Sunday, May 24, 2020

Annotated Bibliography Post-Traumatic Stress Disorder

Post-Traumatic Stress Disorder (PTSD), Retrieved May 27, 2013, from the WebMD Website: HYPERLINK http://www.webmd.com/mental-health/post-traumatic-stress-disorder-ptsd http://www.webmd.com/mental-health/post-traumatic-stress-disorder-ptsd Post-Traumatic Stress Disorder (PTSD) plays an important role in providing information with regard to the disorder and thus makes it possible for readers to gain a more complex understanding of the condition. The article primarily documents the disorders background, the prevalence with which it happens, and reasons why individuals come to suffer from the condition. By emphasizing that PTSD is practically the bodys attempt to raise a persons awareness concerning the gravity of the situation that he or she has been in, the article makes it possible for readers to understand that one of the best way to fight the conditions harmful effects would be for the individual to acknowledge that he or she holds a great deal of power and that it is essential for him or her to make use of that power in order to improve his or her mental health. The article relates to the wide range of situations that can cause PTSD and to how people need to direct their attention toward familiarizing themselves with the disorders symptoms and seriousness before attempting to deal with it. Stein, Dan J., Seedat, Soraya, Iversen, Amy, and Wesley, Simona, (2007), Post-traumatic stress disorder: medicine and politics, 369: 139 44 This article is importantShow MoreRelatedLearning and Cognition Essay1306 Words   |  6 Pagesï » ¿ Annotated Bibliography: Foundation for a course Project PSYC 3500; Learning and Cognition U5A1: Annotated Bibliography Capella University November, 2013 Annotated Bibliography: Foundation for a course Project This paper contains an annotated bibliography for a paper which will serve as the final project for a course on the subject of learning and cognition. The paper for which this bibliography was prepared originally was to focus on whetherRead MoreAnnotated Bibliography: Domestic Violence and Its Effects on Children1382 Words   |  6 PagesAnnotated Bibliography: Domestic Violence and its effects on Children Groves, B.M. (1999). Mental Health Services for Children Who Witness Domestic Violence. The Future of Children, 9(3), 122-132. 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Wednesday, May 13, 2020

Slavery And Religion The English Colonies - 867 Words

Slavery and Religion in the English Colonies Many English immigrants came to America to seek religious freedom and some to improve their economic conditions. The concept of how slavery, thought by many colonists to be an economic necessity, was shaped and came to be rationalized and justified through Christian religious beliefs, is very interesting. The first English colonists settled in the Massachusetts colonies for religious reasons; to escape religious persecution in England as in the case of the Pilgrims or to start a new religious mission as with the Puritans. As the English crown sought to gain economically from the new world, their first successful settlements was in Jamestown, Virginia. Jamestown’s economic success thrived through the â€Å"brown gold† or tobacco market. Growing tobacco, which takes approximately nine months, was very labor intensive and required a large number of manual workers. At first, they tried to use Native American Indians as their workforce. 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Wednesday, May 6, 2020

Abc on Plant Performance Free Essays

Available online at www. sciencedirect. com Accounting, Organizations and Society 33 (2008) 1–19 www. We will write a custom essay sample on Abc on Plant Performance or any similar topic only for you Order Now elsevier. com/locate/aos The role of manufacturing practices in mediating the impact of activity-based costing on plant performance Rajiv D. Banker a, Indranil R. Bardhan b b,* , Tai-Yuan Chen c a Fox School of Business, Temple University, 1810 N. 13th Street, Philadelphia, PA 19122, USA The University of Texas at Dallas, School of Management, SM 41, 2601 N. Floyd Road, Richardson, TX 75083-0688, USA c School of Business and Management, Hong Kong University of Science and Technology, Clearwater Bay, Kowloon, Hong Kong, China Abstract We study the impact of activity-based costing (ABC) on adoption of world-class manufacturing (WCM) practices and plant performance. In contrast to earlier research that estimates the direct impact of ABC on plant performance, we develop an alternative research model to study the role of world-class manufacturing practices as a mediator of the impact of ABC. Analysis of data from a large cross-sectional sample of US manufacturing plants indicates that ABC has no signi? cant direct impact on plant performance, as measured by improvements in unit manufacturing costs, cycle time, and product quality. We ? nd, however, that WCM practices completely mediate the positive impact of ABC on plant performance, and thus advanced manufacturing capabilities represent a critical missing link in understanding the overall impact of ABC. Our results provide a di? rent conceptual lens to evaluate the relationship between ABC adoption and plant performance, and suggest that ABC adoption by itself does not improve plant performance. O 2006 Elsevier Ltd. All rights reserved. Introduction Activity-based costing (ABC) was designed with the objective of providing managers with accurate activity-based cost information by using cost drivers to assign activity costs to products * Corresponding author. Tel. : +1 972 883 2736; fax: +1 972 883 6811. E-mail addresses: banker@temple. edu (R. D. Banker), bardhan@utdallas. edu (I. R. Bardhan), acty@ust. k (T. -Y. Chen). and services. Proponents of ABC argue that it provides accurate cost data needed to make appropriate strategic decisions in terms of product mix, sourcing, pricing, process improvement, and evaluation of business process performance (Cooper Kaplan, 1992; Swenson, 1995). These claims may have led many ? rms to adopt ABC systems. A survey of the 1000 largest ? rms in the United Kingdom showed that 19. 5% of these companies have adopted ABC (Innes Mitchell, 1995). Another survey released by the Cost Management 0361-3682/$ – see front matter O 2006 Elsevier Ltd. All rights reserved. doi:10. 1016/j. aos. 2006. 12. 001 2 R. D. Banker et al. / Accounting, Organizations and Society 33 (2008) 1–19 Group (1998) of the Institute of Management Accountants indicated that 39% of organizations have approved ABC adoption. 1 Assessing the impact of ABC on manufacturing plant performance is recognized as an important research question. Prior research has typically focused on the direct impact of ABC while ignoring its indirect impact in supporting other organizational capabilities. While past studies have reported moderate levels of bene? s from ABC adoption (Foster Swenson, 1997; Ittner Larcker, 2001), few have extended this work to evaluate the linkages between ‘‘beliefs’’ that represent successful outcomes and the operational measures of plant performance. Furthermore, the de? nition of ABC success has often been vaguely de? ned in terms of subjective beliefs regarding ‘‘? nancial bene? t’’, ‘‘satisfaction with ABC’’, or ‘‘use of ABC system for decision making’’. In light of these methodological de? ciencies, we argue that a more rigorous approach is needed to measure the impact of ABC. It is also important to focus on process-level performance measures, instead of ? rm-level ? nancial metrics, since the potential impact of ABC implementation may be appropriated before they are re? ected in a ? rm’s aggregate performance. Evidence of past ABC implementation failures have led researchers to suggest that ABC success depends on other contextual and process factors, such as organizational structure, task characteristics, management support, information technology, and the external environment (Anderson, Hesford, Young, 2002). In this study, we focus on the mechanism through which ABC impacts plant performance, in terms of its role as an enabler of organizational capabilities rather than its direct impact. Speci? cally, we study the association between implementation of ABC and world-class manufacturing (WCM) capabilities, and their impact on plantlevel operational performance. Using a large cross-sectional sample of US manufacturing plants, we ? nd that ABC has a positive association with the development of process-centric capabiliImplementation of ABC has been observed not only in manufacturing ? rms but also in service sector ? rms (Cooper Kaplan, 1992). ties required to successfully implement WCM. We also ? nd that ABC does not have a signi? cant direct impact on plant performance measures. Instead, its impact on plant performance is mediated through the development of WCM capabilities, which allow plants to leverage the process capabilities o? ered by ABC into signi? cant improvements in plant perfor mance. Our study makes contributions in several areas. Our fundamental contribution involves the development of an empirically validated framework which indicates that the impact of ABC on plant performance is completely mediated through its enablement of WCM capabilities. Second, since ABC is implemented and used at the business process level, we focus our attention on operational process performance measures by treating the manufacturing plant as a unit of analysis. This allows us to avoid the drawbacks associated with prior studies which have mostly focused on aggregated, ? rm-level ? nancial measures. Third, our results suggest that the conceptual lens through which prior research has traditionally studied the impact of ABC needs to be revisited and validated using di? erent types of modeling and measurement approaches. Contrary to the ? dings of Ittner, Lanen, and Larcker (2002) we ? nd that, although the direct impact of ABC is not signi? cant, ABC has a statistically signi? cant indirect e? ect on plant performance that is mediated through its support for advanced manufacturing capabilities. The rest of our paper is organized as follows. In the next section, we review the related literature on ABC, advanced manufacturing practices, and plant per formance. We then present our conceptual research framework and research hypotheses, followed by a description of our research data and design. Next, we describe our statistical estimation results, followed by a discussion of our results, contributions, and limitations. We summarize our ? ndings and the implications of our study in the last section. Background The ABC literature de? nes an activity as a discrete task that a ? rm undertakes to make or deliver R. D. Banker et al. / Accounting, Organizations and Society 33 (2008) 1–19 3 a product/service, and uses cost drivers to assign activity costs to products, services or customers related to these activities (Cooper, 1988; Ittner et al. 2002). Traditional costing systems use bases like direct labor and machine hours to allocate expenses, associated with indirect and support activities, to products and services. On the other hand, ABC segregates the expenses of indirect and support resources by activities, and then assigns those expenses based on the drivers of these activities (Cooper Kaplan, 1991). Hence, ABC provides plant mangers with a more structured approach to evaluate the expenses associated with speci? c activities used to support a product. The body of prior research regarding the impact of ABC has produced mixed evidence. On one hand, proponents of ABC have argued that ABC helps to capture the economics of production processes more closely than traditional cost-based systems, and may provide more accurate costing data (Cooper Kaplan, 1991; Ittner, 1999). Prior research suggests that implementation of ABC should lead to operational and strategic bene? ts within organizations (Anderson Young, 1999; Cooper Kaplan, 1991). Researchers have argued that operational bene? s may emanate from improved visibility into the (a) economics of the production processes, and (b) causal cost drivers. Strategic bene? ts may arise from availability of better information for product development, sourcing, product mix and other strategic decisions (Anderson, 1995; Shields, 1995). Researchers have claimed that, since ABC may provide greater visibility into business processes and their cost drivers, it may allow managers to eliminate costs related to non-value added activities and improve the e? ciencies of existing processes (Carol? , 1996). Improved information visibility may also enable the deployment of quality-related initiatives by identifying activities that are associated with poor product quality, and their cost drivers (Ittner, 1999; Cooper, Kaplan, Maisel, Morrissey, Oehm, 1992). Hence, prior research suggests that ABC may be associated with adoption of process improvement activities, such as total quality management (TQM) programs (Ittner Larcker, 1997a, 1997b; Anderson et al. , 2002). On the other hand, Datar and Gupta (1994) claimed that increasing the number of cost pools and improving the speci? ation of cost bases may increase the frequency of errors in product cost measurement. Banker and Potter (1993) and Christensen and Demski (1997) suggest that the ability of ABC to produce accurate cost estimates depends on other factors, such as the competitiveness of markets and the quality of the organization’s information technology infrastructure. Noreen (1991) suggests that ABC implementation may prov ide bene? cial results only under speci? c conditions. Similarly, empirical studies that have examined the impact of ABC on ? m performance have also produced mixed results (Ittner Larcker, 2001; Gordon Silvester, 1999). Many of these studies rely on manager’s beliefs regarding the success of ABC implementation, but they do not indicate whether ABC adopters achieved higher levels of operational or ? nancial performance compared to non-adopters (Shields, 1995; McGowan Klammer, 1997; Foster Swenson, 1997). Other studies have suggested that many ABC adopters have abandoned their implementations, raising concerns about the potential impact of ABC on performance (McGowan Klammer, 1997). In this study, e explore the relationships between ABC implementation and WCM practices, and their impact on plant performance. Unlike prior studies, which focus on measuring the direct impact of ABC on plant performance, our focus is directed at the role of ABC as an enabler of WCM practices which, in turn, have an impact on plant performance. In their study on relationships between incentive systems and JIT implementation, Fullerton and McWatters (2002, p. 711) note that the shift to world-class manufacturing strategies requires accompanying changes in ? rms’ management accounting systems. They argue that by providing a better understanding of the inter-relationships between manufacturing processes, demand uncertainty and product complexity, ABC implementation allows plant managers to direct relevant process improvements which facilitate implementation of other WCM initiatives. Cooper and Kaplan (1991) also claim that ABC may help plant managers to develop a better 4 R. D. Banker et al. / Accounting, Organizations and Society 33 (2008) 1–19 understanding of the sources of cost variability, which allows them to manage resource demand and rationalize changes in product mix. The arguments in support of ABC are based on the presumed comparative advantage that ? rms may derive from greater transparency and accuracy of information obtained from ABC (Cagowin Bouwman, 2002). However, Kaplan (1993) and others have cautioned that not every ABC implementation will produce direct bene? ts. Indeed, the role of other facilitators and contextual factors, such as implementation of related organizational initiatives, has gained greater importance in this debate (Anderson et al. , 2002; Henri, 2006). A fundamental motivation of our research is to better understand the overall impact of ABC on plant performance by studying its indirect impact on plant WCM capabilities. We argue that ABC implementation should impact plant performance only by supporting the implementation of advanced manufacturing capabilities, which provide managers with the ? exibility to adapt to changing product and demand characteristics. Without such capabilities, ABC is unlikely to improve manufacturing performance by itself. Unlike previous studies that have studied the impact of ABC on ? rm-level performance, we bserve that isolating the impact of ABC at the plant-level allows us to trace ABC’s impact on speci? c plant performance measures, and overcomes the potential for confounding when multiple business processes are aggregated at the ? rm level. We discuss our conceptual framework and research hypotheses in the next section. Conceptual research model We posit that adoption of ABC by itself may no t provide much direct value, but may facilitate the implementation of advanced manufacturing practices and other organizational capabilities which, in turn, may be associated with sustainable improvements in plant performance. Unlike previous research that has in the large part explored the direct impact of ABC, our research model allows for the possibility of plant performance improvements due to implementation of WCM practices that may be enabled by capabilities associated with the adoption of ABC systems. WCM practices entail a broad range of manufacturing capabilities, which allow plant managers to adapt to the volatility and uncertainty associated with changes in customer demand and business cycles in agile manufacturing environments (Flynn, Schroeder, Flynn, 1999; Sakakibara, Flynn, Schroeder, Morris, 1997; Banker, Potter, Schroeder, 1995). These practices include just-in-time manufacturing (JIT), continuous process improvement, total quality management (TQM), competitive benchmarking, and worker autonomy through the use of self-directed work teams. Advanced manufacturing practices provide the capabilities necessary to react to rapid changes in lot sizes and setup times, as the manufacturing focus shifts to ? exible and agile processes that are characterized by quick changeover techniques to handle production of low volume orders with high product variety (Kaplan, 1983; Flynn et al. 1999). Traditional costing systems, which are based on assumptions of long production runs of a standard product with static speci? cations, are not relevant in such dynamically changing environments. However, proponents have argued that ABC may provide more accurate information on the activities and transactions that impact product costs in manufacturing environments characterized by production of smaller lot sizes, high broad mix, and freq uent changeovers (Krumwiede, 1998). By providing timely information about the costs of esources, especially when production runs are shorter or the production method changes, ABC implementation may provide the process infrastructure necessary to support managerial decision-making capabilities in fast-paced manufacturing processes (Kaplan, 1983). Hence, we study the impact of ABC on its ability to support implementation of WCM capabilities, and examine its indirect impact on plant performance through its enablement of such capabilities. Our conceptual research model describing the relationship between ABC, manufacturing capabilities and plant performance is shown in Fig. . The model comprises of two stages. The ? rst stage describes how ABC may facilitate implementation of world-class manufacturing practices. R. D. Banker et al. / Accounting, Organizations and Society 33 (2008) 1–19 5 Activity-based Costing (ABC) H1 ?QUALITY H2 ? TIME H3 ? COST World-class Manufacturing (WCM P lant Performance SIZE PLANTAGE DISCRETE DOWNSIZE VOLUME MIX Plant-level Control Variables Plan Fig. 1. Conceptual research model. Note: Plant performance is represented using three separate dependent variables that are grouped together in the gure for ease of representation. Our regression models are estimated using each performance variable as a dependent variable in a separate multivariate regression. The second stage describes the impact of advanced manufacturing capabilities, as embodied by WCM, on plant performance. The key di? erence between our research model and that of prior studies is our focus on the relationship between ABC and WCM, and the role of manufacturing capabilities as a mediator of the impact of ABC on plant performance, as represented by the dotted arrow in Fig. 1. Impact of activity-based costing on world-class manufacturing In his early work on the challenges of implementing new types of management accounting models to measure manufacturing performance, Kaplan (1983, p. 702) noted that ‘‘. . . accounting systems must be tightly integrated with plant production planning and scheduling systems so that production managers are rewarded for e? cient utilization of bottleneck resources and reduced inventory levels throughout the plant. . . ’’. Prior research has suggested that ABC is more bene? cial when it supports the implementation of advanced manufacturing practices (Shields Young, 1989; Kaplan, 1992; Cooper, 1994). For example, Anderson and Young (1999) reviewed several ABC studies that reported positive relations between the success of ABC adoption and implementation of various advanced manufacturing practices. They argue that ABC facilitates more accurate identi? cation and measurement of the cost drivers associated with value added and non-value added manufacturing activities, which makes it easier to develop better cost control and resource allocation capabilities – necessary prerequisites for successful implementation of worldclass manufacturing. In world-class manufacturing environments, the accounting systems, compensation, incentive structure, and performance measurement practices are di? erent from those that are used in traditional manufacturing (Miltenburg, 1995; Milgrom Roberts, 1995). For example, traditional manufacturing processes entail the use of performance measures that track unit manufacturing costs related to (a) equipment utilization, (b) ratios of direct and indirect labor to volume, (c) number of set-ups, and (d) number of orders. On the other hand, erformance measures relevant to WCM implementation track (a) actual cost and quality, (b) cycle time reduction, (c) delivery time and ontime delivery rate, and (d) actual production as a percentage of planned production (Miltenburg, 1995, p. 336). By enabling the measurement of costs related to speci? c activities, products, and customers, ABC may provide more accurate identi? cation and measurement of new types of performance measures that are a critical compo nent of successful WCM implementations (Argyris Kaplan, 1994; Krumwiede, 1998). Proponents claim that ABC may support the implementation of WCM capabilities in several ways. First, by allowing plant managers to track costs accurately and enabling identi? cation of redundant resources, ABC may support implementation of TQM and other quality/process improvement programs. 2 Second, ABC may support process-related investments in cycle time See Ittner (1999) for an example of the bene? ts of activitybased costing for quality improvement at a telecommunications ? rm. 2 6 R. D. Banker et al. / Accounting, Organizations and Society 33 (2008) 1–19 reduction by facilitating the timely identi? ation of non-value-added activities (Kaplan, 1992). Third, ABC may allow plant managers to make better resource allocation decisions by focusing the product line and accurately anticipating the e? ect of changes in the product mix on the pro? tability of manufacturing operations. Hence, they argue that ABC implementation may provide the process discipline necessary to analyze activities, gather and trace costs to activities, and establish relevant output measures–capabilities that are useful in ? exible manufacturing environments (Cooper Kaplan, 1991, 1999). Implementation of ABC may be associated with greater use of self-directed teams and worker autonomy, which are also important capabilities of WCM (Anderson Young, 1999). Similarly, ‘‘best practices’’ data on cost pools, activity centers, and cost drivers can be incorporated into the design and use of ABC systems which may improve plant managers’ abilities to make better strategic product decisions, and thereby support implementation of WCM programs (Elnathan, Lin, Young, 1996; Atkinson, Banker, Kaplan, Young, 2001). Therefore, we posit that ABC facilitates successful implementation of WCM capabilities. In contrast to Ittner et al. (2002), who treat advanced manufacturing practices as causal variables in explaining adoption of ABC, we posit that ABC supports implementation of WCM practices, which in turn, may improve plant performance. Accordingly, Hypothesis H1: Plants which implement ABC are more likely to implement world-class manufacturing practices. Impact of world-class manufacturing on plant performance Implementation of WCM practices can enable plants to react quickly to changes in customer demand, and thereby carry lower levels of inventory, improve cost e? iencies, increase the ? exibility of production facilities through use of planning and scheduling software, and improve overall plant productivity (Banker, Bardhan, Chang, Lin, 2006). Investments in JIT and ? exible manufacturing practices help to reduce setup times that permit shorter production runs, thereby allowing for more e? cient inventory control, as well as lower product defect rates (Kaplan, 1983; Hendricks S inghal, 1997; Sakakibara et al. , 1997). Techniques that are commonly deployed, within the scope of JIT implementations, include pull/Kanban systems, lot-size reductions, cycletime reductions, quick changeover techniques, and bottleneck removal practices. Research on the performance impact of JIT has been extensively documented in the literature (Sakakibara et al. , 1997; Hendricks Singhal, 1997). Reported bene? ts range from reduced work in progress and ? nished goods, to better quality and higher ? rm productivity. Based on prior empirical evidence, researchers have found that ? ms which adopted JIT production are better aligned to customer needs, have shorter lead times, and faster time to market (Srinivasan, Kekre, Mukhopadhyay, 1994). Implementation of WCM practices also entails adoption of other process improvement practices, such as total quality management (TQM) and continuous process improvement programs (Fullerton McWatters, 2002). The fundamental elements of process improvement programs consist of competitive benchmarking, statistical process control, and employee empowerment (Schroeder Flynn, 2001). Such process improvement practices, stemming from greater attention to product quality and time to market issues may enable manufacturing plants to develop advanced manufacturing capabilities. Based on ? rm-level data, researchers have found that implementation of TQM and other advanced manufacturing practices have a positive impact on ? rm performance, through realization of lower product cost, higher quality, and better on-time delivery performance (Banker, Field, Sinha, 2001; Banker et al. , 1995; Hendricks Singhal, 1997; Ittner Larcker, 1995, 1997a). Hence, we posit that implementation of WCM practices in manufacturing plants may be positively related to improvements in plant-level performance as de? ned by plant cost, quality and time-to-market measures. Therefore, we hypothesize that R. D. Banker et al. / Accounting, Organizations and Society 33 (2008) 1–19 7 Hypothesis H2: Plants that have implemented WCM practices are more likely to be associated with signi? cant improvements in plant performance. H2a: Plants which implement WCM practices are more likely to realize improvements in plant manufacturing costs. H2b: Plants with WCM practices are more likely to realize improvements in plant quality. H2c: Plants with WCM practices are more likely to realize improvements in time to market. Impact of ABC on plant performance: a mediation mechanism Proponents have argued that, by enabling easier identi? cation of non-value added activities and simpli? cation of cost measurements, ABC enables implementation of advanced manufacturing practices, especially in processes that are characterized by quick changeovers and a range of support activities. Documenting and understanding activities is a necessary prerequisite to improving business processes, since activities are the building blocks of business processes. If ABC adoption results in more accurate costing then plant performance may improve because of greater ability to implement process improvement initiatives, facilitating the simpli? cation of business processes by removing non-value added activities. Successful implementation of WCM practices requires the development of business process models to identify and eliminate non-value added activities. In this respect, ABC implementation entails a priori development of such process models to identify and analyze activities, trace costs to activities, and analyze activity-based costs. Similarly, plant managers can use information gathered through ABC analyses to conduct a Pareto analyses of the major cost drivers, an important ingredient in most TQM and competitive bench3 marking initiatives. Scenario analysis related to pricing, product mix, and pro? tability is also possible, which are useful in the deployment of JIT capabilities. Hence, successful WCM implementations may leverage the streamlining of business processes due to ABC adoption. ABC analyses allow plants to develop activitybased management (ABM) business models which managers may adopt to improve their organizational e? ectiveness (Chenhall Lang? eld-Smith, 1998). In addition, ABC implementation may be correlated with and hence serve as a surrogate for unobservable factors, such as management leadership and worker training, that are important components of successful WCM implementation. Hence, implementation of WCM may allow plants to leverage the capabilities o? ered by ABC (i. . accurate cost allocations and management support) into improvements in plant performance. Our approach di? ers from the prior literature which has primarily studied the direct impact of ABC on plant performance (Ittner et al. , 2002). Instead, we argue that it is important to view the role of ABC as a potential enabler of manufacturing capabilities, and study its indirect impact on plant performance as completely mediated by WCM. This perspective argues that ABC may support improvements in manufacturing capabilities which are, in turn, associated with improvements in plant performance (Henri, 2006). Hypothesis H3: The positive association between ABC implementation and plant performance is mediated through implementation of worldclass manufacturing practices. An alternative perspective, with respect to the role of ABC, is that the interaction between WCM capabilities and ABC implementation may jointly determine plant performance. The interaction perspective argues that advanced manufacturing capabilities, when combined with deployment of ABC methods, create complementarities that explain variations in plant performance (Cagowin Bouwman, 2002). In other words, WCM and ABC may each have a direct e? ct on performance, but would add more value when used in combination (i. e. , the presence of WCM will increase the Low volume production creates more transactions per unit manufactured than high volume production (Cooper Kaplan, 1988). 8 R. D. Banker et al. / Accounting, Organizations and Society 33 (2008) 1–19 strength of the relationship between ABC and performance). In this framework, the interaction e? ects of ABC and WCM need to be estimated to study the overall impact of ABC on plant performance. We explore the interaction perspective further when we discuss our estimation results. Fig. represents the conceptual research model that describes our hypothesized relationship between ABC and implementation of WCM practices, and the role of WCM as a mediator of the impact of ABC on plant performance. Research design We now describe the characteristics of the data collected and approach for measuring the variables of interest in our study. Data collection Data for this research was drawn from a survey of manufacturing plants across the US, conducted in the year 1999 by IndustryWeek and PricewaterhouseCoopers Consulting. The survey consisted of a questionnaire which was mailed to plants with two-digit standard industrial classi? ation (SIC) codes from 20 to 39, and that employed a minimum of 100 people. Data were collected on a range of manufacturing, mana gement and accounting practices used within each plant. We have described the questions relevant to our research model in Appendix. The survey was mailed to approximately 27,000 plant managers and controllers from IndustryWeek’s database of manufacturing plants. Plant managers provided data on the extent of implementation of ABC and a broad range of advanced manufacturing practices and plant characteristics. Data on plant performance measures were based on assessments of plant records by plant controllers. A total of 1757 plants responded to the questionnaire for an overall response rate of 6. 5%. The usable sample contains 1250 plants that provided Since data on the independent and dependent variables was provided by di? erent sources, this mitigates the concerns associated with common methods bias. 4 complete responses to the variables of interest in our model. 5 We present the distribution of the manufacturing plants in our sample by industry in Table 1, and compare it to the distribution of manufacturers, reported in the Statistical Abstract of the United States and published by the US Census Bureau (2000). Since we obtained the data from a secondary data source, we did not have information with respect to the pro? les of non-respondent plants. To evaluate the generalizibility of our ? ndings, we compared the average plant productivity per employee of our sample plants to the average productivity of all US manufacturing plants, as reported by the US Census Bureau (2000). The average plant productivity per employee of our sample was $221,698, while the average productivity in the US Census data was reported to be $225,440. The di? erence in average plant productivity was not statistically signi? cant (t-statistic = 0. 37; p-value = 0. 35). Measurement of variables The ABC adoption variable was de? ned based on the response to the survey question asking whether ABC was implemented at the plant (0 = not implemented, 1 = plan to implement, 2 = extensively implemented). For the purpose of our study, we collapsed the ? rst two categories into one category, which represents plants that have not implemented ABC at the time of the survey. Hence, we measure ABC as a 0–1 dummy variable where zero represents ‘‘no implementation’’ and one represents ‘‘extensive implementation’’. The number of plants that have adopted ABC extensively in our sample is 248, an adoption rate of 19. 8%. We have three dependent variables in our research model. The variable DCOST denotes the change in unit manufacturing costs in the last ? ve years. DQUALITY denotes the change in plant ? rst-pass quality yield in the last ? ve years. DTIME 5 While the net usable response rate of 4. 6% is small, it is comparable to large plant operations surveys as reported in Stock, Greis, and Kasarda (2000) and Roth and van der Velde (1991). R. D. Banker et al. / Accounting, Organizations and Society 33 (2008) 1–19 Table 1 Distribution of sample plants by industry Industry sector Non-durable manufacturing Food and kindred products Tobacco products Textile ill products Apparel and other textile products Lumber and wood products Furniture and ? xtures Paper and allied products Printing and publishing Chemicals and allied products Petroleum and coal products Durable manufacturing Rubber and plastics products Leather and leather products Stone, clay and glass products Primary metal industries Fabr icated metal products Industrial machinery and equipment Electronics and electrical equipment Transportation equipment Instruments and related products Miscellaneous manufacturing Total a b 9 SIC code Number of plants in sample 47 1 23 13 25 43 56 19 86 5 74 5 39 67 153 225 168 103 76 22 1250 Percent of sample 3. 76% 0. 08 1. 84 1. 04 2. 00 3. 44 4. 48 1. 52 6. 88 0. 40 5. 92 0. 40 3. 12 5. 36 12. 24 18. 00 13. 44 8. 24 6. 08 1. 76 100% Percent of US manufacturersa 5. 76% 0. 03 1. 70 6. 45 10. 13 3. 33 1. 79 17. 19 3. 41 0. 59 0. 52 0. 51 4. 52 1. 73 10. 47 15. 54 4. 71 3. 41 3. 23 4. 97 100% % ABC Adopters in sampleb 12. 76% 100 21. 74 38. 46 16. 00 27. 91 28. 57 26. 32 26. 74 40. 00 13. 51 40. 00 20. 51 16. 42 16. 99 13. 03 19. 05 26. 21 17. 11 31. 82 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 Source: US Census Bureau (2000). The percentage equals the number of ABC adopters divided by the number of plants in the 2-digit SIC group. represents a factor comprising of the change in manufacturing cycle time and the change in lead time during the last ? ve years, and thus is indicative of the ‘‘time to market’’ for each plant. The measurement scale of the plant performance variables was ordered in manner such that higher values represent improvements in performance over time. 6 WCM represents a composite factor that consists of six types of advanced manufacturing practices, as described in the survey questionnaire. The six indicators were measured using a 0–1 scale, where zero represents ‘‘no or some implementation’’, and one indicates ‘‘extensive implementation’’. Next, we constructed WCM as a six-item 6 A value of DQUALITY = 1 indicates that ? rst-pass quality yield ‘‘declined more than 20%’’, while DQUALITY = 5 indicates that quality yield ‘‘improved more than 20%’’. On the other hand, DCOST = 1 indicates that unit manufacturing costs ‘‘increased more than 20%’’, while DCOST = 7 suggests that costs ‘‘decreased more than 20%’’. summative index that represents the degree of implementation of the six types of advanced manufacturing capabilities. This index measures both the range and depth of manufacturing capabilities in each plant. Hence, for each plant, WCM consists of seven levels and can take any value between zero and six (since the six indicators are measured as 0–1 variables). Our approach for constructing this summative measure of manufacturing capability is consistent with similar approaches in the literature (Krumwiede, 1998; Loh Venkatraman, 1995) that use a summative index when an increase in any of the indicators is associated with a corresponding increase in the construct of interest. We note that exploratory factor analyses (EFA) suggests that the six items load on a single factor (with Eigen value = 2. 13) which accounts for 36% of variance in the data. Furthermore, the EFA provides support for the validity and unidimensionality of the WCM factor. 7 10 R. D. Banker et al. / Accounting, Organizations and Society 33 (2008) 1–19 (0. 07) (0. 00) (0. 01) (0. 27) (0. 01) (0. 41) (0. 87) (0. 02) (0. 00) (0. 00) (0. 72) (0. 00) (0. 76) (0. 79) (0. 68) (0. 05) (0. 40) (0. 60) (0. 00) (0. 04) (0. 00) (0. 96) (0. 04) (0. 29) (0. 00) (0. 00) (0. 60) 0. 06 0. 21 A0. 00 0. 06 A0. 03 A0. 13 0. 8 A0. 01 1. 00 0. 18 0. 29 1. 00 7. 00 4. 53 5. 00 1. 46 (0. 45) (0. 20) (0. 00) (0. 22) (0. 34) (0. 00) ABC WCM DISCRETE DOWNSIZE SIZE PLANTAGE VOLUME MIX DCOST DQUALITY DTIME Minimum Maximum Mean Median Std. Dev. 1. 00 0. 12 A0. 03 0. 02 0. 05 0. 01 0. 02 0. 01 0. 06 0. 01 0. 06 0. 00 1. 00 0. 19 0. 00 0. 39 (0. 00) (0. 22) (0. 40) (0. 06) (0. 86) (0. 46) (0. 81) (0. 03) (0. 59) (0. 04) 0. 11 1. 00 A0. 01 0. 03 0. 22 A0. 03 0. 09 0. 03 0. 23 0. 25 0. 31 0. 00 6. 00 4. 00 4. 00 1. 61 (0. 70) (0. 35) (0. 00) (0. 24) (0. 00) (0. 22) (0. 00) (0. 00) (0. 00) A0. 03 A0. 03 1. 00 A0. 09 0. 03 A0. 06 A0. 8 0. 04 A0. 00 0. 01 0. 08 0. 00 1. 00 0. 59 1. 00 0. 49 (0. 00) (0. 33) (0. 02) (0. 00) (0. 15) (0. 90) (0. 74) (0. 00) 0. 02 0. 04 A0. 08 1. 00 0. 03 0. 10 A0. 02 0. 01 0. 06 0. 01 A0. 03 1. 00 3. 00 1. 75 2. 00 0. 76 (0. 29) (0. 00) (0. 38) (0. 60) (0. 04) (0. 64) (0. 28) 0. 05 0. 21 0. 03 0. 03 1. 00 0. 06 0. 20 0. 04 A0. 02 0. 03 0. 07 1. 00 5. 00 2. 73 2. 00 1. 08 (0. 04) (0. 00) (0. 17) (0. 53) (0. 35) (0. 01) (0. 09) (0. 00) (0. 30) (0. 22) 0. 02 A0. 01 A0. 07 0. 10 0. 08 1. 00 A0. 07 0. 06 A0. 12 A0. 04 A0. 29 1. 00 4. 00 3. 57 4. 00 0. 78 (0. 01) (0. 02) (0. 00) (0. 12) (0. 30) (0. 47) (0. 9) (0. 01) (0. 00) (0. 00) 0. 02 0. 08 A0. 18 A0. 02 0. 19 A0. 07 1. 00 A0. 22 0. 08 0. 02 A0. 02 0. 00 1. 00 0. 54 1. 00 0. 50 (0. 46) (0. 01) (0. 00) (0. 42) (0. 00) (0. 01) (0. 00) (0. 00) (0. 52) (0. 54) 0. 01 0. 04 0. 04 0. 01 0. 04 0. 09 A0. 22 1. 00 A0. 02 A0. 01 0. 07 0. 00 1. 00 0. 75 1. 00 0. 43 (0. 81) (0. 18) (0. 15) (0. 66) (0. 15) (0. 00) (0. 00) (0. 510) (0. 78) (0. 02) (0. 00) (0. 00) 0. 01 0. 24 0. 01 0. 01 0. 01 A0. 05 0. 02 A0. 01 0. 18 1. 00 0. 26 1. 00 6. 00 3. 14 3. 00 0. 90 p-Values are shown in parentheses. Spearman correlation coe? cients are in the top triangle and Pearson coe? ients are in the bottom triangle. (0. 00) 0. 05 0. 31 0. 08 A0. 03 0. 08 A0. 02 A0. 00 0. 06 0. 29 0. 26 1. 00 1. 00 6. 00 3. 30 3. 50 0. 86 Table 2 Descriptive statistics and correlations of model variables (N = 1250) Estimation results First, we estimate the impact of ABC on the implementation of WCM using an ordered logit regression model, where the dependent variable represents an ordered choice variable of seven possible states of WCM implementation: WCM = 0 (no or some implementation on all six indicators) and WCM = 6 (extensive implementati on on all six indicators). Our methodology is consistent with Krumwiede’s (1998) approach to evaluate the antecedents of di? erent stages of ABC implementation in ABC WCM DISCRETE We include additional variables to control for the impact of plant characteristics on manufacturing capabilities and plant performance. There are six control variables in our model, which include plant size (SIZE) measured in terms of number of employees, plant age in years (PLANTAGE), nature of manufacturing operations (DISCRETE), degree of product mix (MIX), product volume (VOLUME), and the extent of downsizing in the last ? ve years (DOWNSIZE). Larger plants are more likely to have the scale and ? nancial resources required to justify adoption of advanced manufacturing practices and activity-based costing programs. SIZE is likely to impact plant performance since smaller plants are likely to be more agile in responding to customer needs compared to larger plants ceteris paribus (Hendricks Singhal, 1997). Plant AGE is also likely to play a signi? cant role since older plants are less likely to adopt advanced manufacturing practices and often fail to realize the impact of technology-enabled processes on plant performance. Product MIX is de? ed as the mix of products produced and is measured as a binary variable based on low or high product diversity. Plants with high product diversity are more likely to implement ABC (Cooper, 1989) as it may provide more accurate estimates of overhead usage. DISCRETE represents a binary variable with a value of one if the nature of manufacturing for primary products is discrete manufacturing , and zero for process or hybrid manufacturing. Descriptive statistics of our model variables are provided in Table 2. DOWNSIZE SIZE PLANTAGE VOLUME MIX DCOST DQUALITY DTIME R. D. Banker et al. / Accounting, Organizations and Society 33 (2008) 1–19 1 manufacturing ? rms. Tests for multicollinearity (Belsley, Kuh, Welsch, 1980) indicated no evidence of multicollinearity in our data (BKW index = 1. 06, variance in? ation factor = 1. 15). Our ordered logit regression results are presented in Table 3. The ‘‘logit coe? cient’’ column reports the results of an ordered logit test for the seven states of WCM. The logit results indicate that our model has significant explanatory power (Chi-square = 82. 67; pseudo R2 = 0. 07). The ordered logit coe? cients indicate that adoption of ABC has a positive impact on WCM implementation (coe? ient value = 0. 499; v2 = 15. 15; p-value 0. 0001). Hence, our results support hypothesis H1, and suggest that plants that im plement ABC are more likely to implement WCM practices. The ordered logit results also indicate that plant SIZE and product VOLUME have a positive impact on the extent of WCM implementation. Larger plants may be more likely to implement WCM capabilities due to availability of greater plant resources, and plants with high VOLUME may be more likely to implement WCM to deal with the complexity involved in managing high volume production. The mediating role of WCM Next, we estimate the impact of ABC and WCM on the three measures of plant performance, DCOST, DQUALITY, and DTIME, using ordinary least squares (OLS) regressions. For each dependent variable, we estimate the relationships between ABC, WCM and plant performance as speci? ed by the following system of equations: DPERFORMANCE ? a0 ? a1 A ABC ? a2 A DOWNSIZE ? a3 A SIZE ? a4 A PLANTAGE ? a5 A DISCRETE ? a6 A VOLUME ? a7 A MIX ? e1 DPERFORMANCE ? b0 ? b1 A WCM ? b2 A DOWNSIZE ? b3 A SIZE ? b4 A PLANTAGE ? b5 A DISCRETE ? b6 A VOLUME ? b7 A MIX ? e2 ? 2? ?1? DPERFORMANCE ? d0 ? 1 A WCM ? d2 A ABC ? d3 A DOWNSIZE ? d4 A SIZE ? d5 A PLANTAGE ? d6 A DISCRETE ? d7 A VOLUME ? d8 A MIX ? e3 ?3? In order to test our proposed model, we follow the approach prescribed by Baron and Kenny (1986). Eq. (1) estimates the direct impact of ABC on plant performance. Eq. (2) estimates the marginal impact of the mediating variable, WCM, on plant performance. Eqs. (1) and (2) represe nt non-nested model speci? cations which estimate the independent impact of ABC and WCM, respectively, on plant performance. Finally, both predictor variables, ABC and WCM, are included in a single regression model speci? d in Eq. (3). We observe that Eq. (2) represents a complete mediation model, whereas Eq. (3) represents a partial mediation model where the impact of ABC is partially mediated through WCM. The dependent variable, DPERFORMANCE, represents the respective change (D) in the three performance measures: COST, QUALITY, and TIME. The system of equations estimated separately for each performance measure. We report OLS regression results in Table 4. 8 The estimated coe? cients in the three columns of each panel in Table 4 correspond to the regression models speci? ed in Eqs. (1)–(3). First, we estimate the direct impact of ABC on plant performance in the absence of the WCM variable. Estimated regression coe? cients for Eq. (1) are shown in columns (1), (4) and (7) of Table 4 (i. e. , ? rst column of each panel). The regression coe? cient of ABC is statistically signi? cant for DCOST and DTIME (p 0. 10), and it appears that ABC has a positive impact on improvements in plant costs and time to market. 9 ABC does not have signi? cant explanatory power in the DQUALITY regression model as indicated by low R2 values. 8 We also used ordered logit regressions to estimate the system of equations in (1). The ordered logit results are consistent with our OLS estimation results. 9 The adjusted R2 for these models was low (between 1. 38% and 2. 75%) and our analysis of the F-statistics indicates that only the DCOST regression model was signi? cant at p 0. 05. We have not included these results in our tables due to space limitations. 12 R. D. Banker et al. / Accounting, Organizations and Society 33 (2008) 1–19 Table 3 Factors in? uencing WCM implementation: ordered logit regression Variable ABC DOWNSIZE SIZE PLANTAGE DISCRETE VOLUME MIX Pseudo-R2 (%) Chi-square N ***, **, * Indicates Logit coe? cient 0. 50 0. 05 0. 34 A0. 08 A0. 02 0. 212 0. 19 0. 07 82. 67*** (p-value 0. 001) 1250 Chi-square 15. 15*** 0. 56 48. 56*** 1. 73 0. 02 4. 04** 2. 56 signi? cance at the 1%, 5%, and 10% (one-sided) level, respectively. Variable de? nition ABC = 1 if implemented extensively, zero if there is no ABC implementation in the plant. WCM = Six-item summative index that measures the degree of implementation of six types of manufacturing practices: JIT, TQM, Kanban, continuous process improvement, competitive benchmarking, self-direct teams. WCM can take any value between zero and six. For each manufacturing practice, 0 = no or some implementation, 1 = extensive implementation D(QUALITY): Change in ? rst-pass quality yield of ? nished products over the last ? ve years: 1 = Declined more than 20%, 2 = declined 1–20%, 3 = no change, 4 = improved 1–20%, 5 = improved more than 20%. D(COST): Change in unit manufacturing costs, excluding purchased materials, over the last ? ve years: 1 = Increased more than 20%, 2 = increased 11–20%, 3 = increased 1–10%, 4 = no change, 5 = decreased 1–10%, 6 = decreased 11–20%, 7 = decreased more than 20%. D(TIME): Factor comprised of the 5-year change in manufacturing cycle time and plant lead time: D(Cycle time): Change in manufacturing cycle time over the last ? ve years: 1 = No reduction, 2 = decreased 1–10%, 3 = decreased 11–20%, 4 = decreased 21–50%, 5 = decreased more than 50%. D(Lead time): Change in customer lead time over the last ? ve years: 1 = Increased more than 20%, 2 = increased 1–20%, 3 = no change, 4 = decreased, 1–20%, 5 = decreased more than 20%. DISCRETE = 1 if nature of manufacturing operations for primary products is discrete; else zero. DOWNSIZE: Extent of plant-level downsizing in the past ? e years. 1 = No change, 2 = extent of downsizing increased 1–10%, 3 = extent of downsizing increased 11–20%, 4 = extent of downsizing increased 21–50%, 5 = increased 51–75%, and 6 = increased more than 75%. SIZE: Number of employees at the plant location. 1 = Less than 100; 2 = 100–249; 3 = 250–499 ; 4 = 500–999; 5 = greater than 1000 employees. PLANTAGE: Number of years since plant start-up. 1 = Less than 5 years; 2 = 5–10 years; 3 = 11–20 years; 4 = more than 20 years. VOLUME = 1 if plant exhibits high volume production, and zero otherwise. MIX = 1 if plant exhibits high product mix, and zero otherwise. Next, estimated regression coe? cients for Eq. (2) are shown in columns (2), (5) and (8) of Table 4. The regression results indicate that the impact of WCM on all plant performance measures is positive and signi? cant at p 0. 01. In other words, implementation of advanced manufacturing capabilities is associated with improvements in plant costs (b1 = 0. 20, p 0. 01), quality (b1 = 0. 14, p 0. 01), and time to market (b1 = 0. 16, p 0. 01). Hence, our results support hypothesis H2 with respect to the association between WCM implementation and performance. Finally, we estimate the full model in Eq. 3) that includes the direct impact of WCM on plant performance and an additional direct path from ABC to the dependent variable. The full model results, as reported in columns (3), (6), and (9) of Table 4, indicate that ABC does not have a direct, signi? cant impact on any of the three measures of plant performance. When the impact of the WCM R. D. Banker et al. / Accounting, Organization s and Society 33 (2008) 1–19 2. 61 (17. 78)*** 0. 16 (11. 02)*** 0. 05 (0. 83) A0. 04 (A1. 33) 0. 01 (0. 51) A0. 02 (A0. 65) 0. 14 (2. 83)*** A0. 02 (A0. 42) 0. 09 (1. 72)* 1250 0. 102 18. 52*** 13 t-Statistics are shown in parentheses. **, **, * Indicates signi? cance at the 1%, 5%, and 10% level, respectively. Note: Plant performance is represented using three separate dependent variables. We estimated the three regression models as separate multivariate regressions. variable is included in the model, ABC adoption is not associated with any improvement in plant costs (d2 = 0. 14, t-stat = 1. 43), quality (d2 = A0. 03, t-stat = A0. 47), or time to market (d2 = 0. 05, t-stat = 0. 83). In contrast, WCM continues to have a signi? cant positive impact on all plant performance measures, and the magnitude of the WCM coe? cient is very similar to its estimate in Eq. (2). The adjusted R2 values for the complete mediation models are not signi? cantly di? erent from the R2 values of their corresponding full (i. e. , partial mediation) models. For instance, adding the ABC variable in column (3) results in an increase of 0. 1% (=0. 001) in the DCOST model’s explanatory power, compared to its corresponding R2 shown in column (2). Similarly, introducing ABC in the DQUALITY and DTIME models, results in statistically insigni? cant increases in model R2 of 0. 0% and 0. 1%, respectively. Hence, our results support hypothesis H3, indicating that WCM completely mediates the impact of ABC on plant performance. We also test an alternative speci? cation based on a perspective that the interaction between ABC and WCM implementation may have an impact on plant performance. The interaction model (Luft Shields, 2003) is speci? ed as DPERFORMANCE ? c0 ? c1 A WCM ? c2 A ABC ? c3 A ABC A WCM ? c4 A DOWNSIZE ? c5 A SIZE ? c6 A PLANTAGE ? c7 A DISCRETE ? c8 A VOLUME ? c9 A MIX ? e4 (9) Panel C DTIME (8) (7) (6) Panel B DQUALITY (5) (4) (3) 4. 46 (17. 58)*** 0. 20 (7. 79)*** – 0. 13 (2. 47)** A0. 11 (A2. 89)*** A0. 23 (A4. 36)*** 0. 05 (0. 61) 0. 22 (2. 52)** 0. 02 (0. 21) 1250 0. 068 14. 19*** 4. 46 (17. 56)*** 0. 9 (7. 62)*** 0. 14 (1. 43) 0. 13 (2. 46)** A0. 11 (A2. 93)*** A0. 23 (A4. 38)*** 0. 05 (0. 65) 0. 22 (2. 52)** 0. 02 (0. 20) 1250 0. 069 12. 68*** 3. 28 (21. 36)*** – 0. 024 (0. 37) 0. 016 (0. 48) 0. 009 (0. 40) A0. 062 (A1. 89)* 0. 017 (0. 33) 0. 03 (0. 59) A0. 015 (A0. 24) 1250 0. 002 0. 70 2. 85 (18. 19)*** 0. 14 (8. 78)*** – 0. 016 (0. 48) A0. 03 (A1. 28) A0. 06 (A 1. 89)* 0. 03 (0. 54) 0. 01 (0. 17) A0. 04 (A0. 64) 1250 0. 056 11. 74*** 2. 86 (18. 19)*** 0. 14 (8. 78)*** A0. 03 (A0. 47) 0. 01 (0. 23) A0. 03 (A1. 27) A0. 05 (A1. 64)* 0. 03 (0. 53) 0. 01 (0. 17) A0. 04 (A0. 64) 1250 0. 056 10. 29*** . 11 (21. 30)*** – 0. 11 (1. 82)* A0. 03 (A0. 96) 0. 06 (2. 53)** A0. 03 (A0. 98) 0. 12 (2. 47)** 0. 006 (0. 12) 0. 12 (2. 11)** 1250 0. 014 3. 49** 2. 61 (17. 80)*** 0. 16 (11. 15)*** – A0. 04 (A1. 32) 0. 01 (0. 53) A0. 02 (A0. 64) 0. 14 (2. 80)*** A0. 02 (A0. 42) 0. 09 (1. 72)* 1250 0. 101 21. 07*** ?4? The results indicate that the interaction term (i. e. , ABC * WCM) is not statistically signi? cant for any of the plant performance measures. The estimated magnitude of the coe? cient of the interaction term (i. e. , c3) was A0. 04 (p-value = 0. 48), A0. 02 (p-value = 0. 57), and A0. 03 (p-value = 0. 9) for the DCOST, DQUALITY, and DTIME models respectively. These results indicate that the interaction model is not supported by empiri cal evidence based on analyses of the impact of ABC on operational measures of plant performance. On the other hand, the complete mediation model provides a Table 4 Impact of WCM and ABC on plant performance (2) Panel A DCOST (1) Intercept WCM ABC DOWNSIZE SIZE PLANTAGE DISCRETE VOLUME MIX N Adjusted R2 F Value 5. 05 (20. 50)*** – 0. 22 (2. 13)** 0. 142 (2. 63)** 0. 06 (A1. 48) A0. 24 (A4. 54)*** 0. 04 (0. 48) 0. 25 (2. 84)*** 0. 05 (0. 53) 1250 0. 027 5. 93*** 14 R. D. Banker et al. Accounting, Organizations and Society 33 (2008) 1–19 Table 5 Results of likelihood ratio tests for non-nested model selection (N = 1250) Vuong’s z-statistic DCOST: ABC vs. WCM DQUALITY: ABC vs. WCM DTIME: ABC vs. WCM 4. 72*** 6. 91*** 7. 45*** p-Value 0. 00 0. 00 0. 00 better explanation of variations in plant performance. Comparison of two non-nested models We compared the R2 values associated with the ABC and WCM models in Table 4, and observe that WCM provides greater explanatory power of the variance in plant performance measures. In order to discriminate between these two competing speci? cations (i. e. , ABC ! Performance versus WCM ! Performance), we evaluate them as non-nested models using Vuong’s (1989) likelihood ratio test for model selection that does not assume under the null that either model is true (Dechow, 1994). It allows us to determine which independent variable (ABC or WCM) has relatively more explanatory power, and represents a more powerful alternative since it can reject one hypothesis in favor of an alternative. We report the results of Vuong’s test on nonnested models in Table 5. We conduct the Vuong’s test for each pair of competing non-nested model speci? cations in Panels A, B, and C, of Table 4. Comparing the models in Eqs. (1) and (2) for the performance variable DCOST, we ? nd that Vuong’s z-statistic of 4. 72 is signi? cant at p 0. 01, which indicates that the WCM model in Eq. (2) provides greater explanatory power of the variance in DCOST, compared to the ABC model in Eq. (1). Similarly, Vuong’s z-statistic scores of 6. 91 and 7. 45 are statistically signi? cant (at p 0. 01) for the DQUALITY and DTIME models, respectively. Our results thus indicate that the direct role of ABC in explaining variations in plant performance is relatively small when compared to that of WCM. 10 Contrary to the ? dings reported A signi? cant z-statistic indicates that ABC is rejected in favor of WCM as a better predictor of variance in plant performance. *** Indicates signi? cance at the 1% level. Table 6 Overall impact of ABC on plant performance (N = 1250) Mediated path ABC ! WCM ! DCOST ABC ! WCM ! DQUALITY ABC ! WCM ! DTIME Estimated path coe? cient 0. 08 (0. 02)** 0. 05 (0 . 02)** 0. 06 (0. 01)*** p-Values are shown in parentheses. ***, **, * Indicates signi? cance at the 1%, 5%, and 10% level, respectively. in Ittner et al. (2002), our ? ndings imply that the complete mediation model provides a superior speci? ation to study the impact of ABC on plant performance. Estimating the overall impact of ABC We next estimate the magnitude of the overall impact of ABC, based on the pathway that links ABC to DPERF through WCM, where DPERF represents the change (D) in COST, QUALITY, and TIME, respectively. We calculate the magnitude of the overall impact of ABC on DPERF as the cross-product of (a) the marginal impact of ABC on WCM, and (b) the marginal impact of WCM on DPERF. That is o? DPERF? o? DPERF? o? WCM? ? A o? ABC? o? WCM? o? ABC? ?5? 10 We also estimated the model, shown in Fig. 1, using structural equation model (SEM) analyses. We then estimated a reverse causal model (i. e. , WCM ! ABC ! Performance) to examine whether ABC is a better predictor of performance, compared to WCM. Our SEM ? t statistics for the reverse model fall outside the acceptable range for good model ? t. Consistent with the results reported above, and contrary to the ? ndings reported in Ittner et al. (2002), this suggests that WCM has greater explanatory power than ABC to explain variations in plant performance. The path estimates for the plant performance measures are shown in Table 6. Our results indicate that the overall impact of ABC on DCOST is equal to 0. 8 which is statistically signi? cant at p 0. 05. Similarly, the overall impact of ABC R. D. Banker et al. / Accounting, Organizations and Society 33 (2008) 1–19 15 on DQUALITY and DTIME are signi? cant, and equal to 0. 05 and 0. 06, respectively. Hence, our results support H3 and indicate that there exists an indirect relationship between ABC and plant performance, where WCM completely mediates the impact of ABC on performance. These results are consistent with our theoretical framework which suggests that, although ABC does not have a direct impact, it has a signi? cant overall impact on performance. 11 Discussion We highlight the role played by WCM as a mediator of the impact of ABC on plant performance. We ? nd that ABC has a signi? cant overall impact on reduction in product time to market and unit manufacturing costs, and on improvement in quality. Our results are consistent with prior research which suggests that successful implementation of advanced manufacturing initiatives requires prior adoption of compatible management accounting systems (Milgrom Roberts, 1995; Shields, 1995; Ittner Larcker, 1995; Sim Killough, 1998). Furthermore, our results indicate that WCM practices enable plants to leverage the capabilities o? red by ABC implementation and to signi? cantly improve plant performance. Our study has several limitations. First, the survey instrument measures beliefs about changes in plant performance over a ? ve-year period. These measures need to be validated through archival and ? eld data collection in future research. Second, it is possible that ABC may have been i n place beforehand or implemented sometime during the ? ve-year period. The secondary nature of the data did not allow us to separate the implications We also extended our research model to study the indirect impact of ABC on change in plant-level return on assets (ROA), a key ? ancial performance measure. We found that ABC has a signi? cant, positive impact on DROA which is mediated through its impact on WCM. Our ROA results are consistent with our results on the inter-relationships between ABC, WCM, and plant operational performance reported here. 11 of these possibilities. Future studies must be designed to gather more detailed data, about the timeline of ABC implementation to better understand its impact on plant performance especially since users may need training to adapt to new types of costing procedures. ABC implementation was measured as a 0–1 variable in our study. It is possible that using a more granular scale to measure the extent of ABC implementation, including the level of ABC integration and the time lag since ABC implementation, may provide greater insights on the relationship between ABC and plant performance. Our focus on plants that employ a minimum of 100 employees limits the generalizability of our results to industries with relatively large or very small manufacturing plants. We also did not account for country or cultural di? rences in manufacturing characteristics since the scope of the survey was limited to US plants. Our ? ndings must also be validated with additional data collected in industry-speci? c settings to examine the impact of industry characteristics and di? erences in manufacturing strategies. Future research may also include evaluation of other contextual factors that are associated with the success of ABC implementation, such as process infras tructure, and the extent of human resource support and outsourcing. Our study enhances the quality of the extant body of knowledge on ABC e? ectiveness in several ways. First, our survey responses were data provided by plant managers who may represent a more objective and knowledgeable source of plant-wide operations compared to many previous studies, that relied on respondents (such as ABC project managers) with a personal stake in ABC success (Shields, 1995; Swenson, 1995). Second, ABC non-adopters were identi? ed based on the responses provided by plant managers, unlike prior studies where non-adopters were identi? ed based on the lack of public information on ABC implementation (Balakrishnan, Linsmeier, Venkatachalam, 1996; Gordon Silvester, 1999). Third, we treated the manufacturing plant (instead of the ? rm) as the unit of analysis, which allowed us to observe the impact of ABC implementation on changes in process-level performance metrics 16 R. D. Banker et al. / Accounting, Organizations and Society 33 (2008) 1–19 and avoid the confounding potential when only ? rm-level ? nancial measures are used. Acknowledgement Helpful suggestions by the Editor and two anonymous referees are gratefully acknowledged. Conclusion In contrast to prior studies (Ittner et al. 2002) that have typically focused on the direct impact of ABC on plant performance, we study the role of world-class manufacturing practices in mediating the impact of ABC on plant performance. We draw on prior research on the relationship between management accounting systems and business processes to better understand how ABC may support implementation of WCM practices. Analyzing data from a large cross-sectional sample of US manufacturing plants, we ? nd eviden ce supporting our model emphasizing the role of advanced manufacturing practices in improving plant performance. Our ? ndings emphasize the need for ? ms to strengthen their manufacturing capabilities when making an investment to implement ABC systems, as ABC is unlikely to result in improved manufacturing performance by itself. Our evidence also suggests that plants can reap signi? cant bene? ts by combining ABC implementation with the deployment of advanced manufacturing practices. Using a conceptual lens that focuses on the indirect impact of ABC, the evidence supports our alternative theoretical perspective to prior research. We conceptualize ABC as only an enabler of world-class manufacturing practices, which in turn is associated with improvements in plant performance. Our ‘‘complete mediation’’ model stands in contrast with earlier models proposed by Ittner et al. (2002) who focus primarily on the direct impact of ABC on plant performance. The results indicate that our alternative conceptualization is superior in terms of its ability to explain variations in plant performance based on cross-sectional data of a large sample of plants that have implemented ABC. Furthermore, our proposed model may provide an avenue for future researchers using di? erent methodologies to explain di? erences in performance improvements following ABC implementations. It may also explain the weak or ambiguous results in prior research on ABC impact because ABC adoption may not be a su? cient statistic for WCM. Appendix: Survey questions I. Plant characteristics Variable SIZE Question How many employees are at this plant location? 1 = Less than 100; 2 = 100–249; 3 = 250–499; 4 = 500–999; 5 = 1000 employees PLANTAGE How many years has it been since plant start-up? 1 = Less than 5 years; 2 = 5–10 years; 3 = 11–20 years; 4 = 20 years MIX, VOLUME12 How would you describe the primary product mix at this plant? = High volume, high mix; 2 = High volume, low mix 3 = Low volume, high mix; 4 = Low volume, low mix What is the nature of manufacturing operations for primary products at this plant? 1 = Discrete; 0 = Otherwise (hybrid or process) What is the extent of downsizing at the plant in the past ? ve years? 1 = no change, 2 = extent of downsizing increased 1–10%, 3 = increased 11–20%, 4 = increased 21â€⠀œ50%, 5 = increased 51–75%, and 6 = increased 75% DISCRETE DOWNSIZE For our analysis, we split the data into two variables such that MIX = 1 if high mix; 0 = otherwise, and VOLUME = 1 if high volume; 0 = otherwise How to cite Abc on Plant Performance, Papers

Monday, May 4, 2020

Leadership in Organization Pros and Cons free essay sample

The leader’s leadership styles play a very important role in achieving goals of the organization. The leader’s ability to adapt to internal and external environment changes and working with followers together is the key to success. Moreover, I should mention that many causal modeling revealed that leadership style has a direct, rather than indirect, effect on task performance. Highly complex and stress-laden workplaces present challenges to organizational leaders as they are faced with the task of managing the workforce while concurrently maintaining commitment and morale. Leaders can often be in the middle source of stress among employees in the workplace (Basch Fisher, 2000; Sosik Godshalk, 2000). As the distinctiveness of work changes, so must change the roles and tactics of all leaders. The Leader promote supportive relationships, elicit motivation along with assistants/followers, make possible more positive and less negative emotions along with assistants, and stimulate more kind evaluations of stressful tasks among assistants may be more effective than the more conventional leaders who usually tend toward task-directive methods. We will write a custom essay sample on Leadership in Organization Pros and Cons or any similar topic specifically for you Do Not WasteYour Time HIRE WRITER Only 13.90 / page These leadership elements based on relation, motivation, and emotion are customary with transformational leadership styles (Bass, 1998; Yukl, 1998). Despite a considerable body of literature suggests that leaders based on transformational are effective, there is a small number of experimental research that has discovered how transformational leaders may impact subordinates/followers during stressful business deals. Taking into above mentioned I am to deal with transformational and transactional leadership styles their influence on different subordinate including emotional and motivational experiences. The effects of leadership style based on stressful task performance were examined (by Joseph B. Lyons, Tamara R. Schneider 2009) as potential mediators, further. 2. 0 The Nature of Leadership and Job Stress 2. 1 Leadership Style In the field of organizational behavior the leadership is really an important subject. Leadership is one with the most dynamic effects during individual and organizational interaction. In other words, whether a management is able to execute â€Å"collaborated effort† depends on leadership capability.