Aim & Scope
Concurrency is seen in an increasing number of computing and communication systems. We have tens of millions of clients on the World Wide Web and many thousands of powerful nodes in high-end massively parallel machines (MPP). One can project continued rapid progress within ten years, Exaop performance from the Web and Petaflop capabilities in closely coupled parallel machines. This leads to a confusing rich choice of architectures with distributed memory PC clusters or Web-based computers and shared memory MPPs. These are enabled and coupled with corresponding boosts in wide-area network performance and deployment with a blurring and convergence of computing and communication. This hardware juggernaut is coupled to new languages and programming paradigms, such as Java and VRML for the Web and multithreading HPF and MPI for parallel systems. The combination of concurrent digital and optical technology is expected to create a Global Information Infrastructure (GII) that will enable new applications, and open up a new set of communication and computer software and architecture challenges. We need portable and scalable (portable to the future and to hybrid heterogeneous world-wide systems) solutions. This technology is being driven by and used in a wide range of academic, research, and commercial application areas. This use is producing a substantial amount of practical experience in those problems that are enabled or enhanced by this amazing infrastructure. There are also new computational methods, such as mobile agents, cellular automata and massively parallel neural networks, which are particularly suited to concurrent execution. There is a rapid growth in both scientific (grand challenges) and information (national challenge) applications that drive both the functionality and high performance of the base technologies. These will impact academia, business, the homes and education. New applications are also being opened up by advances in human-computer interfaces with full immersive environments becoming available, and tools to support those with disabilities broadening the reach of the computer and communication revolution. This journal will, therefore, focus on practical experience with the application of these converging trends to solve real problems. In particular, themes of our papers include: Concurrent solutions to specific problems in academia, industry and society; Concurrent algorithms and computational methods; Programming environments, operating systems, tools, concurrent languages, compilers, interpreters; Performance prediction, analysis, models and results; Applications, and algorithm and software technologies arising from the World Wide Web including novel areas, such as education; Unification of computing and communication; unification of parallel and distributed computing. [1]
Continuations / Journal History
( 1989 - 2000 ) | Concurrency : Practice and Experience | ( 2001 - 9999 ) | Concurrency and Computation : Practice and Experience |
2024
Boosting semi‐supervised learning under imbalanced regression via pseudo‐labeling
Concurrency and Computation : Practice and Experience , 2024
A many objective based feature selection model for software defect prediction
Q Mao , J Zhang , T Zhao , X Cai
Concurrency and Computation : Practice and Experience , 2024
M Wang , Y Wang , S Sun , X Bai
Concurrency and Computation : Practice and Experience , 2024
The application of
L Liu , R Ahmad , S Ahmad , X Wang
Concurrency and Computation : Practice and Experience , 2024
Network traffic classification based‐ masked language regression model using CNN
S P. L. , W Emmanuel , P Rani
Concurrency and Computation : Practice and Experience , 2024
R Paul , N Ghosh , A Panigrahi , ... , P Mohapatra
Concurrency and Computation : Practice and Experience , 2024
Leveraging generative adversarial networks for enhanced cryptographic key generation
P Singh , P Pranav , S Anwar , S Dutta
Concurrency and Computation : Practice and Experience , 2024
MBB‐YOLO: A comprehensively improved lightweight algorithm for crowded object detection
Concurrency and Computation : Practice and Experience , 2024
Editorial Retractions, Expressions of Concern and External Notices
Manual versus automated qualitative usability assessment of interactive systems
K Sagar , D Gupta , A Sangaiah
Concurrency and Computation : Practice and Experience2021 - VOLUME 33, ISSUE 12 p e5091.
0 30
2024 - VOLUME 36, ISSUE 7
1 33
No authors listed.
Concurrency and Computation : Practice and Experience
2024
0 1
PubPeer
2024 - VOLUME 2024, ISSUE 6
0 0
![Free / Open Access to Full Text](/assets/img/misc/oa3.png)
An optimal Internet of Things–based smart cities using vehicular cloud for smart driving
M Ramya Devi , S Krishnan , S Lokesh
Concurrency and Computation : Practice and Experience2021 - VOLUME 33, ISSUE 7 p e5037.
2 18
Co‐scheduling of data intensive jobs and processor redistribution under temperature constraints
Concurrency and Computation : Practice and Experience2020 - VOLUME 32, ISSUE 4
0 2
Modified secure AODV protocol to prevent wormhole attack in MANET
S Sankara Narayanan , G Murugaboopathi
Concurrency and Computation : Practice and Experience2020 - VOLUME 32, ISSUE 4
7 12
M Varchagall , P Adaguru Yogegowda
Concurrency and Computation : Practice and Experience2023 - VOLUME 35, ISSUE 6 p 1.
0 31
P Ravi Kiran Varma , S R R , M Vanitha
Concurrency and Computation : Practice and Experience2023 - VOLUME 35, ISSUE 2
1 18
Group‐guided artificial bee colony algorithm with elastic adjustment strategy
Concurrency and Computation : Practice and Experience2023 - VOLUME 35, ISSUE 5
0 25
Ranking‐based architecture generation for surrogate‐assisted neural architecture search
Concurrency and Computation : Practice and Experience2024
0 18