基于工序异质性的关键链项目缓冲监控

doi:10.16381/j.cnki.issn1003-207x.2019.1548

中国管理科学 ›› 2022, Vol. 30 ›› Issue (6): 106-115.doi: 10.16381/j.cnki.issn1003-207x.2019.1548cstr: 32146.14.j.cnki.issn1003-207x.2019.1548

基于工序异质性的关键链项目缓冲监控

张俊光, 李婧

北京科技大学经济管理学院，北京100083

收稿日期:2019-10-08 修回日期:2020-04-03 出版日期:2022-06-20 发布日期:2022-06-24
通讯作者: 张俊光(1972-)，男(汉族)，山东青岛人，北京科技大学经济管理学院，教授，博士生导师，研究方向：关键链项目管理，Email：zhangjg@ustb.edu.cn. E-mail:zhangjg@ustb.edu.cn
基金资助:
国家自然科学基金资助项目(71572010, 71701067)

Buffer Monitoring of a Critical Chain Project Based on Activity Heterogeneity

ZHANG Jun-guang, LI Jing

School of Economics and Management, University of Science and Technology Beijing, Beijing 100083, China

Received:2019-10-08 Revised:2020-04-03 Online:2022-06-20 Published:2022-06-24
Contact: 张俊光 E-mail:zhangjg@ustb.edu.cn

摘要/Abstract

摘要： 通过关键链项目缓冲监控可以防止缓冲在项目执行阶段被浪费，并保证项目的工期，有效的监控方法有利于提升项目的整体绩效。为了克服统一缓冲监控方法的不足，在保证项目工期的基础上，本文考虑成本因素对项目的影响，提出了一种基于工序成本和工期敏感度的差别动态缓冲监控模型。该模型考虑工序异质性将工序划分为成本敏感型工序和工期敏感型工序，根据工序的综合感知效用进行缓冲监控分配，并结合敏感度对不同类型的工序设置不同的监控基准点和纠偏措施。仿真结果表明，差别监控相对于统一的监控模式有利于实现项目工期和成本的双优化，验证了本文方法的有效性。

关键词: 关键链项目管理；综合感知效用；工期敏感型工序；成本敏感型工序；差别监控

Abstract: Buffer management is the core of critical chain project management. Buffer monitoring can prevent buffers from being wasted during the project execution stage and ensure the project's duration. Effective monitoring methods are beneficial to improve the overall performance of the project. Cost and duration are two key factors in project management, and the sensitivity of activities to costs and duration is different. If a unified buffer monitoring model is adopted for all activities, it may lead to waste of costs and duration. In order to overcome the shortcomings of the unified buffer monitoring method, on the basis of ensuring the project duration, the impact of cost factors on the project is considered, and a dynamic buffer monitoring model is proposed based on the different cost and duration sensitivity. The model considers process heterogeneity to divide activities into cost-sensitive activities and duration-sensitive activities, allocates buffer monitoring assignments based on the overall perceived utility of the activity, and sets different monitoring reference points and corrective measures for different types of activities. Among them, the cost-sensitive activity sets a lower buffer monitoring reference point, and the duration-sensitive activity sets a higher buffer monitoring reference point. The simulation results show that compared with the unified monitoring mode, differential monitoring is conducive to double optimization of project duration and cost, which verifies the effectiveness of the method in this paper.

Key words: critical chain project management; integrated perception utility; time sensitive activity; cost sensitive activity; differential buffer monitoring

中图分类号:

F224

张俊光,李婧. 基于工序异质性的关键链项目缓冲监控[J]. 中国管理科学, 2022, 30(6): 106-115.

ZHANG Jun-guang,LI Jing. Buffer Monitoring of a Critical Chain Project Based on Activity Heterogeneity[J]. Chinese Journal of Management Science, 2022, 30(6): 106-115.

参考文献

［1］ Goldratt E M. Critical chain: A business novel［M］. Great Barrington, MA: North River Press, 1997.
［2］ Leach L P. Critical chain project management［M］. London: Artech House, 2014.
［3］别黎, 崔南方. 关键链动态缓冲监控方法研究［J］. 中国管理科学, 2010, 18(6):97-103.Bie Li, Cui Nanfang. Research on dynamic buffer monitoring in critical chain project management［J］. Chinese Journal of Management Science, 2010, 18(6): 97-103.
［4］ Long L D, Ohsato A. Fuzzy critical chain method for project scheduling under resource constraints and uncertainty［J］. International Journal of Project Management, 2008, 26(6): 688-698.
［5］ Kuo T C, Chang S H, Huang S N. Due-date performance improvement using TOC’s aggregated time buffer method at a wafer fabrication factory［J］. Expert Systems with Applications, 2009, 36(2):1783-1792.
［6］ Bevilacqua M, Ciarapica F E, Giacchetta G. Critical chain and risk analysis applied to high-risk industry maintenance: A case study［J］. International Journal of Project Management, 2009, 27(4):419-432.
［7］ González V, Alarcón L F, Yiu T W. Integrated methodology to design and manage work-in-process buffers in repetitive building projects［J］. Journal of the Operational Research Society, 2013, 64(8): 1182-1193.
［8］ Vanhoucke M. On the dynamic use of project performance and schedule risk information during project tracking［J］. Omega, 2011, 39(4): 416-426.
［9］ Hu Xuejun, Cui Nanfang, Demeulemeester E, et al. Incorporation of activity sensitivity measures into buffer management to manage project schedule risk［J］. European Journal of Operational Research, 2016, 249(2):717-727.
［10］ Zhang Junguang, Shi Ruixia, Diaz E. Dynamic monitoring and control of a critical chain project based on phase buffer allocation［J］. Journal of the Operational Research Society, 2018, 69(12): 1966-1977.
［11］徐小峰, 李想, 刘家国. 项目关键链资源计划进度偏差预警控制模型［J］. 系统工程学报, 2014, 29(6): 845-851.Xu Xiaofeng, Li Xiang, Liu Jiaguo. Schedule variance early-warning control model for project critical chain resource plan［J］. Journal of Systems Engineering, 2014, 29(6): 845-851.
［12］ Martens A, Vanhoucke M. A buffer control method for top-down project control［J］. European Journal of Operational Research, 2017, 262(1): 274-286.
［13］ Zhang Junguang, Shi Ruixia, Diaz E. Dynamic monitoring and control of software project effort based on an effort buffer［J］. Journal of the Operational Research Society, 2015, 66(9): 1555-1565.
［14］张俊光, 万丹. 关键链项目实时滚动监控方法研究［J］. 中国管理科学, 2018, 26(4):171-179.Zhang Junguang, Wan Dan. Dynamic real-time monitoring and control of the critical chain project［J］. Chinese Journal of Management Science, 2018, 26(4): 171-179.
［15］ Zhang Junguang, Wan Dan. Integrated buffer monitoring and control based on grey neural network［J］. Journal of the Operational Research Society, 2019, 70(3): 516-529.
［16］赵振宇, 吕乾雷. 项目进度控制的双边缓冲区方法研究［J］. 工程管理学报, 2010, 24(5):559-563.Zhao Zhenyu, Lyu Qianlei. Study on the double-buffering method for project schedule control［J］. Journal of Engineering Management, 2010, 24(5): 559-563.
［17］ Hu Xuejun, Demeulemeester E, Cui Nanfang, et al. Improved critical chain buffer management framework considering resource costs and schedule stability［J］. Flexible Services and Manufacturing Journal, 2017, 29(2):159-183.
［18］ Yuan K J, Chang S H, Li R K. Enhancement of theory of constraints replenishment using a novel generic buffer management procedure［J］. International Journal of Production Research, 2003, 41(4): 725-740.
［19］ Wu H H, Chen C P, Tsai C H, et al. A study of an enhanced simulation model for TOC supply chain replenishment system under capacity constraint［J］. Expert Systems with Applications, 2010, 37(9): 6435-6440.
［20］孙晓东, 田澎, 赵藜. 消费者异质下基于质量-价格竞争的定价策略选择［J］. 系统管理学报, 2013, 22(3): 349-357.Sun Xiaodong, Tian Peng, Zhao Li. Consumer heterogeneity and pricing strategies: A quality-price competition model［J］. Journal of Systems & Management, 2013, 22(3): 349-357.
［21］蒋传海, 唐丁祥. 厂商动态竞争性差别定价和竞争优势实现—基于消费者寻求多样化购买行为的分析［J］. 管理科学学报, 2012, 15(3): 44-53.Jiang Chuanhai, Tang Dingxiang. Competitive dynamic discriminatory pricing and realization of competitive advantage: An analysis based on consumers’ variety-seeking behavior［J］. Journal of Management Sciences in China, 2012, 15(3): 44-53.
［22］ Choudhary V, Ghose A, Mukhopadhyay T, et al. Personalized pricing and quality differentiation［J］. Management Science, 2005, 51(7):1120-1130.
［23］别黎, 崔南方, 田文迪, 等. 基于活动敏感性的动态缓冲监控方法研究［J］. 中国管理科学, 2014, 22(10):113-121.Bie Li, Cui Nanfang, Tian Wendi, et al. Research on activity sensitivity index based dynamic buffer monitoring method［J］. Chinese Journal of Management Science, 2014, 22(10): 113-121.
［24］ Fallah M, Ashtiani B, Aryanezhad M B. Critical chain project scheduling: Utilizing uncertainty for buffer sizing［J］. International Journal of Research and Review for Applied Science, 2010, 3(3): 280-283.

[1]	胡梦瑶, 李登峰. 双积分政策下汽车制造商的产量与充电基础设施投资联合决策研究[J]. 中国管理科学, 2026, 34(6): 103-116.
[2]	陈海军, 徐琪. 双边平台竞争下超级卖家的独家协议及其影响[J]. 中国管理科学, 2026, 34(6): 261-274.
[3]	丁龙, 关旭, 常珊. 保持神秘还是公开透明？奢侈品的质量披露策略研究[J]. 中国管理科学, 2026, 34(5): 123-133.
[4]	张文明, 孔文静, 张湘玥. k阶设备更新问题的在线策略设计与竞争分析[J]. 中国管理科学, 2026, 34(5): 144-152.
[5]	陈绍刚, 穆宇杰. 多物品持久型一口价拍卖双方参与者策略研究[J]. 中国管理科学, 2026, 34(5): 35-43.
[6]	彭正银, 孙莹, 李妍, 车响午. 基于Myerson值优化的企业创新网络共创价值分配研究[J]. 中国管理科学, 2026, 34(5): 351-359.
[7]	吕文蓉, 单而芳, 刘涛, 吕建林. 基于一致性的联盟Banzhaf值的刻画及其在产业联盟创新收益分配中的应用[J]. 中国管理科学, 2026, 34(5): 86-96.
[8]	李敏强, 苑楠, 冯海洋. 软件平台跟进性技术投资策略研究[J]. 中国管理科学, 2026, 34(4): 231-242.
[9]	张玲红, 夏雨微, 朱立龙. 考虑电动汽车销售目标的最优充电站数量与政府补贴决策研究[J]. 中国管理科学, 2026, 34(4): 343-357.
[10]	赵树然, 李金宸, 张洁, 任培民. 高频网络波动率矩阵模型构建及其应用[J]. 中国管理科学, 2026, 34(3): 122-133.
[11]	王玉燕, 高俊宏, 孙煜林, 崔莹. 基于“搭便车”引发需求转移和质量感知的双渠道供应链服务与定价研究[J]. 中国管理科学, 2026, 34(3): 253-262.
[12]	冯颖, 王舒婷, 张炎治. 物流外包下商务模式对生鲜农产品供应链运作的影响[J]. 中国管理科学, 2026, 34(3): 263-274.
[13]	李犟, 吴和成, 王励文. 考虑不确定性的共同权重鲁棒DEA模型及其应用研究[J]. 中国管理科学, 2026, 34(3): 333-344.
[14]	周礼南, 周根贵, 郑健壮, 张鲁光. 考虑消费者异质性偏好的定制绿色农产品供应链均衡研究[J]. 中国管理科学, 2026, 34(2): 275-286.
[15]	姚锋敏, 谭琦, 李涛, 刘斌. 链与链竞争环境下的供应链CSR捐赠决策[J]. 中国管理科学, 2026, 34(2): 287-297.

基于工序异质性的关键链项目缓冲监控

Buffer Monitoring of a Critical Chain Project Based on Activity Heterogeneity

PDF (PC)

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

Metrics

本文评价

推荐阅读 0