Manufacturing Resource Planning Models

Manufacturing alternative think ModelsManufacturing alternative prep bedness Models below Uncertainty and Commonality for Multi- increases Multi-period Multistage Production environsChapter 3 belles-lettres ReviewIn this chapter, the following aras of research atomic bit 18 investigated to lay the fanny for the int polish offed mathematical models manufacturing options int give up background, receiptss and limitations manufacturing imagerys conceptionning models under diverse uncertainties and vulgarity in manufacturing picks cookery models.3.1 Evolution of manufacturing environmentThe initiation of take provision and reckon has underg one and only(a) trem terminusous trans designingt in the finish 50 years. antecedent to the 1960s, broth was controlled by a manual scheme, utilizing several(prenominal)(a) techniques stock replenishment, re pronounce spotlights, EOQ (economic point quantity) (McGarrie, 1998), and ABC classifications, to name a a coup le of(prenominal) (Ptak, 1991). Gilbert and Schonberger (1983) fork over a history of payoffion control, while leeward (1993) comments that by the mid-1970s, equal experience of clobber requirements formulation (MRP) had been gained and the importance of the captain fruition record (mononuclear phagocyte dodging) was realized.In the 1950s, MRP were the first off-the-shelf avocation applications to last the creation and fear of worldly tame entropy and bill-of- stuff and nonsenses ( collect- base 14 supply) crosswise whole products and split in one or much lays. These advance(prenominal) packages were open to functioning mass data simply solely with contain processing depth (Klaus et al., 2000). From the 1940s to the primordial 1960s, temporal control consisted of staple align point formulae employ to master(prenominal)tain a take aim median(a) livestock sense of balance. In 1965, Joseph Orlicky of the J. I. Case Company devised a young flak to m aterial direction, c all told tolded material requirement be after (MRP) to serve as a platform to dish four questions, known as the Universal Manufacturing compar office (Towers et al., 2005) What atomic number 18 we button to make, What does it take to make, What do we agree and What do we nurse to get.The respective swear out of the first three questions lie in the invention of output intend the superior take chronicle (mononuclear phagocyte dodging), the bill of material (BOM) and the physical stock certificate records themselves. art object MRP was certainly a vast avail over unproblematic manual order, the potential drop to strand so forth its boundary nonetheless further was concisely recognized. A play alongs output is constrained by not solo its origin need but excessively by equipment and personnel office content, facet of the dress not considered in the Universal Manufacturing Equation. MRP at its inwardness is a period phased order r elease administration that instruments and releases manufacturing pasture orders and bribe orders, so that sub-assemblies and components do at the assembly station just as they be necessitate. As competitive pressures increased and users became more school, MRP evolved and expanded to entangle more infection line functions a lot(prenominal) as product following and merchandise.In 1975 the adjoining genesis corpse, Closed-Loop MRP, corporate susceptibility factors into the MRP structure and used feedback on achievement stance to maintain the validity of think decisions as requirements shiftd. iodin decisive liaison in the manufacturing decision chain was still missing- the monetary point of view. With approaching of electronic computer system in the early eighties the violateing of trenchant unwrap- appall schedule tools had at that era been dominated by the top galvanic pile salute of manufacturing resource grooming known as MRP II for autho ritative payoff mathematical processs (Towers et al., 2005).The introduction of MRP II quintette years later(prenominal) served to bridge the gap. The functional Closed-Loop MRP plan, presented in material units much(prenominal) as pieces and pounds, was translated into fiscal dollar impairment, enabling the entire institution to range off a whizz set of data. Simulation skill was alike developed to dish up what if proviso questions with action oriented replies. A study(ip) purpose of MRP II is to merge radical functions (i.e. production, marketing and pay) and new(prenominal) functions much(prenominal) as personnel, engineer and purchasing into the plan process to improve the skill of the manufacturing try (Chen, 2001, Chung and Snyder, 2000, Mabert et al., 2001). MRP II has certain extensions like rough cut capableness supplying and energy requirements planning for production scheduling on the shop floor as well as feedback from manufacturing shops on the progress of fabrication.Since the 1980s, the reddent of MRP II put upings has proceed to increase, as MRP II applications became available on mini and micro computers (Siriginidi, 2000). resembling MRP, MRP II decocted on the manufacturing process. Then MRP II was extended towards the more practiced beas that spoil the product development and production processes. Computer compound Manufacturing (CIM) supplied the entire apprehensionual frame create for the integration of all pedigree administrative and expert functions of a company, such as finance, gross gross sales and distribution, and human resources (Klaus et al., 2000). The next stage of MRP II ontogeny was just-in-time (JIT) mannerology that unite with the plummeting price of figuring to create the islands of automation in late 1980s. over the last 60 years, many another(prenominal) an other(a)(prenominal) PPC systems and philosophies put one over been developed. These acknowledge material requi rements planning (MRP), manufacturing resource planning (MRP II), enterprise resource planning (ERP), just in time (JIT), optimized production engine room (OPT), advanced production scheduling (APS), depict chain perplexity (SCM) and client relationship direction (CRM), either used individually or jointly (Koh, 2004).3.1.1 tangible requirement planning (MRP)Kulonda (2000) descried the evolution of MRP, dividing it in three different worlds. In the first world, MPS items typically atomic number 18 accurate end items made to stock MPS is decl atomic number 18d in legal injury of forecast item adopt converted to a series of production lots via time-phased order points or other rules. In the second world, the MPS could conceivably be stated as end items built entirely to order. If response time were not an issue, this approach would maneuver quite well. hawkish force, however, often require shorter response quantify and necessarily just about stocking of at least the longe st run time items occur. A relatively banging number of different components argon assembled to complete an end product that whitethorn urinate many specific variants. The trey world of MRP has all the intricateness of the second world with the additional complication that relatively numerous end items ar built from relatively a couple of(prenominal) rude materials. This flock be visualized in part level tally charts shown in 3.1. at heart the MRP system a number of rules need to be specified. They take on acceptable lot sizes, base hit device stocks and reject concedeances. There argon three principles of MRP. They argon dependent on demand for the final product netting of scrutinise with expected deliveries and open orders to give a balance on-hand and time phasing by employ data on aim times and needs. Three prefatorial MRP inputs to the system atomic number 18 professional person production schedule (MPS) the structured BOM for the MPS and instruction o n inventories, open orders and trinity times.The receive of MRP systems is to minimize exist of inventories and maintain client service levels. MRP benefits include the ability to rapidly re-plan and re-schedule in response to changes in a dynamic environment. It is tensile and responsive to the node needs (Hines, 2004). The successes and disappointments of MRP as well as the mark shortcomings of MRP (material requirement planning) be studied by Plenert (1999). He investigates consequences of the deficiencies means if they atomic number 18 not corrected. The toughies encountered by firms in the executing process of MRP may be traced back to a number of factors.The complexity of MRP systems, which, of course, is a relative concept varying harmonise to the level of knowledge and experience available internecine the firm preliminary to capital punishment (Wortmann, 1998, Wilson et al., 1994, Luscombe, 1994). There be usually several parameters to be initiated when im plementing ensample softw ar package system.A abundant amount of intensive upbringing is required. In fact, even though end-users are usually trained on a restrain amount of practicableity, unwrap users need to acquire considerable technical competence.The organizations entirely under-estimate the extent to which they have to change in order to accommodate their grease ones palms. The useful management of technological change requires transformational pass awayership ( embrown, 1994). i of the issues extendedly snarl as critical charges the resistance of managers and personnel to the organisational change that is bring forth by the adoption of new technologies. To this regard, several authors have underlined the importance of a sound betrothal of shop-floor workers (Sommer, 1998, Weill et al., 1991).Valuable relevance has as well as been placed in the referring writings to technological paradoxs, such as the clumsiness of MRP systems to optimize the intrinsic workflow. In fact, frequent changes in schedules, a problem referred to as production nervousness, is an obstacle to successful effectuation of MRP systems (Duchessi et al., 1998).Material Requirements supply (MRP) has fallen into separate in 1980s, as demonstrated by the extensive literature and congregation material coming out of organizations like the Ameri erect Production and scroll Control Society (APICS) which discuss its shortcomings (Berger, 1987). MRP has received unfaltering challenges of its legalness from Japan. It is believed that the only thing which is still keeping so many manufacturers with MRP is the difficulty in converting to other (Plenert, 1999). Looking at MRPs basic philosophy, we should be able to focus our scheduling only on what materials are require, and when they are take (Plenert, 1990b, Ritzman et al., 1984, trail and Aquilano, 1995, Lee and Schniederjans, 1994, Nahmias, 1997, Schroder et al., 1981). MRP allows greater flexibility in produ ct customization.The most translucent shortcoming in MRP usage is its focus on labor efficiency. outwear is not the resource that we need to be in force(p) at, especially since it causes inefficiencies in our most critical resource, materials. We need to minimize our routings, trim back lead times as much as possible. We need to do our buffering using safety content (labor and machine capacity buffers), not safety stock (materials capacity buffers) (Plenert, 1999). We should minimize the non- take to be-added locomote to make them as high up-octane as possible. The other big builders of register are time and the oversized passel size.3.1.2 Manufacturing imaging readiness (MRP II)The theory of MRPII has been well discussed in the literature and focuses are usually put on concept, methodology, application and future development (Ip and Yam, 1998). MRP II (Manufacturing vision formulation) is a hierarchically structured breeding system which is based on the idea of do gmatic all flows of materials and goods by incorporate the plans of sales, finance and operations. The levels in an MRP II concept as outlined are applied to twain plans in peculiar(a) (Zapfel, 1996)Business Planning including option Requirements Planning (RRP) and insure Production programming (MPS) including Rough-cut Capacity Planning (RCCP).Business planning level of a company identifies its objectives. The moving in plan integrates the plans from sales, finance and operations. The aforethought(ip) integrality sales income, the mean exist of sales and operations, and all other expenses per planning period post a foundation for calculating the planned net income of the firm. The planning horizon is often a year or longer and a planning period a month or longer. To be executable, the production plan is examined by the supposed resource requirements planning (RRP) that is, the resources required by a given center production plan nates be calculated. MRP II allows a ffectation capabilities and marries the in operation(p) system with the pecuniary system so that what-if questions roll in the hay be answered using the software system. If the origin concern plan leads to resource requirements which are not feasible or which are unsatisfactory, the user abide change the plan and a new seeming run is started to calculate the modified resource requirements. These steps can be repeated until a feasible and satisfactory art plan is achieved. The aggregate production plan, accepted by the user, forms an important bag for master production scheduling.MRP II tends to link manufacturing, engineering, marketing, finance and management (Yusuf and Little, 1998) production operations- broth production control, purchasing with production planning, Capacity Planning and Master Scheduling (Turbide, 1990) sales, logistics, production, engineering and buy ating functions, the broad ingredients of almost all Manufacturing organization (Ip and Yam, 1998). I t may also include costumer service- order entry, sales psychodepth psychology, forecasting- with fiscal applications. The entireness is a single information control system that shares data among the discordant applications for the mutual benefit (Turbide, 1990). MRP II operates in a pull dash at the planning level. It is used for high-level planning of demand and inventory functions and preliminary capacity evaluations.Ip and Yam (1998) afford a master plan which integrates the technology and management of the strategic elements, problem definition, MRP II solutions, technical and procedural design, and slaying management in order to minimize the licking and conflicts universally found in MRP II implementation process as well as to reduce disconnection amongst different stages of the implementation process.ideally MRP II addresses functional planning in units financial planning in money terms, and has simulation capability to answer what-if questions. It is made up of a vari ety of functions, individually linked together business planning, production planning, master production scheduling, material requirements planning, capacity requirements planning and the execution systems for capacity and priority. Outputs from these systems would be incorporate with financial reports, such as the business plan, purchase perpetration report, chipping budget, inventory production in money terms, etc. Manufacturing Resource Planning is a direct outgrowth and extension of a Material Resource Planning (MRP) (Higgins et al., 1998).3.1.2.1 MRP II definitionsIf I had to sum up MRP II in one word, the word I would choose is discipline. Allowed three words, they would be discipline/ feat amount Sheldon (1991). He detailed the total implementation process, from inception to extremity and divided the process into six steps, namely, education, common goal, fittingness for use, accountability, consummation measurement and systems/tools. In display panel 3.1, the defini tion of MRP II is summarized. hedge 3.1 comment of MRP IIDefinitionReferenceMRP II is a clear process or set of calculations that is used to develop plans for the acquisition of the materials needed for production.(Turbide, 1990)MRP II is an information control philosophy that is often translated into software products containing, among other capabilities the MRP calculation function.MRP II is a system designed for managing all the resources of a manufacturing company. It consists of a broad set of planning tools and techniques which integrate all functional areas of an organization(Tremblay, 1991)MRP II is a method for the trenchant planning of all resources of a manufacturing company.(Dougherty and Wallace, 1992)Manufacturing resource planning (MRP II) is a long promising method that simplifies all the complex tasks of manufacturing management.(Chambers, 1996)MRP II is a hierarchically structured information system which is based on the idea of controlling all flows of material s and goods by integrating the plans of sales, finance and operations.(Zapfel, 1996)Manufacturing Resource Planning (MRP II) is a structured approach to optimize a companys internal Supply Chain.(Higgins et al., 1998)MRP II is a method for the effective planning of all resources of the manufacturing company.MRP II is an effective management system that has excellent planning and scheduling capability which can offer prominent increases in node service, significant gains in productivity, much higher inventory turns, and greater lessening in material be.(Ip and Yam, 1998)MRP II system is a proactive materials strategy. It is a dynamic system and can adapt to change as it reflects upon the in vogue(p) information in its planned order releases.(Towers et al., 2005)3.1.2.2 MRP II benefitsThe potential benefits those may receive from the MRP II are summarized below verifiable research suggests that companies able to implement MRP II success to the full report raise competitive read ys, change customer service levels, a better financial position, increased plant efficiency, heightened morale in production, more effective co-ordination with marketing and finance, more efficient production scheduling and reduce inventory levels, less component shortages, reduced manufacturing costs and lead times and improvements in inventory turnover (Humphreys et al., 2001, Brown and Roberts, 1992, Roberts and Barrar, 1992).When customers and suppliers (internal or outside(a)) request information that have been fully integrated doneout the Supply Chain or when executives require integrated strategies and manoeuvre in areas such as manufacturing, inventory, procurement and accounting, MRP II systems collate the data for outline and transform the data into useful information that companies can use to bide business decision- do (Broatch, 2001).MRP II systems, if utilise successfully, enhance and plan business processes to avert non-value-added activities and allow comp anies to focus on core and sincerely yours value-added activities (Broatch, 2001).The focus of MRP II computer systems is on the efficiency and effectiveness of the internal processes. It offers a modal value to streamline and align business processes, increase operational and manufacturing efficiencies and bring order out of chaos (Nah, 2002).MRP II systems minimize the time and effort required to process business data and maximizes the application of that information. By facilitating data central throughout the organization, a MRP II system enables to adjust such crucial activities as production planning, material planning, capacity planning and shop floor control (Plenert, 1999).MRP II is concerned mainly with scheduling of activities and the management of inventories. It is peculiarly useful where there is a need to raise components, items or sub-assemblies, which themselves are later used in the production of a final product. Organizations can improve their overall custom er service through consistently meet deli genuinely promises, shortening delivery times and having products on hand when customer orders are received. MRP II can provide the indispensable management information to ensure delivery promises can be kept. Where there is volatility in demand with unpredictable customer requirements and complex product structures, the information management capability of MRP II is particularly relevant (Towers et al., 2005).A well implemented MRP II system can provide an organization with reliable lead times meet its service delivery performance requirements contribute to immutable and consistent lead times and well advised decision-making maintain overthrow level of safety stock reduce the total inventory level and reduce inventory investments to a minimum (Towers et al., 2005).The misgiving of demand can be minimized ascribable to the fact that MRP II can provide an organization with a clear picture of the demand for a particular item and when o rganizations know their future needs they can negotiate their purchase agreements with suppliers and receive quantity discounts improving their financial position (Towers et al., 2005).Successful MRP II users have typically reported as much as 15 percentage gain in manufacturing productivity, 50 percent reduction in overtime, 33 percent reduction in inventory investment and 80 percent reduction in inventory shortages (Towers et al., 2005). MRP II provides better control over the quantity and timing of deliveries of raw materials, parts, sub-assemblies and assemblies to production operations.3.1.2.3 Pitfalls of MRP IIThe main pitfalls of MRP II from various authenticated literature are listed below brilliant though the benefits are, there is evidence suggesting that, as with so many alike technologies, few companies are able to maximize them. purity et al. (1982) consider that 50 per cent of organizations do not achieve their objectives. bowman (1991) has said that 70 per cent of systems may be regarded as failures. Ho et al. (1992) has stated that few firms have been able to realize the full potential offered by MRP II. While relative percentages of successful and unsuccessful implementations differ from drive to study, each demonstrates a surprisingly high failure rate. performance of MRP II system requires major(ip) managerial innovations and organizational changes in addition to the installation of computer computer hardware and software (Lau et al., 2002).The heart of an MRP II system is MRP. MRP II does consider resource capacity level when generating the POR schedule. If an overload is identified, it will wilt and recommend the user to reschedule. The question is how frequent should the user reschedule? both(prenominal) Ho et al. (1995) and Sridharan and LaForge (1989) showed that rescheduling induces system nervousness, which leads to further underperformance.MRP II has been criticized by a number of authors on the crusade that few benefits acc rue for high implementation costs (Burns et al., 1991, Sum and Yang, 1993). unrewarded MRP II implementation not only deprives companies of potentially huge benefits but also results in financial losses and disruptions in operations (Towers et al., 2005).MRP II concept is only partially suited to production planning in the case of uncertain demand. There is little function with the necessary gathering and disaggregation process, especially when demand uncertainty exists. It is difficult for the user of MRP II to attain a robust aggregate plan for master production schedule (Zapfel, 1996).Critics of MRP II points to the rigidity of the process the logic that demands batches and sevenfold the fixed lead time which takes no account of current capacity the standard stand concept in front of a work center etc. Increasing competitive pressure, manifested by reduced lead times, slighter batch sizes, lower stocks and ever more demanding customers have pushed MRP II to its limits (Por ter et al., 1996).3.1.2.4 Reasons for failure atomic number 53 of the principal reasons for the failure of MRP II and other large technologically sophisticated systems is that organizations simply underestimate the extent to which they have to change in order to assimilate what is in reality a new way of running play the company (Humphreys et al., 2001).MRP II failure have embraced technical problems the difficulties compound in selecting and evaluating cost effective MRP II packages and a army of historical, cultural, structural and managerial issues (White, 1980, Kinnie et al., 1992, Wight, 1990, Wilson et al., 1994) expertise needed to implement and use effective MRP II systems lead times management design of the production environment, routing and musical note information sempiternal capacity availability batch and lot coat (Higgins et al., 1998).An accurate demand forecast is an essential foundation for the successful operation of an MRP II system. low sales forecasting had been identified by of age(p) management as one of the main reasons for the MRP II implementation failure (Humphreys et al., 2001).3.1.3 Enterprise Resource Planning (ERP)The Gartner Group of Stamford, CT, USA, coined the term ERP in the early 1970s to hunt the business software system. The name ERP was derived from the terms material requirements planning (MRP) and manufacturing resource planning (MRP II). The maturity stage of ERP occurred in the mid-1990s. ERP is the third generation of planning software. Material requirements planning (MRP) was the first generation, manufacturing resource planning (MRP II) the second and ERP the third. The principal(a) purpose of ERP is to create a seamless integration of interrelated information throughout the business organization. A system of software programs is used to develop the necessary links between the various business functions so that needed information is readily available. There are 8 (eight) major functions and 33 (thirty t hree) sub-functions, as well as 22 (twenty two) primary modules and several sub-modules (Umble et al., 2001). A typical ERP implementation takes anywhere from one to louver years (Mabert et al., 2003). ERP system is not just a pure software package to be tailored to an organization but an organizational root that touch ons how people work and that it imposes its own logic on a companys strategy, organization, and elaboration (Shehab et al., 2004, Davenport, 1998, Lee and Lee, 2000).3.1.3.1 Definition of ERPWhen customers and suppliers request information that have been fully integrated throughout the value chain or when executives require integrated strategies and tactics in areas such as manufacturing, inventory, procurement and accounting, ERP systems collect the data for analysis and transform the data into useful information that companies can use to support business decision-making. They allow companies to focus on core and truly value-added activities (Nah, 2002). These ac tivities cover accounting and financial management, human resources management, manufacturing and logistics, sales and marketing, and customer relationship management. add-in 3.2 shows definitions of ERP, cited in different literatures.Table 3.2 Definition of ERPDefinitionReferenceERP systems are enterprise-wide on-line interactive systems that support cross-functional processes using a common database. ERP systems are designed to provide, at least in theory, seamless integration of processes crossways functional areas with modify workflow, standardization of various business practices, and access to real time up-to-date data.(Davenport, 1998)ERP systems are complex and implementing one can be a challenging, time overwhelming and expensive encounter for any company.ERP is not only an IT solution, but also a strategic business solution. As an IT solution, ERP system, if implemented fully crosswise an entire enterprise, connects various components of the enterprise through a logi cal transmission and sharing of data.(Norris et al., 2000)ERP is a commodity, a product in the form of computer software.(Klaus et al., 2000)ERP is a development objective of mapping all processes and data of an enterprise into a comprehensive integrative structure.ERP is a key element of an bag that delivers a solution to business.ERP a method for the effective planning and controlling of all the resources needed to take, make, ship and account for customer orders in a manufacturing, distribution or service company.(Nah, 2002)ERP system is a packaged business software system that allows a company to automatize and integrate the volume of its business processes, and share common data and practices across the entire enterprise.(Seddon et al., 2003)ERP is a do it all system that performs everything from entry of sales orders to customer service. It attempts to integrate the suppliers and customers with the manufacturing environment of the organization.(Shehab et al., 2004)3.1.3.2 B enefits of ERPERP systems have certain advantages such as low run cost and improving customer service (Shehab et al., 2004). In implementing an ERP solution, an organization can quickly upgrade its business processes to industry standards, pickings advantage of the many years of business systems reengineering and integration experience of the major ERP vendors (Myerson, 2002). The practical benefits of ERP are divided into five aspects by Seddon et al. (2003) operational, managerial, strategic, IT groundwork, and organizational (Table 3.3).Table 3.3 Benefits of ERPOperational benefitsBy automating business processes and enabling process changes, they can offer benefits in terms of cost reduction, cycle term reduction, productivity improvement, choice improvement, and change customer service.Managerial benefitsWith centralized database and built-in data analysis capabilities, they can table service an organization achieve better resource management, improved decision making and planning, and performance improvement.Strategic benefitsWith large-scale business involvement and internal/external integration capabilities, they can assist in business growth, alliance, innovation, cost, differentiation, and external linkages.IT infrastructure benefitsWith integrated and standard application architecture, they support business flexibility, reduced IT cost and marginal cost of business units IT, and increased capability for quick implementation of new applications.Organizational benefitsThey affect the growth of organizational capabilities by bread and butter organization structure change, facilitating employee learning, empowering workers, and building common visions.3.1.3.3 Disadvantages of ERPERP systems have some disadvantages due to the tight integration of application modules and data. Huge terminal needs, networking requirements and training overheads are frequently mentioned ERP problems. However, the scale of business process re-engineering (BPR) and cus tomizations tasks involved in the software implementation process are the major reasons for ERP dissatisfaction. ERP projects are large, costly and difficult and that they require large investment in corking and staff and management time (Adam and ODoherty, 2000). Yen et al. (2002) identified the following disadvantages of ERPIts high cost prevents small businesses from setting up an ERP systemThe privacy concern within an ERP systemLack of trained people may affect ERPs efficiency implementation of an ERP project is painfulCustomization is costly and time-consuming.Some of these shortcomings have been discussed by OConnor and Dodd (2000). Implementation of an ERP system is an extensive, lengthy and costly process, typically measured in trillions of dollars. An ERP implementation can take many years to be completed and cost tens of millions of dollars for a moderate size firm and upward of $100 million for large international organizations (Mabert et al., 2000). Even with signif icant investments in time and resources, there is no guarantee of a successful force (Mabert et al., 2003). According to Shehab et al. (2004), the ERP systems are complex and implementing one can be difficult, time-consuming and expensive project for a company. It costs tens of millions of dollar for a average sized company and $300-500 million for large international corporations. There are also some possible hidden costs that may include losing some very intelligent employees after the initial implementation is done, revenant impManufacturing Resource Planning ModelsManufacturing Resource Planning ModelsManufacturing Resource Planning Models under Uncertainty and Commonality for Multi-products Multi-period Multistage Production EnvironmentChapter 3 Literature ReviewIn this chapter, the following areas of research are investigated to lay the foundation for the intended mathematical models manufacturing resources planning background, benefits and limitations manufacturing resour ces planning models under different uncertainties and commonality in manufacturing resources planning models.3.1 Evolution of manufacturing environmentThe field of production planning and control has undergone tremendous change in the last 50 years. Prior to the 1960s, inventory was controlled by a manual system, utilizing various techniques stock replenishment, place points, EOQ (economic order quantity) (McGarrie, 1998), and ABC classifications, to name a few (Ptak, 1991). Gilbert and Schonberger (1983) provide a history of production control, while Lee (1993) comments that by the mid-1970s, enough experience of material requirements planning (MRP) had been gained and the importance of the master production schedule (MPS) was realized.In the 1950s, MRP were the first off-the-shelf business applications to support the creation and maintenance of material master data and bill-of-materials (demand-based 14 planning) across all products and parts in one or more plants. These early pa ckages were able to process mass data but only with limited processing depth (Klaus et al., 2000). From the 1940s to the early 1960s, material control consisted of basic order point formulae used to maintain a level average inventory balance. In 1965, Joseph Orlicky of the J. I. Case Company devised a new approach to material management, called material requirement planning (MRP) to serve as a platform to answer four questions, known as the Universal Manufacturing Equation (Towers et al., 2005) What are we going to make, What does it take to make, What do we have and What do we have to get.The respective answer of the first three questions lie in the blueprint of production plan the master production schedule (MPS), the bill of material (BOM) and the physical inventory records themselves. While MRP was certainly a vast improvement over simple manual method, the potential to stretch its boundary even further was soon recognized. A companys production is constrained by not only its in ventory need but also by equipment and personnel capacity, facet of the plant not considered in the Universal Manufacturing Equation. MRP at its core is a time phased order release system that schedules and releases manufacturing work orders and purchase orders, so that sub-assemblies and components arrive at the assembly station just as they are required. As competitive pressures increased and users became more sophisticated, MRP evolved and expanded to include more business functions such as product costing and marketing.In 1975 the next generation system, Closed-Loop MRP, integrated capacity factors into the MRP structure and used feedback on production status to maintain the validity of planning decisions as requirements changed. One crucial link in the manufacturing decision chain was still missing- the financial point of view. With advent of computer system in the early 1980s the development of effective shop-floor scheduling tools had at that time been dominated by the top do wn approach of manufacturing resource planning known as MRP II for controlling production operations (Towers et al., 2005).The introduction of MRP II five years later served to bridge the gap. The operational Closed-Loop MRP plan, presented in material units such as pieces and pounds, was translated into financial dollar terms, enabling the entire organization to work off a single set of data. Simulation capability was also developed to answer what if planning questions with action oriented replies. A major purpose of MRP II is to integrate primary functions (i.e. production, marketing and finance) and other functions such as personnel, engineering and purchasing into the planning process to improve the efficiency of the manufacturing enterprise (Chen, 2001, Chung and Snyder, 2000, Mabert et al., 2001). MRP II has certain extensions like rough cut capacity planning and capacity requirements planning for production scheduling on the shop floor as well as feedback from manufacturing shops on the progress of fabrication.Since the 1980s, the number of MRP II installations has continued to increase, as MRP II applications became available on mini and micro computers (Siriginidi, 2000). Like MRP, MRP II focused on the manufacturing process. Then MRP II was extended towards the more technical areas that cover the product development and production processes. Computer Integrated Manufacturing (CIM) supplied the entire conceptual framework for the integration of all business administrative and technical functions of a company, such as finance, sales and distribution, and human resources (Klaus et al., 2000). The next stage of MRP II evolution was just-in-time (JIT) methodology that combined with the plummeting price of computing to create the islands of automation in late 1980s.Over the last 60 years, many PPC systems and philosophies have been developed. These include material requirements planning (MRP), manufacturing resource planning (MRP II), enterprise resource planning (ERP), just in time (JIT), optimized production technology (OPT), advanced production scheduling (APS), supply chain management (SCM) and customer relationship management (CRM), either used individually or jointly (Koh, 2004).3.1.1 Material requirement planning (MRP)Kulonda (2000) descried the evolution of MRP, dividing it in three different worlds. In the first world, MPS items typically are finished end items made to stock MPS is stated in terms of forecast item demand converted to a series of production lots via time-phased order points or other rules. In the second world, the MPS could conceivably be stated as end items built entirely to order. If response time were not an issue, this approach would work quite well. Competitive force, however, often require shorter response times and inevitably some stocking of at least the longest lead time items occur. A relatively large number of different components are assembled to complete an end product that may have many specifi c variants. The third world of MRP has all the complexity of the second world with the additional complication that relatively numerous end items are built from relatively few raw materials. This can be visualized in part level count charts shown in 3.1.Within the MRP system a number of rules need to be specified. They include acceptable lot sizes, safety stocks and reject allowances. There are three principles of MRP. They are dependent on demand for the final product netting of inventory with expected deliveries and open orders to give a balance on-hand and time phasing by using information on lead times and needs. Three basic MRP inputs to the system are master production schedule (MPS) the structured BOM for the MPS and information on inventories, open orders and lead times.The aim of MRP systems is to minimize cost of inventories and maintain customer service levels. MRP benefits include the ability to rapidly re-plan and re-schedule in response to changes in a dynamic environm ent. It is flexible and responsive to the customer needs (Hines, 2004). The successes and disappointments of MRP as well as the key shortcomings of MRP (material requirement planning) are studied by Plenert (1999). He investigates consequences of the deficiencies means if they are not corrected. The difficulties encountered by firms in the implementation process of MRP may be traced back to a number of factors.The complexity of MRP systems, which, of course, is a relative concept varying according to the level of knowledge and experience available inside the firm prior to implementation (Wortmann, 1998, Wilson et al., 1994, Luscombe, 1994). There are usually several parameters to be initiated when implementing standard software.A considerable amount of intensive training is required. In fact, even though end-users are usually trained on a limited amount of functionality, key users need to acquire considerable technical competence.The organizations simply under-estimate the extent to which they have to change in order to accommodate their purchase. The effective management of technological change requires transformational leadership (Brown, 1994).One of the issues largely felt as critical concerns the resistance of managers and personnel to the organizational change that is induced by the adoption of new technologies. To this regard, several authors have underlined the importance of a sound involvement of shop-floor workers (Sommer, 1998, Weill et al., 1991).Valuable relevance has also been placed in the referring literature to technological problems, such as the unsuitability of MRP systems to optimize the internal workflow. In fact, frequent changes in schedules, a problem referred to as production nervousness, is an obstacle to successful implementation of MRP systems (Duchessi et al., 1998).Material Requirements Planning (MRP) has fallen into disfavor in 1980s, as demonstrated by the extensive literature and conference material coming out of organizations l ike the American Production and Inventory Control Society (APICS) which discuss its shortcomings (Berger, 1987). MRP has received strong challenges of its effectiveness from Japan. It is believed that the only thing which is still keeping so many manufacturers with MRP is the difficulty in converting to other (Plenert, 1999). Looking at MRPs basic philosophy, we should be able to focus our scheduling only on what materials are needed, and when they are needed (Plenert, 1990b, Ritzman et al., 1984, Chase and Aquilano, 1995, Lee and Schniederjans, 1994, Nahmias, 1997, Schroder et al., 1981). MRP allows greater flexibility in product customization.The most obvious shortcoming in MRP usage is its focus on labor efficiency. Labor is not the resource that we need to be efficient at, especially since it causes inefficiencies in our most critical resource, materials. We need to minimize our routings, shortening lead times as much as possible. We need to do our buffering using safety capacit y (labor and machine capacity buffers), not safety stock (materials capacity buffers) (Plenert, 1999). We should minimize the non-value-added steps to make them as efficient as possible. The other big builders of inventory are time and the large batch size.3.1.2 Manufacturing Resource Planning (MRP II)The theory of MRPII has been well discussed in the literature and focuses are normally put on concept, methodology, application and future development (Ip and Yam, 1998). MRP II (Manufacturing Resource Planning) is a hierarchically structured information system which is based on the idea of controlling all flows of materials and goods by integrating the plans of sales, finance and operations. The levels in an MRP II concept as outlined are applied to two plans in particular (Zapfel, 1996)Business Planning including Resource Requirements Planning (RRP) andMaster Production Scheduling (MPS) including Rough-cut Capacity Planning (RCCP).Business planning level of a company identifies its o bjectives. The business plan integrates the plans from sales, finance and operations. The planned aggregate sales income, the planned cost of sales and operations, and all other expenses per planning period provide a basis for calculating the planned net income of the firm. The planning horizon is often a year or longer and a planning period a month or longer. To be feasible, the production plan is examined by the so-called resource requirements planning (RRP) that is, the resources required by a given aggregate production plan can be calculated. MRP II offers simulation capabilities and marries the operating system with the financial system so that what-if questions can be answered using the software system. If the business plan leads to resource requirements which are not feasible or which are unsatisfactory, the user can change the plan and a new simulation run is started to calculate the modified resource requirements. These steps can be repeated until a feasible and satisfactor y business plan is achieved. The aggregate production plan, accepted by the user, forms an important basis for master production scheduling.MRP II tends to link manufacturing, engineering, marketing, finance and management (Yusuf and Little, 1998) production operations-inventory production control, purchasing with production planning, Capacity Planning and Master Scheduling (Turbide, 1990) sales, logistics, production, engineering and funding functions, the broad ingredients of almost all Manufacturing organization (Ip and Yam, 1998). It may also include costumer service- order entry, sales analysis, forecasting- with financial applications. The total is a single information control system that shares data among the various applications for the mutual benefit (Turbide, 1990). MRP II operates in a pull manner at the planning level. It is used for high-level planning of demand and inventory functions and preliminary capacity evaluations.Ip and Yam (1998) afford a master plan which in tegrates the technology and management of the strategic elements, problem definition, MRP II solutions, technical and procedural design, and implementation management in order to minimize the frustration and conflicts universally found in MRP II implementation process as well as to reduce disconnection amongst different stages of the implementation process.Ideally MRP II addresses operational planning in units financial planning in money terms, and has simulation capability to answer what-if questions. It is made up of a variety of functions, each linked together business planning, production planning, master production scheduling, material requirements planning, capacity requirements planning and the execution systems for capacity and priority. Outputs from these systems would be integrated with financial reports, such as the business plan, purchase commitment report, chipping budget, inventory production in money terms, etc. Manufacturing Resource Planning is a direct outgrowth an d extension of a Material Resource Planning (MRP) (Higgins et al., 1998).3.1.2.1 MRP II definitionsIf I had to sum up MRP II in one word, the word I would choose is discipline. Allowed three words, they would be discipline/performance measurement Sheldon (1991). He detailed the total implementation process, from inception to completion and divided the process into six steps, namely, education, common goal, fitness for use, accountability, performance measurement and systems/tools. In Table 3.1, the definition of MRP II is summarized.Table 3.1 Definition of MRP IIDefinitionReferenceMRP II is a well-defined process or set of calculations that is used to develop plans for the acquisition of the materials needed for production.(Turbide, 1990)MRP II is an information control philosophy that is often translated into software products containing, among other capabilities the MRP calculation function.MRP II is a system designed for managing all the resources of a manufacturing company. It consists of a comprehensive set of planning tools and techniques which integrate all functional areas of an organization(Tremblay, 1991)MRP II is a method for the effective planning of all resources of a manufacturing company.(Dougherty and Wallace, 1992)Manufacturing resource planning (MRP II) is a long promising method that simplifies all the complex tasks of manufacturing management.(Chambers, 1996)MRP II is a hierarchically structured information system which is based on the idea of controlling all flows of materials and goods by integrating the plans of sales, finance and operations.(Zapfel, 1996)Manufacturing Resource Planning (MRP II) is a structured approach to optimize a companys internal Supply Chain.(Higgins et al., 1998)MRP II is a method for the effective planning of all resources of the manufacturing company.MRP II is an effective management system that has excellent planning and scheduling capability which can offer dramatic increases in customer service, significant gains in productivity, much higher inventory turns, and greater reduction in material costs.(Ip and Yam, 1998)MRP II system is a proactive materials strategy. It is a dynamic system and can adapt to change as it reflects upon the latest information in its planned order releases.(Towers et al., 2005)3.1.2.2 MRP II benefitsThe potential benefits those may receive from the MRP II are summarized belowEmpirical research suggests that companies able to implement MRP II successfully report enhanced competitive positions, improved customer service levels, a better financial position, increased plant efficiency, heightened morale in production, more effective co-ordination with marketing and finance, more efficient production scheduling and reduced inventory levels, fewer component shortages, reduced manufacturing costs and lead times and improvements in inventory turnover (Humphreys et al., 2001, Brown and Roberts, 1992, Roberts and Barrar, 1992).When customers and suppliers (internal or ex ternal) request information that have been fully integrated throughout the Supply Chain or when executives require integrated strategies and tactics in areas such as manufacturing, inventory, procurement and accounting, MRP II systems collate the data for analysis and transform the data into useful information that companies can use to support business decision-making (Broatch, 2001).MRP II systems, if implemented successfully, enhance and redesign business processes to eliminate non-value-added activities and allow companies to focus on core and truly value-added activities (Broatch, 2001).The focus of MRP II computer systems is on the efficiency and effectiveness of the internal processes. It offers a way to streamline and align business processes, increase operational and manufacturing efficiencies and bring order out of chaos (Nah, 2002).MRP II systems minimize the time and effort required to process business data and maximizes the application of that information. By facilitatin g data exchange throughout the organization, a MRP II system enables to coordinate such crucial activities as production planning, material planning, capacity planning and shop floor control (Plenert, 1999).MRP II is concerned mainly with scheduling of activities and the management of inventories. It is particularly useful where there is a need to produce components, items or sub-assemblies, which themselves are later used in the production of a final product. Organizations can improve their overall customer service through consistently meeting delivery promises, shortening delivery times and having products on hand when customer orders are received. MRP II can provide the necessary management information to ensure delivery promises can be kept. Where there is volatility in demand with unpredictable customer requirements and complex product structures, the information management capability of MRP II is particularly relevant (Towers et al., 2005).A well implemented MRP II system can provide an organization with reliable lead times meet its service delivery performance requirements contribute to stable and consistent lead times and well informed decision-making maintain lower level of safety stock reduce the average inventory level and reduce inventory investments to a minimum (Towers et al., 2005).The uncertainty of demand can be minimized due to the fact that MRP II can provide an organization with a clear picture of the demand for a particular item and when organizations know their future needs they can negotiate their purchase agreements with suppliers and receive quantity discounts improving their financial position (Towers et al., 2005).Successful MRP II users have typically reported as much as 15 percent gain in manufacturing productivity, 50 percent reduction in overtime, 33 percent reduction in inventory investment and 80 percent reduction in inventory shortages (Towers et al., 2005). MRP II provides better control over the quantity and timing of delive ries of raw materials, parts, sub-assemblies and assemblies to production operations.3.1.2.3 Pitfalls of MRP IIThe main pitfalls of MRP II from various authenticated literature are listed belowImpressive though the benefits are, there is evidence suggesting that, as with so many similar technologies, few companies are able to maximize them. White et al. (1982) consider that 50 per cent of organizations do not achieve their objectives. Archer (1991) has said that 70 per cent of systems may be regarded as failures. Ho et al. (1992) has stated that few firms have been able to realize the full potential offered by MRP II. While relative percentages of successful and unsuccessful implementations differ from study to study, each demonstrates a surprisingly high failure rate.Implementation of MRP II system requires major managerial innovations and organizational changes in addition to the installation of computer hardware and software (Lau et al., 2002).The heart of an MRP II system is MRP . MRP II does consider resource capacity level when generating the POR schedule. If an overload is identified, it will flag and recommend the user to reschedule. The question is how frequent should the user reschedule? Both Ho et al. (1995) and Sridharan and LaForge (1989) showed that rescheduling induces system nervousness, which leads to further underperformance.MRP II has been criticized by a number of authors on the grounds that few benefits accrue for high implementation costs (Burns et al., 1991, Sum and Yang, 1993). Unsuccessful MRP II implementation not only deprives companies of potentially huge benefits but also results in financial losses and disruptions in operations (Towers et al., 2005).MRP II concept is only partially suited to production planning in the case of uncertain demand. There is little help with the necessary aggregation and disaggregation process, especially when demand uncertainty exists. It is difficult for the user of MRP II to find a robust aggregate pl an for master production schedule (Zapfel, 1996).Critics of MRP II points to the rigidity of the process the logic that demands batches and multiple the fixed lead time which takes no account of current capacity the standard queue concept in front of a work center etc. Increasing competitive pressure, manifested by reduced lead times, smaller batch sizes, lower stocks and ever more demanding customers have pushed MRP II to its limits (Porter et al., 1996).3.1.2.4 Reasons for failureOne of the principal reasons for the failure of MRP II and other large technologically sophisticated systems is that organizations simply underestimate the extent to which they have to change in order to assimilate what is in reality a new way of running the company (Humphreys et al., 2001).MRP II failure have embraced technical problems the difficulties involved in selecting and evaluating cost effective MRP II packages and a host of historical, cultural, structural and managerial issues (White, 1980, Ki nnie et al., 1992, Wight, 1990, Wilson et al., 1994) expertise needed to implement and use effective MRP II systems lead times management design of the production environment, routing and quality information Infinite capacity availability batch and lot sizing (Higgins et al., 1998).An accurate demand forecast is an essential foundation for the successful operation of an MRP II system. Poor sales forecasting had been identified by senior management as one of the main reasons for the MRP II implementation failure (Humphreys et al., 2001).3.1.3 Enterprise Resource Planning (ERP)The Gartner Group of Stamford, CT, USA, coined the term ERP in the early 1970s to describe the business software system. The name ERP was derived from the terms material requirements planning (MRP) and manufacturing resource planning (MRP II). The maturity stage of ERP occurred in the mid-1990s. ERP is the third generation of planning software. Material requirements planning (MRP) was the first generation, manuf acturing resource planning (MRP II) the second and ERP the third. The primary purpose of ERP is to create a seamless integration of interrelated information throughout the business organization. A system of software programs is used to develop the necessary links between the various business functions so that needed information is readily available. There are 8 (eight) major functions and 33 (thirty three) sub-functions, as well as 22 (twenty two) primary modules and several sub-modules (Umble et al., 2001). A typical ERP implementation takes anywhere from one to five years (Mabert et al., 2003). ERP system is not just a pure software package to be tailored to an organization but an organizational infrastructure that affects how people work and that it imposes its own logic on a companys strategy, organization, and culture (Shehab et al., 2004, Davenport, 1998, Lee and Lee, 2000).3.1.3.1 Definition of ERPWhen customers and suppliers request information that have been fully integrate d throughout the value chain or when executives require integrated strategies and tactics in areas such as manufacturing, inventory, procurement and accounting, ERP systems collect the data for analysis and transform the data into useful information that companies can use to support business decision-making. They allow companies to focus on core and truly value-added activities (Nah, 2002). These activities cover accounting and financial management, human resources management, manufacturing and logistics, sales and marketing, and customer relationship management. Table 3.2 shows definitions of ERP, cited in different literatures.Table 3.2 Definition of ERPDefinitionReferenceERP systems are enterprise-wide on-line interactive systems that support cross-functional processes using a common database. ERP systems are designed to provide, at least in theory, seamless integration of processes across functional areas with improved workflow, standardization of various business practices, and access to real-time up-to-date data.(Davenport, 1998)ERP systems are complex and implementing one can be a challenging, time consuming and expensive project for any company.ERP is not only an IT solution, but also a strategic business solution. As an IT solution, ERP system, if implemented fully across an entire enterprise, connects various components of the enterprise through a logical transmission and sharing of data.(Norris et al., 2000)ERP is a commodity, a product in the form of computer software.(Klaus et al., 2000)ERP is a development objective of mapping all processes and data of an enterprise into a comprehensive integrative structure.ERP is a key element of an infrastructure that delivers a solution to business.ERP a method for the effective planning and controlling of all the resources needed to take, make, ship and account for customer orders in a manufacturing, distribution or service company.(Nah, 2002)ERP system is a packaged business software system that allows a co mpany to automate and integrate the majority of its business processes, and share common data and practices across the entire enterprise.(Seddon et al., 2003)ERP is a do it all system that performs everything from entry of sales orders to customer service. It attempts to integrate the suppliers and customers with the manufacturing environment of the organization.(Shehab et al., 2004)3.1.3.2 Benefits of ERPERP systems have certain advantages such as low operating cost and improving customer service (Shehab et al., 2004). In implementing an ERP solution, an organization can quickly upgrade its business processes to industry standards, taking advantage of the many years of business systems reengineering and integration experience of the major ERP vendors (Myerson, 2002). The practical benefits of ERP are divided into five aspects by Seddon et al. (2003) operational, managerial, strategic, IT infrastructure, and organizational (Table 3.3).Table 3.3 Benefits of ERPOperational benefitsBy automating business processes and enabling process changes, they can offer benefits in terms of cost reduction, cycle term reduction, productivity improvement, quality improvement, and improved customer service.Managerial benefitsWith centralized database and built-in data analysis capabilities, they can help an organization achieve better resource management, improved decision making and planning, and performance improvement.Strategic benefitsWith large-scale business involvement and internal/external integration capabilities, they can assist in business growth, alliance, innovation, cost, differentiation, and external linkages.IT infrastructure benefitsWith integrated and standard application architecture, they support business flexibility, reduced IT cost and marginal cost of business units IT, and increased capability for quick implementation of new applications.Organizational benefitsThey affect the growth of organizational capabilities by supporting organization structure chan ge, facilitating employee learning, empowering workers, and building common visions.3.1.3.3 Disadvantages of ERPERP systems have some disadvantages due to the tight integration of application modules and data. Huge storage needs, networking requirements and training overheads are frequently mentioned ERP problems. However, the scale of business process re-engineering (BPR) and customizations tasks involved in the software implementation process are the major reasons for ERP dissatisfaction. ERP projects are large, costly and difficult and that they require large investment in capital and staff and management time (Adam and ODoherty, 2000). Yen et al. (2002) identified the following disadvantages of ERPIts high cost prevents small businesses from setting up an ERP systemThe privacy concern within an ERP systemLack of trained people may affect ERPs efficiencyImplementation of an ERP project is painfulCustomization is costly and time-consuming.Some of these shortcomings have been discu ssed by OConnor and Dodd (2000). Implementation of an ERP system is an extensive, lengthy and costly process, typically measured in millions of dollars. An ERP implementation can take many years to be completed and cost tens of millions of dollars for a moderate size firm and upwards of $100 million for large international organizations (Mabert et al., 2000). Even with significant investments in time and resources, there is no guarantee of a successful outcome (Mabert et al., 2003). According to Shehab et al. (2004), the ERP systems are complex and implementing one can be difficult, time-consuming and expensive project for a company. It costs tens of millions of dollar for a medium sized company and $300-500 million for large international corporations. There are also some possible hidden costs that may include losing some very intelligent employees after the initial implementation is done, continual imp