Heuristic Method for 3D Airspace Partitioning: Genetic Algorithm and Agent-Based Approach

AbstractRecently, tensor ring networks (TRNs) have been applied in deep networks, achieving remarkable successes in compression ratio and accuracy. Although highly related to the performance of TRNs, rank selection is seldom studied in previous works and usually set to equal in experiments. Meanwhile, there is not any heuristic method to choose the rank, and an enumerating way to find appropriate rank is extremely time-consuming. Interestingly, we discover that part of the rank elements is sensitive and usually aggregate in a narrow region, namely an interest region. Therefore, based on the above phenomenon, we propose a novel progressive genetic algorithm named progressively searching tensor ring network search (PSTRN), which has the ability to find optimal rank precisely and efficiently. Through the evolutionary phase and progressive phase, PSTRN can converge to the interest region quickly and harvest good performance. Experimental results show that PSTRN can significantly reduce the complexity of seeking rank, compared with the enumerating method. Furthermore, our method is validated on public benchmarks like MNIST, CIFAR10/100, UCF11 and HMDB51, achieving the state-of-the-art performance.

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A new improved genetic algorithm approach and a competitive heuristic method for large-scale multiple resource-constrained project-scheduling problems

International Journal of Industrial Engineering Computations ◽

10.5267/j.ijiec.2011.06.009 ◽

2011 ◽

Vol 2 (4) ◽

pp. 737-748 ◽

Cited By ~ 5

Author(s):

Mostafa Khanzadi ◽

Rambod Soufipour ◽

Mohammad Rostami

Keyword(s):

Genetic Algorithm ◽

Project Scheduling ◽

Large Scale ◽

Heuristic Method ◽

Scheduling Problems ◽

Improved Genetic Algorithm ◽

Resource Constrained ◽

Resource Constrained Project Scheduling ◽

Genetic Algorithm Approach ◽

Multiple Resource

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A GENETIC APPROACH FOR LONG TERM VIRTUAL ORGANIZATION DISTRIBUTION

International Journal of Artificial Intelligence Tools ◽

10.1142/s0218213011000152 ◽

2011 ◽

Vol 20 (02) ◽

pp. 271-295 ◽

Cited By ~ 2

Author(s):

VÍCTOR SÁNCHEZ-ANGUIX ◽

SOLEDAD VALERO ◽

ANA GARCÍA-FORNES

Keyword(s):

Genetic Algorithm ◽

Virtual Organization ◽

Genetic Material ◽

Multi Agent System ◽

Crossover Operator ◽

Agent Based ◽

Multi Agent ◽

Global Goal ◽

Computational Resources

An agent-based Virtual Organization is a complex entity where dynamic collections of agents agree to share resources in order to accomplish a global goal or offer a complex service. An important problem for the performance of the Virtual Organization is the distribution of the agents across the computational resources. The final distribution should provide a good load balancing for the organization. In this article, a genetic algorithm is applied to calculate a proper distribution across hosts in an agent-based Virtual Organization. Additionally, an abstract multi-agent system architecture which provides infrastructure for Virtual Organization distribution is introduced. The developed genetic solution employs an elitist crossover operator where one of the children inherits the most promising genetic material from the parents with higher probability. In order to validate the genetic proposal, the designed genetic algorithm has been successfully compared to several heuristics in different scenarios.

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A Genetic Algorithm for Scheduling and Decomposition of Multidisciplinary Design Problems

Volume 1: 21st Design Automation Conference ◽

10.1115/detc1995-0021 ◽

1995 ◽

Author(s):

Stephen S. Altus ◽

Ilan M. Kroo ◽

Peter J. Gage

Keyword(s):

Genetic Algorithm ◽

Numerical Optimization ◽

Heuristic Method ◽

Merit Function ◽

Multidisciplinary Design ◽

Design Problems ◽

Design Studies ◽

Complex Design ◽

Complex Engineering

Abstract Complex engineering studies typically involve hundreds of analysis routines and thousands of variables. The sequence of operations used to evaluate a design strongly affects the speed of each analysis cycle. This influence is particularly important when numerical optimization is used, because convergence generally requires many iterations. Moreover, it is common for disciplinary teams to work simultaneously on different aspects of a complex design. This practice requires decomposition of the analysis into subtasks, and the efficiency of the design process critically depends on the quality of the decomposition achieved. This paper describes the development of software to plan multidisciplinary design studies. A genetic algorithm is used, both to arrange analysis subroutines for efficient execution, and to decompose the task into subproblems. The new planning tool is compared with an existing heuristic method. It produces superior results when the same merit function is used, and it can readily address a wider range of planning objectives.

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Agent-based approach for Decentralized Genetic Algorithm

10.1049/icp.2021.1866 ◽

2021 ◽

Author(s):

M. Galici ◽

M. Mureddu ◽

E. Ghiani ◽

F. Pilo

Keyword(s):

Genetic Algorithm ◽

Agent Based

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Design of the Agent-Based Genetic Algorithm

Lecture Notes in Computer Science - Advances in Natural Computation ◽

10.1007/11539902_3 ◽

2005 ◽

pp. 22-27

Author(s):

Honggang Wang ◽

Jianchao Zeng ◽

Yubin Xu

Keyword(s):

Genetic Algorithm ◽

Agent Based

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Mobile Agent Based Route Search Method Using Genetic Algorithm

The Journal of the Korean Institute of Information and Communication Engineering ◽

10.6109/jkiice.2015.19.9.2037 ◽

2015 ◽

Vol 19 (9) ◽

pp. 2037-2043

Author(s):

Hong-il Ji

Keyword(s):

Genetic Algorithm ◽

Mobile Agent ◽

Search Method ◽

Agent Based ◽

Route Search

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Modeling the Scheduling Problem in Cellular Manufacturing Systems Using Genetic Algorithm as an Efficient Meta-Heuristic Approach

Journal of Artificial Intelligence and Technology ◽

10.37965/jait.2021.0018 ◽

2021 ◽

Author(s):

Amin Rezaeipanah ◽

Musa Mojarad

Keyword(s):

Genetic Algorithm ◽

Manufacturing Systems ◽

Cellular Manufacturing ◽

Programming Model ◽

Heuristic Method ◽

Cell Formation ◽

Mixed Integer ◽

Test Problems ◽

Cellular Manufacturing Systems ◽

Machine Grouping

This paper presents a new, bi-criteria mixed-integer programming model for scheduling cells and pieces within each cell in a manufacturing cellular system. The objective of this model is to minimize the makespan and inter-cell movements simultaneously, while considering sequence-dependent cell setup times. In the CMS design and planning, three main steps must be considered, namely cell formation (i.e., piece families and machine grouping), inter and intra-cell layouts, and scheduling issue. Due to the fact that the Cellular Manufacturing Systems (CMS) problem is NP-Hard, a Genetic Algorithm (GA) as an efficient meta-heuristic method is proposed to solve such a hard problem. Finally, a number of test problems are solved to show the efficiency of the proposed GA and the related computational results are compared with the results obtained by the use of an optimization tool.

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