PROJECT AND PROJECT SCHEDULING IN PRODUCTION MANAGEMENT II (500L)

 

Question:

How can you define Project and Project Scheduling? Discuss briefly the special sources of problems involved in project implementation.

Solution:

A project can be defined as a scientifically evolved work plan, devised to achieve a specific objective within a specified period of time.

Projects differ in shape, nature, objective and complexity.  Every Project must necessarily conform to some three basic attributes of having:

-      A source of action

-      Having specific objectives

-      Involving a definite time perspective

Hence, a project could best be conceived as a work plan devised through some elements of scientific investigation and analysis designed to achieve a set objective within a certain period. 

A number of techniques and mathematical tools like the Gantt and other Network techniques have been used to attempt a systematic analysis and management of projects with varying degrees of success and failure. 

But associated with project management in modern times, are two key techniques adopted.  These are:

- project Scheduling 

- Project Monitoring 

Project scheduling refers to a list of activities tied up to time sequence and order.  It is defined as a document which affixes a list of activities on to a time frame following a chosen order of sequence with firm commitment of resources.

SPECIAL SOURCES OF PROBLEMS

Understandably, project managers face some unusual problems  in trying to direct and harmonize the diverse forces at work in the project situation. Their main difficulties, observation suggests, arise from three sources:

- organizational uncertainty

-unusual decision pressures 

-vulnerability to rop management  mistakes 

(1) Organizational Uncertainty: many newly appointed project managers find that working relationships with functional department heads have not been clearly defined by management. who assigns work to the financial analyst? Who decides when to to order critical material before the product designs? Who decides to delay design release to reduce unit cost? Who determines the quantity and priority or spaces?  All these decisions virtually concern the project manager and he must often forge his own guidelines for dealing with them.  Unless he does so skillfully, the questions are apt to be resolved in the interest of individual departments at the expense of the project as a whole.  In view of the number of decisions or approvals that may arise in the course of a large project, the number of departments that have an interest in each innumerable possibilities always exist for inter-departmental conflicts. Besides coping with these conflicts, the project manager must juggle the internal schedules of each department with the project schedule, avoid political problems that could create bottlenecks, expedite one department to compensate for another's failure to meet its schedule and hold the project within a predetermined cost. Moreover, he must do all these single-handly with little or none of the experienced top-management guidance that the line manager enjoys.

(2) Unusual Decision Pressure: The servers penalties of delay often compel the project manager to base his decisions on relatively few data.  Decisions to sacrifice time for cost, cost for quality or quality for time are common in most projects and the project manager must be able to make them without panicking.  Clearly therefore, he has a special need for intelligent support from higher management.

(3) Vulnerability To Top Management Mistakes:   Though senior executives can seldom give the project manager as much guidance and support as his line counterpart enjoys, they can easily jeopardize the project's success by lack of awareness, ill-advised intervention or personal whim.  For example, a project manager battling to meet a schedule that had been rendered nearly impossible by the general manager's initial delay in approving the proposal, found functional cooperation more and more difficult to obtain.  The functional heads become convinced as it turned out that he lacked the general manager's full confidence.

TOTAL QUALITY MANAGEMENT (TQM) IN PRODUCTION MANAGEMENT II 500L

Question:

Discuss the basic concepts of Total Quality Management?

Solution:

Concept Of Total Quality Management 

The concept of total quality management (TQM) is an approach to management that focuses on improvement in the quality of goods and services supplied to customers as the key to business success. 

It is defined as a continuous improvement process involving all employees.  From the management level to the workshop level in a total integrated effort dedicated to improving the performance at every level in the company. 

These improvements are performance directed to satisfy perceived cross-functional goals such as quality, cost, technical performance, schedules and human resource development.

A considerable body of empirical study suggests that the benefits of TQM include higher quality products, produced more efficiently, resulting in improved business performance.

TQM is focuses on management philosophy providing leadership, training and motivation in order to improve continuously the operation of the organization.  TQM process is concentrated on elements as:

-        Management commitment  

-        Integration and teamwork

-        Focusing on products and processes 

-        Long-time commitment by all employees to continuous improvement 

Today, high quality of service given to customers has always been an important part of most successful companies operating practices.  This is seen not only in the way sales people deal with customers, but also in the quality of the whole product package and the service given by all employees of the company.

The common understanding of TQM provides direction and framework for morality in business. It considers and rewards the efforts of those directly involved, both inside and outside the organization. It is no coincidence that successful TQM models all tend to embody concepts of integrity, honesty, commitment,   Participation and ownership.

Question:

Explain the key functions and features of manufacturing resource planning (MRP II)?

Solution:

manufacturing resource planning (MRP II) is defined as a method for the effective planning of all resources of a manufacturing company. Ideally, it addresses operational planning in units, financial planning, and has a simulation capacity to answer "what -if" questions and extension of closed-loop MRP.

This is not exclusively a software function, but a marriage of people skills, dedicated to data base accuracy, and computer resources.  It is a total company management concept for using human resources more productively. 

KEY FUNCTIONS AND FEATURES 

MRP II is not a proprietary software system and can thus take many forms.  It is almost impossible to visualize an MRP II system that does not use a computer, but an MRP II system can be based on either purchased - licensed or in-house software.

Almost every MRP II system is modular in construction. Characteristics basic modules in an MRP II system are:

-        Master production schedule (MPS)

-        Item master data (technical data)

-        Bill of materials (BOM) (technical data)

-        Production resources data (manufacturing technical data)

-        Inventories and orders (inventory control)

-        Purchasing management

-        Material requirements planning (MRP)

-        Shop floor control (SFC)

-        Capacity planning or capacity requirements planning (CRP)

-        Standard costing (Cost control)

-        Cost reporting/management (Cost control)

Together with auxiliary systems such as:

-      Business Planning

-      Lot traceability

-      Contract management

-      Tool management

-      Engineering change control

-      Configuration management

-      Shop floor data collection

-      Sales analysis and forecasting

-      Finite capacity scheduling (FSC)

And related systems such as:

-      General ledger

-      Accounts payable (purchase ledger)

-      Accounts receivable (sales ledger)

-      Sales order management

-      Distribution requirements planning (DRP)

-      Automated warehouse management

-      Project management

-      Technical records

-      Estimating

-      Computer-aided design/computer-aided manufacturing (CAD/CAM)

-      CAPP

The MRP II system integrates these modules together so that they use common data and freely exchange information, in a model of how a manufacturing enterprise should and can operate.  The MRP II approach is therefore very different from the "point solution" approach, where individual systems are deployed to help a company plan, control or manage a specific activity.  MRP II is by definition fully integrated or at least fully interfaced.