Research paper on IE

NATIONAL INSTITUTE OF INDUSTRIAL ENGINEERING

PGDIE-42

INDUSTRIAL ENGINEERING ASSIGNMENT

IE Assignment submitted by:
Venkata Karthik Menti
Roll No: 102

            The Industrial Engineer as Organizational Leader:

    An Assessment of Contemporary Industrial Engineering Skills

                                                        David H. Olszewski

                                             General Dynamics Land Systems

                                                             Ft. Hood, TX

                                                       James C. McHann, PhD

                                                             Walsh College

                                                                 Troy, MI

1. Introduction

The transformation of Industrial Engineers into techno-managers is in part due to their special skills, which give them unique insights into the kind of leadership and management needed in organizations today. This shift provided the opportunity for industrial engineers to acquire new skills that took them off the shop-floor and propelled them into the boardroom.

While industrial engineers are certainly still vital to manufacturing operations, the macro changes in the nature of the economic environment, along with the corollary and necessary changes in how organizations must be led and managed in this new economic environment, has created the need and the opportunity for the industrial engineering profession to evolve.

The lead author of this article is engaged in a doctoral dissertation study of contemporary industrial engineers to determine which skills are seen as having greater value in today’s Knowledge Age. A quantitative analysis utilizing an electronic survey and the Analytic Hierarchy Process pairwise comparison technique will establish priority between technical and managerial industrial engineering skills. Once data is collected, statistical analysis in the form of ranking and hypothesis testing can be used to determine significance and skill mix. This paper serves as a brief look into the history and shift in the role of an industrial engineer and serves as a basis for further study.

2. Characteristics of the Industrial and Knowledge Ages

After millennia of agrarian-based society, the Industrial Revolution began in Great Britain in the later part of the 18th century. Even during the Industrial Age, the transfer of knowledge was very important, and knowledge concerning new innovation spread by several means. Workers who were trained in a specific skill often moved to new employers or were tempted to new organizations.

Toward the end of the Industrial Age, Frederick Taylor, one of the world’s first management consultants and an engineer, identified two primary problems of production. These problems included lack of standardization in all areas and poor management practices. Scientific management is characterized by a search for efficiency and systemic management thought. During his time in management, Taylor introduced the concept of the time study—“one of the key techniques of scientific management”. As a result of his work, academia incorporated scientific management into the curriculum of several major business schools, including Wharton, Dartmouth, and Harvard.

Even as the era of the machine, the factory, and the efficient production practices of scientific management continued to dominate the organizations of the Industrial Age, the knowledge portion of the work also continued to increase. At some point in the mid-1900s, the importance, power, value creation, and wealth production of knowledge and other intangible assets increased beyond that provided by financial capital, machines, and other tangible assets:  the Knowledge Age was born

In the Knowledge Age, knowledge becomes “the preeminent economic resource—more important than raw material; more important, often, than money”. “Knowledge has become the primary ingredient of what we make, do, buy, and sell.

This change in organizational focus has required a corresponding change in the way organizations are managed. Knowledge production by knowledge workers is not managed quite like widget production by machines is managed. For example, the philosophy of the biological sciences dominates the management approaches that work best in the Knowledge Age. This philosophy views knowledge, people, and organizations as living systems.

3. The Difference between the Industrial and Knowledge Ages

There are many important differences between the economic dynamics, and effective management approaches, of the Industrial Age and the Knowledge Age. The living system of the Knowledge Age has begun a major shift away from Industrial Age thinking.

Beyond shifts in focus, there are shifts in management styles. During the Industrial Age, “the work of every workman is fully planned out by management at least one day in advance, and each man receives in most cases complete written instructions, describing in detail the task which he is to accomplish, as well as the means to be used in doing the work”

During the Knowledge Age, the focus of operations has turned to the whole rather than the parts. “Managers now must supervise many people. They must manage across functions and they must be agents of change, champions of the latest re-engineering or reorganization, even if they have had nothing to do with creation of the plan or disagree with it”

Beyond working as a whole, the Knowledge Age differs from the Industrial Age in the area of autonomy. There was little to no empowerment during the Industrial Age. In fact, “the empowerment movement is an effort to break the enduring shackles of Frederick Taylor’s scientific management”.

The treatment of the worker during the Knowledge Age is revolutionary. Workers are human capital and owners of knowledge “who need control over learning processes and participation in the creation and communication of wisdom”. Some Industrial Age organizations cannot make the transition and die, and their death only draws further attention to the importance of intellectual capital, knowledge workers, and the critical need to learn how to lead and manage them effectively.

4. Different Leadership and Management Approaches for Different Economic Ages

4.1 Old and New Leadership Competencies

The competencies needed to excel in the industrial and knowledge ages differ in emphases. The “leadership philosophy begun by Deming in Tokyo in 1950 is the first fundamentally new management philosophy since 1840”, and Deming’s approach to leading and managing organizations laid important foundations for the new management in the new age.

In order to survive in the old organization, one needed several attitudes or competencies. First, part of a manager’s responsibility was to control the workforce. Forcefulness was seen as necessary to getting people to respond. Next, on the softer side of forcefulness, managers were expected to serve as the motivators to the workers. From here, the competencies of decisiveness, wilfulness, and assertiveness played important roles in Industrial Age management approaches. Leaders in this time could not show weakness, ignorance, or indecision. Another competency of this time was the result and bottom line focus of the organization. Bosses held people accountable for maximizing profits and minimizing costs. Managers also kept everyone task-oriented.

The new competencies important to management in the Knowledge Age are different. They are based on very different premises, assumptions, and beliefs about people and organizations. The new competencies are covered generally in W.E. Deming’s System of Profound Knowledge. The first competency is the ability to think in terms of systems and knowing how to lead systems. By thinking on the systems level, the organization is able to avoid overly simplistic interpretations and solutions to complex problems. In addition, the ability to understand the variability of work in planning and problem solving is very important in the Knowledge Age; an accurate understanding of data is required to successfully run the knowledge organization. Next, there is a new focus on understanding people, our behaviour and how we learn, develop, and improve. It is clear that people are no longer motivated through a combination of promised reward and threat of punishment.

4.2 The Growth of Industrial Engineering

Industrial engineering found its roots in the scientific management movement, which paved the way for the Knowledge Age. Following his development of time studies, Frederick Taylor provided the major thrust for “an era characterized by a search for efficiency and systematization in management thought”. During the latter half of the nineteenth century, the final stage of the Industrial Age focused on technological advances, changing power sources, evolving labour-management relations, and a need to bring these factors together with some sort of management practice

Devoid of training in management, Taylor relied on his own observations as to how things should be done. He brought his experience on the worker side of things into his management roles. He understood ineffective incentives and estimated worker output at only one-third of what he thought was possible. Taylor sought to overcome output deficiencies by careful investigation and the setting of performance standards. Taylor determined what workers should be able to do with the equipment and materials, and this became the beginning of scientific management.

After Taylor’s death, Henry Gantt began to develop different ideas on the role of the industrial engineer and the firm as an institution. Gantt moved past concern for simple factory matters and sought reform at all levels. According to Gantt, “the industrial engineer, not the financier nor the labour leader, would be the new leader, because only the engineer could cope with the US problem of production as the creation of wealth”.

The works of Taylor, Gantt, and the Gilbreths formed the foundation of the industrial engineer’s traditional role. However, the contributors also alluded to much more. They all recognized the importance of the human factor. Additionally, they recommended that the industrial engineers assume their rightful place in management where the human contributions to the workforce could find a voice and actively contribute to organizational efficiency. The introduction of scientific management altered the path of the Industrial Revolution and the Industrial Age.

5. The Effect of the Knowledge Age on Industrial Engineering Skills

During the Industrial Age and the era of scientific management, industrial engineers proved that they “are talented at cutting costs, producing efficiencies, and improving productivity” [18]. By aptitude, training, and experience, industrial engineers are adept at systems thinking, at how to generate knowledge within organization, and at how to use knowledge effectively and practically to improve continuously the performance of any organization.

The creation and sharing of knowledge, and skills in leading and managing people, are required of effective managers in the Knowledge Age. The attributes associated with engineering success in this age include creativity, communication, basic business and management skills, leadership aptitudes, professionalism, and life-long learning.
The technical skills an industrial engineer acquires through an engineering education and on-the-job means are necessary and fundamental. These skills are numerous and include ergonomics, time studies, simulation, project management, material handling, and general problem-solving. While these skills serve industrial engineers quite well, they do little to propel them into general management positions or into the boardroom.

Today, more and more industrial engineers are acquiring management skills in order to take advantage of expanded opportunities being afforded them in the Knowledge Age. These skills include communication, collaboration, strategic thinking, negotiation, and many others. The leadership and management required in the Knowledge Age requires just the type of technical, systemic, operational, and organizational skills industrial engineers have traditionally mastered and the managerial skills they are acquiring today.

At the academic level, curricula can be altered to include teaching in the critical managerial area in addition to the standard technical skills. At the organizational level, industrial engineers can focus on acquiring critical managerial skills. Additionally, the organization can recognize the value of having industrial engineers in positions of leadership. Industrial engineers can provide valuable insight into the organization and can help the organization succeed in the ever-changing Knowledge Age.

6. Conclusion

Overall, a shift in emphasis is occurring in industrial engineering skills from the traditional technical skills to more managerial skills. This shift is due in large part to the transition from the Industrial Age to the Knowledge Age. This article adumbrates a quantitative research study for a doctoral dissertation, which will show that this transition has and is occurring.

Today, industrial engineers are making a very successful transition to the management side of the organization. Their technical skills provide a firm foundation upon which managerial skills are quickly being built. This article summarizes a research study on the mix of these skills, which anticipates that the industrial engineers of the future can more clearly focus their efforts on leading organizations as they add managerial skills to their technical skills.

Title

The Industrial Engineer as Organizational Leader:

An Assessment of Contemporary Industrial Engineering Skills

Author

Olszewski, David H; McHann, James C, PhD

Publication title

Proceedings of the 2010 Industrial Engineering Research Conference

A. Johnson and J. Miller, Eds.

Document URL

http://search.proquest.com/docview/733014297?accountid=49672

Copyright

Copyright Institute of Industrial Engineers-Publisher 2010

Last updated

2011-06-03

Database

ABI/INFORM Complete