- Open Access
- Total Downloads : 183
- Authors : Rajab Abdullah Hokoma
- Paper ID : IJERTV5IS010131
- Volume & Issue : Volume 05, Issue 01 (January 2016)
- Published (First Online): 07-01-2016
- ISSN (Online) : 2278-0181
- Publisher Name : IJERT
- License: This work is licensed under a Creative Commons Attribution 4.0 International License
A Survey Investigation of Just-in-Time Implementation and its Implications for Management in Four key Industries within Libya
Rajab Abdullah Hokoma
Mechanical & Industrial Engineering Department Faculty of Engineering, University of Tripoli, Tripoli, Libya
Abstract – This paper investigates the current status of the implementation level of Just-In-Time (JIT) within the Oil & Gas (OGI), Iron & Steel (ISI), Cement (CI) and Construction (C) Industries within Libya and its implication for management within the said industries. A survey methodology has been applied in this investigation using an intensive questionnaire and one-to-one interviews of the correspondent organizations. Based on the analysis of the survey questionnaire and the one-to-one interview responses, the results show that the management body does not have a clear strategy towards most of the areas that are considered as being crucial in any successful implementation of the JIT techniques. The implementation levels of the JIT techniques are found to be in the modest levels even in the organizations that have indicated themselves as JIT implementers. The research has identified management limitations within the investigated areas and has pointed to areas where the management body needs to take immediate actions in order to achieve an effective and successful JIT implementation within their organizations. This is an important finding for the future success of the Libyan industries and the similar ones.
Keyword- JIT; Industry; Questionnaire; Implementation.
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INTRODUCTION
Organisations, both manufacturing and services, in recent competitive business environments, are being challenged to improve their performance and effectiveness to ensure their position in the global marketplace. This could be achieved by continuously improving their processes and operations, reducing costs of their services and/or products, and increasing the capacity of their outputs with a satisfactory quality levels, and acceptable prices. These challenges compel the organisations to change beyond the old traditional manufacturing planning and control systems, and implement a new way for operating their businesses towards continuous improvements, with a serious focus on the organizations internal and external customers [1];[2]. To achieve these aims, manufacturing and quality techniques and philosophies such as JIT (also known as lean/agile) should be used as an effective management system that can help organisations provide a dramatic increase in customer satisfaction [3. Most authors identify the top management as the most important factor in achieving a complete successful and effective implementation of the related manufacturing and quality philosophies and techniques such as JIT. The full acceptance of these philosophies and techniques by the senior and
executive managers is crucial to empower the involved teams and individuals to overcome the barriers in the implementation processes throughout the entire organisation [4]; [5].
Libya was relatively poor until the discovery of oil and natural gas in the early 1960s. Since then, the country has turned to industrialisation by engaging in petroleum processing as well as Iron & Steel, Constructions, and Cement. The other manufacturing industries in Libya are small, lightly capitalised, and devoted primarily to the processing of local agricultural products.
Libya is committed to developing its capabilities to produce goods that meet the highest quality requirements for local home and global markets with all the possible products and services, which could be achieved through implementing the latest manufacturing technologies and systems [6].
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AN OVERVIEW OF JIT
The name JIT refers to resource utilization, that is, units of material, subassemblies, and components arrive in a manufacturing setting just in time for their use [7]. This comes in line with reference [8], who stated that a reasonable consensus among researchers JIT is a useful and beneficial approach that can be implemented widely for reducing the manufacturing costs while simultaneously improving the quality of a products and/or services. It was also stated in the same research that one important requirement for JIT full- scale implementation is an increase in the level of technical skills and flexibility of manpower within the organization.
JIT is a production/manufacturing pull system used for planning and control operations that are carried out for producing and supplying the requested products and services at the right time they are needed, at the right place, and at the exact desired quantities [9]. The distinctive feature of JIT is to eliminate all kinds of waste, which could be achieved by organising the entire activities throughout the operations system and hence it is also referred to as a lean or agile methodology [10]; [11]. According to reference [12] a JIT system represents the continuous improvement processes throughout the entire organisation system, which can be applied in both manufacturing and purchasing systems within any organisation [12]. JIT focuses on the complete elimination of waste, which is defined as anything that does not add any value to the services and products [13]. In
addition, the modern manufacturing organisations consider the successful implementation of JIT as a key factor for minimising inventory, minimising lead times and maximising the quality of their products and services [14]; [15]. Reference [6] stated that this could be achieved through setting well-organised networks for manufacturing and transporting the right ordered items exactly at the right time with the right quantities, establishing a long term relationship with suppliers in order to maintain regulated shipments to minimise ordering cost, and to buy enough parts as needed to avoid paying holding costs [16]; [17]; [18]; [6].
For all successful organisations, certainly those that are claiming to be World Class Manufacturers (WCM), the implementation of JIT techniques is essential to their success in the recent global competitive marketplace [19]; [20]; [21]; [22]. This study will investigate the current status of the JIT implementation level within four major industries in Libya, thereby investigating the present status with the aim of improving their path on the road to achieving WCM status.
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DATA COLLECTION
The data were collected through a survey questionnaire. Prior to the final distribution of the questionnaire, it was pre- tested at two levels. After several intensive reviews of questionnaire with academics and experts conversant with the manufacturing area, it was passed to experts and colleagues for a discussion concerning its contents and the expected level of understanding from the respondents within the targeted organisations considering the Libyan environment. A total of 800 hard copies of the developed survey questionnaires were distributed to the targeted organisations working within the main four sectors. In addition, contact details were provided in a case of any inquiries or clarifications. Out of the 800 JIT questionnaire copies sent to the targeted organisations, a total of 520 copies were returned with the full-completed questionnaires, giving a response rate of 65%.
Complementary to the questionnaire survey, eight interviews were carried out between the researcher and senior managers working within the targeted organisations. During these meetings, information related to each industry was provided to the interviewer, and site visits to the correspondent organisations were additionally carried out in order tocollect more knowledge about the manufacturing and management processes and the working environment within these industries.
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DATA ANALYSIS AND DISCUSSION
As a first step of analysing the gathered data. A reliability test was conducted for the entire questionnaire. Cronbachs Alpha was used as the Coefficient of Reliability for testing the internal consistency of the constructs of the entire questionnaire. The calculated value of Cronbachs Alpha was found to be 0.96. According to reference [23], an Alpha Coefficient of 0.70 or above is considered adequate for the reliability of the entire questionnaire. Therefore, in this study 0.96 gives strong evidence that the questionnaire responses were reliable.
For the returned questionnaires, 35% were from the OGI, 23% were from ISI, 21% were from CI and 21% were from Construction Industry. All the participating organisations from OGI, ISI and CI were from the governmental sector, as these industries still belong and are completely controlled by the government, whereas, 18% from the surveyed organisations within the Construction industry were from the private sector.
The approximate total number of employees within the surveyed organisations is summarized and illustrated in Table 1.
TABLE I, THE APPROXIMATE NUMBER OF EMPLOYEES WITHIN THE SURVEYED ORGANIZATIONS
Number of employees
Level within industry (%)
OGI
ISI
CI
C
Less than 50
5.60
00.0
9.1
00.0
From 50 to 100
00.0
00.0
00.0
18.2
From 101 to 500
00.0
00.0
9.1
45.4
From 501 to 1000
00.0
00.0
54.5
9.10
More than 1000
94.4
100
27.3
27.4
The Table shows that, as expected the OGI and ISI have more than 1000 employees, however, the CI has about 55% of employees are in the range of 500 to 1000. The Construction Industry has a mixture of segments, some small and some very large but majority falling in the 100 to 500 range.
Table 2, illustrates the size of the respondent organisations based on their annual turnover. This table also reflects the findings of Table 1, in that the largest organisations are OGI and ISI.
TABLE II, THE RESPONDENT ORGANISATIONS SIZE BASED ON THEIR ANNUAL TURNOVER
Approximate annual turnover (Libyan Dinars)
Level within industry (%)
OGI
ISI
CI
C
Less than 1,000,000
00
00
00
9.1
From 1 Million to Ten Millions
05
00
27
27
More than Ten Millions
77
91
54
36
Would rather not to say
16
08
18
27
As an important part of the questionnaire survey, it was crucial to ascertain the managerial seniority of the respondents, it can be seen that the majority of respondents for the four surveyed industries are mainly from the middle and lower management. The key financings are summarized in Table 3.
TABLE III, THE MANAGERIAL POSITION LEVELS OF THE RESPONDENTS
Managerial position level
Level within each industry (%)
OGI
ISI
CI
C
Top management level
00
00
12
18
Middle management level
23
84
54
45
Lower management level
77
16
34
37
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JIT Implementation Levels
Table 4, shows a summary analysis of the implementation status of JIT practices within the investigated industries.
TABLE IV, IMPLEMENTATION LEVELS OF JIT PRACTICES WITHIN THE SURVEYED ORGANISATIONS
Surveyed industry
JIT implementation Status (%)
Yes
No
Do Not Know
OGI
0.0
72.2
27.8
ISI
8.3
75.0
16.7
CI
18.2
63.6
18.2
C
18.2
63.6
18.2
The table shows that the highest implementation status of JIT was in the range of about 18% in the CI and C. Surprisingly, the highest levels of non-implementation of JIT were in the OGI and ISI (over 70%), closely followed by the other two industries. Worryingly, around 20% or over of the respondents did not know the status of JIT implementation status in their respective organisations.
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Reasons For Not Implementing JIT Practices
Developing the findings from Table 4, the questionnaire asked the reasons for non-implementing of JIT practices. To that end, Table 5 presents the findings for these non- implementers of JIT. It seems that the highest reason for non- implementation across all the surveyed organisations with the four industries is unfamiliarity with JIT philosophy (range 43%-99%). An important finding is that the respondents also identified lack of top management support for non- implementation (15%-22%). It is the view of the author of this research that this is the key reason for non- implementation of JIT.
TABLE V, REASONS FOR NOT IMPLEMENTING JIT
Reasons for not implementing JIT practices
Level within each industry (%)
OGI
ISI
CI
C
All
Lack of top management support
15
11
22
00
15
Lack of interest within the organisation
07
11
00
00
05
Implementation requires formal approval
21
00
00
00
07
JIT does not fit well with the organisation
14
00
00
00
05
Organisation is unfamiliar with JIT
43
78
66
99
66
JIT is too expensive
00
00
11
01
02
JIT is too complex
00
00
00
00
00
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Investigation of The Implementation Status of Some Important JIT Key Element
The survey tried to investigate the most important key- elements of JIT implementation within each of the surveyed industry. This would provide a much clearer and detailed picture of the existing JIT environment. This reflects the earlier findings of the limited knowledge existing about JIT within these organisations.
Tables 6 & 7 show the sub-elements of JIT key-elements (Wase Elimination and Continuous Improvement.) and their implementation levels. A linear scale from 0 (non- implementation) to 6 (full implementation) was used. The extent of each investigated key-element of JIT was broken down into their own sub-elements. As an example the sub- element continuous improvement was broken down into 19 sub-elements in order to ascertain the implementation of continuous improvement in all the different functions within the surveyed organisations. Thus the value of 2.8 for Continuous Improvement in the OGI is the mean of the 19 sub-elements implementation.
Table 6 shows the 19 sub-elements of continuous improvement which have been surveyed for their implementation in the four industries. The results are presented on a linear scale of 0 to 6 as mentioned earlier.
This table shows that the highest values of the overall means across all the industries are in the range of 3.2, which is worryingly low (the range of values is between 1.1 to 4.1) for all the 19 sub-categories of Continuous Improvement. There is an implicit input from people involvement for the sub-categories of JIT, the low values indicate to a culture of non-implementation for this very important aspect of JIT (indicating further to lack of vision, leadership, and knowledge of training).
The table also illustrated that the highest implementation levels are within implementing preventative maintenance programmes in thee of the surveyed industries, whereas the situation with the Construction Industry is relatively different, and it can be considered as more worrying status than the other three industries.
Implementation of programmes for Continuous Improvement
Mean
OGI
ISI
CI
C
The top management responded to the feedback from the employees on JIT/ Continuous Improvement
1.4
2.4
1.7
1.6
The organisation ensured training programmes for the management body on JIT/ Continuous Improvement
1.9
1.7
1.4
1.1
The organisation ensured training programmes to the administrative staff on JIT/ Continuous Improvement
1.8
2.0
2.9
1.9
The organisation designed the training programmes considering the variety of the employees learning needs
2.8
3.7
2.8
2.7
The organisation ensured Continuous Improvement training programming to the machine operators
3.7
3.0
2.4
1.9
The organisation carried out research and development to improve the products
2.6
3.6
3.0
1.2
The organisation encouraged a continuous improvement culture within the working environment
2.8
3.8
2.7
1.7
The organisation focused on the requirements of their customers in designing your products and services
3.3
3.5
2.7
1.9
Has the organisation used team-based approaches to problem solving
2.9
3.2
3.1
1.6
The Continuous Improvement I programmes been implemented in the Marketing function
2.3
2.9
2.8
2.4
The Continuous Improvement programmes been implemented in the Design function
2.3
2.2
3.4
2.8
The Continuous Improvement programmes been implemented in the Production function
3.2
4.1
3.4
2.1
The Continuous Improvement programmes been implemented in the Purchasing function
2.9
3.2
3.5
2.5
The Continuous Improvement programmes been implemented in the Finance function
3.0
3.0
3.4
2.9
The Continuous Improvement programmes been implemented in the Production Shop Floor function
2.1
2.6
2.3
2.1
The Continuous Improvement programmes been implemented in the Materials Handling Control function
2.9
3.5
3.9
2.2
The Continuous Improvement programmes been implemented in the QC function
3.4
3.8
4.0
2.2
The Continuous Improvement programmes been implemented in the Preventative Maintenance function
3.8
3.8
3.8
2.3
The Continuous Improvement programmes been implemented in the Shipping function
3.2
3.6
3. 8
2.1
Overall mean
2.8
3.2
2.8
2.2
Implementation of programmes for Continuous Improvement
Mean
OGI
ISI
CI
C
The top management responded to the feedback from the employees on JIT/ Continuous Improvement
1.4
2.4
1.7
1.6
The organisation ensured training programmes for the management body on JIT/ Continuous Improvement
1.9
1.7
1.4
1.1
The organisation ensured training programmes to the administrative staff on JIT/ Continuous Improvement
1.8
2.0
2.9
1.9
The organisation designed the training programmes considering the variety of the employees learning needs
2.8
3.7
2.8
2.7
The organisation ensured Continuous Improvement training programming to the machine operators
3.7
3.0
2.4
1.9
The organisation carried out research and development to improve the products
2.6
3.6
3.0
1.2
The organisation encouraged a continuous improvement culture within the working environment
2.8
3.8
2.7
1.7
The organisation focused on the requirements of their customers in designing your products and services
3.3
3.5
2.7
1.9
Has the organisation used team-based approaches to problem solving
2.9
3.2
3.1
1.6
The Continuous Improvement I programmes been implemented in the Marketing function
2.3
2.9
2.8
2.4
The Continuous Improvement programmes been implemented in the Design function
2.3
2.2
3.4
2.8
The Continuous Improvement programmes been implemented in the Production function
3.2
4.1
3.4
2.1
The Continuous Improvement programmes been implemented in the urchasing function
2.9
3.2
3.5
2.5
The Continuous Improvement programmes been implemented in the Finance function
3.0
3.0
3.4
2.9
The Continuous Improvement programmes been implemented in the Production Shop Floor function
2.1
2.6
2.3
2.1
The Continuous Improvement programmes been implemented in the Materials Handling Control function
2.9
3.5
3.9
2.2
The Continuous Improvement programmes been implemented in the QC function
3.4
3.8
4.0
2.2
The Continuous Improvement programmes been implemented in the Preventative Maintenance function
3.8
3.8
3.8
2.3
The Continuous Improvement programmes been implemented in the Shipping function
3.2
3.6
3. 8
2.1
Overall mean
2.8
3.2
2.8
2.2
TABLE VI, THE EXTENT OF THE IMPLEMENTATION STATUS OF THE CONTINUOUS IMPROVEMENT PROGRAMMES WITHIN THE INVESTIGATED INDUSTRIES
The findings in Table 6 are also reflected in Table 7 for waste elimination, although the mean values are slightly higher. The overall mean value is higher at 4.0 for the ISI with average 1.8 to 4.0 (for all industries). This again shows poor extent and quality of implementation of waste elimination.
The surveys results implicitly indicate that the four surveyed industries have major wastes (non-value adding activities) in all their manufacturing value chain. Equally importantly, the findings suggest that the employees (all levels) within these industries will be lacking in the cultural aspects of the people/team environment (continuous improvement, training, team works) that is a requirement for successful JIT.
TABLE VII, EXTENT OF THE IMPLEMENTATION STATUS OF ELIMINATING THE WASTE WITHIN THE INVESTIGATED INDUSTRIES (SCALE 0 TO 6)
Implemented programmes to eliminate the waste
Mean
OGI
ISI
CI
C
Eliminated the waste due to over production
2.6
4.1
3.8
2.0
Eliminated the waste by reducing the queues and the waiting times
3.7
3.5
2.8
1.7
Planned the operations avoiding any extra operations
2.6
4.5
3.0
1.6
Eliminated the waste due to delay of materials before processing
3.4
3.7
3.1
1.8
Eliminated the waste due to unnecessary transportation and conveyance of materials
2.7
3.3
3.3
2.0
Eliminated the waste by reducing the inventory materials
2.7
3.5
3.0
1.8
Eliminated the waste by producing ZERO defects
2.4
4.3
3.0
1.8
Eliminated the waste due to proper utilisation of employees
2.9
4.3
4.0
2.0
Overall mean
2.9
4.0
3.3
1.8
-
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CONCLUSIONS
This study is the most recent to investigate the implementation status of the JIT philosophy and techniques within the Oil & Gas (OGI), Iron & Steel (ISI), Cement (CI) and Construction (C) Industries in Libya. It makes a contribution by providing an insight into what extent the JIT practices are being implemented within these industries and the implementation for business and human resources development. Some key concluding findings can be summarised as follows:
The actual JIT implementation across most of the surveyed organisations is very low, even within the organisations that consider themselves as JIT implementers. The vision of improving the Libyan manufacturing industries with respect to JIT practices can be fully realised only if all the related institutions such as governmental, academia, business, consultancy and technical training centres, work together to attain this common goal.
Lack of knowledge and unfamiliarity with JIT and its key elements are very obvious across most of the surveyed organisations within all the surveyed industries. Training and ongoing education programmes are essential to achieve an effective and successful JIT implementation, and should be provided to all the related teams and individuals at all levels throughout the entire organisation. Resource commitment is essential to training, education and learning, along with implementing the latest technologies and techniques that are needed to improve the entire manufacturing sector. The training centres should emphasis on lifelong learning and on- going training programmes for the manufacturing sector in order to perform strategic alliance to ensure complete staff skills as part of human resource development.
In addition, the study has identified problems, issues and attitudes that the decision-makers within the industrial environment might face towards implementing JIT techniques and the subsequent planning and implementation of all elements of JIT. Ensuring a high level of understanding of the whole JIT implementation process to all the involved teams certainly will lead to a complete implementation of JIT as a manufacturing and quality control philosophy, thereby moving the Libyan industries towards World Class Manufacturing.
In conclusion, the four surveyed industries are crucial for Libyan economy. However, the survey has identified that they are very distant in terms of JIT implementation and therefore WCM. This implies that these industries are running at well below the global benchmarking of efficiency. The key reasons for this rests with leadership of these industries, and in essence is a human resource issue.
Finally, on a positive note, when asked (during one-to- one interviews) about improving the Libyan manufacturing and services sectors, all the respondents showed enthusiasms and willingness on developing their companies through applying the latest quality techniques in order to achieving a high level of quality improvements. . Furthermore, setting up employers training pilots can be helpful to make it easier for local employers and employees to obtain the needed human resource training for the manufacturing organisation. Skills and innovations are mutually supporting to the manufacturing sector because skills underpin the ability to innovate, which is considered as the driver of the demand for better and higher trained skills needed to achieve WCM.
ACKNOWLEDGMENT
The author is very grateful to Dr. Ibrahim Muhan, Chief Geologist, Waha Oil Company; Eng. Abdussalam Amnider, Director of General Projects Department, Housing-Board, Libya; Eng. Mansor Esbiga, General Director of the Commercial Department, Ahlyia Cement Company (Libya), for their assistance during the survey.
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AUTHORS BIOGRAPHY
Dr. Rajab Abdullah HOKOMA, began his career in Industrial Engineering in 1990, after his graduation from Industrial Engineering, University of Garyounis, Libya, he received his MSc in Enterprise Management at Warsaw University of Technology, Poland. In 2007 Mr. Hokoma was awarded his PhD in the area of Manufacturing and Quality Planning & Control from The University of Bradford, England (UK). Dr. HOKOMA lectured at the University of
Bradford (England) during 2007 and 2008, where he was awarded his Post-Doctor in the area of Quality Planning & Control. Presently, his duties and research at Tripoli University (The main university in Libya) are in the area of Manufacturing and Quality Planning & Control, JIT, MRPII, TQM, SCM, Maintenance Planning, Production and Operations Management, Pollution Control, Risk Management and Strategy. His non-lecturing duties include among others, (acting as) the consultant and advisor for manufacturing and quality planning & control and liaison with Industry and Education. Dr. HOKOMA is an Associate Professor, published over 50 reviewed papers in National & International Conferences and Journals within the scope of his interested areas.