Calls for Papers for Journals
The IEEE Computer Society Transactions publish archive-quality research papers on a variety of topics related to computer science and technology. If you are interested in publishing with us, please view our list of on-going calls for papers to determine which journal best suits your area of expertise.
- IEEE Computer Architecture Letters
- IEEE Transactions on Affective Computing
- IEEE Transactions on Big Data
- IEEE Transactions on Computers
- IEEE Transactions on Cloud Computing
- IEEE Transactions on Dependable and Secure Computing
- IEEE Transactions on Emerging Topics in Computing
- IEEE Transactions on Haptics
- IEEE Transactions on Knowledge & Data Engineering
- IEEE Transactions on Learning Technologies
- IEEE Transactions on Mobile Computing
- IEEE Transactions on Multi-Scale Computing Systems
- IEEE Transactions on Network Science and Engineering
- IEEE Transactions on Parallel & Distributed Systems
- IEEE Transactions on Pattern Analysis & Machine Intelligence
- IEEE Transactions on Services Computing
- IEEE Transactions on Software Engineering
- IEEE Transactions on Visualization & Computer Graphics
- IEEE/ACM Transactions on Computational Biology and Bioinformatics
IEEE Computer Architecture Letters (CAL), a bi-annual forum for fast publication of new, high-quality ideas in the form of short, critically refereed, technical papers, is seeking submissions on any topic in computer architecture.
Special Issue on Affective Analysis in Multimedia
Recent advances in multimedia computing brought a dramatic increase in the research on multimedia retrieval and indexing based on highly subjective concepts such as emotion, preference and aesthetics. These retrieval methods are considered human-centered, intuitive, and beyond the conventional keyword- or object-based retrieval paradigm. In addition, the problem is considered challenging because it requires multidisciplinary understanding of human behavior and perception as well as multimodal integration of different modalities (music, image, video, text) for better performance. Affective analyses of multimedia is attracting growing attention from industry and general public, e.g., mood based online radio stations. IEEE Transactions on Affective Computing is the flagship journal in affective computing, featuring the state of the art on this multidisciplinary topic.
The IEEE Transactions on Affective Computing (TAC), a new bi-annual online-only publication, is seeking submissions of original research on the principles and theories explaining why and how affective factors condition interaction between humans and technology, on how affective sensing and simulation techniques can inform our understanding of human affective processes, and on the design, implementation, and evaluation of systems that carefully consider affect among the factors that influence their usability. Surveys of existing work will be considered for publication when they propose a new viewpoint on the history and the perspective on this domain.
The IEEE Transactions on Big Data (TBD) publishes peer reviewed articles with big data as the main focus. The articles will provide cross disciplinary innovative research ideas and applications results for big data including novel theory, algorithms and applications. Research areas for big data include, but are not restricted to, big data analytics, big data visualization, big data curation and management, big data semantics, big data infrastructure, big data standards, big data performance analyses, intelligence from big data, scientific discovery from big data security, privacy, and legal issues specific to big data. Applications of big data in the fields of endeavor where massive data is generated are of particular interest.
IEEE Transactions on Computers (TC), a monthly archival publication, is seeking submissions of papers, brief contributions, and comments on research in areas that include, but are not limited to, computer organizations and architectures; operating systems, software systems, and communication protocols; real-time systems and embedded systems; digital devices, computer components, and interconnection networks; and new and important applications and trends.
Special Issue on Scientific Cloud Computing
Computational and Data-Driven Sciences have become the third and fourth pillar of scientific discovery in addition to experimental and theoretical sciences. Scientific Computing has already begun to change how science is done, enabling scientific breakthroughs through new kinds of experiments that would have been impossible only a decade ago. It is the key to solving "grand challenges" in many domains and providing breakthroughs in new knowledge, and it comes in many shapes and forms: high-performance computing (HPC) which is heavily focused on compute-intensive applications; high-throughput computing (HTC) which focuses on using many computing resources over long periods of time to accomplish its computational tasks; many-task computing (MTC) which aims to bridge the gap between HPC and HTC by focusing on using many resources over short periods of time; and data-intensive computing which is heavily focused on data distribution, data-parallel execution, and harnessing data locality by scheduling of computations close to the data. Today's "Big Data" trend is generating datasets that are increasing exponentially in both complexity and volume, making their analysis, archival, and sharing one of the grand challenges of the 21st century. Not surprisingly, it becomes increasingly difficult to design and operate large scale systems capable of addressing these grand challenges.
This journal Special Issue on Scientific Cloud Computing in the IEEE Transaction on Cloud Computing will provide the scientific community a dedicated forum for discussing new research, development, and deployment efforts in running these kinds of scientific computing workloads on Cloud Computing infrastructures. This special is sue will focus on the use of cloud-based technologies to meet new compute-intensive and data-intensive scientific challenges that are not well served by the current supercomputers, grids and HPC clusters. The special issue will aim to address questions such as: What architectural changes to the current cloud frameworks (hardware, operating systems, networking and/or programming models) are needed to support science? Dynamic information derived from remote instruments and coupled simulation, and sensor ensembles that stream data for real-time analysis are important emerging techniques in scientific and cyber-physical engineering systems. How can cloud techn ologies enable and adapt to these new scientific approaches dealing with dynamism? How are scientists using clouds? Are there scientific HPC/HTC/MTC workloads that are suitable candidates to take advantage of emerging cloud computing resources with high efficiency? Commercial public clouds provide easy access to cloud infrastructure for scientists. What are the gaps in commercial cloud offerings and how can they be adapted for running existing and novel eScience applications? What benefits exist by adopting the cloud model, over clusters, grids, or supercomputers? What factors are limiting clouds use or would make them more usable/efficient?
Special Issue on Security and Privacy Protection on Clouds
The emerging paradigm of cloud computing provides a new way to address the constraints of limited energy, capabilities, and resources. Researchers and practitioners have embraced cloud computing as a new approach that has the potential for a profound impact in our daily life and world economy. However, security and privacy protection is a critical concern in the development and adoption of cloud computing. To avoid system fragility and defend against vulnerabilities exploration from cyber attacker, various cyber security techniques and tools have been developed for cloud systems. This special issue will focus on the challenging topic—"Security and Privacy Protection on Clouds" and invites the state-of-the-art research results to be submitted here.
Special Issue on Cloud Networking
Cloud computing is entering our lives and changing the way people consume information dramatically. Clouds transform IT infrastructures with an emphasis on making them flexible, affordable, and capable of serving millions of users, satisfying their computing or storage demands. The design of early cloud computing systems has evolved from, and was dominated by, the concepts of cluster and grid computing. Currently, as the concepts of the cloud become advanced and mature, cloud networking and communication processes begin playing a central role. Cloud Networking has emerged as a promising direction for cost-efficient and reliable service delivery across data communication networks. The dynamic location of service facilities and the virtualization of hardware and software elements are stressing the communication network and protocols, especially when datacenters are interconnected through the Internet.
The optimization of cloud networking can significantly increase system performance, reducing energy consumption and save costs not only inside individual data centers, but also globally, on the Internet scale. Developing novel network architectures would facilitate adoption of modular container-based data centers. Advancements in internetworking become key enabler for building hybrid clouds and federations of clouds. Service provisioning over heterogeneous connections and wireless links can enhance computational capacity and enrich application experience of mobile users. Efficient resource management and scheduling in data centers and cloud infrastructures is open research challenge that has to be addressed and novel architectures, telecommunication technologies, and protocols must be developed to ensure efficiency of future cloud computing systems.
Special Issue on Big Data Computing on Clouds
Big data is an emerging paradigm applied to datasets whose size or complexity is beyond the ability of commonly used computer software and hardware tools. Such datasets are often from various sources (Variety) yet unstructured such as social media, sensors, scientific applications, surveillance, video and image archives, Internet texts and documents, Internet search indexing, medical records, business transactions and web logs; and are of large size (Volume) with fast data in/out (Velocity). More importantly, big data has to be of high value (Value) and establish trust in it for business decision making (Veracity). Various technologies are being discussed to support the handling of big data such as massively parallel processing databases, scalable storage systems, cloud computing platforms, and MapReduce. As estimated by IDC, by 2020, about 40% data globally would be touched with Cloud Computing. Besides, Cloud Computing provides strong storage, computation and distributed capability in support of Big Data processing. Therefore, there is a strong demand to investigate various challenges about how to support Big Data processing by facilitating Cloud Computing potential. This special issue will focus on this challenging topic.
Special Issue on Green and Energy-Efficient Cloud Computing
Cloud Computing has had a huge commercial impact and has attracted the interest of the research community. Public clouds allow their customers to outsource the management of physical resources, and rent a variable amount of resources in accordance to their specific needs. Private clouds allow companies to manage on-premises resources, exploiting the capabilities offered by the cloud technologies, such as using virtualization to improve resource utilization and cloud software for resource management automation. Hybrid clouds, where private infrastructures are integrated and complemented by external resources, are becoming a common scenario as well, for example to manage load peaks.
This special issue will provide the scientific and industrial communities a dedicated forum to present new research, development, and deployment efforts in the field of green and energy-efficient Cloud Computing. For example, while significant advancements have been made to increase the physical efficiency of power supplies and cooling components that improve the PUE index, such improvements are often circumscribed to the huge data centers run by large cloud companies. Even stronger effort is needed to improve the data center computational efficiency, as servers are today highly underutilized, with typical operating range between 10% and 30%. In this respect, advancements are needed both to improve the energy-efficiency of servers and to dynamically consolidate the workload on fewer, and better utilized, servers.
Special Issue on Cloud Service for Health Care
Health care service, in order to improve the quality and reduce the cost of medical services, has welcomed the modern information and computing technology involved. In the past two decades, the modern medical equipment, as advanced the medical information acquisition and the produced big data can be analyzed to aid the decision makings. The medical professionals have appreciated the extensive employments of data storage, data management and communication which enhance the medical services. With the development of big data, supercomputing, virtualization, cloud computing are recently more available, moderate, and secure. For example, if wireless sensor networks are related, the information becomes available in the "cloud" from where it can be produced by a doctor and analyzed by an expert or even a computer. Nevertheless, the traditional cloud computing techniques cannot meet our daily increasing requirements and we can do more for the future and tailor the cloud computing for health care service. The cloud computing for health care is to enhance the acquisition and computing of big health data which will be the topic of this special issue.
Cloud computing for health care is to improve the time and space efficiency and reduce the cost of health care by advanced cloud computing technology on storage, management and sharing techniques of big health data. The popularity of the cloud computing for health care can be displayed by its use in marketing to sell hosted services that run client servers of ware on a remote location. In this way, cloud for health care designs to integrate every available resource into individuals' health care, analyzing data, modeling, filtering and showing useful messages and giving final health care suggestions. While it is exciting to have health care services in the cloud for everyone, there are many security and privacy risks that may impede its wide adoption. Cloud service for health care can possibly be defined as devices and services for patients and health service providers and implementations of interoperable standards used with the aim of improving health of a given population (globally, nationally etc. or individually).
Special Issue on Many-Task Computing in the Cloud
The Special Issue on Many-Task Computing (MTC) in the Cloud will provide the scientific community a dedicated forum, within the prestigious IEEE Transactions on Cloud Computing journal, for presenting new research, development, and deployment efforts of loosely coupled large scale applications on Cloud Computing infrastructure. MTC, the theme of this special issue, encompasses loosely coupled applications, which are generally composed of many tasks to achieve some larger application goal. This special issue will cover challenges that can hamper efficiency and utilization in running applications on large-scale systems, such as local resource manager scalability and granularity, efficient utilization of raw hardware, parallel file-system contention and scalability, data management, I/O management, reliability at scale, and application scalability. We welcome paper submissions in theoretical, simulations, and systems topics with special consideration to papers addressing the intersection of petascale/exascale challenges with large-scale cloud computing. We seek submission of papers that present new, original and innovative ideas for the "first" time in TCC (Transactions on Cloud Computing). That means, submission of "extended versions" of already published works (e.g., conference/workshop papers) is not encouraged unless they contain significant number of "new and original" ideas/contributions along with more than 49% brand "new" material. For more information on this special issue, please see http://datasys.cs.iit.edu/events/TCC-MTC15/.
IEEE Transactions on Cloud Computing (TCC), will publish peer-reviewed articles that provide innovative research ideas and applications results in all areas relating to cloud computing. Topics relating to novel theory, algorithms, performance analyses and applications of techniques relating to all areas of cloud computing will be considered for the transactions. The transactions will consider submissions specifically in the areas of cloud security, tradeoffs between privacy and utility of cloud, cloud standards, the architecture of cloud computing, cloud development tools, cloud software, cloud backup and recovery, cloud interoperability, cloud applications management, cloud data analytics, cloud communications protocols, mobile cloud, liability issues for data loss on clouds, data integration on clouds, big data on clouds, cloud education, cloud skill sets, cloud energy consumption, cloud applications in commerce, education and industry. This title will also consider submissions on Infrastructure as a Service (IaaS), Platform as a Service (PaaS), Software as a Service (SaaS), and Business Process as a Service (BPaaS).
Special Issue on Cyber Crime
Cyber crimes reflect the evolution of criminal practices that have adapted to the world of information and communication technologies. Cybercriminality has become a curse of the modern world with the potential to affect every one nationally and/or internationally. Individuals, companies, governments and institutions may become victims as well as (involuntary) helpers of cyber criminals. The inability to provide cyber-security can potentially have a tremendous socio-economic impact on global enterprises as well as individuals. The aim of this special issue is to bring together the research accomplishments provided by the researchers from academia and the industry. The other goal is to show the latest research results in the field of cyber crime. Prospective authors will be encouraged to submit related distinguished research papers on the subject of both: theoretical approaches and practical case reviews.
IEEE Transactions on Dependable and Secure Computing (TDSC), a bimonthly archival publication, is seeking submissions of papers that focus on research into foundations, methodologies, and mechanisms that support the achievement—through design, modeling, and evaluation—of systems and networks that are dependable and secure to the desired degree without compromising performance. The focus also includes measurement, modeling, and simulation techniques, and foundations for jointly evaluating, verifying, and designing for performance, security, and dependability constraints.
Special Issue on Advances in Neuromorphic and Analog VLSI Computing
Over the last few years there has been a renewed interest in the area of neuromorphic and analog VLSI computing. As an alternative to digital computation and digital signal processing, neuromorphic and analog VLSI processors exploit computational primitives inherent in the device physics, similar to principles that have been observed in neurobiology. As a result, very high computational densities and energy efficiencies can be potentially achieved using massively parallel architectures. This is particularly true for sensory signal processing and recognition systems where precise computing is not mission critical. On the other end of the spectrum, massive parallel neuromorphic computing systems are enabling near real-time simulations of biological systems ranging from a single neuron to the functional level at the scale of a mammalian brain. As such, there exists a tremendous potential for applying neuromorphic and analog VLSI computing techniques to mobile devices, biomedical systems, unattended sensors for defense and security systems, and cognitive computing systems. The focus of this special issue will be on novel neuromorphic and analog VLSI computing algorithms, non-traditional neuromorphic and analog VLSI circuits, algorithm and circuit co-design, and emerging applications.
Special Issue on Advances in Semantic Computing
Semantic Computing (SC) is an emerging field that addresses computing technologies which allow users to search, create and manipulate computational resources (including data, documents, tools, people, devices, etc.) based on semantics ("meaning", "intention"). Semantic Computing includes the computing technologies (e.g., artificial intelligence, natural language, software engineering, data and knowledge engineering, computer systems, signal processing, etc.), and their interactions, that may be used to extract or process computational content and descriptions. While some areas of Semantic Computing have appeared as isolated pieces in individual disciplines, Semantic Computing glues these pieces together into an integrated theme with synergetic interactions. It addresses not only the analysis and transformation of signals (e.g., pixels, words) into useful information, but also how such information can be accessed and used to synthesize new signals.
Special Issue on Cyber Security
Cyber Security is a topic which is getting a very high level of attention from researchers, decision makers, policy makers and from the general public. The value of digital information is growing dramatically. Physical systems coupled with computing devices (so-called cyber-physical systems) carry out functions that are fundamental for our society. Protecting these emerging critical digital infrastructures is an increasingly relevant objective from a military and political point of view. For this reason, the IEEE Transactions on Emerging Topics in Computing (TETC) seek original manuscripts for a Special Issue on Emerging Topics in Cyber Security, scheduled to appear in the first issue of 2015. TETC is the newest Transactions of the IEEE Computer Society, and it uses an Open Access model exclusively.
Papers may present advances in the theory, design, implementation, analysis, verification, or empirical evaluation and measurement of cyber security systems, to deal with emerging computing technologies and applications. Given the the peculiar nature of TETC, we are seeking in particular papers that are more "far-reaching" than is usual for journal submissions, as long as they show promise for opening up new areas of study, or questioning long-held beliefs and tenets of the cybersecurity field.
Special Issue on Emerging Topics in the Design of High Performance Internet Routers
Internet traffic growth is very rapid due to many popular internet applications such as real-time entertainment and P2P file-sharing. These applications involve a great deal amount of data for transferring through the Internet. Therefore, to maintain good quality of service, the internet routers resolve issues such as link speed, data throughput, and packet forwarding rate. Internet routers consult the destination address of each packet received and perform IP lookups in their router tables to determine the next hop for packets. High-performance routers require high-speed IP address lookup to achieve wire-speed packet forwarding. Then, using information in its routing table or routing algorithm, it directs the packet to the next network on its journey. Routers perform the "traffic directing" functions on the Internet. A data packet is typically forwarded from one router to another through the networks that constitute the internetwork until it reaches its destination node. When multiple routers are used in interconnected networks, the routers exchange information about destination addresses using a dynamic routing protocol. Each router builds up a table listing the preferred routes between any two systems on the interconnected networks. A router has interfaces for different physical types of network connections. It also contains firmware for different networking communications protocol standards. Each network interface uses this specialized computer software to enable data packets to be forwarded from one protocol transmission system to another. The focus of this special issue will be on routing algorithms, routing table design, routing protocol specifying, security strategy, and IPv6 deployment.
Special Issue on Reproducible Research Methodologies
Computer science and engineering research fields increasingly rely on numerous ad hoc methods to explore research breakthroughs, particularly during empirical and statistical analysis, modeling, optimization and simulation of complex computer systems. These ad hoc methods are utilized due to a variety of factors including problem complexity and size, speed of advancement and return on investment, cost of designing prototypes, and minimal access to state-of-the-art fabrication. However, lack of a common experimental methodology, and lack of simple and unified mechanisms, tools and repositories to preserve and exchange the whole experimental setup including all past research artifacts makes it excessively challenging or even impossible to accurately reproduce experimental results for evaluation and future advancement.
The special issue on reproducible research methodologies is an invitation to papers covering topics in hardware and software analysis, modeling, optimization, run-time adaptation, simulation and co-design. Papers are solicited to address scientific (and possibly interdisciplinary) methods to design research environments, experimental methodologies, and gold standards for trustable and reproducible research methodologies in computer science and engineering disciplines. Further, papers on public frameworks and repositories to preserve and exchange research artifacts and experimental setups are also encouraged.
Special Issue on Parallel Programming and Architecture Support for Many-core Embedded Systems
Embedded system designs have evolved over time from fairly simple unicore single memory based designs to small homogeneous processing units connected by an on-chip network on the same silicon. The number of cores to be integrated in a single chip is expected to rapidly increase in the coming years, moving from multi-core to many-core architectures. This requires a global rethinking of software and hardware design approaches. The purpose of this special issue is to solicit papers discussing the latest advancements in embedded many-core system designs with a focus on parallel programming and architectures support issues. It is intended to provide an opportunity to exchange the most recent research ideas and results, initiating constructive discussion between international researchers from industry and academia.
Special Issue on Emerging Security Trends for Deeply-Embedded Computing Systems
The demand for ever smaller, portable, low-power and high-performance electronic systems has been the primary driver for CMOS technology scaling. As CMOS scaling approaches physical limits, it has been fraught with challenges that required introduction of newer processes and materials. High-κ oxide and metal-gate stack was introduced to mitigate oxide leakage. Thin body, undoped channels were introduced mitigate subthreshold leakage. 3D transistors such as FinFET and trigates were introduced to improve ON current while maintaining layout efficiency. While these incremental adjustments have allowed CMOS technology to scale, a number of alternative devices have been proposed to replace CMOS transistors such as graphene transistors (GFET), tunnel transistors, graphene nanoribbon tunnel transistors, quantum-dots and single-electron devices (SET). Newer memory technologies such as resistive RAMs, memristors, STT-RAMs similarly promise to revolutionize the design landscape. However for these alternative technologies to become practical, design methodologies that allow efficient modeling, design space exploration, and trade-off analysis is crucial. This is the driving motivation for this special issue.
Special Issue on Emerging Security Trends for Deeply-Embedded Computing Systems
Unlike traditional embedded systems, nowadays, emerging computing systems are embedded in every aspect of human lives. These deeply-embedded computing systems often perform extremely sensitive tasks, and in some cases, such as health-care IT, these are life-saving. Thus, in addition to the security threats to traditional embedded systems, emerging deeply-embedded computing systems exhibit a larger attack surface, prone to more serious or life-threatening malicious attacks. These call for revisiting traditional security mechanisms not only because of the new facets of threats and more adverse effects of breaches, but also due to the resource limitations of these often-battery-powered and extremely-constrained computing systems. As such, new trends for providing security for deeply embedded systems are emerging; many of which abandoning use of cryptographic computations or make use of lightweight crypto-systems, feasible for these computing platforms. Indeed, there exists paramount potential for applying these emerging security approaches to sensitive applications such as health-care IT for implantable medical devices, big data analytics and machine learning in deeply embedded systems, smart buildings, and smart fabrics. The focus of this special issue will be on novel security methods for deeply-embedded computing systems, emerging cryptographic solutions applicable to extremely-constrained applications such as green cryptography, and advancements in feasible security measures for evolving interdisciplinary research trends such as computing for: health-care IT, cyber-physical embedded systems, big data, and smart buildings/fabrics.
Special Issue on Advances in Mobile Cloud Computing
There is a phenomenal burst of research activities in mobile cloud computing, which extends cloud computing functions, services, and results to the world of future mobile communications applications, and the paradigm of cloud computing and virtualization to mobile networks. Mobile applications demand greater resources and improved interactivity for better user experience. Resources in cloud computing platforms such as Amazon, Google AppEngine and Microsoft Azure are a natural fit to remedy the lack of local resources in mobile devices. The availability of cloud computing resources on a pay-as-you-go basis, the advances in network virtualization, software defined networks, and the emergence of advanced wireless networks such as cloud-based radio access networks (C-RANs) create a new space of rich research problems. The objective of this special section is to cover the most recent research and development on the technologies for mobile cloud computing. This special section is to offer a venue for industry and academia to show case their recent progresses and potential research directions on the mobile cloud computing technologies.
Special Issue on Methods and Techniques for Processing Streaming Big Data in Datacentre Clouds
Internet of Things (IoT) is a part of Future Internet and comprises many billions of Internet connected Objects (ICOs) or ‘things' where things can sense, communicate, compute and potentially actuate as well as have intelligence, multi-modal interfaces, physical/ virtual identities and attributes. ICOs can include sensors, RFIDs, social media, actuators (such as machines/equipments fitted with sensors) as well as lab instruments (e.g., high energy physics synchrotron), and smart consumer appliances (smart TV, smart phone, etc.). The IoT vision has recently given rise to IoT big data applications that are capable of producing billions of data stream and tens of years of historical data to support timely decision making. Some of the emerging IoT big data applications, e.g. smart energy grids, syndromic bio-surveillance, environmental monitoring, emergency situation awareness, digital agriculture, and smart manufacturing, need to process and manage massive, streaming, and multi-dimensional (from multiple sources) data from geographically distributed data sources.
Despite recent technological advances of the data-intensive computing paradigms (e.g. the MapReduce paradigm, workflow technologies, stream processing engines, distributed machine learning frameworks) and datacentre clouds, large-scale reliable system-level software for IoT big data applications are yet to become commonplace. As new diverse IoT applications begin to emerge, there is a need for optimized techniques to distribute processing of the streaming data produced by such applications across multiple datacentres that combine multiple, independent, and geographically distributed software and hardware resources. However, the capability of existing data-intensive computing paradigms is limited in many important aspects such as: (i) they can only process data on compute and storage resources within a centralised local area network, e.g., a single cluster within a datacentre. This leads to unsatisfied Quality of Service (QoS) in terms of timeliness of decision making, resource availability, data availability, etc. as application demands increase; (ii) they do not provide mechanisms to seamlessly integrate data spread across multiple distributed heterogeneous data sources (ICOs); (iii) lack support for rapid formulation of intuitive queries over streaming data based on general purpose concepts, vocabularies and data discovery; and (iv) they do not provide any decision making support for selecting optimal data mining and machine algorithms, data application programming frameworks, and NoSQL database systems based on nature of the big data (volume, variety, and velocity). Furthermore, adoption of existing datacentre cloud platform for hosting IoT applications is yet to be realised due to lack of techniques and software frameworks that can guarantee QoS under uncertain big data application behaviours (data arrival rate, number of data sources, decision making urgency, etc.), unpredictable datacentre resource conditions (failures, availability, malfunction, etc.) and capacity demands (bandwidth, memory, storage, and CPU cycles). It is clear that existing data intensive computing paradigms and related datacentre cloud resource provisioning techniques fall short of the IoT big data challenge or do not exist.
Special Issue on Approximate and Stochastic Computing Circuits, Systems and Algorithms
The last decade has seen renewed interest in non-traditional computing paradigms. Several (re-)emerging paradigms are aimed at leveraging the error resiliency of many systems by releasing the strict requirement of exactness in computing. This special issue of TETC focuses on two specific lines of research, known as approximate and stochastic computing.
Approximate computing is driven by considerations of energy efficiency. Applications such as multimedia, recognition, and data mining are inherently error-tolerant and do not require perfect accuracy in computation. The results of signal processing algorithms used in image and video processing are ultimately left to human perception. Therefore, strict exactness may not be required and an imprecise result may suffice. In these applications, approximate circuits aim to improve energy-efficiency by maximally exploiting the tolerable loss of accuracy and trading it for energy and area savings.
Stochastic computing is a paradigm that achieves fault-tolerance and area savings through randomness. Information is represented by random binary bit streams, where the signal value is encoded by the probability of obtaining a one versus a zero. The approach is applicable for data intensive applications such as signal processing where small fluctuations can be tolerated but large errors are catastrophic. In such contexts, it offers savings in computational resources and provides tolerance to errors. This fault tolerance scales gracefully to high error rates. The focus of this special issue will be on the novel design and analysis of approximate and stochastic computing circuits, systems, algorithms and applications.
IEEE Transactions on Emerging Topics in Computing is an open access journal that publishes papers on emerging aspects of computer science, computing technology, and computing applications not currently covered by other IEEE Computer Society Transactions. Some examples of emerging topics in computing include: IT for Green, Synthetic and organic computing structures and systems, Advanced analytics, Social/occupational computing, Location-based/client computer systems, Morphic computer design, Electronic game systems, & Health-care IT. TETC aggressively seeks proposals for Special Sections and Issues focusing on emerging topics. Prospective Guest Editors should contact the TETC EIC Fabrizio Lombardi at email@example.com for further details.
Special Issue on Haptic Assistive Technology for Individuals who are Visually Impaired
In the development of assistive technology for individuals who are visually impaired, the potential of haptic devices (including force feedback and tactile displays) has yet to be fully realized. This special issue focuses on the knowledge sources that can be brought together to address issues of importance for individuals who are blind or visually impaired.
Submission Deadline: September 1, 2014. View PDF
Special Issue on Special Issue on Active Touch Sensing in Robots, Humans and Other Animals
This special issue addresses the challenges posed by active sensing and interacting with the world through the sense of touch, whether the latter is implemented through a technological or biological system. Active touch sensing is recovering information about the world by ‘touching' rather than ‘being touched' – by interpreting signals from sensors whose motion is deliberately controlled to facilitate information gain.
The scope of this issue includes both biological and technological systems for active touch sensing, and implications for haptics. This issue will consider electronic systems for active touch sensing that are biologically inspired systems, in addition to other inherently active approaches to touch sensing.
Biological systems for active touch sensing are highly capable, and, by comparison, the field of robotic touch sensing is in its infancy. The former demonstrate many valuable concepts for active touch sensing that are being intensively investigated. They have also illustrated ways that active touch sensing is enabled through specialized sensory transduction channels, biomechanics, structural morphology, behavioral, and control strategies that are implemented by biological systems, and through other advantages that they achieve, including robustness, adaptability, and power efficiency. Similar challenges must be overcome if technological systems are to one day achieve comparable levels of sensorimotor performance to biological systems.
Submission Deadline: March 1, 2015. View PDF
The IEEE Transactions on Haptics (ToH), a quarterly archival publication, is seeking submissions that address the science, technology, and applications associated with information acquisition and object manipulation through touch.
IEEE Transactions on Knowledge and Data Engineering (TKDE), a monthly archival publication, is seeking submissions that present well-defined theoretical results and empirical studies that have a potential impact on the acquisition, management, storage, and graceful degeneration of knowledge and data, as well as in provision of knowledge and data services. We welcome treatments of the role of knowledge and data in the development and use of information systems and in the simplification of software and hardware development and maintenance.
IEEE Transactions on Learning Technologies (TLT), a quarterly archival online-only publication using a delayed open access publication model, is seeking submissions about all advances in learning technologies, such as innovative online learning systems, personalized and adaptive learning systems, and learning with mobile devices
IEEE Transactions on Mobile Computing (TMC), a monthly archival publication, is seeking submissions of mature works of research, typically those that have appeared in part in conferences, and that focus on the key technical issues related to, but not limited to, architectures, support services, algorithm/protocol design and analysis, mobile environments, mobile communication systems, and emerging technologies.
The IEEE Transactions on Multi-Scale Computing Systems (TMSCS) is a peer-reviewed publication devoted to computing systems that exploit multi-scale and multi-functionality. These systems consist of computational modules that utilize diverse implementation scales (from micro down to the nano scale) and heterogeneous hardware and software functionalities; moreover, these modules can be based on operating principles and models that are valid within but not necessarily across their respective scales and computational domains. Contributions to TMSCS must address computation of information and data at higher system-levels for processing by digital and emerging domains. These computing systems can also rely on diverse frameworks based on paradigms at molecular, quantum and other physical, chemical and biological levels. Innovative techniques such as inexact computing, management/optimization of smart infrastructures and neuromorphic modules are also considered within scope.
This publication covers pure research and applications within novel topics related to high performance computing, computational sustainability, storage organization and efficient algorithmic information distribution/processing; articles dealing with hardware/software implementations (functional units, architectures and algorithms), multi-scale modeling and simulation, mathematical models and designs across multiple scaling domains and functions are encouraged. Novel solutions based on digital and non-traditional emerging paradigms are sought for improving performance and efficiency in computation. Contributions on related topics would also be considered for publication.
IEEE Transactions on Network Science and Engineering (TNSE), is committed to timely publishing of peer-reviewed technical articles that deal with the theory and applications of network science and the interconnections among the elements in a system that form a network. In particular, the IEEE Transactions on Network Science and Engineering publishes articles on understanding, prediction, and control of structures and behaviors of networks at the fundamental level. The types of networks covered include physical or engineered networks, information networks, biological networks, semantic networks, economic networks, social networks, and ecological networks. Aimed at discovering common principles that govern network structures, network functionalities and behaviors of networks, the journal seeks articles on understanding, prediction, and control of structures and behaviors of networks. Another trans-disciplinary focus of the IEEE Transactions on Network Science and Engineering is the interactions between and co-evolution of different genres of networks.
IEEE Transactions on Parallel and Distributed Systems (TPDS), a monthly archival publication, is seeking submissions that deal with the parallel and distributed systems research areas of current importance to our readers. Particular areas of interest in parallel systems include, but are not limited to, architectures, software, and algorithms and applications. Particular areas of interest in distributed systems include, but are not limited to, algorithms and foundation, distributed operating systems, and Internet computing and distributed applications.
IEEE Transactions on Pattern Analysis and Machine Intelligence (TPAMI), a monthly archival publication, is seeking submissions that discuss the most important research results in all traditional areas of computer vision and image understanding, all traditional areas of pattern analysis and recognition, and selected areas of machine intelligence. Other areas of interest are machine learning, search techniques, document and handwriting analysis, medical image analysis, video and image sequence analysis, content-based retrieval of image and video, face and gesture recognition, and relevant specialized hardware and/or software architectures.
Special Issue on Emerging Web Services
From a technology foundation perspective, Services Computing has become the default discipline in the modern services industry. As a major implementation technology for modernizing the services industry, Web services are Internet-based application components that are published using standard interfaces and description languages and that are universally available via uniform communication protocols.
IEEE Transactions on Services Computing (TSC) proudly announces a special issue on Emerging Web Services. Some of the topics that might be addressed in this special issue are Web services specifications and enhancements, Web services discovery and integration, Web services QoS (e.g., performance, security, reliability, fault tolerance, etc.), Web services standards and formalizations, Web services modeling, Web services engineering, Web services testing, Web services applications, Web services realizations, Web services semantics, Web services to support Cloud Computing, Web services lifecycle management, and SOA infrastructure and middleware.
The IEEE International Conference on Web Services (ICWS) has been prime international forums for both researchers and industry practitioners to exchange the latest advances in the state of the art and practice of Web services, to identify emerging research topics, and to define the future of Web-based services. After merging with IEEE European Conference on Web Services (ECOWS) in 2012, in 2014, ICWS is celebrating its 21th anniversary in Anchorage, Alaska, USA. The IEEE Transactions on Services Computing (TSC) is planning to have a special issue based on the top papers from ICWS 2014. The authors of those papers will be invited to submit extended versions of their papers to TSC, and the papers will undergo a special review process of the TSC review board and the guest editors.
Special Issue on Cloud Computing and Services
In recent years, Cloud Computing has become a scalable services consumption and delivery platform in the field of Services Computing. The technical foundations of Cloud Computing include Service-Oriented Architecture (SOA) and virtualizations of hardware and software. The goal of Cloud Computing is to share resources among the cloud service consumers, the cloud service providers, and the cloud vendors in the cloud value chain. Resource sharing at various levels results in various cloud offerings such as infrastructure cloud (e.g., hardware, IT infrastructure management), software cloud (e.g., Software as a Service including middleware as a service, and traditional CRM as a service), application cloud (e.g., Application as a Service, UML modeling tools as a service, social networks as a service), and business cloud (e.g., business processes as a service).
IEEE International Conference on Cloud Computing (CLOUD) has been a prime international forum for both researchers and industry practitioners to exchange the latest advances in the state of the art and practice of cloud computing, to identify emerging research topics, and to define the future of cloud computing. The IEEE Transactions on Services Computing (TSC) is planning to have a special issue based on the Best Papers and Best Student Papers from CLOUD 2014. The authors of those papers will be invited to submit extended versions of their papers to TSC, and the papers will undergo a special review process of the TSC review board and the guest editors.
Special Issue on Big Data Analytics, Infrastructure, and Applications
The pervasive nature of digital technologies as witnessed in industry, services and everyday life has given rise to an emergent, data-focused economy stemming from many aspects of human individual and commercial activity. The richness and vastness of these data are creating unprecedented research opportunities in a number of fields including urban studies, geography, economics, finance, and social science, as well as physics, biology and genetics, public health and many others.
In addition to Big Data-inspired research, businesses have seized on big data technologies to support and propel growing business intelligence needs. As businesses build out Big Data hardware and software infrastructure, it becomes increasingly important to anticipate technical and practical challenges and to identify best practices learned through experience.
Big Data analytics employ software tools from advanced analytics disciplines such as data mining, predictive analytics, and machine learning. At the same time, the processing and analysis of big data presents methodological and technological challenges. The goal of this special issue is to present both novel solutions to challenging technical issues as well as compelling Big Data use cases. This special issue will share related practical experiences to benefit the reader, and will provide clear proof that big data analytics technologies are playing an ever-increasing important and critical role in supporting business intelligence - a new cross-discipline research topic in computer science and business.
Special Issue on Special Issue on Cyber-Physical Systems and Services
The cyber-physical space integrates a vast variety of static and mobile resources, including computing/medical/engineering devices, swarms of robots, remote-controlled vehicles, critical infrastructures, sensor/actuator networks, control and decision software, static data and just-in-time information from sensors, knowledge, data analytics and fusion software, event-driven supply chains, and humans, and offers a great potential of achieving tasks that are far beyond the capabilities of existing systems. Individual users, organizations, and various communities can transform the vast space of cyber-physical resources into capabilities that no single entity can achieve alone. However, these capabilities do not come easily. Intelligence is needed for just-in-time composition of resources into capabilities. For example, how to discover and manage the vast and dynamic resources, how to describe the capabilities of the resources, how to achieve intelligent coordination among the cyber-physical entities, how to manage the information flow, how to predict the collective capabilities of the composed resources - that may consist of physical subsystems, intelligent software, vast amounts of data and knowledge, and humans, etc. are pressing issues to be investigated. Dependability and security in such cyber-physical systems can be extremely complex, while also being absolutely essential. Human resources constitute a class of physical entities in the cyber-physical world and influence the operation of cyber entities. As such integrating humans into the loop to achieve effective and dependable operation has long been a challenge. Capturing the effect of the human operator in modeling and predicting the operation of cyber-physical systems and services is equally challenging.
Many problems remain unresolved; however, existing technologies in service-oriented systems may be leveraged to provide partial solutions. Services can be positioned as a higher-level abstraction for the cyber-physical systems to mediate the interactions among devices, software, information, humans, and applications. Rapidly developing service-related technologies, such as service discovery, service composition, service adaptation, dynamic service reconfiguration, etc., can be applied with relative ease to integration tasks in cyber-physical applications. Furthermore, grids of data and services and information sharing technologies are research directions that can be leveraged to help manage and process information flow in the cyber physical space. Intelligent agents and coordination technologies can also be integrated and leveraged to attain smart collaborations. However, existing service paradigms, grid infrastructures, and intelligent collaboration techniques are not up to the challenge, and new models and techniques that extend existing paradigms need to be investigated to maximize the utilization of the vast amount of resources and capabilities in the cyber-physical world.
This special issue will present novel research results on cyber-physical systems and services (CPSS), including advances in modeling and related technologies, intelligence-assisted discovery, composition, collaboration, and adaptation of cyber-physical services, dependability and security for cyber-physical systems and services, as well as the identification of new research challenges and directions that can facilitate the formation of a truly intelligent and dependable cyber-physical world.
IEEE Transactions on Services Computing (TSC), is a quarterly archival online-only publication, is seeking submissions that emphasize the algorithmic, mathematical, statistical and computational methods that are central in services computing: the emerging field of service-oriented architecture, Web services, business process integration, solution performance management, services operations, and management.
IEEE Transactions on Software Engineering (TSE), a bimonthly archival publication, is seeking submissions of well-defined theoretical results and empirical studies that have a potential impact on the construction, analysis, or management of software. The scope of this Transactions ranges from the mechanisms through the development of principles to the application of those principles to specific environments. Since the journal is archival, it is assumed that the ideas presented are important, have been well analyzed, and/or empirically validated, and are of value to the software engineering research or practitioner community.
IEEE Transactions on Visualization and Computer Graphics (TVCG), a monthly archival publication, is seeking submissions that present important research results and state-of-the-art seminal papers related to computer graphics and visualization techniques, systems, software, hardware, and user interface issues. Specific topics in computer graphics and visualization include, but are not limited, algorithms, techniques and methodologies; systems and software; user studies and evaluation; rendering techniques and methodologies, including real-time rendering, graphics hardware, point-based rendering, and image-based rendering; and animation and simulation, including character animation, facial animation, motion-capture, physics-based simulation and animation.
IEEE/ACM Transactions on Computational Biology and Bioinformatics (TCBB), a bimonthly archival publication, is seeking submissions that discuss research results related to the algorithmic, mathematical, statistical, and computational methods that are central in bioinformatics and computational biology. This includes, but is not limited to, the development and testing of effective computer programs in bioinformatics; the development and optimization of biological databases; and important biological results that are obtained from the use of these methods, programs, and databases.