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2018 INTERNATIONAL CONFERENCE ON COMPUTING AND NETWORK COMMUNICATIONS
CONTENT
http://coconet-conference.org/2018
August 15-17, 2018, Nazarbayev University, Astana, Kazakhstan
1 Welcome to Astana 2
2 Technical Program Overview 3
3 Timetable 4
4 Committee Information 5
5 Industry Talk 6
6 Keynote Speakers 7
7 Conference information- University Map- Lunch & Gala Dinner- Entertainment
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8 Technical Program- Regular sessions - Poster presentations
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9 Tutorials 22
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Welcome to Astana
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The Second International Conference on Computing and Network Communications (CoCoNet'18) will be held on August 15-17, 2018, Astana, Kazakhstan. Astana, the capital and the second largest city in Kazakhstan has modern futuristic architecture and some of the world's largest building projects, as well as museums, amusement parks, and a beautiful nearby lake area.
The conference is hosted by Nazarbayev University, a modern and rapidly developing university located in the heart of Eurasia – Astana. The conference is technically co-sponsored by IEEE and IEEE Communications Society.
The objective of CoCoNet'18 is to provide a platform for researchers, engineers, academicians as well as industrial professionals from all over the world to present their research results and development activities in Computing and Network Communications.
Submitted papers were reviewed by an international technical committee among 336 reviewers. In total, 47 papers are selected for presentation, with acceptance rate for the lectures at 17%. Accepted and presented papers will be published in the conference proceedings and submitted to IEEE Xplore as well as other Abstracting and Indexing (A&I) databases.
In addition, selected papers will be invited to submit in journal special issues such as:
Special Issue on Emerging Circuits for Computing,International Journal of Circuit Theory and Applications,Impact factor 1.57https://www.onlinelibrary.wiley.com/journal/1097007x
Technical Program Overview
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Track I: Network Communications
• Access Networks and Systems• Biologically Inspired Communication and Networking• Cloud Communications and Networking• Cognitive Radio and White-space Networking• Communication of Visual Data• Communications Services and Management• Communications Quality and Reliability• Communications Systems Integration and Modeling• Communications Software• Cooperative Communications• Cross Layer Optimization• Emerging MIMO Technologies• Enterprise, Data Center and Storage Area Networks• Future Internet Architecture and Protocols • Green Networking and Smart Grid• Humanitarian Communications Technology• Internet of Things and Smart Cities• Fog Computing and Networking• Mobile Computing and Vehicle Communications• Mobility and Location Management• Nano-Scale, Molecular and Quantum Networking• Network Algorithms and Performance Evaluation
• Network Security and Privacy• Next Generation Networking• Network Design, Optimization and Management• Network-on-Chip Architectures and Applications• Optical and Grid Networking• Powerline Communications• Quantum Networking• Real Time Communication Services• Satellite Communications and Networking• Sensor Networks and Mobile Sensing• Signal Processing for Communications• Situation Management• Smarter Energy Networks and Sustainability• Social Networks and Crowd Sourcing• Software Defined Networking• Switching and Routing in Wireless Networking • Traffic Analysis and Engineering• Virtualized Infrastructure Architectures and
Systems• Web Caching and Switching• Web Services and Service Oriented Architectures• Wireless, Cellular and Mobile Communications
Track II: Computing
• Algorithmic Engineering• Autonomic, Adaptive, Dependable
Computing• Cloud and Big Data Analytics• Cognitive Computing• Computational Biology• Parallel and Distributed Computer
Graphics• Data Engineering and Distributed Data
Mining• Green Computing• Distributed Cyber-Physical Systems• Image and Vision Computing• Parallel and Distributed
Algorithms/Systems• Energy-efficient Pervasive Computing• Positioning and Tracking Technologies• Participatory and Social Sensing• Scalable Storage Systems• Scientific Computing
• Multicore Computing• GPU and Accelerator Computing• Scheduling and Resource Management• Parallel and Distributed Embedded and Control Systems• Resilient/Fault-Tolerant Algorithms and Systems• Internet Computing• Knowledge-intensive Software Engineering• Large Data Set Computations• Machine Learning and Cybernetics• Distributed Multimedia Systems• Natural Language Processing and Machine Translation• Nature Inspired Computing• Intelligent Computing in Signal Processing and Pattern Recognition• Web Algorithms and Systems• Approximate and Stochastic Computing• Cryptographic Tools for Secure Distributed Computing• Security, Trust and Privacy• Assistive Technologies• E-Commerce and E-Services
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The material is presented in a program of technical sessions, panel discussions, symposiums, tutorials, posters, demos, exhibits, workshops, doctoral consortium, lightning talks and plenary/keynote talks. Submitted papers will be reviewed by the technical committee of the Conference. List of topics include but not limited to:
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Timetable Tim
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Time Event
8:30am – 9:30am Registration
9:30am – 10:00am Inaugural talk
10:00am – 11:00am Keynote 1
11:00am – 11:30am Tea break (Posters)
11:30am – 12:30pm Session 1
12:30pm – 2:00pm Lunch break
2:00pm – 3:00pm Keynote 2
3:00pm – 4:00pm Tea break (Posters)
4:00pm – 5:20pm Session 2
Evening City Tour
Time Event
8:30am - 9:30am Registration
9:30am - 11:00am Industry Talk
11:00am – 11:30am Tea break (Posters)
11:30am – 12:30am Session 3
12:30pm – 2:00pm Lunch break
2:00pm – 3:00pm Keynote 3
3:00pm – 4:00pmTea break (Posters)
4:00pm – 5:00pm Session 4
Evening Gala dinner
Time Event
8:30am - 9:30am Registration
9:30am - 10:00am Industry talk
10:00am – 11:00am Keynote 4
11:00am – 11:30am Tea break (Posters)
11:30am – 12:30pm Session 5
12:30pm – 2:00pm Lunch break
2:00pm – 3:00pm Industry Talk
3:00pm – 3:30pm Keynote 5
3:30pm – 5:00pmTutorial: VLSI forneural computing
Time Event
8:30am - 9:30am Registration
9:30am - 10:00amIEEE Student branch meeting and young engineers forum
10:00am – 11:00amIEEE Annual meeting and networks session
11:00am – 11:30am Tea break (Posters)
11:30am – 12:30pm Tutorial: Optimization tools
12:30pm – 2:00pm Lunch break
2:00pm – 4:00pm Tutorial: Deep learning
4:00pm – 5:00pmPanel Discussion and Best Poster Awards
All sessions will be held at room 268, level 2, Block C4, Nazarbayev University, Astana
DAY 1, August 15
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Committee information
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PatronsShigeo Katsu, Nazarbayev University, KazakhstanIlesanmi Adesida, Nazarbayev University, KazakhstanCharles Surya, Nazarbayev University, Kazakhstan
Honorary General ChairsMohamed-Slim Alouini, King Abdullah University of Science and Technology (KAUST), Saudi ArabiaLeon Chua, University of California, Berkeley, USA
General ChairsAlex James, Nazarbayev University, KazakhstanNeeli Rashmi Prasad, Center for TeleInFrastructure (CTIF), USA
Steering Committee ChairsSabu M Thampi, IIITM-Kerala, IndiaJinsong Wu, Universidad de Chile, ChileMohammed Atiquzzaman, University of Oklahoma, USA
Program ChairsTheodoros Tsiftsis, Jinan University, ChinaJoel Rodrigues, National Institute of Telecommunications (Inatel), Brazil; Pascal Lorenz, University of Haute Alsace, France
Workshop and Symposium ChairsPrashant Jamwal, Nazarbayev University, KazakhstanMohammad Tahir Akhtar, Nazarbayev University, KazakhstanMohammad Hashmi, Nazarbayev University, Kazakhstan
Industry Track ChairsMehdi Bagheri, Nazarbayev University, KazakhstanGrant Elis, Nazarbayev University, Kazakhstan
Tutorial ChairsBhaskar Choubay, University of Oxford, UKDaniele Tosi, Nazarbayev University, Kazakhstan
Publicity ChairsIkechi Ukaegbu, Vipin Kizheppatt, Aresh Dadlani,Nazarbayev University, Kazakhstan
Advisory CommitteeMohammad Obaidat, Nazarbayev University, KazakhstanToan Phung, University of New South Wales, AustraliaJaime Lloret Mauri, Polytechnic University of Valencia, SpainSartaj Sahni, University of Florida, USAAlbert Y. Zomaya, University of Sydney, AustraliaJemal H. Abawajy, Deakin University, AustraliaJoonhyuk Kang, KAIST, South Korea
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Industry Talk
Day# Talk Time
2 Cadence/PCB Soft 16 Aug., 9:30am-10:00am
3 PCB Soft/Cadence 17 Aug., 9:00am-10:00am
3 Astana Business Campus 17 Aug., 2:00pm-3:00pm
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Keynote 1
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Biography: Dr. Alouini was born in Tunis, Tunisia. He received the Diplome d'Ingenieur from the École Nationale Supérieure des
Télécommunications (TELECOM Paris Tech) and the Diplome d'Etudes Approfondies (D.E.A.) in Electronics with Highest Honors from
the Université Pierre & Marie Curie in Paris, both in 1993. He received the M.S.E.E. degree from the Georgia Institute of Technology
(Georgia Tech) in 1995, and a PhD in Electrical Engineering from California Institute of Technology (Caltech) in 1998. He also received
the Habilitation degree from the Université Pierre & Marie Curie, Paris, France, in 2003.
Dr. Alouini served as a faculty member in the University of Minnesota, Minneapolis, MN, USA, then in the Texas A&M University at
Qatar, Education City, Doha, Qatar before joining King Abdullah University of Science and Technology (KAUST), Thuwal, Makkah
Province, Saudi Arabia as a Professor of Electrical Engineering in 2009. His current research interests include design and performance
analysis of diversity combining techniques, MIMO techniques, multi-hop/cooperative communications systems, optical wireless
communication systems, cognitive radio systems, and multi-resolution, hierarchical and adaptive modulation schemes. Dr. Alouini has
published several papers on the above subjects and he is co-author of the textbook Digital Communication over Fading Channels
published by Wiley Interscience. He has also won several awards in his career. For instance, he recently received the 2016 Recognition
Award of the IEEE Communication Society Wireless Technical Committee, the 2016 Abdul Hameed Shoman Award for Arab
Researchers in Engineering Sciences, and the Inaugural Organization of Islamic Cooperation (OIC) Science & Technology Achievement
Award in Engineering Sciences in 2017. Other recognitions include his selection as (i) Fellow of the Institute of Electrical and Electronics
Engineers (IEEE), (ii) IEEE Distinguished Lecturer for the IEEE Communication Society and IEEE Vehicular Technology Society, (iii)
member for several times in the annual Thomson ISI Web of Knowledge list of Highly Cited Researchers as well as the Shanghai
Ranking/Elsevier list of Most Cited Researchers, and (iv) a co-recipient of best paper awards in eleven IEEE conferences (including ICC,
GLOBECOM, VTC, PIMRC, ISWCS, and DySPAN).
Abstract of the talk: Traditional underwater communication systems rely on acoustic modems due their
reliability and long range. However their limited data rates, lead to the exploration of alternative
techniques. In this talk, we briefly go over the potential offered by underwater wireless optical
communication systems. We then summarizes some of the underwater channel challenges going from
severe absorption and scattering that need to be surpassed before such kind of systems can be deployed in
practice. We finally present some of the on-going research directions in the area of underwater wireless
optical communication systems in order to (i) better characterize and model the underwater optical
channel and (ii) design, develop, and test experimentally new suitable modulation and coding techniques
suitable for this environment.
Day 1, 15 August, 10:00am -11:00am
Dr. Mohamed-Slim Alouini, Professor of Electrical Engineering, King Abdullah University of Science and Technology KAUST)
Topic: Collimated light propagation: The next frontier in underwater wireless communication
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Keynote 2
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Biography: Ramesh K. Pokharel (M’04) received the M.E. and Doctorate degrees from the University of Tokyo, Japan in 2000
and 2003, respectively all in electrical engineering. He was a post-doctoral research fellow with the Department of Electrical
Engineering and Electronics, Aoyama Gakuin University, Japan from April 2003 to March 2005. In April 2005, he joined the
Department of Electronics, Graduate School of Information Science and Electrical Engineering, Kyushu University, Fukuoka, Japan
where he has been a Professor since October 2010. His current research interests include the low-cost RFIC and analog circuits for 5G
wireless communications, on-chip antennas, on-chip meta-materials in CMOS and near-field wireless power transfer system through
biological tissues. He is a member of the IEEE. Dr. Pokharel was a recipient of the Monbu-Kagakusho (MEXT) Scholarship of the
Japanese Government from 1997– 2003, an excellent Center of Excellence (COE) research award from the University of Tokyo in
2003, and 2016 best ELEX Paper Award from the IEICE Japan. The students he has supervised have won five best presentation awards
from different symposia /conferences. He served as a Deputy-Director from April 2012 to March 2014 for the Center for Egypt-Japan
Cooperation in Science and Technology of Kyushu University and then the Director from April 2014 to March 2017 for the same
center. He served as the Secretary of IEEE MTT-S Japan Society from Jan 2012 to Dec. 2013, and as the vice-chair of Education
committee of IEEE-MTT-S Japan Society from Jan. 2014 to Dec. 2016. Since Jan. 2017, he has been serving as the chair of the same
committee.
Abstract of the talk: Realization of Internet of Things (IoT) that consists of body area networks,
imlant sensors and bio-medical devices encounters a difficult task of supplying power to those IoT
devices/terminals in the body because of the bio-medical hazards in the chemicals so that a battery could
not be a sustainable solution. Therefore, wireless charging techniques have been proposed to supply the
power wirelessly to those devices/terminals. However, human body can not be exposed to the high power
because of the limitations defined by the International Special Committee on Radio Interference (CISPR
22) and Federal Communications Commission in the U.S. (FCC part 15). One of the solution might be to
trasmit the ultra-low power using many bands and channels and accumulate those power inside the body
using multiband rectifiers. To address this issue, in the talk, we will introduce about the wireless power
transfer (WPT) technique through human body and possibility to tranmit the power through human body
within the power limit is demonstrated. Design aspects and implementation methods of those single and
multi-band WPT systems will be presented
Day 1, 15 August, 2:00pm -3:p0am
Dr. Ramesh K. Pokharel, Kyushu University
Topic: Compact and high efficiency Wireless Power Transfer (WPT) System for Implant Sensors and Bio-medical Devices
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Keynote 3
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Biography: Bhaskar Choubey (BC) is an Associate Professor of Engineering Science at the University of Oxford, wherein he leads the microelectronics research group. He obtained his doctorate from Oxford as a Rhodes Scholar. For his research on image sensors and MEMS, he was awarded the 2011 Early Career Achievement Gold award by the IEEE Sensors Council. In addition, he has been awarded the Myril B Reed best paper award in IEEE MWSCAS, Raymond Davies award by the Society of imaging science and technology, visiting award by the Royal Photographic Society, Sctachered scholarship to work at the Max Planck Institute of Brain Research, Frankfurt and International Visiting Fellowship to Sydney University. Currently, he is the coordinator of two industrial projects funded by the European Commission (EDISON and iARTIST). His research interests are in CMOS image sensors, ADC design and nanosystem design, including MEMS. He is currently an associate editor of the IEEE Transactions on Circuits and Systems – II and a member of the IEEE Working group.Research: The areas which are currently being investigated in professor’s group.- CMOS Pixels for very low light and biomedical imaging- Analogue to Digital Converters for image sensors- Filters for colour imaging- Coupled and nonlinear micro/nano electromechanical resonators including Graphene resonators- Arrays on linear and nonlinear resonators
Day 2, 16 August, 2:00pm -3:00pm
Dr. Bhaskar Choubey, University of Oxford, Universität Siegen
Topic: Intelligent image sensors
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Keynote 4
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Biography: Heung-Gyoon Ryu is professor in Chungbuk National University, Korea. He was born in Seoul, Republic of Korea in July 1959. He received the B.S. and M.S. and Ph.D. degrees in electronic engineering from Seoul National University in 1982, 1984 and 1989. Since 1988, he has been with Chungbuk National University, Korea, where he is currently Professor of Department of Electronic Engineering in Chungbuk National University. He has supervised to successful completion 20 Ph.D students and 87 MSc students. Currently he is supervising 7 PhD students and 8 MSc students. Also, he worked as director of RICIC (research institute of computer, information communication center) in Chungbuk National University from March 2002 to Feb 2004. Prof. Ryu is one of the best Korean leading specialists in the field of wireless and mobile communications. He is a valuable advisory committee member of Ministry of Knowledge and Economy, Korea government, taking advisory part in policy making with his expertise and vision in these areas. He has published more than 240 papers (substantial part of which in IEEE Transactions) and has patents in Korea, USA, Canada and Europe. Since 1990, he has been paper reviewer in countless times, session chairs up to hundred times in the international and domestic conferences. Since 1988, he has actively worked several tens of times as member of the technical program committee (TPC) of the international conferences and domestic conferences. His main research interests are digital communication systems, communication circuit design, spread spectrum system and communication signal processing. He was a winner of ‘2002 ACADEMY AWARD’ from the Korea Electromagnetic Engineering Society, Korea. He received the “BEST PAPER AWARD” at the 4th International Conference on Wireless Mobile Communications (ICWMC 2008) Athens, Greece, July 27-Aug.1, 2008. Also, He received the “BEST PAPER AWARD” at the International Conference on Advances in Satellite and Space Communications (SPACOMM 2009), Colmar France, July 20-25, 2009.
Day 2, 16 August, 10:00am -11:00am
Dr. Heung-Gyoon Ryu, Chungbuk National University
Topic: Radio Access Technology of 5G and Beyond 5G Mobile Communication System
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Keynote 5
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Biography: Professor B.F. Spencer Jr. is the Nathan M. and Anne M. Newmark Endowed Chair in Civil Engineering at the University of Illinois. He holds a B.S. in Mechanical Engineering (University of Missouri – Rolla 1981), and M.S. and Ph.D. in Theoretical and Applied Mechanics (University of Illinois at Urbana-Champaign 1983, 1985). He joined the faculty of the department of Civil and Environmental Engineering at the University of Illinois in 2002. Dr. Spencer served as a professor at the University of Notre Dame from 1985-2002, where he held the Leo E. and Patti Ruth Linbeck Professor of Engineering.Research: Dr. Spencer has taught graduate and undergraduate courses in structural mechanics, structural dynamics, and structural reliability. He is the author of two books. The first is a monograph entitled, On the Reliability of Nonlinear Hysteretic Structures Subjected to Broadband Random Excitation (Springer-Verlag 1986). The second book, coauthored with Prof. K. Sobczyk, is entitled, Random Fatigue: From Data to Theory (Academic Press 1992).Dr. Spencer is a Fellow of the American Society of Civil Engineers (ASCE), was the founding chair of the Committee on Structural Control and is the past chair of the Committee on Fatigue and Fracture Reliability, both in the ASCE Structures Division. He serves on the editorial board of the Journal of Structural Control and has served as associate editor for the ASCE Journal of Structural Engineering. He is also a Foreign Member of the Polish Academy of Sciences, the North American Editor in Chief of Smart Structures and Systems, and the president of the Asia-Pacific Network of Centers for Research in Smart Structures Technology.
Day 3, 16 August, 2:00pm -3:00pm
Dr. B.F. Spencer Jr., Nathan M. and Anne M. Newmark Endowed Chair in Civil Engineering, University of Illinois, USA
Topic: TBA
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Conference Information
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- University Map
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1. Conference location C42. Entrance from Turan avenue3. Block 3. School of
Engineering4. Entrance from Kabanbay
batyr avenue5. Atrium
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Conference Information
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- Lunch & Gala Dinner
Location information
1. LunchLocation: Midpoint, C3 block
2. Gala dinnerLocation: Greenpark, Astana
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Conference Information
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- EntertainmentDetails : TBA
Astana is the capital of Kazakhstan from 10th June, 1998. It is one of the fastest and dynamic developing megalopolis. Astana city tour will tell the tourists the reason why government moves capital from Almaty to Astana and lets to enjoy the unique of architectural buildings that show the history of developing country.It is a new capital of Kazakhstan. The transposition of the capital is the beginning of a dynamic development of the infrastructure, culture, industry of the region. UNESCO awarded the status of «City of Peace» in 1999. This place was chosen specially. The unique location of the city from ancient times had been served as main distribution center. Here passed the Great Silk Road and what is why the region became blossomed and rich.
At present it is a city with special economic zone, the modern and bold architectural and town-planning projects are realized. Industries’ areas are at the high level of development. The number of tourists wishing to see the one of the high growing town in the World is increasing every year.
https://www.tourasia.kz/tours/astana-city-tour/
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August 15, Session 1Time Authors Paper
11:30am - 11:50amChangyoung An;Heung-Gyoon Ryu
Dual-Mode OFDM with Coded Direct Index Modulation for the Spectrum Efficiency Improvement
In this paper, we propose an orthogonal frequency division multiplexing with coded direct index modulation (OFDM-CDIM) system to improve transmission efficiency and performance and evaluate the performance of this system. Recently, OFDM with index modulation (IM) using IM technology has been actively researched. OFDM-IM transmits additional information using the number of subcarriers to be used, and provides a trade-off control function between performance and transmission efficiency. However, as OFDM-IM uses combinatorial operations, the amount of computation to be processed in transmission and reception increases as the number of subcarriers increases. In this paper, we propose a method to directly map data to indexes of subcarriers to solve this problem. In order to improve performance and transmission efficiency, we only encode data mapped to indexes of subcarriers. Simulation results show that the proposed system using DM can improve BER performance and transmission efficiency compared to conventional OFDM system in multipath fading channel environment.
11:50am - 12:10pmDejan Mijić;Ervin Varga
Unified IoT Platform Architecture
Ad-hoc approaches to building Internet of Things (IoT) solutions in the past had mostly failed. The sheer complexity of managing a mesh of distributed interconnected devices was unbearable. The appearance of IoT platforms has enabled the proliferation of successful products in this area. A full-scale, comprehensive IoT platform embraces the following three major capabilities: application enablement, data storage, and connectivity management. This paper presents an overview of technologies and techniques to realize such an IoT platform. The focus is on the platform that unifies edge and cloud computing. The paper refers to Mainflux as such reference example. Mainflux serves as a software infrastructure, that is built around the micro- services architectural style, for development of IoT solutions, and deployment of intelligent products. It is conceived as an open- source project, and is already used in production settings. Therefore, the paper describes a real product, whose chosen set of methods, technologies and techniques are feasible and effective in crafting IoT systems. The Mainflux project contains an extensive set of automated tests, that could serve as an additional documentation regarding its usage.
12:10pm - 12:30pmZeinulla Zhanabaev; Tatyana Grevtseva; Sayat Akhtanov; Diana Burisova; Almas Serikbayev
Informational-entropic routing in wireless network
Methods usually used for estimation of signal-to-noise ratio are based on using a given noise level or conditional criteria. In the present work we have obtained formulas for bandwidth and noise immunity of communication channels via conditional information and informational entropy that doesn't contain empirical data. These formulas have been approved by computer modeling, and our goal is to use this new method for routing in wireless networks.
Venue: room 268, level 2, Block C4, Nazarbayev University, Astana Tech
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Regular Sessions:
August 15, Session 2Time Authors Paper
4:00pm - 4:20pm
Ahmet Saymbetov; Madiyar Nurgaliyev; Yerkebulan Nalibayev; Nurzhigit Kuttybay; Yeldos Svanbayev; Gulbakhar Dosymbetova; Yermakhan Tulkibaiuly; Aibolat Meiirkhanov; Zhumabek Kopzhan; Kaisar Gaziz
Intelligent Energy Efficient Wireless Communacation System for Street Lighting
The paper considers modern street lighting systems and shows the drawbacks of existing street lighting systems. The concept of an autonomous street lighting system with wireless monitoring is considered. The power of this system is provided by solar panels and accumulators. The organization of a wireless network inevitably raises the question of energy consumption. In this paper, we presented a router duty mode, which reduces the overall power consumption of the wireless network. The router's duty mode is a process of sequentially switching nodes from the role of routers to the role of sensor nodes. The graphs of discharge of accumulators are constructed for the stationary mode of the network operation and for the duty mode.
2018 INTERNATIONAL CONFERENCE ON COMPUTING AND NETWORK COMMUNICATIONS
August 15, Session 2
Time Authors Paper
4:20pm - 4:40pmHyeon Park; Eun JeeSook; Se-han Kim
Crops disease diagnosing using image-based deep learning mechanism
The crop productivity depends on environmental factors or product resources, such as temperature, humidity, labor and electrical costs. However, above all, crop disease is the crucial factor and causes 20-30% reduction of the productivity in case of its infection. Thus, the disease of the crop is the important factor affecting the productivity of the crops. Therefore, the farmer concentrates on the cause of the disease in the crops during its growth, but it is not easy to recognize the disease on the spot. Until now, they just relied on the opinion of the experts or their own experiences when the disease is doubtful. However, it triggers a decrease in productivity as no taking appropriate action and time. In this paper, to address this problem the mechanism, which dynamically analyses the images of the disease, is provided. The analysis result is immediately sent to the farmer required the decision and then feedback from the farmer is reflected to the model. The mechanism performs the diagnosing of the disease, especially for the strawberry fruits and leaves, with data set of images using deep learning. Thus, it encourages increasing of the productivity through the fast recognition of disease and the consequent action.
4:40pm - 5:00pmZhamila Issimova; Hyuk Lim
Profit Analysis of Residential Energy Management Systems with Energy Storage
The depletion of conventional natural resources such as gas, oil and coal has been boosting the rise of electricity price for the last decade. At the same time, renewable technologies have become cheaper and more accessible for the general public. This spurred the popularity of rooftop solar panels and the development of residential energy management systems. Nowadays, some households are able to generate more power that they can use at the moment. More efficient ways of energy management are needed to sell unused energy back to the utility or to store it for later use. In this paper, we develop an analytical model of residential energy management system (EMS) with renewable energy supply such as solar energy and investigate the feasibility of energy storage system (ESS) deployment in residential EMS for energy cost reduction. Simulations with real-life data show that residential EMS with ESS can effectively reduce the energy cost in a variety of electric utility pricing schemes.
5:00pm - 5:20pmMohammad Irshad; Ahmad Ali
Optimal Tuning Rules for Integrating Processes for 2-DOF Parallel Control Structure
In one-degree of freedom control structure, a controller is designed either for set-point tracking or disturbance rejection. A controller tuned for regulatory response gives poor servo performance and vice-versa. Several two-degree of freedom control structures have been proposed in the literature to control both servo and regulatory responses. A parallel control structure (PCS) reported recently handles set-point tracking and disturbance rejection independently. In this work, servo and regulatory controllers of PCS are chosen as PD and PID respectively. Integral performance criteria (integral of the squared time-weighted error, integral of the squared time-squared weighted error and integral of the squared time-cubed weighted error) are minimized using an evolutionary optimization technique to obtain optimal tuning rules for controllers of PCS for a class of integrating processes. Simulations performed shows that proposed tuning rules yield considerable improvement in servo performance as well as fast load disturbance rejection, as compared to recently reported tuning strategies.
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August 16, Session 3Time Authors Paper
11:30am - 11:50amCemil Turan; Shirali Kadyrov; Diana Burissova
An Improved Face Recognition Algorithm Based on Sparse Representation
This paper considers a variation of Sparse Representation-based Classification algorithm. Accuracy and time of evaluation of face recognition are two key performance indicators. This work compares performance of modified Sparse Representation-based Classification algorithm against original Sparse Representation-based Classification algorithm. Yale Face Database B is used to carry MATLAB simulations and results show that modified Sparse Representation-based Classification algorithm outperforms in terms of time. Moreover, the authors study and compare these algorithms when there is only a few training samples per subject is available.
2018 INTERNATIONAL CONFERENCE ON COMPUTING AND NETWORK COMMUNICATIONS
12:10pm - 12:30pmAhmad Khusro; Mohammad Hashmi; Abdul Quaiyum Ansari
Empirical Device Scaling and RF Performance Perspective: A Small Signal Model for GaN High Electron Mobility Transistor
The paper overviews scaling effect of number of fingers (N) and effective gate width (weff) on model parameters and RF performance characteristics of GaN High electron mobility transistor(HEMT). The device scaling relations in terms of model parameters and RF performance metrices are proposed for two multi-finger HEMTs of 2x200μm and 4x100μm respectively. The unity gain current frequency (ft) is found to be approximately constant with very negligible increase while maximum unilateral gain frequency (fmax) increases with increase in number of fingers (N) provided that effective gate width (weff) remain constant. Moreover, an empirical relation is also established between the model parameters, extracted using pinch-off and de-embedding structures, of two different geometry based on validated small signal model. HEMTs. However, the effective width of both the HEMTs is equal.
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August 16, Session 4Time Authors Paper
4:00am - 4:20amPaolo Rosati; Carmen Alina Lupascu; Domenico Tegolo
Clustering of low-correlated spatial gene expression patterns in the mouse brain in the Allen Brain Atlas
In this paper, clustering techniques are applied to spatial gene expression patterns with a low genomic correlationbetween the sagittal and coronal projections. The data analysed here are hosted on an available public DB named ABA (AllenBrain Atlas). The results are compared to those obtained by Bohland et al. on the complementary dataset (high correlationvalues). We prove that, by analysing a reduced dataset, hence reducing the computational burden, we get the same accuracy inhighlighting different neuroanatomical region.
August 16, Session 3Time Authors Paper
11:50am - 12:10pmBauyrzhan Ospan; Nawaz Khan; Juan Augusto; Mario Quinde; Kenzhegali Nurgaliyev
Context Aware Virtual Assistant with Case-Based Conflict Resolution in Multi-User Smart Home Environment
In this work we will examine and develop a Virtual Assistant that is used as a control interface of the Smart Home environment in the Middlesex University laboratory. Specifically, the system is constructed to give multiple users ability to control devices by voice or text commands through the dialogue interface. The main purpose of the research is to create user friendly interface with adaptive context aware Case-Based conflict resolution system. In addition, Artificial Neural Networks were used to classify user inputs to implement natural dialogue. Further, a set of random double-blinded evaluation tests were established.
4:20am - 4:40pmLeila Tlebaldiyeva; Theodoros Tsiftsis
Underlay Cognitive Radio with Imperfect Transceiver Electronics under Nakagami-m Fading
It is important to consider transceiver hardware impairments (i.e., imperfect electronic circuits) while designing practical communication systems. Most common transceiver imperfections are oscillator phase noise, I/Q imbalance, amplifier nonlinearities, self-interference in a full duplex mode, etc. In this paper, the performance of a dual-hop decode-and-forward underlay cognitive radio network with transceiver hardware impairments and interference power constraint is studied. Closed-form expressions for the exact outage probability (OP) over independent and non-identically distributed Nakagami-m channels are presented. More, asymptotic analysis of OP at high signal-to-noise-distortion ratio values is analyzed. A relation between the hardware impairment level and transmission rate is investigated using numerical simulations. Hardware impairment level is evaluated for various fading severity parameters of the channel when OP and source power are given. Monte Carlo simulations results corroborate the analytical ones
4:40pm - 5:00pm
Vipin Kizheppatt; Yerbol Akhmetov; Alex Pappachen James; Serikbolsyn Myrzakhmet
FAPNN: An FPGA based Approximate Probabilistic Neural Network Library
Due to their flexible architecture and inherent parallelism, FPGAs are ideal candidates for neural network implementations. Still they have not achieved wide-spread acceptance in this regard. One of the major roadblocks for FPGAs is the implementation of complex mathematical functions encountered in neural networks. Exact implementation of these functions consume large number of resources. In this paper we discuss an FPGA-based neural network prototyping platform and the approximate implementation of a probabilistic neural network (PNN) on a Xilinx 7-Series FPGA. The complex mathematical functions as replaced by approximations. Analysis shows that hardware performance is much higher than that of software counter parts and the error induced due to approximations is within tolerable limit.
2018 INTERNATIONAL CONFERENCE ON COMPUTING AND NETWORK COMMUNICATIONS
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August 17, Session 5
Time Authors Paper
11:30am - 11:50am
Kassen Dautov;Sultangali Arzykulov; Galymzhan Nauryzbayev; Refik Caglar Kizilirmak
On the Performance of the UAV-enabled Multihop V2V FSO systems over generalized alpha-μ Channels
In this paper, vehicle-to-vehicle (V2V) communication with cooperative free-space optics (FSO) is examined, where unmanned aerial vehicles (UAVs) are considered as relaying nodes. Outage performance of FSO cooperative system was analyzed by deriving the closed-form expressions where atmospheric turbulence was defined by a generalized $\alpha-\mu$ statistical model. Moreover, simulation results of the bit error rate (BER) performance over various distributions were obtained. In addition, it was shown that the BER over Rayleigh fading outperforms than that over Weibull and Nakagami fading models when the two-relay FSO system is taken into consideration. Finally, the BER results for three and four hops are presented.
11:50am - 12:10pmTalgat Manglayev; Refik Caglar Kizilirmak; Yau Hee Kho
Comparison of Parallel and Successive Interference Cancellation for Non-Orthogonal Multiple Access
Non-orthogonal multiple access (NOMA) is a promising method for the fifth generation (5G) cellular networks as it provides improved spectral efficiency by multiplexing users in power domain. One key challenge for the receivers in NOMA networks is to distinguish the individual signals that use the same band at the same time. Currently, the two widely discussed decoding schemes are successive interference cancellation (SIC) and parallel interference cancellation (PIC). Both schemes suppress the multi-user interference by subtracting the decoded signals from the received signal based on different algorithms, i.e., SIC decodes iteratively and PIC decodes collectively. This paper compares the computation time of SIC and PIC schemes at the base station and demonstrates multi-thread implementation of PIC.
12:10pm - 12:30pmPritee Parwekar; Vyshnavi Nagireddy
Comparative Analysis of SGO and PSO for Clustering in WSN
Wireless sensor network (WSN) allows nodes to monitor the alterations in the environment and to communicate to other nodes in the network. However, WSNs have finite resources. The Wireless sensors have a limited battery life, which in turn affects the life of the entire network. Energy dissipation is the key issue. Sensors use considerable energy for communicating amongst themselves. The distance between the sensors is a major cause for this energy dissipation. Therefore, reducing the communication distance can greatly benefit the network life. To preserve energy and minimize the transmission distance, clustering is one solution. Data communication from one sensor to other at a large scale consumes more energy limited transmissions are possible through clustering. Load balancing is achieved in clustering through data aggregation and this helps to prolong the lifetime of network. This paper proposes a fitness function that can be used to form clusters with energy consideration. Particle swarm optimization (PSO) and Social group optimization (SGO) are implemented with the proposed fitness equation and their performances are studied.
2018 INTERNATIONAL CONFERENCE ON COMPUTING AND NETWORK COMMUNICATIONS
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Poster presentations
Authors Poster
Yerassyl Olzhabay; Olga Krestinskaya; Alex Pappachen James
Variability analysis of Cascode Current mirror designs using CMOS-memristor circuits
Meirambek Mukhametkhan; Olga Krestinskaya; Alex Pappachen James
Analysis of ultilayer Perceptron with Rectifier Linear Unit Activation Function
Irina Dolzhikova; Mukhammed-Alikhan Zukayev
Memristor based Linkwitz- Riley filter
Irina Dolzhikova; Madina Kenzhina
Analysis of Hyperbolic Tangent Passive Resistive Neuron With CMOS-Memristor Circuit
Irina Dolzhikova; Amanzhol Daribay Widlar Current Mirror Design Using BJT-Memristor Circuits
Irina Dolzhikova; Aigerim Iskakova
Application Of Memristor in Current Mirror Circuit Design
Togzhan Abzhanova; Irina Dolzhikova; Alex Pappachen James
Implementation of True Random Number Generator based on Double-Scroll Attractor circuit with GST memristor emulator
Dmitriy Kupreyev Noise analysis of CMOS-memristive and CMOS-resistive current mirrors
Kamilya Smagulova Design of memristor-CMOS noise filter of image sensor circuit
Nazerke Kulmukhanova; Amanzhol Daribay; Ilyas Temirtayev; Ulzhan Bassembek
ZhardEM Medicine Vending Machine
Dana Koshen; Muratkhan Abdirash; Togzhan Abzhanova; Zhazira Akhmettay; Chingis Sauranbayev
NU Smart Shopping Cart
Muratkhan Abdirash; Irina Dolzhikova; Alex Pappachen James
Brief Tutorial on HP Memristor-based Chua's Chaotic Oscillator
Dauren Binazarov; Irina Dolzhikova; Alex Pappachen James
Memristor-Based Self-Configurable Current Mirror for Parallel Strings of LEDs
Nazerke Kulmukhanova; Irina Dolzhikova
Analysis of Noise in Current Mirrors with memristive Device
Prashant JamwalService Restoration in Power Distribution Systems using HybridMulti-Agent Approach
Irina Dolzhikova An analysis of a chaos-based TRNG circuit with HP memristor
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Authors Poster
Leila Tlebaldiyeva; Theodoros Tsiftsis
Underlay Cognitive Radio with Imperfect Transceiver Electronics under Nakagami-m Fading
Adilya Bakambekova; Ayan Shymyrbay; Arshyn Zhanbolatov; Assilkhan Amankhan; Ikechi Augustine Ukaegbu
Meeting Deadlines in Datacenter Networks: An Analysis on Deadline-Aware Transport Layer Protocols
Dias Azhigulov; Sabina Kairatova; Ikechi Augustine Ukaegbu; Madina Myrzaliyeva
Analyzing the BitTorrent Ecosystem of Central Asia
Talgat Manglayev; Refik Caglar Kizilirmak; Yau Hee Kho
Comparison of Parallel and Successive InterferenceCancellation for Non-Orthogonal Multiple Access
Akniyet Amantayeva; Moldir Yerzhanova; Refik Caglar Kizilirmak
Multiuser MIMO for Underwater Visible Light Communication
Nauryzbay Mussin; Aidar Suleimen; Temirlan Akhmenov; Nurzhan Amanzholov; Venera Nurmanova; Mehdi Bagheri; Mohammad Salay Naderi; Oveis Abedinia
Transformer Active Part Fault Assessment Using Internet of Things
Vipin Kizheppatt; Yerbol Akhmetov; Alex Pappachen James; Serikbolsyn Myrzakhmet
FAPNN: An FPGA based Approximate Probabilistic Neural Network Library
Kassen Dautov;Sultangali Arzykulov; Galymzhan Nauryzbayev; Refik Caglar Kizilirmak
On the Performance of the UAV-enabled Multihop V2V FSO systems over generalized $\alpha-\mu$ Channels
Dmitriy Kupreyev; Kassen Dautov; Mohammad Hashmi
Programmable Gain, Temperature CompensatedLogarithmic Amplifier based on Current Conveyorand OTA
Aisultan Alimkhan; Olga Krestinskaya New sense amplifier circuit design using CMOS-memristor
Yerlan Amanzholov; Olga Krestinskaya Sense amplifier design using CMOS-memristor circuits
Ulzhan Bassembek; Olga Krestinskaya Instrumentation Amplifier design: Comparison of CMOS-memristive to CMOS design
Amanat Kafizov; Olga Krestinskaya Sigmoid function with CMOS-memristor circuit
Aidos Kanapyanov; Olga Krestinskaya Analog multiplier design with CMOS-memristor circuits
Bexultan Nursultan; Olga Krestinskaya Perceptron Linear Function Design with CMOS-Memristive Circuits
Botazhan Satuyeva; Olga Krestinskaya Cascode Current Mirror design using CMOS-memristor circuits
Alex Pappachen James; Yerniyaz Tolegen; Anju Nandakumar
Frequency Analysis of Memristor Based Low PassBessel Filter
Galymzhan Torebayev; Anju Nandakumar Implementation of Memristor in Bessel filter with RLC components
Irina Dolzhikova; Zhazira Zhumabay Memristor-based Optimum Legendre Low-Pass FilterAidyn Zhambyl; Balzhan Azibek; Dinar Orazgaliyev; Berdibek Avdrakhim; Azamat Marlen; Medet Shatayev
Solar Tracker with Arduino MEGA
Timur Malikov; Kamilya Smagulova; Alex Pappachen James
A Linear-Logarithmic CMOS-Memristor Vision Sensor
Nursultan Kaiyrbekov; Olga Krestinskaya; Alex Pappachen James
Variability analysis of Memristor-based Sigmoid Function
Ileskhan Kalysh; Olga Krestinskaya; Alex Pappachen James
CMOS-Memristive Analog Multiplier Design
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2018 INTERNATIONAL CONFERENCE ON COMPUTING AND NETWORK COMMUNICATIONS
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2018 INTERNATIONAL CONFERENCE ON COMPUTING AND NETWORK COMMUNICATIONS
Tutorials
Topic Presenter Time
1 CAD for VLSI Bhaskar Choubey, University of Oxford
11:30am - 12:30pm
2 Optimization Tools and Techniques
Prashant Jamwal, Nazarbayev University
2:00pm - 4:00pm
3 Deep learning neual networks
Alex James,Nazarbayev University
4:00pm - 5:00pm
Day 4Venue: room 268, level 2, Block C4, Nazarbayev University, Astana