yuan Huang and Yu-Kuen Lai
|
6
|
[23]
|
Control of Agricultural Irrigation System through Internet of Things
|
Meo Vincent
Caya and Alejandro Ballado
|
Session A6:Smart
Computation and Communication IV
15:20-17:00
/ 105 Convention Hall
|
Session Chair
Alejandro Ballado
Emerson Pascawira
Sinulingga
|
1
|
[36]
|
Pollution Monitoring System for Disaster Area (case Mount Sinabung
Eruption)
|
Fahmi Fahmi
and Baihaqi Siregar
|
2
|
[37]
|
Dispersion Characteristics of 3-D Low Impedance Interconnects for
Compact MMICs
|
Emerson Pascawira Sinulingga
|
3
|
[30]
|
Coded Bi-directional Decision Feedback Equalizer for OFDM Systems in
Doubly Selective Rayleigh Fading Channels
|
Rih-Lung Chung, Mei-Xuan Ma, Cheng-Hsueh Tsai and Jen-Chieh Hsu
|
4
|
[21]
|
An Automatic Water Level Monitoring System using SMS Technology
|
Jocelyn
Villaverde, Reynalin Deveza, April Jem Saccuan and Lisette Salido
|
5
|
[53]
|
FM – Software Defined Radio through GNU Radio
|
Wyndale John
D. Jastillano, Wan-Sheng Chen and Chong-Guang Chen
|
6
|
[52]
|
Advanced SDN Laboratory Design for Undergraduate Students - A Case
Study on Intelligent Firewall Design
|
Elain Camile Buyagao, Micah Mañebo,
Yi-Chen Yang and Angelo Alecver Quiniquini
|
Session A7:Intelligent
Systems II
15:20-17:00
/ 304 Raymond Room
|
Session Chair
Cyrel
Manlises
Shih-Che
Hsu
|
1
|
[41]
|
Collision avoidance system for unmanned vehicle
|
Ju-Hui Peng
and Kuan-Chou Chen
|
2
|
[14]
|
Aids for Stroke Elderly
|
Li-Hu Jhang and Chian-Song Chiu
|
3
|
[12]
|
Simultaneous localization and mapping by laser rangefinder combine
mobile robot
|
Chiu Chian-Song and Chen Tao-Jyun
|
4
|
[48]
|
Shoulder Rotation-Angle Monitoring during BaDuanJin Exercise using
Triaxial Accelerometer
|
Wen-Chzn
Chen, Kristian Brent Arugay, Bernadette Dicolen, Wen-Chen Lin and Kang-Ping
Lin
|
5
|
[49]
|
Active Noise Control Using Feedforward System for PVC Pipe
|
John Alfred
Iii Silisilon, Chih Ling Kuo, Ming-Han
Ho and Cheng-Yuan Chang
|
6
|
[56]
|
A Smart Bulb Controlled by Brainwaves
|
Dustin
Guzman,
Youxin Wang
Tzu-Ning
Peng
|
Session A8:Power
and Energy Systems II
15:20-17:00
/ 354
|
Session Chair
Julius
Sese
Wen-Chih
Yang
|
1
|
[54]
|
Impact of the Line and Generator tripping test in a Microgrid
|
Louis Rae
Ponio, Moses Odillo Rosevelt Sinaga, Chang-Chih Chou, Manh-Tuan Nguyen and
Ying-Yi Hong
|
2
|
[44]
|
Distributed Generation and Concept, Types and Application of Microgrid
|
Chin-I Wu, Luigie Marquez, Jose Ricardo Jr. Garfin and Ahmad Taufik
|
3
|
[59]
|
Maximum Power Point Tracking of Photovoltaic System using Fuzzy Logic
Controller with Gradient Descent
|
Kemal Syafrizal Arun, Maria Cassandra Gae Firme, Ying-Yi Hong and
Angelo Beltran
|
4
|
[20]
|
Harvesting Electrical Power through Body Heat in Different Workout
Activities using Peltier Tiles
|
Julius Sese,
Joseph Bryan
Ibarra
Mary Ann
Latina
|
5
|
[7]
|
Study in the Impact of Distributed Generator (DG) Placement and Sizing
on a Ring Distribution Network
|
Michael
Pacis
|
6
|
[60]
|
Voltage Analysis of a Distribution Feeder Connected Large Total
Capacity of Renewable Energies
|
Yih-Der Kuo,
Shih-Che Hsu
Chin-Chun
Tseng
|
Session P1a:Power
and Energy Systems III 13:20-15:00
/ EE Building 3F
|
Session Chair Guan-Chyun
Hsieh Jocelyn Villaverde
|
1
|
[40]
|
Realization Study of a Current-Doubler Rectifier for Battery Charging
|
Kuan-Pin
Huang, Guan-Chyun Hsieh,
Hung-I Hsieh
|
2
|
[38]
|
Implementation of a Micro Battery Energy Storage System with Hybrid
Green Energy
|
Wen-Chih Yang,
Yu-Hao Xu
|
3
|
[25]
|
Analysis of
the induction motor operation measurement considering different slot shape
and bearing condition
|
Yi-Hong Huang,
Maickel
Tuegeh,
Ing-Jer Shyu,
Chun-Yao Lee
|
Session P1b:Intelligent
Systems III 13:20-15:00
/ EE Building 3F
|
Session Chair Guan-Chyun
Hsieh Jocelyn Villaverde
|
1
|
[42]
|
Inverse Halftoning Based on K-means Clustering
|
Jun-Chun Gao
Yu Tai
Wen-Liang
Hsue
|
2
|
[45]
|
Gesture-Controlled Omnidirectional Robot Using Kinect
|
Yi-Wen Hsu
Gabriel Cruz
Marimar Auditor
|
3
|
[58]
|
Somatosensory Control of Omnidirectional Robot Using MPU-6050 Through
Bluetooth
|
Emilio Hsu,
Muhammad Hanafi Rinna
Andrea Roxas
|
4
|
[50]
|
Fundamental SDN Laboratory Survey & Design
|
Angelo
Alecver Quiniquini, Yi Fang Yang, Ping Yu Wu, Micah Manebo and Elain Camile
Buyagao
|
|
|