A pruned GA-BPNN model for project portfolio benefit evaluation considering ambidexterity

IF 2.5 4区 计算机科学 Q2 COMPUTER SCIENCE, CYBERNETICS
Kybernetes Pub Date : 2024-08-23 DOI:10.1108/k-04-2024-0982
Libiao Bai, Shiyi Liu, Yuqin An, Qi Xie
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引用次数: 0

Abstract

Purpose

Project portfolio benefit (PPB) evaluation is crucial for project portfolio management decisions. However, PPB is complex in composition and affected by synergy and ambidexterity. Ignoring these characteristics can result in inaccurate assessments, impeding the management and optimization of benefit. Considering the above complexity of PPB evaluation, this study aims to propose a refined PPB evaluation model to provide decision support for organizations.

Design/methodology/approach

A back propagation neural network optimized via genetic algorithm and pruning algorithm (P-GA-BPNN) is constructed for PPB evaluation. First, the benefit evaluation criteria are established. Second, the inputs and expected outputs for model training and testing are determined. Then, based on the optimization of BPNN via genetic algorithm and pruning algorithm, a PPB evaluation model is constructed considering the impacts of ambidexterity and synergy on PPB. Finally, a numerical example was applied to validate the model.

Findings

The results indicate that the proposed model can be used for effective PPB evaluation. Moreover, it shows superiority in terms of MSE and fitting effect through extensive comparative experiments with BPNN, GA-BPNN, and SVM models. The robustness of the model is also demonstrated via data random disturbance experiment and 10-cross-validation. Therefore, the proposed model could serve as a valuable decision-making tool for PPB management.

Originality/value

This study extends prior research by integrating the impacts of synergy and ambidexterity on PPB when conducting PPB evaluation, which facilitates to manage and enhance PPB. Besides, the structural redundancy of existing assessment methods is solved through the dynamic optimization of the network structure via the pruning algorithm, enhancing the effectiveness of PPB decision-making tools.

考虑灵活性的项目组合效益评估剪枝 GA-BPNN 模型
目的项目组合效益(PPB)评估对于项目组合管理决策至关重要。然而,项目组合效益的构成十分复杂,并受到协同性和灵活性的影响。忽视这些特点会导致评估不准确,阻碍效益的管理和优化。考虑到 PPB 评估的上述复杂性,本研究旨在提出一个完善的 PPB 评估模型,为组织提供决策支持。首先,确定效益评估标准。其次,确定模型训练和测试的输入和预期输出。然后,在通过遗传算法和剪枝算法优化 BPNN 的基础上,构建了一个 PPB 评估模型,其中考虑了混合灵活性和协同性对 PPB 的影响。结果表明,所提出的模型可用于有效的 PPB 评估。此外,通过与 BPNN、GA-BPNN 和 SVM 模型的大量对比实验,该模型在 MSE 和拟合效果方面表现出了优势。数据随机干扰实验和 10 次交叉验证也证明了该模型的鲁棒性。本研究扩展了之前的研究,在进行 PPB 评估时综合考虑了协同性和兼容性对 PPB 的影响,有助于管理和改进 PPB。此外,通过剪枝算法对网络结构进行动态优化,解决了现有评估方法的结构冗余问题,提高了PPB决策工具的有效性。
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来源期刊
Kybernetes
Kybernetes 工程技术-计算机:控制论
CiteScore
4.90
自引率
16.00%
发文量
237
审稿时长
4.3 months
期刊介绍: Kybernetes is the official journal of the UNESCO recognized World Organisation of Systems and Cybernetics (WOSC), and The Cybernetics Society. The journal is an important forum for the exchange of knowledge and information among all those who are interested in cybernetics and systems thinking. It is devoted to improvement in the understanding of human, social, organizational, technological and sustainable aspects of society and their interdependencies. It encourages consideration of a range of theories, methodologies and approaches, and their transdisciplinary links. The spirit of the journal comes from Norbert Wiener''s understanding of cybernetics as "The Human Use of Human Beings." Hence, Kybernetes strives for examination and analysis, based on a systemic frame of reference, of burning issues of ecosystems, society, organizations, businesses and human behavior.
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