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Genetic Studies in Model Organisms

Genetic Studies in Model Organisms

ISBN
: 9789819708307
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Ã¥Á¦¸ñGenetic Studies in Model Organisms
ÀúÀÚ¼Ò°³  Kwang-Wook Choi is an active Emeritus Professor in the Department of Biological Sciences at the Korea Advanced Institute of Science and Technology (KAIST). He has BS in microbial genetics from Seoul National University and PhD in Biochemistry from Princeton University, where he learned Drosophila neurogenetics from Chip Quinn. As a postdoctoral fellow, he studied eye development in Drosophila with Seymour Benzer at Caltech. He joined the faculty in the Department of Molecular and Cellular Biology at Baylor College of Medicine. After 14 years at Baylor, he returned to Korea as Chair of the Bio-Department at KAIST. Over 30 years, his research area has covered a broad range of cell and developmental biology in Drosophila. His work has contributed to understanding the molecular genetic basis of pattern formation, cell polarity, and cell fate specification in the developing eye and various organs. Using Drosophila as a model organism for human genetic diseases, he extended his studies todissecting genetic pathways for growth control genes. He received the Michael DeBakey Award for Excellence in Research at Baylor. He served as Chair of the Asia-Pacific Drosophila Board and organized the Asia-Pacific Drosophila Research Conference in Seoul to promote interactions among international Drosophila communities.
Ã¥¼Ò°³  This book reviews key advances and new fundamentals in genetics. The increasing importance of genetic approaches in diverse areas of biology and medical sciences constantly requires in-depth information on genetic discoveries and research strategies for advanced graduate-level students as well as current researchers. This book focuses on genetic studies of various animal model systems and their major contributions to establishing modern genetics. Information covered in this book is mostly based on original research papers that extend from classical to modern genetics and applications. The contents are organized into four parts. Part I introduces fundamental concepts and experimental strategies in classical genetics. Part II discusses molecular genetics with transposons, transgenesis, clonal analysis, and gene editing technologies. Part III emphasizes epigenetic regulation of genome organization and gene expression. Part IV integrates earlier parts with landmark genetic studies on non-coding RNAs in dosage compensation, programmed cell death, growth control related to cancer, and behavioral neurobiology.?
¸ñÂ÷ Part I. Mendel, Genetic Models, and Mutations
Part II. Transposons, Transgenesis, Gene Editing, and Genetic Mosaics
Part III. Epigenetics, Genome Organization, and piRNA
Part IV. Applications of Genetic Analysis
Emergence of Functional Circuits in the Early Visual Pathway

Emergence of Functional Circuits in the Early Visual Pathway

ISBN
: 9789811900303
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Ã¥Á¦¸ñEmergence of Functional Circuits in the Early Visual Pathway
ÀúÀÚ¼Ò°³  Dr. Jaeson Jang studied bio-engineering and mathematical sciences at Korea Advanced Institute of Science and Technology (KAIST) and graduated in 2013. He remained there for his graduate studies, working under the supervision of Prof. Se-Bum Paik on computational neuroscience. During his doctorate, he proposed how the emergence of diverse functional circuits in the primary visual cortex could be initiated by the feedforward visual inputs from the retina, even without any further development of recurrent cortical circuits. Furthermore, he applied a similar notion to the deep learning and showed that various functional units spontaneously arise from the statistical variation in randomly initialized neural networks, even in the complete absence of learning. He completed his doctoral research in 2020 and embarked on a research project in the diagnosis of mental disorders at Looxid Labs, a start-up that develops recording devices for brain signals in VR.

 Dr. Se-Bum Paik is the associate professor in the Department of Bio and Brain Engineering at Korea Advanced Institute of Science and Technology (KAIST) and is the head of the Visual System Neural Network Laboratory. After receiving his B.S in Nuclear Engineering and Physics from Seoul National University and M.S. in Physics from Seoul National University, Dr. Paik obtained his Ph.D. in Physics from the University of California at Berkeley. Dr. Paik¡¯s research has focused on finding a theory that explains how the architecture of the visual system is initially created to generate the building blocks of the visual information process. Dr. Paik introduced the Paik-Ringach model, arguably the most plausible theory of the origin of functional maps in the visual cortex, and his developmental models lay the groundwork for a unified theory of the origin of fundamental functions in the brain. Currently, Dr. Paik is on the board of directors of both the Society for Computational Neuroscience and the Brain Engineering Society of Korea.
Ã¥¼Ò°³  This book discusses the emergence of diverse functional organizations in the visual pathway which could be spontaneously and solely initiated by the random feedforward wiring of neural circuits. It demonstrates that the structure of ON and OFF retinal ganglion cell (RGC) mosaics is projected onto V1 by retino-cortical feedforward mapping to induce higher cognitive functions. This book will be beneficial for both theoretical and experimental neuroscientists, as well as for researchers using brain-inspired neural network models.
¸ñÂ÷ 1. Introduction
2. Topographical Consistency of Cortical Maps
3. Orthogonal Organization of Visual Cortex
4. Parametric Classifications of Cortical Organization
5. Discussion: Biological Plausibility of the Model
Expert System for Fatigue Crack Growth Predictions Based on Fatigue Crack Closure

Expert System for Fatigue Crack Growth Predictions Based on Fatigue Crack Closure

ISBN
: 9789811680359
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Ã¥Á¦¸ñExpert System for Fatigue Crack Growth Predictions Based on Fatigue Crack Closure
ÀúÀÚ¼Ò°³  Ji-Ho Songis Professor Emeritus of Mechanical Engineering at Korea Advanced Institute of Science and Technology (KAIST), Daejeon, Korea. He received his B.S. (1969), M.S. (1971) and Dr. Engineering (1974) in Mechanical Engineering at Osaka University, Osaka, Japan, under the guidance of Professor Makoto Kikukawa. In 1975, he was Wissenschaftlicher Mitarbeiter in Lehrstuhl Mechanik A at Technische Universitat Munchen, Germany, with the help of Professor Klaus Heckel. In 1977, he joined Hanyang University, Seoul, Korea, and then moved to Osaka University, Japan, in 1982 as Research Associate with the support of Professor Masahiro Jono. He returned to Korea in 1988 as Associate Professor at KAIST on the recommendation of Professor Youn-Yong Earmme, becoming Professor Emeritus in 2011. He received four times departmental outstanding teaching awards. His principal field of research is in fatigue and fatigue-related database and expert system. He published several books: Faigue Crack-Crack Closure and Growth Rate Prediction (in Japanese) in 2005 with Japanese Professor Masahiro Jono, (Translation in Korean) in 2006 with Korean Professor Chung-Youb Kim, Introduction to Reliability Engineering (in Korean) in 2007 with Korean Professor Jun-Hyub Park, Dictionary of Fatigue Fracture and Fatigue Strength of Materials (Fatiguepedia of Materials) (in Korean) in 2011 with Korean Professors Jun-Hyub Park and Chung-Youb Kim, and Korean Researcher Hak-Joo Lee, Fundamentals of Fatigue Analysis (in Korean) in 2016 with Korean Professor Chung-Youb Kim, and Expert System for Fatigue Life Predictions (CD Included) in 2017 with Korean Professors Chung-Youb Kim and Jun-Hyub Park. Fundamentals of Fatigue Analysis(Succeeding Edition) (in Korean) in 2020 with Korean Professor Chung-Youb Kim.

 Chung-Youb Kimis Professor in School of Mechanical Design Engineering of Chonnam National University, Yosu, Korea. He received his B.S. (1986) in Mechanical Engineering of Korea University, Seoul, Korea, M.S. (1988) and Ph.D. degrees (1993) in Mechanical Engineering of KAIST, Korea, under the guidance of Professor Ji-Ho Song. In 1993, he had worked for Mando Co. as Senior Research Engineer Durability Testing Team for Chassis Components. In 1977, he joined the Chonnam National University, Yosu, Korea. In 2008, he was Visiting Professor of the Department of Mechanical Engineering, Johns Hopkins University, USA, with the help of Professor K.J. Hemker and W.N. Sharpe, Jr. His research interests include fatigue testing under random loading and analysis of thin film materials and mechanical components. He translated Faigue Crack-Crack Closure and Growth Rate Prediction (in Korean) in 2006 with Professor Ji-Ho Song and published Dictionary of Fatigue Fracture and Fatigue Strength of Materials (Fatiguepedia of Materials) (in Korean) in 2011 with Korean Professors Ji-Ho Song and Jun-Hyub Park, and Korean Researcher Hak-Joo Lee, Fundamentals of Fatigue Analysis (in Korean) in 2016 with Korean Professor Ji-Ho Song, and Expert System for Fatigue Life Predictions (CD Included) in 2017 with Korean Professors Ji-Ho Song and Jun-Hyub Park. Fundamentals of Fatigue Analysis(Succeeding Edition)(in Korean) in 2020 with Korean Professor Ji-Ho Song.
Ã¥¼Ò°³  This book demonstrates fatigue crack growth under random loading graphically. This state-of-the-art monograph introduces an expert system for crack growth predictions, particularly based on crack closure. The system is developed after years of research by the authors by using the Math-type software consisting of 5 parts. This system is unique as it is fundamentally different from previous systems as it focuses on fatigue crack growth predictions based on fatigue crack closure. This book can be a useful guide for practicing engineers, researchers, and students in the fields of mechanical, aerospace, or civil engineering.
¸ñÂ÷ 1. Important Problems in Fatigue Crack Growth of Materials
2. Composition of the Expert System Developed for Fatigue Crack Growth    Predictions: FatiCraGro Expert
3. Part I of the Fatigue Crack Growth Expert System: Material Details
4. Part II of the Fatigue Crack Growth System: Fatigue Crack Growth    Properties
5. Part III of the Fatige Crack Growth Expert System: Specimens and Their    Stress Intensity Factor K Expression
6. Part IV of the Fatigue Crack Growth Expert System: Load Histories and    Cycle Counting
7. Part V of the Fatigue Crack Growth Expert System: Detailed Prediction    Methods of Fatigue Crack Growth
8. Part VI of the Fatigue Crack Growth Expert System: Reporting of Results    Obtained
9. Configuration of the Fatigue Crack Growth Expert System and How to    Install and Run the Fatige Crack Growth Expert System
A New Perspective of Cultural DNA

A New Perspective of Cultural DNA

ISBN
: 9789811577062
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Ã¥Á¦¸ñA New Perspective of Cultural DNA
ÀúÀÚ¼Ò°³  Ji-Hyun Leeis an Associate Professor at the Graduate School of Culture Technology (GSCT) in Korea Advanced Institute of Science Technology (KAIST). She received her Ph.D. in School of Architecture (Computational Design) at Carnegie Mellon University writing a thesis about integrating housing design and case-based reasoning. Since joining the GSCT at KAIST, her research focus narrowed down to three interdisciplinary areas that are not mutually exclusive: (1) calculation for UX + service design, (2) cultural DNA with morphological analysis, and (3) computational creativity. These explorations result in computer-based frameworks or systems contributing to the enhancement of the calculability using algorithmic and/or heuristic computational methods. In other words, her research focus is on ¡®computational culture¡¯ as an extension of computational design.
 She served for the Secretary of Computer-Aided Architectural Design Research in Asia (CAADRIA) from 2008 to 2010. Currently, she is the Director of the Information-Based Design (IBD) Research Group, Descartes Lab in KAIST and also serving as the Editorial Board Member for Architecture Research and International Journal of Innovations in Information Technology. She also serves as a Director of Korean Society of Service Design and Innovation (KSSDI), Korean Society of Design Science (KSDS) and HCI Korea. She is a member of Architectural Institute of Korea (AIK), Korea Intelligent Information System Society (KIISS), Society of CAD/ CAM Engineers and SIG-Design Creativity of the Design Society.
Ã¥¼Ò°³  This book presents selected papers from the 3rd Cultural DNA Workshop. Contributed by prominent computational design experts in the fields of mechanical engineering and architectural design, they mainly focus on the design process; shape grammars as a valuable tool; and the analysis of cultural values.

 The book offers readers fresh viewpoints on computational design. and helps researchers in academy and practitioners in industry to learn more evolved cultural DNA knowledge which is newly interpreted and conceptually reinforced in areas of mechanical engineering and architectural engineering.
¸ñÂ÷ 1. Simon¡¯s Ant: Towards New Task Environments for Design Alternatives
2. Trust Considerations in the Coordination of Computational Design Teams
3. Style Similarity as Feedback for Product Design
4. Type and Behavior Pattern Analysis of Art Museum Visitors Based on    Social Network Analysis
5. Towards a Useful Grammar Implementation: Beginning to Learn What    Designers Want
6. Shape Machine: A Primer for Visual Computation
7. Shape Grammars as the Decoder of Cultural DNA of Archaeological    Artifacts
8. Alternative Design Strategies for Building Facade Screens
9. Architecture, Narrative and Interaction in the Cityscapes of the Assassin¡¯s    Creed Series
Computational Studies on Cultural Variation and Heredity

Computational Studies on Cultural Variation and Heredity

ISBN
: 9789811081880
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: iv,225p.
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Ã¥Á¦¸ñComputational Studies on Cultural Variation and Heredity
ÀúÀÚ¼Ò°³  Ji-Hyun Lee is an Associate Professor at the Graduate School of Culture Technology in KAIST. She received her Ph.D. in School of Architecture (Computational Design) at Carnegie Mellon University writing a thesis about integrating housing design and case-based reasoning. Since joining the GSCT at KAIST, her research focus narrowed down to three interdisciplinary areas that are not mutually exclusive: (1) calculation for UX + service design, (2) cultural DNA with morphological analysis, and (3) computational creativity. These explorations result in computer-based frameworks or systems contributing to the enhancement of the calculability using algorithmic and/or heuristic computational methods. In other words, her research focus is on 'computational culture' as an extension of computational design.
Ã¥¼Ò°³  This book explores the emerging concept of cultural DNA, considering its application across different fields and examining commonalities in approach. It approaches the subject from four different perspectives, in which the topics include theories, analysis and synthesis of cultural DNA artefacts.

 After an opening section which reviews theoretical work on cultural DNA research, the second section discusses analysis & synthesis of cultural DNA at the urban scale. Section three covers analysis & synthesis of cultural DNA artefacts, and the final section offers approaches to grammar-based cultural DNA research.

 The book places emphasis on two specific axes: one is the scale of the object under discussion, which ranges from the small (handheld artefacts) to the very large (cities); and the other is the methodology used from analysis to synthesis. This diverse approach with detailed information about grammar-based methodologies toward cultural DNA makes the book unique.

 This book will serve as a source of inspiration for designers and researchers trying to find the essence, archetype, and the building blocks of our environment for the incorporation of social and cultural factors into their designs.
¸ñÂ÷ 1. Research for Cultural DNA in Design
2. Directly Interactive Design Gallery Systems: Interaction Terms and    Concepts
3. Underlying Principles and Emerging Designs: Design Exercises Based on    Magic Squares
4. Multi-leveled Tridimensional Public Place and Urban Promenade
5. Fossilisation of Rural Streets Within the Modern City
6. Mods, Hacks, Makers: Crowdsourced Culture and Environment
7. How Can Computers Learn Building Design Rules?
8. A Sense of Dichotomy in Household Space and Smartphone
9. The Need for a Cultural Representation Tool in Cultural Product Design
10. User Defined Conceptual Modeling Gestures
11. A Universal Basic Robot
12. Paperless Grammars
13. A Practical Shape Grammar for Chinese Ice-Ray Lattice Designs
14. Visual Structures of Embedded Shapes
15. A Design Grammar for Identifying Spatial Uniqueness of Murcutt¡¯s Rural     Houses
16. Craft, Performance, and Grammars
Cloud Broker and Cloudlet for Workflow Scheduling

Cloud Broker and Cloudlet for Workflow Scheduling

ISBN
: 9789811050701
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Ã¥Á¦¸ñCloud Broker and Cloudlet for Workflow Scheduling
ÀúÀÚ¼Ò°³  Chan-Hyun Youn received the B.Sc and M.Sc degrees in Electronics Engineering from Kyungpook National University, Daegu, Korea, in 1981 and 1985, respectively. He also received a Ph.D. in Electrical and Communications Engineering from Tohoku University, Japan, in 1994. Before joining the University, from 1986 to 1997, he was the leader of high-speed networking team at KT Telecommunications Network Research Laboratories. Since 2009, he has been a professor at Department of Electrical Engineering in KAIST, Daejeon, Korea. He also was a Dean of Office of Planning Affairs and a Director of Research and Industrial Cooperation Group at former Information and Communications University, in 2006 and 2007. He was a Visiting Professor at MIT in 2003 and has been engaged in the development of Physio-Grid system with Prof. R.G. Mark`s group in LCP (Laboratory for Computational Physiology) of MIT since 2002. He also is a Director of Grid Middleware Research Center at KAIST, where he develops core technologies in the areas of mobile cloud, mobile collaboration system, Internet computing workflow management, distributed network architecture, communication middleware, advanced e-Healthcare system, e-Health application services and others. Currently, he is serving Editor-in-Chief in KIPS (Korea Information Processing Society), and Editor of Journal of Healthcare Engineering (U.K.), and served head of Korea branch (computer section) of IEICE, Japan (2009, 2010). He is a member of IEEE, KICS and IEICE, respectively.

 Min Chen is a professor in School of Computer Science and Technology at Huazhong University of Science and Technology (HUST). He is Chair of IEEE Computer Society (CS) Special Technical Communities (STC) on Big Data. He was an assistant professor in School of Computer Science and Engineering at Seoul National University (SNU) from Sep. 2009 to Feb. 2012. He serves as editor or associate editor for Information Sciences, Wireless Communications and Mobile Computing, IET Communications, IET Networks, Wiley I. J. of Security and Communication Networks, Journal of Internet Technology, KSII Trans. Internet and Information Systems, International Journal of Sensor Networks. He is managing editor for IJAACS and IJART. He is a Guest Editor for IEEE Network, IEEE Wireless Communications Magazine, etc. He is Co-Chair of IEEE ICC 2012-Communications Theory Symposium, and Co-Chair of IEEE ICC 2013-Wireless Networks Symposium. He is General Co-Chair for the 12th IEEE International Conference on Computer and Information Technology (IEEE CIT-2012) and Mobimedia 2015. He is General Vice Chair for Tridentcom 2014. He is Keynote Speaker for CyberC 2012, Mobiquitous 2012 and Cloudcomp 2015. He is a TPC member for IEEE INFOCOM 2014. He has more than 260 paper publications, including 100+ SCI papers, 50+ IEEE Trans./Journal papers, 6 ISI highly cited papers and 1 hot paper. He has published a book on IoT: OPNET IoT Simulation (2015) with HUST Presss, and a book on big data: Big Data Related Technologies (2014) with Springer Series in Computer Science. His Google Scholars Citations reached 5,200+ with an h-index of 34. His top paper was cited 640 times, while his top book was cited 420 times as of Aug 2015. He is an IEEE Senior Member since 2009. His research focuses on Internet of Things, Mobile Cloud, Body Area Networks, Emotion-aware Computing, Healthcare Big Data, Cyber Physical Systems, and Robotics, etc.

 Patrizio Dazzi is a researcher at the Information Science and Technologies Institute (part of the Italian National Research Council) working on high performance computing and highly distributed systems. He graduated in Computer Science in 2003 at the University of Pisa, in 2004 completed an MSc in Computer Technologies, and was awarded a PhD in 2008 with a thesis titled ¡°Tools and Models for High Level Parallel and Grid Programming¡±. In 2009 he became a researcher at ISTI-CNR and has been a permanent researcher there since 2012. He is currently working in the EU Contrail Project, the goal of which is to design, implement, evaluate and promote an open source system for Cloud Federations. The CNR part of this is mainly involved in the management in federation of clouds.
Ã¥¼Ò°³  This book blends the principles of cloud computing theory and discussion of emerging technologies in cloud broker systems, enabling users to realise the potential of an integrated broker system for scientific applications and the Internet of Things (IoT).

 Due to dynamic situations in user demand and cloud resource status, scalability has become crucial in the execution of complex scientific applications. Therefore, data analysts and computer scientists must grasp workflow management issues in order to better understand the characteristics of cloud resources, allocate these resources more efficiently and make critical decisions intelligently. Thus, this book addresses these issues through discussion of some novel approaches and engineering issues in cloud broker systems and cloudlets for workflow scheduling. This book closes the gaps between cloud programmers and scientific applications designers, describing the fundamentals of cloud broker system technology and the state-of-the-art applications in implementation and performance evaluation.

 The books gives details of scheduling structures and processes, providing guidance and inspiration for users including cloud programmers, application designers and decision makers with involvement in cloud resource management.
¸ñÂ÷ 1 Integrated Cloud Broker System and Its Experimental Evaluation
  1.1 Cloud Broker System Overview
  1.2 VM Resource Management Schemes in Cloud Brokers
  1.3 Adaptive Resource Collaboration Framework [13]
  1.4 Science Gateway Overview
  1.5 Scientific Workflow Applications
  1.6 Conventional Service Broker for Scientific Application in Cloud
  1.7 Cost Adaptive Resource Management in Science Gateway
  1.8 Workflow Scheduling Scheme with Division Policy
  1.9 Test Environments for Performance Evaluation on Resource
      Management Schemes of the Science Gateway
  1.10 Performance Evaluation on Resource Management Schemes of
      Science Gateway
  References

2 VM Placement via Resource Brokers in a Cloud Datacenter
  2.1 Introduction
  2.2 Computing-Aware Initial VM Placement
  2.3 VM Reallocation Based on Resource Utilization-Aware VM
      Consolidation and Dispersion
  References

3 Cost Adaptive Workflow Resource Broker in Cloud
  3.1 Introduction
  3.2 Background and Related Works
  3.3 Objectives
  3.4 Proposed System Model for Cost-Adaptive Resource Management
      Scheme
  3.5 Proposed Cost Adaptive Workflow Scheduling Scheme
  3.6 Proposed Marginal Cost Based Resource Provisioning Scheme
  3.7 Experiment and Results
  3.8 Conclusions
  References

4 A Cloud Broker System for Connected Car Services with an Integrated
  Simulation Framework
  4.1 Introduction
  4.2 A Cloud Broker System for V2C Connected Car Service Offloading
  4.3 An Integrated Road Traffic-Network-Cloud Simulation Framework for
      V2C Connected Car Services Using a Cloud Broker System
  4.4 Conclusion
  References

5 Mobile Device as Cloud Broker for Computation Offloading at Cloudlets
  5.1 Introduction
  5.2 New Architecture of Computation Offloading at Cloudlet
  5.3 A Study on the OCS Mode
  5.4 Allocation Problem in Mobile Device Broker
  References

6 Opportunistic Task Scheduling Over Co-located Clouds
  6.1 Introduction
  6.2 Background and Related Works
  6.3 Opportunistic Task Scheduling Over Co-located Clouds Mode
  6.4 OSCC Mode
  6.5 Analysis and Optimization for OSCC Mode
  6.6 Performance Evaluation

7 Mobility-Aware Resource Scheduling Cloudlets in Mobile Environment
  7.1 Introduction
  7.2 Resource Scheduling Based on Mobility-Aware Caching
  7.3 Resource Scheduling Based on Mobility-Aware Computation
      Offloading
  7.4 Incentive Design for Caching and Computation Offloading
  References

8 Machine-Learning Based Approaches for Cloud Brokering
  8.1 Introduction
  8.2 Different Ways to Achieve Machine Learning
  8.3 Different Methodologies for Machine Learning
  8.4 Machine Learning and Cloud Brokering
  8.5 The Current Landscape of Machine-Learning Enabled Cloud Brokering
      Approaches
  8.6 Conclusion
  References
Morphological Analysis of Cultural DNA

Morphological Analysis of Cultural DNA

ISBN
: 9789811023286
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: viii,240p.
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: 140,18€
Ã¥Á¦¸ñMorphological Analysis of Cultural DNA
ÀúÀÚ¼Ò°³  Ji-Hyun Lee is an Associate Professor at the Graduate School of Culture Technology (GSCT) in Korea Advanced Institute of Science Technology (KAIST). She received her Ph.D. in School of Architecture (Computational Design) at Carnegie Mellon University writing a thesis about integrating housing design and case-based reasoning. Since joining the GSCT at KAIST, her research focus narrowed down to three interdisciplinary areas that are not mutually exclusive: (1) calculation for UX + service design, (2) cultural DNA with morphological analysis, and (3) computational creativity. These explorations result in computer-based frameworks or systems contributing to the enhancement of the calculability using algorithmic and/or heuristic computational methods. In other words, her research focus is on ¡®computational culture¡¯ as an extension of computational design.
She served for the Secretary of Computer-Aided Architectural Design Research in Asia (CAADRIA) from 2008 to 2010. Currently, she is the Director of the Information-Based Design (IBD) Research Group, Descartes Lab in KAIST and also serving as the Editorial Board Member for Architecture Research and International Journal of Innovations in Information Technology. She also serves as a Director of Korean Society of Service Design and Innovation (KSSDI), Korean Society of Design Science (KSDS) and HCI Korea. She is a member of Architectural Institute of Korea (AIK), Korea Intelligent Information System Society (KIISS), Society of CAD/ CAM Engineers and SIG-Design Creativity of the Design Society.
Ã¥¼Ò°³  This volume describes research in computational design which implements shape grammars or space syntax for morphological analysis, applying these scientific and rule-based methodologies to cultural aspects of the field. The term ¡®cultural DNA¡¯ describes the effort to explore computational design from the perspectives of a meme, a socio-cultural analogy to genes. Based on the 1st Cultural DNA Workshop, held at KAIST, Daejeon, Korea in 2015, the book considers whether there is such a thing as a ¡®cultural DNA¡¯ common throughout various domains, and if so how computer-assisted tools and methodologies play a role in its investigation.
 Following an introduction covering some fundamental theories of cultural DNA research, part two of the book describes morphological analysis in architecture, with examples from Malaysia and China. Part three then moves up to morphological analysis at the urban scale, including discussion of morphological evolution in France, development of a model Korean city, and introducing a rule-based generative analysis approach for urban planning. Part four considers methods for analysing the DNA of other cultural artefacts such as online games, novels, cars, and music, and part five introduces the tools under development that aid morphological cultural DNA research including topics about shape grammar, building information modeling (BIM), cultural persona, and prototyping.
 The book will be of significant interest to those involved in the cultural aspects of urban and architectural design, cultural informatics and design research.
¸ñÂ÷ Part I Theories for Cultural DNA Research
  1. From Human Inspired Design to Human Based Design
  2. A Short Exploratory Essay on the Term ¡®Cultural DNA¡¯ from the
      Perspectives of Physical and Virtual Architecture
  3. Architectural Conservation Based on Its Cultural DNA

Part II Morphological Analysis at Architectural Scale
  4. Finding Housing Genotypes by Graph Theory: An Investigation into
      Malay Houses
  5. Frieze Symmetry as an Underlying Principle of Housing Elevation
      Designs
  6. Unpacking the Cultural DNA of Traditional Chinese Private Gardens
      Through Mathematical Measurement and Parametric Design

Part III Morphological Analysis at Urban Scale
  7. Morphogenetic Habitation Group Formation and View Parameter
  8. From Open Plan to Public Space: ¡®Seine-Arche¡¯ Project and Urban
      Morphological Evolution in France 1960-2020
  9. Imagining the Paths of Cities: A Case of Korean City
  10. A Rule-Based Generative Analysis Approach for Urban Planning

Part IV Analysis of Other Cultural Artifacts
  11. Player Segmentation Strategies Based on the Types of Self-recognition
      in Online Game World
  12. Style Synthesis Based on Strategic Styling Decision
  13. Phylogenetic Analysis of Korean Traditional Rhythm

Part V Tools
  14. Implementing Shape Grammars for Designers
  15. Designing for Culture: The Development of a Cultural Design Tool for
      Service Design
  16. A Method for Measuring Qualitative Building Circulation Factors-A
      BIM-Enabled Approach Using Quantities
  17. The Grammar Lens: How Spatial Grammar Channels Interface Design
  18. Answering Questions with Questions: A Personal Take on Goedel¡¯s
      Incompleteness Theorem as It Relates to Architecture and Design
Phasor Power Electronics

Phasor Power Electronics

ISBN
: 9789811005350
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Ã¥Á¦¸ñPhasor Power Electronics
ÀúÀÚ¼Ò°³  Chun T. Rim received the B.S. degree with Honor in electrical engineering from KIT in 1985, and the M.S. and Ph.D. degrees in electrical engineering from KAIST, Korea, in 1987 and 1990, respectively.
 Since 2007, he has been an associate professor of Nuclear and Quantum Engineering at KAIST. He has been developing various wireless power technologies including inductive power transfer systems for On-Line Electrical Vehicles.  From 1990 to 1995, he was a military officer at the Ministry of National Defense in Korea. From 1995 to 2003, he was a senior researcher at the Agency for Defense Development, Daejeon, and from 1997 to 1999, he was with Astrium in Portsmouth, U.K. From 2003 to 2007, he was a senior director at the Presidential Office, Seoul, Korea. He was involved in developing Korea¡¯s first airborne and spaceborne synthetic aperture radars. His research areas include wireless electric vehicles, wireless power systems for robots, mobiles, wearables and IoT, and general unified modeling of power electronics. He has authored or coauthored 142 technical papers, written eight books, and holds 141 patents (awarded and pending). He won numerous awards including the Best Paper Award of IEEE Power Electronics Transactions in 2015 (wireless power) and three prizes by the Korean government. He was the chair of Wireless Power Committee of KIPE from 2010 to 2015 and the chair of EV Charger Committee of KIEE since 2011, respectively.
 He is now an associate editor of IEEE Transactions on Power Electronics and the Journal of Emerging and Selected Topics in Power Electronics (J-ESTPE), a guest editor of the Special Issue on Wireless Power Transfer of the IEEE Transactions on Power Electronics, IEEE Transactions on Industrial Electronics, and J-ESTPE, and the general chair of the 2014 IEEE VTC-Workshop on Wireless power (WoW), 2015 IEEE WoW, and 2016 IEEE WoW.
Ã¥¼Ò°³  This book presents a comprehensive introduction to the principles of power electronics, focusing on the switched transformer concept and phasor transformation techniques as employed in the analysis and design of power electronic circuits. Phasor transformations, as introduced in this book, make the time-varying nature of a switching converter simple and easy to handle, transforming it into an equivalent time-invariant circuit.
 The book starts with an introduction to the philosophy and fundamental principles of power electronics. The switched transformer concept, which is applicable to any switching converter, is introduced, and it is shown how DC-DC converters analyses are then so straightforward that very little equational manipulation is needed. Then the phasor transformation techniques are comprehensively explained over three parts. Single phase and multi-phase AC systems are dealt with through the single phase phasor transformation and circuit DQ transformation, respectively. A general unified phasor transformation is then introduced for the static and dynamic cases. The final part of the book considers current and potential extensions of the technique in various fields of application, including wireless power transfer, signal processing, power systems and renewable energy.
 The book avoids the piece-wise linear circuit models used in other titles, with which the mathematical results become too complicated to be used in practice. No cumbersome equations or matrix manipulations are needed with the phasor transformation techniques introduced in this book. It will be a valuable reference source for engineering students and practising researchers in power electronics and related areas.
¸ñÂ÷ Part I Introduction to Power Electronics
  1. The Philosophy of Power Electronics
  2. Key Principles of Power Converters

Part II Switching Converters as Electronic Transformers
  3. Conventional Models
  4. Switched Transformer Model

Part III Single Phase AC Circuits and Resonant Converters
  5. Basic Phasor Transformation and Application to Series Resonant
     Converters
  6. Applications of Phasor Transformation to AC Circuits and Phasor
     Detectors
  7. Application of Phasor Transformation to Static Analyses of LED Drivers

Part IV Multi-phase AC Circuits and Circuit DQ Transformation
  8. Circuit DQ-Transformation
  9. Application of Circuit DQ Transformation to Current Source Inverter

Part V Unified General Phasor Transformation
  10. Static Phasor Transformation
  11. Laplace Phasor Transformation
  12. Dynamics of Inductive Power Transfer Systems

Part VI Phasored Power Electronics and Beyond
  13. Phasor Transformers in Power Electronics and Beyond
  14. The Future of Power Electronics
Nano Devices and Circuit Techniques for Low-Energy Applications and Energy Harvesting

Nano Devices and Circuit Techniques for Low-Energy Applications and Energy Harvesting

ISBN
: 9789401799898
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: vi,291p.
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Ã¥Á¦¸ñNano Devices and Circuit Techniques for Low-Energy Applications and Energy Harvesting
ÀúÀÚ¼Ò°³  Chong-Min Kyung (Professor, KAIST) received B.S. in Electrical Engineering (EE) from Seoul National University in 1975, M.S. and Ph.D. in EE from KAIST in 1977 and 1981, respectively. He worked at Bell Telephone Laboratories, Murray Hill during 1981-1983. Since 1983, he has been Professor at the Department of EE at KAIST. He started Center for Integrated Smart Sensors (CISS) in 2011, sponsored as Global Frontier Project by Korean government. He has published over 300 international journal/conference papers on device physics/simulation, CAD, computer graphics, and System-on-a-Chip design including RISC/CISC microprocessors, VLIW and reconfigurable DSP cores, and video CODEC.
 His current research focuses on applying system-level cost-energy-rate-distortion optimization techniques to the design of smart sensors, especially smart cameras.
 He has led, as Founding Director, IDEC (IC Design Education Center) during 1995-2011. He received Best Paper Awards in numerous international conferences including ASP-DAC 1997 and 1998, DAC in 2000, ICSPAT in 1999, ICCD in 1999, ISOCC in 2009, and ISQED in 2014. He is a member of National Academy of Engineering Korea, and Korean Academy of Science and Technology, and IEEE Fellow.
Ã¥¼Ò°³  This book describes the development of core technologies to address two of the most challenging issues in research for future IT platform development, namely innovative device design and reduction of energy consumption. Three key devices, the FinFET, the TunnelFET, and the electromechanical nanoswitch are described with extensive details of use for practical applications. Energy issues are also covered in a tutorial fashion from material physics, through device technology, to innovative circuit design. The strength of this book lies in its holistic approach dealing with material trends, state-of-the-art of key devices, new examples of circuits and systems applications.
 This is the first of three books based on the Integrated Smart Sensors research project, which describe the development of innovative devices, circuits, and system-level enabling technologies. The aim of the project was to develop common platforms on which various devices and sensors can be loaded, and to create systems offering significant improvements in information processing speed, energy usage, and size.
 The book contains extensive reference lists and with over 200 figures introduces the reader to the general subject in a tutorial style, also addressing the state-of-the-art, allowing it to be used as a guide for starting researchers in these fields.
¸ñÂ÷ Part I Devices for Low Energy
  1. Tunneling Field-Effect Transistors for Ultra-Low-Power Application
  2. Bulk FinFETs: Design at 14 nm Node and Key Characteristics
  3. Micro and Nanoelectromechanical Contact Switches for Logic, Memory,
      and Power Applications

Part II System and Circuits for Low Energy
  4. Ultralow Power Processor Design with 3D IC Operating at Sub/Near-
      Threshold Voltages
  5. Energy Harvesting from the Human Body and Powering up Implant
      Devices
  6. Reconfigurable Photovoltaic Array Systems for Adaptive and Fault-
      Tolerant Energy Harvesting
  7. Low-Power Circuit Techniques for Efficient Energy Harvesting

Part III Materials for Low Energy
  8. Preparation of Porous Graphene-Based Nanomaterials for
      Electrochemical Energy Storage Devices
  9. Graphene and Two-Dimensional Transition Metal Dichalcogenide
      Materials for Energy-Related Applications
Theory and Applications of Smart Cameras

Theory and Applications of Smart Cameras

ISBN
: 9789401799867
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: vi,366p.
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: 112,14€
Ã¥Á¦¸ñTheory and Applications of Smart Cameras
ÀúÀÚ¼Ò°³  Chong-Min Kyung (Professor, KAIST) received B.S. in Electrical Engineering (EE) from Seoul National University in 1975, M.S. and Ph.D. in EE from KAIST in 1977 and 1981, respectively. He worked at Bell Telephone Laboratories, Murray Hill during 1981-1983. Since 1983, he has been Professor at the Department of EE at KAIST. He started Center for Integrated Smart Sensors (CISS) in 2011, sponsored as Global Frontier Project by Korean government. He has published over 300 international journal/conference papers on device physics/simulation, CAD, computer graphics, and System-on-a-Chip design including RISC/CISC microprocessors, VLIW and reconfigurable DSP cores, and video CODEC.
 His current research focuses on applying system-level cost-energy-rate-distortion optimization techniques to the design of smart sensors, especially smart cameras.
 He has led, as Founding Director, IDEC (IC Design Education Center) during 1995-2011. He received Best Paper Awards in numerous international conferences including ASP-DAC 1997 and 1998, DAC in 2000, ICSPAT in 1999, ICCD in 1999, ISOCC in 2009, and ISQED in 2014. He is a member of National Academy of Engineering Korea, and Korean Academy of Science and Technology, and IEEE Fellow.
Ã¥¼Ò°³  This book presents an overview of smart camera systems, considering practical applications but also reviewing fundamental aspects of the underlying technology. It introduces in a tutorial style the principles of sensing and signal processing, and also describes topics such as wireless connection to the Internet of Things (IoT) which is expected to be the biggest market for smart cameras.
 It is an excellent guide to the fundamental of smart camera technology, and the chapters complement each other well as the authors have worked as a team under the auspice of GFP(Global Frontier Project), the largest-scale funded research in Korea. This is the third of three books based on the Integrated Smart Sensors research project, which describe the development of innovative devices, circuits, and system-level enabling technologies. The aim of the project was to develop common platforms on which various devices and sensors can be loaded, and to create systems offering significant improvements in information processing speed, energy usage, and size.
 This book contains extensive reference lists, introduces the reader to the subject in a tutorial style and also reviews state-of-the-art results, which allows it to be used as a guide for starting researchers.
¸ñÂ÷ Part I Fundamental/Energy-related Issues of Smart Cameras
  1. CMOS Image Sensor for Smart Cameras
  2. Architectural Analysis of a Baseline ISP Pipeline
  3. An Ultra-Low-Power Image Signal Processor for Smart Camera
      Applications
  4. Foundations and Applications of 3D Imaging
  5. E-R-D Optimization in Video Compression

Part II Event/Object Detectors for Smart Sensing
  1. Low-Power Operation for Video Event Data Recorder
  2. Low-Power Face Detection for Smart Camera
  3. Accurate Face and Human Detection Using Hybrid Local Transform
      Features
  4. Adaptive Resource Management for Sensor Fusion in Visual Tracking
  5. Traffic Pattern Analysis and Anomaly Detection via Probabilistic
      Inference Model
  6. Event Detection Module for Low-Power Camera
  7. Advanced Human Detection Using Fused Information of Depth and
      Intensity Images

Part III Wireless Connectivity for Video Sensor Networks
  8. Time Synchronization for Multi-hop Surveillance Camera Systems
  9. Distributed Medium Access for Camera Sensor Networks: Theory and
      Practice
  10. Wireless Sensor Network for Video Sensors
Smart Sensors for Health and Environment Monitoring

Smart Sensors for Health and Environment Monitoring

ISBN
: 9789401799805
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: vi,323p.
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: 112,14€
Ã¥Á¦¸ñSmart Sensors for Health and Environment Monitoring
ÀúÀÚ¼Ò°³  Chong-Min Kyung (Professor, KAIST) received B.S. in Electrical Engineering (EE) from Seoul National University in 1975, M.S. and Ph.D. in EE from KAIST in 1977 and 1981, respectively. He worked at Bell Telephone Laboratories, Murray Hill during 1981-1983. Since 1983, he has been Professor at the Department of EE at KAIST. He started Center for Integrated Smart Sensors (CISS) in 2011, sponsored as Global Frontier Project by Korean government. He has published over 300 international journal/conference papers on device physics/simulation, CAD, computer graphics, and System-on-a-Chip design including RISC/CISC microprocessors, VLIW and reconfigurable DSP cores, and video CODEC.
 His current research focuses on applying system-level cost-energy-rate-distortion optimization techniques to the design of smart sensors, especially smart cameras.
 He has led, as Founding Director, IDEC (IC Design Education Center) during 1995-2011. He received Best Paper Awards in numerous international conferences including ASP-DAC 1997 and 1998, DAC in 2000, ICSPAT in 1999, ICCD in 1999, ISOCC in 2009, and ISQED in 2014. He is a member of National Academy of Engineering Korea and Korean Academy of Science and Technology and IEEE Fellow.
Ã¥¼Ò°³  This book covers two most important applications of smart sensors, namely bio-health sensing and environmental monitoring. The approach taken is holistic and covers the complete scope of the subject matter from the principles of the sensing mechanism, through device physics, circuit and system implementation techniques, and energy issues to wireless connectivity solutions. It is written at a level suitable mainly for post-graduate level researchers interested in practical applications. The chapters are independent but complementary to each other, and the book works within the wider perspective of essential smart sensors for the Internet of Things (IoT).
 This is the second of three books based on the Integrated Smart Sensors research project, which describe the development of innovative devices, circuits, and system-level enabling technologies. The aim of the project was to develop common platforms on which various devices and sensors can be loaded, and to create systems offering significant improvements in information processing speed, energy usage, and size.
 This book contains substantial reference lists and over 150 figures, introducing the reader to the subject in a tutorial style whilst also addressing state-of-the-art research results, allowing it to be used as a guide for starting researchers.
¸ñÂ÷ Part I Bio-Medical Sensors
  1. A CNT Network Platform Integrated on the CMOS Circuit
  2. Exhaled Breath Sensors
  3. Implantable Neural Sensors for Brain Machine Interface
  4. Implantable Brain Interface: High-Density Microelectrode Array for
      Neural Recording
  5. Optical Coherence Tomography for Clinical Applications

Part II Sensors for Environmental Monitoring
  6. Microfabricated and Nanoengineered Chemical Sensors for Air Quality
      Monitoring System
  7. Miniaturized VOC Detectors for Monitoring Indoor Air Quality
  8. Heaterless Operation of Chemoresistive Gas Sensors for Further
      Functional Convergence
  9. Sensors and Devices for Heavy Metal Ion Detection
  10. A Fatigue Crack Detection Methodology

Part III Wireless Connectivity Solutions for Sensors
  11. Data Networking for Autonomous Fatigue Crack Detection
  12. Energy-Efficient Sensing Data Delivery for Low Power Environmental
      Sensors
  13. Coding for Wireless Sensor Networks
Three Dimensional Creativity

Three Dimensional Creativity

ISBN
: 9789401788038
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: x,87p.
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: 93,45€
Ã¥Á¦¸ñThree Dimensional Creativity
ÀúÀÚ¼Ò°³  Prof. Kwang-Hyung LEE is a professor at department of Bio and Brain Engineering, and head of graduate school of Future Strategy of KAIST(Korea Advanced Institute of Science and Technology). His interests include Intelligence, Bioinformatics, Creativity and Future strategy. He published more than 100 research papers, and received a merit medal "Chevalier" from French government.
 He wrote many books such as: Introduction to systems programming (Prentice Hall), First course on fuzzy theory and applications(Springer), C programming(Hongreung, in Korean), Fuzzy Theory(Hongreung, in Korean), and Three dimensional creativity (Bizmap, in Korean).
Ã¥¼Ò°³  Is creativity something that we are simply born with and cannot hone with effort? Some say that creativity cannot be cultivated. Is it true? In general our thinking sticks to reality unless there is any external stimulation. With our thinking fixed on a certain situation, it becomes difficult to come up with a fresh idea. In this regard, three questions are suggested: (1) Question of Time: When a problem arises, question yourself on a time axis first of all. How would the matter be handled 10 or 20 years from now? (2) Question of Space: Ask yourself some questions on its spatial elements. How would the matter be handled in Saudi Arabia or in China? (3) Question of Field: Apply the given problem in a variety of fields. How would the matter be handled in the field of music or electronic engineering?
 The three questions suggested here are given on the three axes: time, space, and field, and this book deals with theoretical and practical aspects on the topics. In this way it is a unique book about the systematic method of developing creativity, which will have appeal to researchers and students in multidisciplinary fields from neuroscience to physics, and engineering and computer science, as well as a general public.
¸ñÂ÷ 1. Creativity Can Be Cultivated
2. Freedom from Time
3. Freedom from Space
4. Freedom from Field
5. Traveling on a Two-Dimensional Plane
6. Traveling in a Three-Dimensional World