Smart City and IoT Projects of ASEAN IVO - APT
Transcript of Smart City and IoT Projects of ASEAN IVO - APT
Smart City and IoT Projects of ASEAN IVO
Hiroshi EMOTONICT, Japan
2018.6
(ASEAN IVO: ICT Virtual Organization of ASEAN Institutes and NICT)
ICT R&D
ICT is Borderless
Network SecurityInformation Sharing
Standardization
Global Issues to Tackle
Global Warming, Environments, Food, Population Explosion,
Energy, Disasters, Digital Divide
Bi-lateral Collaborations Global Alliance
To solve social problems such as traffic, energy, agriculture, and more.
To share social benefit of ICT technologies in the borderless internet society.
To strengthen partnerships of global collaboration and cooperation.
Importance of Global Partnership 3
MOU with Foreign Institutes (ASEAN)
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SOUTHEAST ASIA 8 countries 27 institutes 28 MOUs
【Cambodia】 ・National Institute of Posts, Telecommunications and
Information and Communications Technology (NIPTICT)
【Indonesia】 ・Ministry of Communication and Information Technology (MCIT)
【Malaysia】 ・Multimedia University (MMU)
・Malaysian Institute of Microelectronic Systems (MIMOS)
・Telekom Research & Development Sdn. Bhd. (TM R&D)
・Universiti Teknologi Malaysia (UTM)
【Myanmar】 ・University of Computer Studies, Yangon (UCSY)
・Yangon Technological University (YTU)
【Philippines】 ・Advanced Science and Technology Institute (ASTI)
+ Philippine Atmospheric, Geophysical and Astronomical
Services Administration (PAGASA)
+ Philippine Institute of Volcanology & Seismology (PHIVOLCS)
・Mapúa University (MU)
【Singapore】 ・Institute for Infocomm Research (I2R)
・Nanyang Technological University (NTU)
・Singapore Advanced Research and Education Network (SingAREN)
+ National Supercomputing Centre Singapore (NSCC)
【Thailand】 ・Chiang Mai University (CMU)
・Chulalongkorn University (CU)
・King Mongkut’s Institute of Technology Ladkrabang (KMITL)
・Office of Information Technology Administration for Educational Development
(UniNet)
・National Electronics and Computer Technology Center (NECTEC) - 2 MOUs
・National Institute of Metrology, Thailand (NIMT)
【Vietnam】 ・Ho Chi Minh City Department of Information and Communications (HCMC DIC)
・Posts & Telecommunications Institute of Technology (PTIT)
・Hanoi University of Science and Technology (HUST)
・International Research Institute - Multimedia, Information, Communication and
Applications (MICA)
・University of Languages & International Studies, Vietnam National University
(ULIS-VNU)
As of May, 2019
Preparation…
First Roundtable Meeting, Bangkok, 2013.11.20 Second Roundtable Meeting, Bangkok, 2015.2.26
Country Institution Participant
1st 7 16 31
2nd 9 22 51
ASEAN-NICT ICT Roundtable
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ICT Virtual Organization of ASEAN
Institutes and NICT (ASEAN IVO)
All members participated agreed to establish ASEAN IVO (ICT Virtual Organization of ASEAN Institutes and NICT)
Feb. 2015, 2nd ASEAN-NICT ICT Roundtable
ASEAN IVO is a global alliance of ICT R&D institutes and universities in the ASEAN region and Japan, it is operated and represented by a Steering Committee of representatives from 10 ASEAN countries and Japan.
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Goal:The mission of ASEAN IVO is to seek and identify strategic ICT research areas in the ASEAN region, and promote collaborative projects in them.
ASEAN IVO: Steering Committee
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Country Organization Name Position
BruneiUniversiti Brunei Darussalam (UBD) Dr. Hj Ghani bin Hj Naim
Director of Information Communication Technology Centre (ICTC) and Director of the Institute of Applied Data Analytics
Universiti Teknologi Brunei (UTB)Assoc. Prof. Dr. Somnuk Phon-Amnuaisuk
Director, Centre for Innovative Engineering at UTB
CambodiaNational Institute of Posts, Telecommunications and Information and Communications Technology (NIPTICT)
Dr. Sopheap SENG President
Indonesia
Ministry of Communications and Information Technology (MCIT)
Mrs. Woroindah Widiastuti Senior Technology Advisor
Telkom University (Tel-U)Ir. MSc. PhD. Ashwin SasongkoSASTROSUBROTO
Chairman of Telkom University Research Center for ICT Public and Business Policy
Laos National University of Laos (NUOL)Assoc. Prof. Dr. Khamphoui Southisombath
Acting Dean of the Faculty of Engineering
Malaysia
MIMOS Berhad (Malaysian Institute of Microelectronic Systems)
Mr. Boon Choong Foo Senior Director, Wireless Innovation
Universiti Teknologi Malaysia (UTM)Prof. Ir. Dr. Abu Sahmah Bin Mohd Supa'at
Dean of Research, Innovative Engineering Research Alliance
Myanmar University of Computer Studies, Yangon (UCSY) Prof. Dr. Myint Myint Sein (Ms.) Pro-Rector
Philippines Mapua Institute of Technology (MIT) Prof. Alejandro BalladoDean, School of Electrical, Electronics and Computer Engineering
SingaporeInstitute for Infocomm Research (I²R) Prof. Dim-Lee Kwong Executive Director
National University of Singapore (NUS) Prof. Chua Kee Chaing Dean of Faculty of Engineering
ThailandChulalongkorn University
Asst. Prof. Dr. Widhyakorn Asdornwised
Department of Electrical Engineering, Faculty of Engineering
National Electronics and Computer Technology Center (NECTEC)
Dr. Chai Wutiwiwatchai Executive Director
Vietnam
Posts and Telecommunications Institute of Technology (PTIT)
Assoc. Prof. Dr. Habil., Dr.-Ing. HOANG Dang Hai
Vice President
Vietnam National University (VNU)Dr. Nguyen Ngoc BINHProfessor in ICT, VNU-UETPresident, REV
Vietnam National University, Univ. of Engineering & Technology (VNU-UET) Radio & Electronics Assoc. of Vietnam (REV)
Japan National Institute of Information and Communications Technology (NICT)
Dr. Mizuhiko HosokawaVice President,Member of the Board of Directors
ASEAN IVO Members
Members:
Country: 10 countries of ASEAN region + Japan
Institution: 54 institutions as for 2019.2(BRN: 2, KHM: 2, IDN: 7, LAO: 1, MYS: 9, MMR: 4, PHL: 4,
SGP: 5, THA: 9, VNM: 9, JPN: 2)
(https://www.nict.go.jp/en/asean_ivo/members.html)
Activities of ASEAN IVO
ASEAN IVO ForumThe Forum provides a place for all ASEAN IVO members to exchange ideas, discuss R&D topics and coordinate projects. Any and all members of ASEAN IVO can apply for the Forum.Past forum:2015. 11: Kuala Lumpur (Malaysia)2016. 11: Hanoi (Vietnam)2017. 11: Bandar Seri Begawan (Brunei)2018. 11: Jakarta (Indonesia) 2019. 11: Manila (Philippines) (planning)
ASEAN IVO Projectat minimum 2 institutions total, and from at least 2 different countries in the ASEAN region (Max.: 2 years)From 2016. 4: 8 projectsFrom 2017. 4: 5 projectsFrom 2018. 4: 6 projectsFrom 2019. 4: 5 projects
ASEAN IVO Steering CommitteeTo decide the R&D topics, operate the annual events, select the projects through email discussion and face to face meeting.
Annual
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ASEAN IVO Forum
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1. The Forum is organized in the countries of ASEAN region.
2. NICT and local host(s) work together to organize the Forum.
3. High officials of government and ICT professionals of host country are invited to introduce the ICT policy and strategy, and R&D programs of their country.
4. There are oral presentation and poster session in the Forum and the speakers come from the 10 countries of ASEAN region and Japan.
5. All presentations are published on the web site.
To promote the ICT R&D, the Forum provides a place for all ASEAN IVO members to exchange ideas, discuss R&D topics and coordinate projects. Any and all members of ASEAN IVO can apply for the Forum.
ASEAN IVO Forum
ASEAN IVO Forum 20162016.11.24, Hanoi, Vietnam
ASEAN IVO Forum 20152015.11.26, Kuala Lumpur, Malaysia
ASEAN IVO Forum 20172017.11.23, Bandar Seri Begawan,Brunei Darussalam
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ASEAN IVO Forum 20182018.11.27, Jakarta, Indonesia
ASEAN IVO -Call for Proposals
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2016 Topics:1. ICT Solutions to the Challenges surrounding Urbanization
2. Social Renovation in Rural Areas and/or Urban Areas
2017 Topics:1. Cyber-Security and its applications
2. Smart Society: ICT applications for community and environment
A) Smart Community
B) Smart City
C) Smart Village
2018 Topics:1. Smart-Agriculture/Aquaculture/Farming
2. Smart Tourism
3. Smart Environment Protection
4. Information Reliability for Smart Society
2019 Topics:1. ICT Solutions from Farm to Meal
2. ICT for Environment Protection and Disaster Prevention
3. Secure and Sustainable Connected Society
Proposals in any ICT-related topic are welcome if sufficient relevance to one or both of the above themes can be demonstrated.
ASEAN IVO 2016 Project, 8 projectsNo Title of Proposed Project Project Leader Project Members
1 Open Collaboration for Developing andUsing Asian Language Treebank
Masao UtiyamaNICT (JPN)
BPPT(IDN), I2R(SGP), IOIT(VNM),NIPTICT(KHM), UCSY(MMR), NICT(JPN)
2 ASEAN Language Speech Translation thru’U-STAR
Li HaizhouI2R (SGP)
NIPTICT(KHM), BPPT(IDN), UTM(MYS),UCSY(MMR), I2R(SGP), NECTEC(THA),HUST(VNM), IOIT(VNM)
3 Mobile IoT Sumei SunI2R(SGP)
I2R(SGP), MIMOS(MYS), HUST(VNM),NICT(JPN)
4 ASEAN forum for Software Defined Systemon Disaster Mitigation and Smart Cities
ONG Hong HoeMIMOS(MYS)
SINGAREN(SGP), MIMOS(MYS),NECTEC(THA), USCY(MMR), HUST(VNM),VNU-ITI(VNM), MIT(PHL), ASTI(PHL),AIST(JPN), NICT(JPN)
5 IoT Open Innovation Platform Boon Choong FooMIMOS (MYS)
MIMOS(MYS), NICT(JPN), I2R(SGP),HUST(VNM), VNU(VNM)
6 Cambodia NerveNet Field Testing(Operation Management and ContentDevelopment to Promote Connectednessof Cambodia Rural Area)
Meas ChamnanNIPTICT(KHM)
NIPTICT(KHM), NICT(JPN), UCSY(MMR)
7 TV White Space (TVWS) Experimental forApplication in Remote Area
Hafizal MohamadMIMOS(MYS)
MIMOS(MYS), USC(PHL), NICT(JPN),UKM(MYS)
8 Research and development on shortdistance communication and imaging forapplications in ASEAN region
Vo Nguyen QuocBaoPTIT(VNM)
LIPI(IDN), TI(IDN), CU(THA), PTIT(VNM),HCMC-DIC(VNM), UTM(MYS),TMRD(MYS), NICT(JPN), CMU(THA),RFD(VNM), SUT(THA),
13(Institutions: 51, Researchers: 82)
ASEAN IVO 2017 Project, 5 projects
Brunei: BRN Cambodia: KHM Indonesia: IDN Laos: LAOMalaysia: MYS Myanmar: MMR Philippines: PHL Singapore: SGPThailand: THA Vietnam: VNM Japan: JPN
No Title of Proposed Project Project Leader Project Members
1 A Hybrid Security Framework for IoTNetworks
Hoang Dang HaiPTIT (VNM)
NECTEC(THA), MIMOS(MYS), NICT(JPN),HUST(VNM), PTIT (VNM)
2 Smart Lighting for Internet of Things andSmart Homes
Pham Tien DatNICT (JPN)
NICT(JPN), VAST(VNM), HCMUT(VNM),LIPI(IDN), PTIT(VNM), WU(JPN)
3 IoT System for Public Health and SafetyMonitoring with Ubiquitous LocationTracking
Chieng Heng TzeMIMOS (MYS)
MIMOS(MYS), NICT(JPN), HUST(VNM),UBD(BRN), GU(JPN)
4 Evapotranspiration (ET)-Based IrrigationSystem with Internet of Things (IoT)Integration for Smart FarmingApplication Addressing the ASEANImpending Water Crisis
Jennifer Dela CruzMIT (PHL)
MIT(PHL), CLSU(PHL), UTM(MYS),UCSY(MMR), NICT(JPN)
5 Study and evaluation of heterogeneousnetwork for smart community and smartcity applications
Kultida RojviboonchaiCU (THA)
CU(THA), MIMOS(MYS), UTAR(MYS),NICT(JPN)
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(Institutions: 26, Researchers: 50)
ASEAN IVO 2018 Project, 6 projects
No Title of Proposed Project Project Leader Project Members
1 Event Analysis: Applications of computer vision and AI in smart tourism industry
Somnuk Phon-AmnuaisukUTB(BRN)
UTB(BRN), NTU(SGP), NICT(JPN), NECTEC(THA), MUT(THA), NUOL (LAO), UCSY(MMR), MMU (MYS)
2 Cyber-Attack Detection and InformationSecurity for Industry 4.0
Nguyen Linh TrungVNU-UET(VNM)
VNU-UET(VNM), NTU (SGP). UTS (AUS)
3 Scalable Distributed IoT Framework based on Mobile Robot Technology for High Performance Greenhouse Plants
Thu Ngo-QuynhHUST(VNM)
HUST(VNM), NES(JPN), NICT(JPN), CHAM(LAO)
4 Smart Aquaculture Quality Monitoring (AQM) System with Internet of Things (IoT)
Widad IsmailUSM(MYS)
USM(MYS), UTM(MYS), MAMPU(MYS), Kyoto U(JPN), UNISSULA(IDN), UTP(MYS), RMUTSV(THA)
5 NAPC: Networked ASEAN Peat Swamp Forest Communities
Borhanuddin Mohd AliUPM(MYS)
UPM(MYS), PTIT(VNM), NICT(JPN), MIMOS(MYS), Bogor Agricultural University (IDN), UTB(BRN), JIRCAS(JPN)
6 A mesh-topological, low-power wireless network platform for a smart watering system
Udom LewlompaisarlNECTEC(THA)
NECTEC(THA), UCSY(MMR), DAA(BRN), UTB(BRN), UTM(MYS), NICT(JPN)
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(Institutions: 35, Researchers: 61)
Brunei: BRN Cambodia: KHM Indonesia: IDN Laos: LAOMalaysia: MYS Myanmar: MMR Philippines: PHL Singapore: SGPThailand: THA Vietnam: VNM Japan: JPN
ASEAN IVO 2019 Project, 5 projects
No Title of Proposed Project Project Leader Project Members
1 Relay Station Network Based on Low-power Wide-area Network (LPWAN) Technologies for Disaster Management
Kanokvate TungpimolrutNECTEC(THA)
UTB(BRN), MU(PHL), ASTI(PHL), NUOL (LAO), TCEI (LAO), UCSY(MMR), NICT(JPN), CMP(THA)
2 AgriBKChain: a blockchain-based network for agricultural traceability and product advertising
Dao Thanh ChungHUST(VNM)
UPM (MYS), UTB (BRN), NICT (JPN)
3 FarmTab: Precision Agriculture System using Internet of Things and Artificial Intelligence for Urban Farming
Chong Yung Wey
USM(MYS)UTAR(MYS), HUST(VNM), UNHAS(IDN), UB(IDN), Kyoto U(JPN)
4 Prevention of 4 Disasters and Their Single Recovery Networks based on Internet-of-Things with Airborne Capability (PATRIOT-41R-Net)
Khoirul AnwarTelkom U (IDN)
JAIST(JPN), HUST(VNM), UTM(MYS), AIT(THA),
5 GNSS and Ionospheric Data Products for Disaster Prevention and Aviation in Magnetic Low- Latitude Regions
Pornchai SupnithiKMITL(THA)
CMU(THA), CAAT(THA), NUOL(LAO), YTU(MMR), NICT(JPN)
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(Institutions: 30, Researchers: 55)
Brunei: BRN Cambodia: KHM Indonesia: IDN Laos: LAOMalaysia: MYS Myanmar: MMR Philippines: PHL Singapore: SGPThailand: THA Vietnam: VNM Japan: JPN
ASEAN IVO Projects
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A Visit in Central Luzon State University, Nueva Ecija, Philippines.
Project: Evapotranspiration (Et)-based Irrigation system with
Internet Of Things (Iot) Integration for Smart Farming Application
addressing the ASEAN Impending Water Crisis
Project Meeting
Project: Open Collaboration for Developing and
Using Asian Language Treebank.
60 student classroom with remote e-learning in a village, Cambodia
Project: Cambodia NerveNet Field Testing
• The No. of Projects: 17
• Institutions: 102
• Researchers: 189
• Finished Projects: 7
ASEAN IVO Projects
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Field trial in PTIT HoChiMinh Campus, Hochiminh, Vietnam
Project: Research and development on short distance
communication and imaging for applications in ASEAN region
Experimental site check, Raja Musa Forest Reserve, Malaysia
Project: NAPC: Networked ASEAN Peat Swamp Forest Communities
Project meeting at the experimental site, Chini lake, Malaysia
Project: TV White Space (TVWS) Experimental for Application in
Remote Area
IoT Projects of ASEAN IVO
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Mobile IoT (2016) IoT Open Innovation Platform (2016) Smart Lighting for Internet of Things and Smart Homes (2017) IoT System for Public Health and Safety Monitoring with Ubiquitous
Location Tracking (2017) A Hybrid Security Framework for IoT Networks (2017) Evapotranspiration (ET)-Based Irrigation System with IoT Integration for
Smart Farming Application Addressing the ASEAN Impending Water Crisis (2017)
Scalable Distributed IoT Framework based on Mobile Robot Technology for High Performance Greenhouse Plant (2018)
Smart Aquaculture Quality Monitoring (AQM) System with Internet of Things (IoT) (2018)
FARMTAB: Precision Agriculture System using Internet of Things and Artificial Intelligence for Urban Farming (2019)
Prevention of 4 Disasters and Their Single Recovery Networks based on Internet-of-Things with Airborne Capability (PATRIOT-41R-Net) (2019)
There are 10 projects conducting IoT from 2016 to 2019.
Smart City and IoT Projects of ASEAN IVO
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Mobile IoT (2016) Smart Lighting for Internet of Things and
Smart Homes (2017) IoT System for Public Health and Safety
Monitoring with Ubiquitous Location Tracking (2017)
IoT Open Innovation Platform (2016) A Hybrid Security Framework for IoT Networks (2017) Prevention of 4 Disasters and Their Single Recovery Networks based on
Internet-of-Things with Airborne Capability (PATRIOT-41R-Net) (2019)
Infrastructure
Smart City
Evapotranspiration (ET)-Based Irrigation System with IoT Integration for Smart Farming Application Addressing the ASEAN Impending Water Crisis (2017)
Scalable Distributed IoT Framework based on Mobile Robot Technology for High Performance Greenhouse Plant (2018)
FARMTAB: Precision Agriculture System using Internet of Things and Artificial Intelligence for Urban Farming (2019)
Smart Aquaculture Quality Monitoring (AQM) System with Internet of Things (IoT) (2018)
Smart Agriculture/Aquaculture
IoT Open Innovation PlatformThe widespread usage of smart phones and smart devices in the network today has transformed the network into a connected web of smart devices. These devices are made smart by the applications developed to provide huge benefits and services to theusers. This is the Internet of Things (IoT). To stay competitive and to be able to capture the potential IoT market, it is important to have the IoT platform and acceleration tools to facilitate the rapid development and adoption of IoT solutions for public and private markets, especially in new upcoming developing ASEAN countries. A common platform would allow integration of data and services from different systems. Thus allowing the combined operation of many different heterogeneous IoT systems onto one common open platform, the IoT open innovation platform.
Project Members :
Boon Choong Foo, Senior director, MIMOS Bhd; Looi Chin Teong, Senior staff, MIMOS Bhd;DR. Hiroyuki Yano, Director General, NICT; DR. Fumihide Kojima, Director, NICT;DR. Sun Sumei, Department Head, I2R;DR. Thu Ngo-Quynh, Department Head, Hanoi University of Technology and Science;DR. Dinh Van Dzung, Deputy director, Vietnam National University.
Application enablement platformprovides abstraction layer to connect to the different devices available. Application dashboard tool to generate information visualization via easy to use interface.
Platform middleware provides the necessary integration by adopting common standards. Devices and sensors from different systems and protocols can be connected to the same platform, thus providing connectivity and functionality between heterogeneous platforms.
Platform scalability includes private cloud and embedded cloud adoption to provide platform ownership. Services need not be provided from an external party cloud services.
Rapid development platformprovides the facility to develop and test applications rapidly. 22
A Hybrid Security Framework for IoT Networks
Project Members
IoT is defined as a pervasive ubiquitous network for a wide range of smart devices and smartapplications to improve our life quality. IoT is attractive to the attackers, since IoT devices are usually24/7 online and have weak protection due to limited resources. Complex protection mechanisms of thetraditional Internet can not be directly applied for IoT networks. This project proposes new solutionswith a comprehensive customizable security framework for IoT networks and lightweight mechanismsadapting to specific issues of heterogenous IoT devices and applications. In addition, the projectprovides a platform for IoT monitoring and detection system, and a multimedia IoT gateway platform forsecure cross-platform screen sharing (Smart Office).
• DSc. Dr. Hoang Dang Hai (PTIT, Vietnam)
• Dr. Chalee Vorakulpipat (NECTEC, Thailand)
• MSc. Ekkachan Rattanalerdnusorn (NECTEC, Thailand)
• Dr. Choong Khong Neng (MIMOS Bhd, Malaysia)
• Dr. Royichi Isawa (NICT, Japan)
• Dr. Ngo Quynh Thu (HUST, Vietnam)
• Dr. Hoang Trong Minh (PTIT, Vietnam)
• Dr. Hoang Xuan Dau (PTIT, Vietnam)
• Dr. Pham Thieu Nga (NUCE, Vietnam)
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Mobile IoTInternet of Things (IoT) will be an integral part of our lives and is expected to improveevery aspect of our daily activity. This project explores the feasibility and theoreticallyquantify the benefits of using mobile agents to help wireless sensor network operatemore efficiently by reducing the required number of sensors, simplifying thedeployment and setup, as well as improving its scalability.
Project Members :
• Sumei Sun Institute for Infocomm Research, Singapore• Hiroyuki Yano National Institute for Information and Communications Technology (NICT), Japan• Fumihide Kojima National Institute for Information and Communications Technology (NICT), Japan• Nordin Ramli MIMOS, Malaysia• Ngo Quynh Thu Hanoi University of Science and Technology (HUST), Vietnam• Yuan Zhou Institute for Infocomm Research, Singapore• Ernest Kurniawan Institute for Infocomm Research, Singapore
Smart city/urban
Smart agriculture/sub-urbanMobile Gateway
Mobile Gateway(fixed route)
Cloud data center
Fixed GW
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Smart Lighting for Internet of Things and Smart Homes
Concept of a visible light communication link
and its possible applications
LED ControllerLED
Visible light receiver
PC(processing)
Signal
A VLC link Indoor communications
Inter-vehicle communications Aircraft cabin communications
Project implementation and work packages
Project Leader: Pham Tien Dat (NICT, Japan)
Project Members: Phi Hoa Binh (VAST, Vietnam); Pham Quang Thai (HCMUT, Vietnam);
Yusuf Nur Wijayanto (LIPI, Indonesia); Dang The Ngoc (PTIT, Vietnam);
Jiang Liu (Waseda University, Japan); Purwoko Adhi (LIPI, Indonesia);
Naokatsu Yamamoto (NICT, Japan); Mitsuji Matsumoto (Waseda University, Japan)26
IoT System for Public Health and Safety Monitoring with Ubiquitous Location Tracking
In today’s highly digitized society, ICT technologies play a critical role in preserving health and safety of vulnerable citizen especially women, children and the elderly. There is a growing needs for monitoring the citizen’s safety and lifestyle anytime, anywhere. The goal is to develop a system which enables tracking of location, lifestyle and health status in promotion of public health and safety taking into consideration ASEAN culture, lifestyles, behaviours and infrastructures by integrating the state of the art indoor/outdoor localization, motion/health reasoning, IoT and analytics technologies.
GPS
Cellular
VLC
WiFi
BLE
Sensors
Safety (Location) & Health Tracking
UWB
Sound
Wearable Device
Localization Technologies
Indoor/Outdoor
Fusion Track
Cloud Services
Project Members:1.MIMOS (Malaysia)2.NICT (Japan)3.MICA Institute, Hanoi University of Science & Technology (Vietnam)4.University of Brunei Darussalam (UBD) (Brunei) 27
Evapotranspiration (ET)-Based Irrigation System with IoT Integration for Smart Farming Application Addressing the ASEAN Impending Water Crisis
Agricultural irrigation is the largest user of fresh water in Philippinesaccounting for 82% of the overall fresh water withdrawals. In order to meetindustrial water needs, reducing water used for irrigation is actuallypredominant not just in other countries but also here in the Philippines. Themotivation for this type of water savings is usually not an absolute shortage ofwater but a desire to use the available water not for irrigation but for otherpurposes.
The objective of this project is to evaluate the suitability ofevapotranspiration (ET)-based irrigation scheduling technologies foragricultural applications, specifically, the ability of the technologies to: applythe appropriate amount of water at the appropriate time, using the estimatedreference ET (ETo) in a particular field. The figure shows the block diagram ofthe proposed project. The main controller of the system is the microcomputerwhich serves as the heart and brain of the system. It controls the storage ofsensor data from the sensor module to the cloud storage. The sensor data willthen be used in the estimation of water loss in the farm by the computation ofthe evapotranspiration and will then be the basis for control of the actuatorsto irrigate the farm based on the computed amount of water loss.
Name Position/ Degree Name Position/Degree
Dr. Jennifer C. Dela CruzMapua Institute of Technology, Philippines
Project LeaderDr Sevia M. IdrusUTM, Malaysia
Professor, Department OfCommunication Engineering
Meo Vincent C. CayaMapua Institute of Technology, Philippines
Senior Researcher/PhD Candidate
Dr Muhammad Al FarabiMuhammad IqbalUTM, Malaysia
Senior Lecturer, Department OfCommunication Engineering
Febus Reidj CruzMapua Institute of Technology, Philippines
Senior Researcher/PhD Candidate
Dr Nadiatulhuda ZulkifliUTM, Malaysia
Senior Lecturer, Department OfCommunication Engineering
Joseph Bryan IbarraMapua Institute of Technology, Philippines
Senior ResearcherDr. Khin Than MyaUCSY, Myanmar
Head of Embedded SystemLab./ Associate Prof./ Ph.D
Eiji KawaiNICT, Japan
Head of Research on TestbedR&D Promotion
Dr. Ireneo C. AgultoCentral Luzon State University, Philippines
Dean, College of Engineering 28
Scalable Distributed IoT Framework based on Mobile Robot Technologyfor High Performance Greenhouse Plant
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Introduction:
In this project, we aim to develop a Scalable and Distributed IoT Framework for HydroponicGreenhouse in order to increase hydroponic production with following requirements: low cost,scalability, distributed, high performance and practical using. This 3-layers framework (datacollect and control, management and data analysis) consists of following components: i) End-to-end IoT-based Infrastructure, integrated with a Mobile Robot (optional). ii) Transparentmanagement component. iii) Cloud, Fog Computing and APIs. iv) Data Analysis.
Project Members:
IoT Infrastructure
(Sensing Components, Sensor Hardware, Cameras, Actors, Gateway,
Server, Mobile Robot)
Management Layer,
intergrated with OM2M, MiMIST… ?
Da
q Data Analysis Layer: q Easy customization for different crops, flowersq Easy development for developerq Easy Accessq Effectiveq On-time
q Management Layer:q Transparencyq Scalability and Flexibilityq Easy Management of connections and devices
Data Analysis
Layer
q IoT Infrastructure Layer: q Reliable, Realtime and Securityq Scalabibily and Flexibility;
• Thu Ngo-Quynh Hanoi University of Science and Technology, HUST, Vietnam• Tomoyuki KURODA NEC Solution Innovators, NES, Japan• Giang Nguyen-Linh Hanoi University of Science and Technology, HUST, Vietnam• Son Ngo-Hong Hanoi University of Science and Technology, HUST, Vietnam• Fumihide KOJIMA National Institute of Information and Communications Technology, NICT, Japan• Sonxay LUANGOUDON Champasak University, CHA, Lao
FARMTAB: Precision Agriculture System using Internet of Things and Artificial Intelligence for Urban Farming
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Introduction :
The objective of FarmTab is to boost the productivity of urban farming byautomating the farming process by embedment of Internet of Things (IoT) andArtificial Intelligence (AI) technologies into one platform. FarmTab is designed toenable seamless data collection from various sensors such as pH level,temperature, humidity and moisture in urban farm condition. The AI modelstrack and predict various environment impacts on crop yield for urban farm.
Project Members :
Name Affiliation
Chong Yung Wey, Widad Ismail,Tan Eng Kee, Hasnuri Mat Hassan
USM, Malaysia
Ooi Boon Yaik, Lee Wai Kong UTAR, Malaysia
Thu Ngo Quynh, Lee Dung, Pham Ngoc Hung, Pham Van Tien
HUST, Vietnam
Muhammad Niswar, Zainal, Zulkifli Tahir, Abdul Azis
UNHAS, Indonesia
Achmad Basuki, Raden AriefSetyawan
UB, Indonesia
Naoki Shinohara Kyoto University,
Smart Aquaculture Quality Monitoring (AQM) System with Internet of Things (IoT)
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Introduction :
This project is focusing on enhancement of shrimp farm management through an embedment of multiple wireless communicationtechnologies. The technologies of RFID, WSN, mobile application platform and IoT system will be embedded into one platform as anefficient solution for aquaculture quality monitoring (AQM). The proposed wireless system known as “Smart Aquaculture Monitoring withInternet of Things System (SAM-IoT)” is designed to collect data of pH level, dissolve oxygen (DO) and water temperature at shrimp ponds.The proposed active RFID tag will transmit the captured data to its reader which is also designed as an internet gateway. A low powerconsumption AVR microcontroller will be embed to both of proposed RFID tag and its reader for efficient power management. Fastrectification work regarding water quality of shrimp pond could be deployed through this feature. Therefore, the valuable captured datafrom this proposed SAM-IoT system can be accessed at anywhere on anytime as long as the internet bandwidth is available.
Project Members :Leader : Widad Ismail, USM, MalaysiaMembers:1) USM, Malaysia – Harsa Amylia Mat
Sakim, Dzati Athiar Ramli, NurSyazreen Ahmad, Chong Yung Wey
2) Kyoto Uni., Japan – Naoki Shinohara3) UTM, Malaysia - Sevia Mahdaliza
Idrus Sutan Nameh, Farid Zubir4) RMUTSV, Thailand – Wasana
Boonsong5) UNISSULA, Indonesia – Suryani Alifah6) MAMPU, Malaysia – Kamarul Hafiz
Kamaludin7) UTP, Malaysia – Toni Anwar, Savita K
Sugathan