PROSIDING Judul Karya Ilmiah : Design and development

(1)

LEMBAR

HASIL PENILAIAN SEJAWAT SEBIDANG ATAU PEER REVIEW KARYA ILMIAH : PROSIDING

Judul Karya Ilmiah : Design and development of maximum power point tracking (MPPT) for 100 watt solar panel base on buck boost converter

Jumlah Penulis : 4

Status Pengusul : Penulis ke-3

Identitas Prosiding : a. Judul Prosiding : AIP Conference Proceeding 2173, 020011 (2019)

ADVANCES IN ELECTRICAL AND

ELECTRONIC ENGINEERING: FROM THEORY TO APPLICATIONS (SERIES 2):

Proceedings of the International Conference of Electrical and Electronic Engineering (ICon3E 2019)

b. ISBN/ISSN : ISSN:0094-243X E-ISSN:1551-7616 c. Thn Terbit, Tempat Pelaks. : 2019, Malaysia

d. Penerbit/Organiser : AIP Publishing

e. Alamat Repository/Web : https://aip.scitation.org/doi/abs/10.1063/1.5133926 Alamat Artikel : https://aip.scitation.org/doi/

pdf/10.1063/1.5133926?class=pdf f. Terindeks di (jika ada) : Scopus

Kategori Publikasi Makalah :  Prosiding Forum Ilmiah Internasional (beri pada kategori yang tepat) Prosiding Forum Ilmiah Nasional Hasil Penilaian Peer Review :

Komponen Yang Dinilai

Nilai Maksimal Prosiding

Nilai Akhir Yang Diperoleh Internasional Nasional

a. Kelengkapan unsur isi prosiding (10%) 3 2,8

b. Ruang lingkup dan kedalaman pembahasan (30%)

9 7,5

c. Kecukupan dan kemutahiran data/informasi dan metodologi (30%)

9 8.8

d. Kelengkapan unsur dan kualitas terbitan /prosiding (30%)

9 8,6

Total = (100%) 30 27,7

Nilai Pengusul = 40% x 27,7 /3 = 3,69

Catatan Penilaian Paper oleh Reviewer :

1. Kesesuaian dan kelengkapan unsur isi prosiding:

Artikel terdiri dari: Title, Abstract, Introduction, Complete Block PV System, Solar Panel, MPPT, Buck Bost Converter, Battery, Results and Discussion, Conclusion, Acknowledgment, References dan ditulis sesuai dengan Guide for Author. Substansi artikel merupakan salah satu bidang fokus Energi Baru Terbarukan.

2. Ruang lingkup dan kedalaman pembahasan:

Artikel membahas tentang optimalisasi energi yang dapat diperoleh solar panel menggunakan algoritma Maximum Power Point Tracker.

Pembahasan belum ada sama sekali, sebatas menyajikan hasil penelitian saja. Komparasi dengan peneliti lain belum ada sama sekali 3. Kecukupan dan kemutakhiran data/infrmasi dan metodologi:

Jumlah referensi dalam 10 tahun terakhir (mulai tahun 2010) sebanyak 16 dari 16 artikel (100 %). Tingkat kebaruan cukup baik. Metode penelitian dituliskan cukup lengkap disertai dengan analisis statistik sederhana, namun perlu ditambahkan gambar peralatannya.

4. Kelengkapan unsur dan kualitas terbitan:

Jurnal diterbitkan oleh AIP Publishing, seminar diselenggarakan oleh ICon3E 2019 Committee, masuk dalam kategori seminar terindeks SCOPUS dan impact faktor sebesar 0.182. Peserta dari 5 Negara : Malaysia (13), Indonesia (4), Jepang(1), Argentina (1) dan Irak (1). Keynote dari Taiwan, Korea dan Jepang. Kualitas terbitan cukup baik dan konsisten serta dilengkapi dengan petunjuk penulisan yang jelas. Nilai similaritas artikel berdasarkan Turnitin sebesar 24%.

Semarang, 23 Maret 2020



(2)

Reviewer 1

Prof. Dr. Widayat, ST., MT.

NIP. 197209061998031001

Unit Kerja : Fakultas Teknik Universitas Diponegoro

Bidang Ilmu : Teknik Kimia

(3)

LEMBAR

HASIL PENILAIAN SEJAWAT SEBIDANG ATAU PEER REVIEW KARYA ILMIAH : PROSIDING

Judul Karya Ilmiah : Design and development of maximum power point tracking (MPPT) for 100 watt solar panel base on buck boost converter

Jumlah Penulis : 4

Status Pengusul : Penulis ke-3

Identitas Prosiding : a. Judul Prosiding : AIP Conference Proceeding 2173, 020011 (2019)

ADVANCES IN ELECTRICAL AND

ELECTRONIC ENGINEERING: FROM THEORY TO APPLICATIONS (SERIES 2):

Proceedings of the International Conference of Electrical and Electronic Engineering (ICon3E 2019)

b. ISBN/ISSN : ISSN:0094-243X E-ISSN:1551-7616 c. Thn Terbit, Tempat Pelaks. : 2019, Malaysia

d. Penerbit/Organiser : AIP Publishing

e. Alamat Repository/Web : https://aip.scitation.org/doi/abs/10.1063/1.5133926 Alamat Artikel : https://aip.scitation.org/doi/

pdf/10.1063/1.5133926?class=pdf f. Terindeks di (jika ada) : Scopus

Kategori Publikasi Makalah :  Prosiding Forum Ilmiah Internasional (beri pada kategori yang tepat) Prosiding Forum Ilmiah Nasional Hasil Penilaian Peer Review :

Komponen Yang Dinilai

Nilai Maksimal Prosiding

Nilai Akhir Yang Diperoleh Internasional Nasional

a. Kelengkapan unsur isi prosiding (10%) 3 3,00

b. Ruang lingkup dan kedalaman pembahasan (30%)

9 8,25

c. Kecukupan dan kemutahiran data/informasi dan metodologi (30%)

9 8,25

d. Kelengkapan unsur dan kualitas terbitan /prosiding (30%)

9 6,75

Total = (100%) 30 26,25

Nilai Pengusul = 40% x 26,25 / 3 = 3,50 Catatan Penilaian artikel oleh Reviewer :

1. Kesesuaian dan kelengkapan unsur isi prosiding:

Artikel ditulis sesuai dengan kaidah penulisan suatu artikel ilmiah pada prosiding.

2. Ruang lingkup dan kedalaman pembahasan:

Ruang lingkup cukup jelas. Pembahasan terbatas.

3. Kecukupan dan kemutakhiran data/informasi dan metodologi:

Data cukup. Metodologi cukup jelas.

4. Kelengkapan unsur dan kualitas terbitan:

AIP Conference Proceeding 2173, 020011 (2019) ADVANCES IN ELECTRICAL AND ELECTRONIC ENGINEERING: FROM THEORY TO APPLICATIONS (SERIES 2): Proceedings of the International Conference of Electrical and Electronic Engineering (ICon3E 2019) termasuk prosiding internasional terindeks scopus. Sehingga nilai AK maksimum 30. Beberapa kesalahan typo masih ditemukan misalnya penggunaakn titik dan koma yang tidak tepat. Ybs sebagai penulis ketiga dari 4 penulis, dimana penulis pertama = penulis korespondensi, sehingga nilai maksimum = 1/3 x 40% x 30 = 4.

Surakarta, 10 Maret 2020 Reviewer 2

Prof. Dr. techn. Suyitno, S.T., M.T.

NIP. 197403262000031001

Unit Kerja : Fakultas Teknik Universitas Sebelas Maret Bidang Ilmu : Teknik Mesin



(4)

Document details

3 of 13

Design and development of maximum power point tracking (MPPT) for 100 watt solar panel base on buck boost converter (Conference Paper) (Open Access)

, , ,

Department of Electrical Engineering, Universitas Islam Sultan Agung, Semarang, 50112, Indonesia Department of Mechanical Engineering, Universitas Diponegoro, Semarang, Indonesia

Faculty of Engineering, Universitas Diponegoro, Semarang, Indonesia

Abstract

Photovoltaic systems produce energy that is not constant and is very dependent on weather conditions. Factors that can affect the output produced by solar panels always experience changes in the amount of sunlight intensity and working temperature of solar panels. To optimize the power of solar cells, Maximum Power Point (MPP) is usually used. This research design presents the implementation of Perturb and Observe algorithms for Maximum Power Point Tracker (MPPT) as a controller for solar power generators. The synchronous buck boost DC-DC converter circuit is used as a lowering voltage controller which is controlled using the P & O algorithm. The maximum power point (MPP) is the point in the VI curve or VP curve on the solar panel at which point the solar panel works in maximum efficiency that can produce the most output power. In designing the Maximum Power Point Tracking (MPPT) algorithm that is used to find and make the working points of solar panels always in the MPPT area, Perturb and Observe are needed to get the right optimization results. © 2019 Author(s).

SciVal Topic Prominence

Topic:

Prominence percentile: 99.734

Author keywords

Buck boost converter. Maximum power point tracking Solar panel

◅ Back to results ◅ Previous Next ▻

 Export  Download  Print  E-mail  Save to PDF ⋆ Add to List More...▻

View at Publisher

AIP Conference Proceedings

Volume 2173, 11 November 2019, Article number 020011

2nd International Conference on Electrical and Electronic Engineering, ICon3E 2019; The Everly HotelPutrajaya; Malaysia; 24 June 2019 through 25 June 2019; Code 154645

Utomo, S.B.^a,b  Setiawan, I.^d Fajar, B.^b,c Winoto, S.H.^b 

a b c

 View additional aﬃliations

 View references (16)



Photovoltaic cells | DC-DC converters | Incremental conductance



ISSN: 0094243X ISBN: 978-073541920-9

Source Type: Conference Proceeding Original language: English

DOI: 10.1063/1.5133926

Document Type: Conference Paper

Volume Editors: Wahab M.H.A.,Audah L.,Jamail N.A.M.,Hanaﬁ D.,Soon C.F.,Ahmad N.

Publisher: American Institute of Physics Inc.

PlumX Metrics Usage, Captures, Mentions, Social Media and Citations beyond Scopus.

Metrics

Cited by 0 documents

Inform me when this document is cited in Scopus:

Source details

AIP Conference Proceedings

Scopus coverage years: from 1974 to 1978, from 1983 to 1984, 1993, from 2000 to 2001, from 2003 to 2019

ISSN: 0094-243X E-ISSN: 1551-7616

Subject area: Environmental Science: Nature and Landscape Conservation Environmental Science: Ecology

Agricultural and Biological Sciences: Plant Science Physics and Astronomy: General Physics and Astronomy



View all

View all documents ▻ Set document alert  Save to source list

CiteScore 2018

0.37

Add CiteScore to your site



SJR 2018

0.182

^

SNIP 2018

0.385

^

CiteScore CiteScore rank & trend CiteScore presets Scopus content coverage

Calculated using data from 30 April, 2019

CiteScore

*CiteScore includes all available document types

0.37

⁼ Citation Count 2018 Documents 2015 -

2017*

=

Metrics displaying this icon are compiled according to , a collaboration between industry and academia.

2018 ^

▻ 10,085 Citations

▻ 27,335 Documents

▻

View CiteScore methodology CiteScore FAQ▻

Last updated on 08 January, 2020

CiteScoreTracker 2019

0.38

⁼ Citation Count 2019 Documents 2016 - 2018

=

 Updated monthly

▻ 12,895 Citations to date

▻ 33,880 Documents to date

↗

Snowball Metrics

CiteScore rank

Category Rank Percentile

Environmental Science

#113/141 19th

Environmental Science

#275/333 17th



Nature and Landscape Conservation

Ecology

▻

View CiteScore trends

About Scopus

What is Scopus Content coverage Scopus blog Scopus API Privacy matters

Language

⽇本語に切り替える切换到简体中文切換到繁體中文 Русский язык

Customer Service

Help Contact us

Brought to you by Universitas Diponegoro

Search Sources Lists SciVal ↗ Create account Sign in

(9)

We use cookies to help provide and enhance our service and tailor content. By continuing, you agree to the .

Terms and conditions ↗ Privacy policy ↗ Elsevier B.V ↗

use of cookies

(10)

1/13/2020 https://aip.scitation.org/action/showLargeCover?doi=10.1063%2Fapc.2019.2173.issue-1

https://aip.scitation.org/action/showLargeCover?doi=10.1063%2Fapc.2019.2173.issue-1 2/4

November 2019

ADVANCES IN ELECTRICAL AND ELECTRONIC ENGINEERING: FROM THEORY TO APPLICATIONS (SERIES 2): Proceedings of the International Conference of Electrical

(11)

1/13/2020 AIP Conference Proceedings: Vol 2173, No 1

https://aip.scitation.org/toc/apc/2173/1?size=all 1/10



^MENU SIGN IN/REGISTER 

Conference Proceedings

HOME BROWSE MORE 

. Table of Contents

 PREV NEXT 

Conference date: 24–25 June 2019 Location: Putrajaya, Malaysia ISBN: 978-0-7354-1920-9

Editors: Mohd Helmy Abdul Wahab, Lukman Audah, Nor Akmal Mohd Jamail, Dirman Hanafi, Chin Fhong Soon and Nabihah Ahmad

Volume number: 2173 Published: Nov 11, 2019

DISPLAY : 20 50 100 all

ADVANCES IN ELECTRICAL AND ELECTRONIC ENGINEERING: FROM THEORY TO APPLICATIONS (SERIES 2):

Proceedings of the International

Conference of Electrical and Electronic Engineering (ICon3E 2019)

BROWSE VOLUMES

(12)

PRELIMINARY

Free . November 2019

Preface: Advances in Electrical and Electronic Engineering: From Theory to Applications (Series 2): Proceedings of the

International Conference of Electrical and Electronic Engineering (ICon3E 2019)

AIP Conference Proceedings 2173, 010001 (2019); https://doi.org/10.1063/1.5133914

Organizing Committee: Advances in Electrical and Electronic Engineering: From Theory to Applications (Series 2): Proceedings of the International Conference of Electrical and Electronic

Engineering (ICon3E 2019)

ARTICLES

An investigation on active and reactive power flow control based on grid-tied parallel inverters

Ronald Jackson, Shamsul Aizam Zulkifli, Noor Mazliza Badrul Sham and Erum Pathan AIP Conference Proceedings 2173, 020001 (2019); https://doi.org/10.1063/1.5133916



BROWSE VOLUMES

(13)

An Investigation on Active and Reactive Power Flow Control Based on Grid-tied Parallel Inverters

Ronald Jackson

^a)

Shamsul Aizam Zulkifli

^b)

Noor Mazliza Badrul Sham

^c)

and Erum Pathan

^d)

1Department of Electrical Engineering, Faculty of Electrical and Electronic Universiti Tun Hussein Onn Malaysia 86400 Parit Raja, Batu Pahat Johor, Malaysia

a)Corresponding author: [email protected], ^b)[email protected]

c)[email protected]

d)[email protected]

Abstract. This paper presents an investigation of the single-phase microgrid system with improved power flow control for accurate power sharing for the inverter. The proposed controller has been developed based on abc-Įȕ WUDQVIRUPDWLRQ calculation that being integrates into distributed generation (DG) system for power delivery to the local loads as combined with the grid power flow. In the meantime, the current control also has been placed to the inverter as for the injected current from the DGs can be controlled. Therefore, this paper has used a structure comprising two constant DGs with the converter connected to the loads and grid supply at the point of connection. The advantage of this control strategy is where it allows for the inverter to have active and reactive power distribution equal to the load. The inverter is based on a voltage source inverter (VSI) circuit and operated in active-reactive (P-Q) power mode. Hence, the VSIs should meet the total demand so that the DGs unit shared the power according as instructed by the control strategy. Simulation results are presented to prove the validity and improvements achieved by the proposed controller. Finally, it shows that a reasonable agreement on power- sharing performance.

INTRODUCTION

In recent year, the renewable energy sector becomes more interesting research area due to their penetration into an integrated grid system based on power flow condition. At the meantime, the whole decarbonization policy [1] that has been set by the United Nation (UN) to reduce global warming has been the turning point for generating more clean energy in the future. Many countries, in particular those with geopolitical constraints, have focused on reducing greenhouse gases by using clean and renewable energies such as photovoltaic, wind turbine, fuel cell and other types of distributed generation (DG). The distributed generation (DG) systems and then to become microgrid (MG) is becoming more critical to increase the renewable energy power penetration for reducing the reliance on conventional power generations [2]. Therefore, the DG system has many advantages such as to reduce the overall cost of power by generating power during peak load hours and for standby generation to provide power during system outages until power restoration stage. Here, a power DC/AC converter plays the primary circuit in connecting the generated DC power to the grid for power flow purposes for making sure the power can be supplied from the DG to the network and distributed to the local load. Moreover, a power converter interference-is used in the DG structure and can classify into two categories which are current-source inverter (CSI) and voltage-source inverter (VSI) [3]–[6]. However, the VSI is the most ordinarily utilized interface unit in the grid-connected inverter system due to its simplicity and availability [7], [8].

The MG is a configuration where it connects the low voltage level DG to the utility grid at the point common coupling (PCC) through the circuit breakers as for the protection. However, when a microgrid connected to the utility grid, it supplies the power to load at PCC, but it is acting as a unidirectional power flow system. Many DG systems installed at residential or rural locations which are often only right to be served by a single-phase network in an

Advances in Electrical and Electronic Engineering: From Theory to Applications (Series 2) AIP Conf. Proc. 2173, 020001-1–020001-10; https://doi.org/10.1063/1.5133916

Published by AIP Publishing. 978-0-7354-1920-9/$30.00

020001-1

(14)

Performance evaluation on mitral valve motion feature tracking using Kanade-Lucas-Tomasi (KLT) algorithm based eigenvalue measurement

Lina Farhana Mahadi, Nabilah Ibrahim, Mohd Thariq Zaluwi and Muhammad Haniff S. M.

Johan

Plant watering system on the basis of internet of things (IoT) with protocol of message queue telemetry transport (MQTT)

Muhammad Qomaruddin, Muhammad Syaban Mubarak and Sri Mulyono

Segmentation and detection of sickle cell red blood image

Hajara Abdulkarim Aliyu, Mohd Azhar Abdul Razak and Rubita Sudirman

AIP Conference Proceedings 2173, 020004 (2019); https://doi.org/10.1063/1.5133919 SHOW ABSTRACT 

SHOW ABSTRACT 

BROWSE VOLUMES

(15)

Segmentation and Detection of Sickle Cell Red Blood Image

Hajara Abdulkarim Aliyu

^{1,2, c)}

, Mohd Azhar Abdul Razak

^{1, b),}

Rubita Sudirman

^1,a)

1School of Electrical Engineering, Universiti Teknologi Malaysia, 81310 UTM Johor Bahru, Malaysia

2 Jigawa State Polytechnic Dutse, Jigawa State, Nigeria

a)Correspondence: [email protected]; Tel.: +60167266270

b)[email protected]

c)[email protected]

Abstract. The most common and dangerous hereditary disease that affect red blood cells (RBC) is sickle cell anaemia due to its morphological characteristics of the cells and caused episodes of pains to the affected individual. This work proposed algorithms in two phase, firstly is to compare segmentation systems such as watershed, edge detection, laplacian of Gaussian and Otsu thresholding on sickle cell anaemia blood smear images and secondly is to detect the presence of cell abnormalities in blood smear images using labelling method by considering eccentricity and form factor features. The RBCs of sickle cell anaemia patient have several abnormalities apart from the sickle shape that will guide medical practitioners on the severity level. The major requirement of the system is to get accurate thresholding level in order to detect the abnormalities of sickle cell anaemia patients for excellent management of the affected individuals to reduce episodes of crises. The phase one proved Otsu thresholding with the highest accuracy, sensitivity and specificity of 93%,94% and 80% respectively by considering 30 blood smear images while the classification gives accuracy, sensitivity and specificity of 88%,93% and 50% respectively.

Keywords— Red blood cells, Segmentation, Sickle cell anaemia, Eccentricity.

INTRODUCTION

Sickle cell disease anemia (SCA) is a serious inherited blood illness, where affected patients frequently hospitalized throughout lifetime based on the level of severity of the disease. The affected individual has an uncommon hemoglobin that cause the normal disc-shaped red blood cells (RBCs) to be distorted and generate several heterogeneous shapes based on severity of a patient. The diơerences in cell morphology between the healthy and unhealthy cells draws attention to execute an automatic cell segmentation and cODVVL¿FDWLRQXVLQJLPDJHSURFHVVLQJWHFKQLTXHVZKLFKKDV great significance, faster and more precise diagnosis of SCA and severity detection [1]. Red blood cells (RBCs) of SCA patients have various shapes and sizes that disclose significant biomechanical and bio-rheological characteristics, e.g. like the density, sticky properties, and flimsiness. Various techniques have been advanced to execute RBC VHJPHQWDWLRQRUFODVVL¿FDWLRQ6LFNOHFHOODQHPLD6&$LVPRVWIDPLOLDULQSHRSOHZKRVHIDPLOLHVULVHIURP$IULFD Central or South America, Saudi Arabia and India. In the United States of America, about 100,000 people suffer from the disease, and they are mostly African Americans. The detection of this disease was based on blood test analysis that can precisely diagnose sickle cells [1].

A study conducted in 2013 [2], shows that the estimated number of newborns babies that have SCA globally will increase from 305,800 in 2010 to 404,200 in 2050. More over Nigeria and the Democratic Republic of the Congo have 91,000 newborns with SCA in 2010 to 140,800 in 2050 and 39,700 in 2010 to 44,700 in 2050 respectively. These countries are the most in need of methods for the management and prevention of SCD. Conventionally, a manual microscopic method is used but the technique is time consuming and cause eye fatigue to the hematologist. Then, image processing is introduced to ease the hematologist and reduced time taken to detect the disease and abnormalities

020004-1

(16)

Investigation of FDSOI and PDSOI MOSFET characteristics

Hui Wai Wei and Siti Hawa Ruslan

Design and analysis of safety hazardous gas instruments for laboratory experiments

Siti Sendari, Mokh Sholihul Hadi, Yuni Rahmawati, Nur Cholis Hadi, Fauzy Satrio Wibowo, Danang Arengga Wibowo, Whyna Agustin, Ira Kumalasari, Indriyani Rachman and Toru Matsumoto

Normalized user allocation technique for beam-space massive MIMO communications

Haitham Al Fatli, Norshidah Katiran and Shaharil Mohd Shah

SHOW ABSTRACT 

SHOW ABSTRACT BROWSE VOLUMES 

(17)

Design and Analysis of Safety Hazardous Gas Instruments for Laboratory Experiments

Siti Sendari

^{1, a)}

, Mokh Sholihul Hadi

¹

, Yuni Rahmawati

¹

, Nur Cholis Hadi

¹

, Fauzy Satrio Wibowo

¹

, Danang Arengga Wibowo

¹

, Whyna Agustin

¹

, Ira Kumalasari

¹

,

Indriyani Rachman

²

, and Toru Matsumoto

²

1Department of Electrical Engineering, Universitas Negeri Malang, Jl. Semarang No. 5, Malang 65141, Indonesia

2Department of Life and Environment Engineering, the University of Kitakyushu, 1-1Hibikino, Wakamatsu-ku, Kitakyushu 808-0135, Japan

a)Corresponding author: [email protected]

Abstract. In this paper, a safety of hazardous gas instruments for laboratory experiments was designed using a microcontroller and connected to personal computer to save the data. Here, the carbon monoxide gas (CO) and methane gas (CH4) sensors are applied to the systems to measure the concentration of gases in case of laboratory. Commonly, the gas instruments are used in object tested directly without considering the flow of gases toward the user. Comparing to that system, in order to protect the users’ safety from of direct contact with the gases, inlet-outlet pipes and fill-discharge tubes are used in this proposed system. The performance of the proposed system is analysed trough experiments. Some results were presented according to the time of activating inlet to inject the gas. Thus, the effect of changing the gas concentration was analysed.

Keywords – Gas instrument, Laboratory experiments, Methane gas, Carbon monoxide gas, Safety operating, Concentration measurement.

I. INTRODUCTION

Some of gases have unique characteristics, which cannot be seen using normal eyes or smell it. Two of gases which have poissonic characters, i.e., Methane gas (CH4) and Carbon Monoxide (CO), should be treated carefully.

CH4 gas is produced when certain types of microorganisms decompose organic matter under anaerobic conditions [1].

It is produced naturally at the time of decomposition of biomass. However, the application of CH4 gas should be carefully since it is flammable and produces carbon dioxide (CO2) as another hazardous gas [2]. Meanwhile, the CO gas is produced by imperfect combustion process [3]. This case usually occur in the machine and decomposition process of waste. However, those gases can still be measured to identify their existence using certain set of instruments, which could help the human to understand the patterns and characteristics depended on the purposes, such as, research purposes, safety or security environment purposes [4][5]. Therefore, the development of ideal instrument for gas measurement should be developed based on its characteristics.

There are many types of gas instruments intended for certain measurements [6]. Lately, the development of gas instrument has been developed using various methods, such as, dew-point [7], in-point and scanning method. A method of measurement using in-point could be built using a hand held instrument, i.e., laser methane detector (LMD), which is placed in a fix chamber representing a landfill in lab scale [8]. In case of scanning method, the measurement was done continuously in site of landfill using LMD strung between two poles with wire. This research is focusing a method how to measure gas in lab scale compared with that in landfill site by using manufactured instrument. Beside of only one certain gas is observed, the price of this instrument is also expensive. Low cost gas instrument can be developed using a micro controller as the main processor [9]. So, various gases could be measured using several sensors installed to the micro controller. Here, the measured data is compared using two chambers to observe the

020006-1

(18)

Review and design of environmental smart detector for autonomous vehicle in urban traffic

Eka Nuryanto Budisusila, Sri Arttini Dwi Prasetyowati, Bhakti Yudho Suprapto and Zainuddin Nawawi

CMOS-based UWB bandpass filter design for wireless application

Law Xin Hui, Nabihah Binti Ahmad and Siti Hawa Ruslan

A survey paper on keystroke dynamics authentication for current applications

Siti Fairuz Nurr Sadikan, Azizul Azhar Ramli and Mohd Farhan Md. Fudzee

SHOW ABSTRACT 

BROWSE VOLUMES

(19)

Design and development of maximum power point tracking (MPPT) for 100 watt solar panel base on buck boost converter

Sukarno Budi Utomo, Iwan Setiawan, Berkah Fajar and S. H. Winoto

Study of electric field distribution in the high voltage stator bar insulation in presence of different shapes, locations and sizes of cavities

Daphne Tay Ye Chee, Hadi Nabipour-Afrouzi, Zulkurnain Abdul Malek, Kamyar Mehranzamir and Jubaer Ahmed

A vision-based home security system using OpenCV on Raspberry Pi 3

Thinesh Prathaban, Weilynn Thean and Mohd Ilyas Sobirin Mohd Sazali

SHOW ABSTRACT 

BROWSE VOLUMES

(20)

GPS based location monitoring system with geo-fencing capabilities

A. H. Abbas, Mohammed I. Habelalmateen, Syukran Jurdi, L. Audah and N. A. M. Alduais AIP Conference Proceedings 2173, 020014 (2019); https://doi.org/10.1063/1.5133929

Very high frame rate ultrasound for medical diagnostic imaging

Hideyuki Hasegawa

Post-fault tolerant of symmetrical six-phase induction machine under open circuit fault with single and two isolated neutral points using graphical user interface

Gabriel Jamit Anak Mule, Wan Noraishah Wan Abdul Munim, Mahdi Tousizadeh and Ahmad Farid Abidin

SHOW ABSTRACT 

BROWSE VOLUMES

(21)

GPS Based Location Monitoring System with Geo-fencing Capabilities

A.H. Abbas

^{1, a)}

, Mohammed I. Habelalmateen

^{1, 2, b)}

, Syukran Jurdi

^{1, c)}

, L. Audah

^{1, d)}

and N.A.M. Alduais

^{1, e)}

1Wireless and Radio Science Centre (WARAS)

Faculty of Electrical and Electronic Engineering, Universiti Tun Hussein Onn Malaysia 86400 Parit Raja, Batu Pahat, Johor, Malaysia

2Department of Computer Technical Engineering,

College of Technical Engineering, the Islamic University, 54001 Najaf, Iraq

d)Corresponding author: [email protected],

a)[email protected],^b) [email protected], ^c) [email protected]

e)[email protected]

Abstract. This paper presents a study on GPS Based Location Monitoring System with Geo-fencing Capabilities. This system provided a high- security system that prevents vehicles from being stolen. It also issued an alert to the user based on the boundary of the location by using the Internet of Things (IoT). In this study, the system could easily monitor and track the location of the vehicle and was able to issue an alert when the vehicle exited the geofence area. This system was separated into two parts which were the hardware and software. The hardware parts were the ESP8266 NodeMCU and GPS module while Google Maps and IoT platform were the software parts. The admin could monitor the vehicle via the computer, and the notification alert was sent to the registered email of the admin when the vehicle exited or entered the geofence area. The prototype system was tested by moving the vehicle around the geofence area. The results showed the correct location of the vehicle and email notification alert when it exited or entered the boundaries. The location accuracy of about 95% compared to the real-map on the mobile phone.

Keywords - GPS Location Monitoring; Geo-fencing; Internet of Things; vehicle tracking.

INTRODUCTION

Security systems and navigators have always been a requirement of a human’s life. The developments of advanced electronics have brought revolutionary changes in these fields. Equipment theft is a severe problem in many industries including transportation and construction, especially for more significant businesses [1]. There is no solution in monitoring the movement of the vehicle, and we do not know the current condition and position of the vehicles. The GPS - based vehicle tracking system is one of the most obvious ways to keep track of the vehicles. The Global Positioning System (GPS) is a system based on Global Navigation Satellite System (GNSS) that provides reliable location and time information at all times in any weather condition on earth [2]. We want to solve the location tracking problem by using GPS based monitoring system with a geo-fencing capability to track the vehicle. This system comprised of a few major components which combined satellite communication components to communicate the location of the vehicle to a remote user. Geo-fencing enabled remote monitoring of geographic areas surrounded by a virtual fence (geo-fence), and automatic detections when it tracked mobile objects that entered or exited these areas

020014-1

(22)

New design for current-mode rational-powered membership function generator

Muhammad Taher Abuelma’atti and Adi Kurniawan

Photoacoustic systems for biomedical imaging application: A comparison study

Hui Ling Chua, Audrey Huong and Kim Gaik Tay

The development of acoustic system for noninvasive monitoring of blood perfusion

Hui Ling Chua, Audrey Huong and Kim Gaik Tay

Free . November 2019 SHOW ABSTRACT 

SHOW ABSTRACT 

BROWSE VOLUMES

(23)

Development of transmitter and receiver for fox hunting activity

Wafiuddin Suparman and Mariyam Jamilah Homam

Articulating heterogeneous data streams with the attribute- relation file format

Mario José Diván and María Laura Sánchez Reynoso

SHOW ABSTRACT 

Resources

AUTHOR LIBRARIAN ADVERTISER

General Information

BROWSE VOLUMES

(24)

ABOUT CONTACT HELP

PRIVACY POLICY TERMS OF USE

FOLLOW AIP PUBLISHING:

  

Article copyright remains as specified within the article.

BROWSE VOLUMES

(25)

1/13/2020 International Advisory Panels

icon3e2019.uthm.edu.my/international-advisory/ 1/10

Welcome to ICon3E2019

 MENU

(26)

International Advisory Panels

PROF. DR. MURAKAMI KENJI SHIZUOKA UNIVERSITY, JAPAN

AP. DR. AROKIASWAMI ALPHONES

NANYANG TECHNOLOGICAL UNIVERSITY, SINGAPORE

PROF. DR. MASARU SHIMOMURA SHIZUOKA UNIVERSITY, JAPAN

DR. MANSOUR YOUSEFFI UNIVERSITY OF BRADFORD, UK

PROF. RAED A. ABD-ALHAMEED UNIVERSITY OF BRADFORD, UK

PROF. DR. QING-CHANG ZHONG

ILLINIOUS INSTITUTE OF TECHNOLOGY, USA

PROF. DR. HIDEYUKI HASEGAWA UNIVERSITY OF TOYAMA, JAPAN

PROF. DR. YAOW-MING CHEN

NATIONAL TAIWAN UNIVERSITY, TAIWAN

PROF. A. MANU HADDAD CARDIFF UNIVERSITY, UK

PROF. HUW GRIFFITHS

PETROLEUM INSTITUTE, ABU DHABI

DR. NEIL MITCHELL

QUEEN’S UNIVERSITY BELFAST, UK

DR. MUHAMMAD RAMLEE KAMARUDIN CRANFIELD UNIVERSITY, UK

(27)

DR. ALOMAINY, AKRAM H.

QUEEN MARY UNIVERSITY OF LONDON, UK

PROF. DR. CHRISTOS CHRISTOPOULOS UNIVERSITY OF NOTTINGHAM, UK

PROF. DR. M. OSMAN TOKHI

LONDON SOUTH BANK UNIVERSITY, UK

IMPORTANT DATES

January 01, 2019

Deadline for Paper Submission January 31, 2019

First Extension for Paper Submission February 15, 2019

Second Extension for Paper Submission February 28, 2019

Final Extension for Paper Submission March 30, 2019

Notification of Paper Acceptance April 30, 2019

Deadline for Early Bird Payment May 15, 2019

New Deadline for Final-Camera Ready May 30, 2019

(28)

Deadline for Paper Registration & Payment June 24-25, 2019

Conference Days

CONFERENCE REGISTRATION

1) Link for conference registration: Click for Registration

**Immediate confirmation is required for seat reservation.

2) Please refer to the following instructions in order to receive your invoice for International Conference on Electrical and Electronic Engineering 2019

(ICon3E2019).

STEP 1 : Check Your Paper ID Check your paper ID here

STEP 2 : Find Your Invoicehttps:

You will received invoice according to your paper ID.

Check your invoice here

STEP 3 : Upload Proof of Payment

Please upload your proof of payment file/receipt by naming it as your paper ID.

Upload here

**EARLY-BIRD PROMO FOR JOURNAL

Payment before 30 April 2019 are as follows.

First Paper (Journal)

Normal Price : RM 1900 / USD 550

Early-bird (before 30 April) : RM 1700/ USD 500 3) Link to retrieve payment receipt: Click for receipt

(29)

Please contact Go Innovative & Intelectual Service (Go IntelS) for any amendment (Tel:+016-7746793, Email: [email protected]).

All accepted and presented ICon3E2019 papers will be published in SCOPUS indexed journal

SPONSORSHIP PLATINUM SPONSOR

Conference Day

- 203

DAYS

: 01

HOURS

: 51

MINUTES

: 24

SECONDS

(30)

1/13/2020 Keynote Speakers

icon3e2019.uthm.edu.my/keynote-speakers/ 1/13

INTERNATIONAL CONFERENCE ON ELECTRICAL AND ELECTRONIC ENGINEERING (ICON3E2019) | JUNE 24-25, 2019 | PUTRAJAYA, MALAYSIA

Welcome to ICon3E2019

Keynote Speakers

DR. HUANG-JEN CHIU

 MENU

(31)

Department of Electronic and Computer Engineering Director,

Center for Power Electronic Technologies Dean,

Office of Industry-academia Collaboration National Taiwan University of Science and Technology

Taipei, Taiwan [email protected]

“HIGH-EFFICIENCY WIRELESS POWER TRANSFER SYSTEM FOR ELECTRIC VEHICLES”

ABSTRACT

In the past few years, more and more portable electronics devices adopt wireless power transfer technology that allow them to be recharged without the trouble of plugging in.

However, the wireless power transfer technologies are not limited to low power application.

Wireless chargers for EVs are also being developed. While conventional plug in charging has certain advantages such as simplicity, inexpensive and high efficiency, they may pose a potential risk of electric shock to users if connecters are plugged or unplugged in a high humidity or rainy environment. Other issues that may affect their reliabilities includes insulation wear and oxidation/corrosion of metal contacts. The use of wireless charging can eliminate these concerns. This talk initially presents an overview of the speaker’s current research and continues by covering trends as well as the latest advances in power

(32)

electronics field. The talk particularly focuses on wireless power transfer technology for electric vehicle charging systems, developed at Taiwan University of Science and Technology. Experimental results of a wireless charging prototype systems will be presented, discussing both challenges and future directions.

BIOGRAPHY

Huang-Jen Chiu has been with the Department of Electronic and Computer Engineering, Taiwan University of Science and Technology (NTUST), Taipei, Taiwan, where he is a Distinguished Professor, Director of the Center for Power Electronic Technologies, Dean of the Industry-academic Collaboration Office, now. Dr. Chiu’s research interests include high efficiency/ high power density bidirectional DC/DC converters, PFC topologies, PV inverters, and DSP control in renewable energy applications. His work brought him several distinctive awards including the Young Researcher Award in 2004 from the Ministry of Science and Technology, Taiwan, the Outstanding Teaching Award in 2009 and 2017 and the Excellent Research Award in 2009 and 2011 from the NTUST, the Y. Z. Hsu Scientific Paper Award in 2010, the Excellent Academic-industry collaboration Award in 2015 and 2017, and Google Little Box Academic Awards. His student teams won the grand prize of the IEEE International Future Energy Challenge (IFEC) in 2013 and 2015, respectively.

Dr. Chiu is an IEEE senior member and serves as an Associate Editor of the IEEE Transactions on Industry Applications and an Associate Editor of the IEEE Transactions on Circuits and Systems Part II: Express Letters (TCAS-II). He was also a Guest Associate Editor of the IEEE Transactions on Power Electronics in 2011 and 2012. He was the General Co-chair of 2017 IEEE International Future Energy Electronics Conference (IFEEC 2017-ECCE Asia). Dr.

Chiu is actively working in IEEE Taipei Section. He arranged several meetings to promote the local activity of IEEE member in Taipei Section and to increase the number of IEEE membership in Taiwan. He served as the Chair of IEEE Industrial Electronics Society Taipei Chapter (2015-2016), the Program Chair of 2015 IEEE International Future Energy Electronics Conference (IEEE IFEEC 2015), the Topic Co-Chair of 2016 International Future Energy Challenge (IFEC 2016) and the Secretary of IEEE PELS/ IES Taipei Joint Chapter during 2010-2014. Dr. Chiu was the organizer of 2014 Symposium on Semiconductor Power Conversion (S2PC 2014) co-sponsored by IEEE PELS/ IES Taipei, KIPE in Korea and IEEJ-IAS in Japan and the organizer of Taiwan-Japan Symposium on Power Conversion (TJSPC 2012) co- sponsored by IEEE PELS/ IES Taipei and IEEJ-IAS in Japan. He also organized the 2015 Cross- Strait Green Energy Forum co-sponsored by the TaiPEA and CES in China. Dr. Chiu is a Fellow of the Institute of Engineering and Technology (IET) and selected as the Distinguished Lecturer of IEEE Power Electronics Society (2017-2018). He has published

(33)

more than 300 academic publications in leading international conferences and SCI journals.

PROF. DR. HIDEYUKI HASEGAWA

Professor

Graduate School of Science and Engineering, University of Toyama,

Toyama, Japan

[email protected]

“VERY HIGH FRAME RATE ULTRASOUND FOR MEDICAL DIAGNOSTIC IMAGING”

ABSTRACT

Ultrasonography is widely used in clinical situations. It is suitable for various screening purposes because it can be performed repeatedly owing to non-invasiveness, no radiation exposure, and cost effectiveness. Furthermore, the temporal resolution in medical ultrasound imaging is much better than those in other imaging modalities, such as magnetic resonance imaging and X-ray computed tomography. Therefore, ultrasound imaging is also suitable for functional imaging, such as blood flow imaging and evaluation of the cardiac function. Recently, high frame rate ultrasound, which further enhances the temporal resolution in medical ultrasound imaging, has become available in practical use. High frame rate ultrasound enables more accurate analysis of tissue dynamics owing to its extremely high temporal resolution of over one thousand frames per second. In this lecture, methods required for visualization of tissue dynamical properties by means of ultrasound will be presented.

BIOGRAPHY

Hideyuki Hasegawa received the B.E. degree from Tohoku University, Sendai, Japan, in 1996.

He received the Ph.D. degree from Tohoku University in 2001 in electronic engineering. He is presently a professor in Graduate School of Science and Engineering at the University of Toyama. His research interest is ultrasound beamforming and signal processing for medical ultrasound and functional ultrasound imaging, such as measurements of tissue dynamics and viscoelasticity. He is a member of the IEEE, the Acoustical Society of Japan, the Japan Society of Ultrasonics in Medicine, and the Institute of Electronics, Information and Communication Engineers.