[1]刘银浩,胡洛燕*.服装生产企业缝纫一线员工技能评价[J].服装学报,2017,2(02):117-122.
 LIU Yinhao,HU Luoyan*.Evaluation of Skills of Garment Sewing Frontline Employees[J].Journal of Clothing Research,2017,2(02):117-122.
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服装生产企业缝纫一线员工技能评价()
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《服装学报》[ISSN:2096-1928/CN:32-1864/TS]

卷:
第2卷
期数:
2017年02期
页码:
117-122
栏目:
服装信息技术
出版日期:
2017-04-28

文章信息/Info

Title:
Evaluation of Skills of Garment Sewing Frontline Employees
作者:
刘银浩1;  胡洛燕*1; 2
1.中原工学院 服装学院,河南 郑州 450007; 2.河南省纺织服装协同创新中心,河南 郑州 450007
Author(s):
LIU Yinhao1;  HU Luoyan*1; 2
1.School of Fashion Technology,Zhongyuan University of Technology,Zhengzhou 450007,China; 2.Henan Textile and Garment Synergy Innovation Center,Zhengzhou 450007,China
分类号:
TS 941.17
文献标志码:
A
摘要:
服装生产企业缝纫一线员工的技能水平直接影响了服装产品的质量和生产效率。企业目前对员工的技能评价多以员工的日产量或生产效率为依据,结合班组长的主观评价来判定,经验性较强。基于RFID系统收集的生产数据对缝纫员工技能进行客观、量化评价,将反映缝纫一线员工技能水平的参数归纳为生产技能系数和生产一致性系数。总结出了RFID系统数据筛选、生产技能系数和生产一致性系数的计算方法,通过对两个系数进行加权相加得出员工技能水平系数。企业可根据自身生产模式进行权重的分配、员工技能的科学评价,为企业进一步发挥缝纫一线员工人力资源优势提供基础。
Abstract:
Skill levels of garment sewing frontline employees directly affect the quality and efficiency of clothing products. At present,enterprises mainly assess the skills of employees based on the daily outputs or daily efficiency, and combined with the subjective evaluation of team leader to determine the skill levels of employees, which is relative empirical. An objective and quantitative method to evaluate staff skills via production data collected from RFID system was introduced in this paper. The parameters affected the skill levels were departed into two parts:production skills and production consistency. A computing method about data selecting from RFID system, coefficient of production skills, and production consistency was summed.The skill levels of an employee could be obtained by weighted above two consistency. Enterprises can assign weights according to their own production models. Scientific evaluation of staff skills can provide basic information for human resources.of enterprises to further develop the sewing line employees.

参考文献/References:

[1] 孙瑞哲.发现与再造——大变革时代下的产业升级[J].纺织导报,2015(1):12-21.
SUN Ruizhe.Discover and restructure—industry upgrading and evolution in the era of great change[J].China Textile Leader,2015(1):12-21.(in Chinese)
[2] 廖丽平,刘绘珍,张毕西.基于随机需求的员工技能分布研究[J].经济经纬,2012,29(6):92-96.
LIAO Liping,LIU Huizhen,ZHANG Bixi.A study of skill structure base on the random demand[J].Economic Survey,2012,29(6):92-96.(in Chinese)
[3] 向大众.劳动密集型企业一线员工流失的原因与对策[J].价值工程,2012,31(18):108-109.
XIANG Dazhong.Causes and countermeasures of loss of worker at production line in labor intensive enterprises[J].Value Engineering,2012,31(18):108-109.(in Chinese)
[4] 中国服装协会.2014-2015中国服装行业发展报告[M].北京:中国纺织出版社,2015.
[5] 陈荣秋,马士华.生产运作管理[M].北京:机械工业出版社,2013.
[6] Nembhard D A.Heuristic approach for assigning workers to tasks based on individual learning rates[J].International Journal of Production Research,2001,39(9):1955-1968.
[7] Bidanda,Poonsiri Ariyawongrat,Kim Lascola Needy,et al.Human related issues in manufacturing cell design,implementation and operation:a review and survey[J].Computers and Industrial Engineering,2005,41(3):507-523.
[8] Muh-cherng Wu,Shih-Hsiung Sun.A project scheduling and staff assignment model considering learning effect[J].The International Journal of Advanced Manufacturing Technology,2006,28(11):1190-1195.
[9] Wong W K,Mok P Y,Leung S Y S.Developing a genetic optimisation approach to balance an apparel assembly line[J].The International Journal of Advanced Manufacturing Technology,2006,28(3):387-394.
[10] Parisima Nassirnia,Masine Md.Tap.Strategies to achieve labor flexibility in the garment industry[J].International Journal of Computer Science Issues,2010,7(4):41- 48.
[11] Khosravi F,Sadeghi A H,Jolai F.An improvement in calculation method for apparel assembly line balancing[J].Indian Journal of Fibre and Textile Research,2013,38(3):259-264.
[12] 李柏林,俞爱林,毛宁,等.考虑人员能力差异的装配生产线优化[J].工业工程,2015,6(3):113-140.
LI Bailin,YU Ailin,MAO Ning,et al.Optimization of the assembly line subject to workers with different skills[J].Industrial Engineering Journal,2015,6(3):113-140.(in Chinese)
[13] 于昕辰,曾培峰,赵冉,等.基于蚁群算法的服装生产流水线作业平衡[J].东华大学学报(自然科学版),2014,8(4):456- 460.
YU Xinchen,ZENG Peifeng,ZHAO Ran,et al.Garment production assembly line balance based on ant colony algorithm[J].Journal of Donghua University(Natural Science),2014,8(4):456- 460.(in Chinese)
[14] 赵冉,丁雪梅.基于结构方程模型的服装实际工时定额影响因素研究[J].北京服装学院学报,2012,32(3):26-32.
ZHAO Ran,DING Xuemei.Study on the fixed factor of actual working hours in clothing production based on structural equation model[J].Journal of Beijing Institute of Clothing Technology,2012,32(3):26-32.(in Chinese)
[15] 武晟然.面向作业时间波动特性的适应性生产线平衡方法研究[D].北京:清华大学,2011.
[16] 杨以雄.服装生产管理[M].上海:东华大学出版社,2011.
[17] 刘达民,程岩.应用统计[M].北京:化学工业出版社,2008.
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更新日期/Last Update: 2017-04-30