--------------------------------------------------------------------------- Please accept our apologies if you receive multiple copies of this Call for Chapters --------------------------------------------------------------------------- Dear Colleagues, We would like to introduce you to a forthcoming edited book which focuses on the "Computational and Data Grids: Principles, Designs, and Applications" and to invite you to submit a chapter proposal or a paper before December 30. Please feel free to forward this message to your colleagues if any of them would be interested in this edited book. Let us know if you have any questions regarding this matter. Thanks for your consideration. Nikolaos --------------------------------------------------------------------------- CALL FOR CHAPTERS Proposal Submission Deadline: -Extended- December 30, 2009 Computational and Data Grids: Principles, Designs, and Applications A book edited by Dr.Nikolaos Preve National Technical University of Athens, Greece To be published by IGI Global: http://www.igi-global.com/requests/details.asp?ID=748 Introduction Grid computing is the next generation information technology infrastructure that promises to transform the way organizations and individuals compute, communicate and collaborate. Grid computing is an evolution of distributed computing and it refers to a large-scale high-performance computing which combines distributed heterogeneous computing resources and the result is a unique large virtual supercomputer with a vast amount of shared processing power and data storage. Considering the enormous amount of these underutilized computing resources, the necessity of a grid infrastructure is compulsory. A computational grid provides access to users who want to utilize the shared processing resources in order to efficiently apply high throughput applications on distributed machines. The second most common shared resource used in a grid is data storage and it is known as data grid. This type of grid provides distributed storage capacity such as attached memory to the processor, hard disk drives or other types of permanent storage. Grid computing can assist grid users in order to utilize to the maximum computing resources by applying tasks and solving a scientific or technical problem that requires a great number of computer processing cycles or the need to process large amounts of data. Objective of the Book This book aims to provide relevant theoretical frameworks and will cover the latest empirical research findings in the area of grid computing. The goal of this book is to represent theoretical frameworks, methodologies, implementations, and cutting edge research findings with a critical perspective bridging the gap between academia and the latest achievements of the computer industry. It will be written for professionals, as well as students, who are involved or interested in the study, use, design, and development of grid computing and want to improve and empower their understanding of it. Also, this book aims to help researchers and developers understand the basics of the field, to highlight the various developments over the years in the field by giving an in depth analysis of grid networks. Target Audience The target audience of this book will be composed of professionals, engineers, researchers and students who are interested and working in the field of grid computing. Moreover, the book will provide insights and can serve as both literature at an undergraduate level and as an overview of the area. Recommended topics include, but are not limited to, the following: 1.Theories, definitions, methodologies, models, applications, simulations, and architectures relevant to grid computing 2.Implementations of computational grids, data grids, sensor and mobile grids 3.Grid data storage, grid databases, data management, and data mining 4.Indexing and query optimization over grid databases 5.Grid middleware 6.Web services 7.Security, cryptography, and cryptanalysis 8.Artificial intelligence 9.Algorithms 10.Scheduling, resource management, and optimization 11.Workflow and fault tolerance 12.Programming in grid computing 13.Cloud computing and grids 14.Grid computing in scientific problems (i.e. astrophysics, chemistry, economy and finance, electromagnetics, geophysics, meteorology, numerical analysis, statistics) Submission Procedure Researchers and practitioners are invited to submit on or before December 30, 2009, a 1-2 page chapter clearly explaining the mission and concerns of the proposed chapter. We also highly encourage early full chapter submissions. Please include the title of the book in the subject line of your e-mail. Authors will be notified by January 15, 2010 about the status of their proposals and will be sent chapter guidelines. Full chapters are expected to be submitted by March 31, 2010 or earlier. All submitted chapters must not have been published elsewhere and will undergo a double-blind peer review by at least two referees. Contributors may also be requested to serve as reviewers for this project. Publisher This book is scheduled to be published by IGI Global (formerly Idea Group Inc.), publisher of the “Information Science Reference” (formerly Idea Group Reference), “Medical Information Science Reference,” “Business Science Reference,” and “Engineering Science Reference” imprints. For additional information regarding the publisher, please visit www.igi-global.com. This publication is anticipated to be released in 2010. Important Dates December 30, 2009: Proposal Submission Deadline January 15, 2010: Notification of Acceptance March 31, 2010: Full Chapter Submission June 15, 2010: Review Results Returned August 15, 2010: Final Chapter Submission September 15, 2010: Final Deadline Inquiries and submissions can be forwarded electronically (Word document) or by mail to: Dr.Nikolaos Preve School of Electrical and Computer Engineering National Technical University of Athens, 15773 Zographou, Greece Tel.: +30 211 770 8053 - GSM: +30 697 750 4197 E-mail: nikpreb@mail.ntua.gr with cc to: Editorial Board E-mail: editorialt@gmail.com