Multi-failure network restorability design in survivable transport networks

Akpuh, Jude

Unknown Date

No description available.

survivability

restorability

restoration

transport

networks

survivable

single failure

dual failure

spare capacity

capacity cost

Multi

Multi-failure network restorability design in survivable transport networks

Akpuh, Jude

11 1900

The Dual Failure Restorability (DFR) problems involve the design of network topology to be restorable in the event of single and dual failures scenarios. We developed new integer linear programming (ILP) models to optimally design mesh topology networks with various survivability schemes; span restoration, p-cycle, DSP and path restoration to achieve any specified level of dual failure restorability in the networks. The first variation of the ILP models applies specified dual failure restorability limit to each pair of spans in the network, and the second applies the limit to average dual failure restorability in the entire network. We used 137 test-case networks, consisting of four network families; 10-node, 12-node, 15-node, and 18-node network families. The results show that the capacity cost increases as the specified levels of dual failure restorability increases, and the relative increase in capacity cost in sparsely connected networks is much higher compare to densely connected networks. / Engineering Management

survivability

restorability

restoration

transport

networks

survivable

single failure

dual failure

spare capacity

capacity cost

Multi

Development of a dynamic costing model for assessing downtime and unused capacity costs in manufacturing

Lincoln, Andrew R.

20 September 2013

While costing methods have developed over time, they are often static in nature and ill-suited to the dynamic nature of production lines. Static costing systems are often developed for long-term analysis. Due to this, they lack the ability to aid short-term decision-making. In addition, the use of averaged data prohibits a static costing system from accurately tracing the cost effects of changing system behavior like random downtime events. A dynamic costing system, however, can capture the cost effects of changing system behavior in a manner that can aid short-term operational management. The proposed methodology is a dynamic activity-based costing method that relies on real-time production line data to track costs, specifically the added costs of unused capacity and downtime events. The methodology aims to trace these costs to responsible cost centers on the production line to give a better representation of the total cost of production, specifically in regards to normal production costs, added downtime costs, and added costs from unused capacity. In addition to monetary costs, the methodology provides a framework for tracking environmental costs, such as energy use, in order to aid plant managers with determining the environmental impact of their operations. The methodology addresses a gap between activity-based costing and downtime costing by combining the two under a single methodology. It traces both monetary and environmental costs to cost centers on the manufacturing line to aid continuous improvement efforts and the allocation of resources. By using real-time data, the methodology alerts management to changing system performance in a shorter time frame than static costing systems. The methodology will be shown in a case study of an automotive assembly plant. The case study will model the resource use of an automotive paint shop and trace this resource use to line segments in order to highlight areas of possible improvement.

Production line costing

Activity-based costing

Dynamic costing

Downtime costing

Unused capacity cost

Cost accounting

Critical path analysis

Resource allocation

Operations research

Capacity Trading In Electricity Markets

Cubuklu, Omer

01 January 2012

In electricity markets, capacity cost must be determined in order to make capacity trading. In this thesis, capacity cost and the factors deriving the capacity cost are studied. First, fixed capacity cost of power plants is examined. Direct and indirect costs of fixed capacity cost are detailed with respect to different types of power plants and the impact of these factors to the capacity cost is given. Second, interconnection and system utilization costs of transmission and distribution system are considered in order to simulate energy flow from the producer to the customer. Finally, a capacity cost calculation program is practiced. By the help of this program, capacity cost of power plants is figured out, different cases are compared and the main factors affecting the capacity cost are discussed in detail.

產能成本及產能管理之探討--以某通信電纜公司為個案

劉勇豪

Unknown Date

在新製造環境下，由於昂貴自動化設備之引進及人工成本之提高，因而設備成本及人工成本於產品成本中所佔之比率亦相對地重要，然而若是採用了不恰當的產能觀念與數據，其所造成對產品成本分攤比率的影響非常大，亦即將設備及人力閒置產能（idle capacity）的成本分攤至完成的產品上，也就造成了成本資訊的扭曲。而缺乏有效地結合產能成本的產能管理制度，其結果導致多數的企業均忽略其重要性或是將無附加價值的產能成本（capacity cost）分攤於產品成本之中，造成企業於制定價格決策或選擇訂單決策時，引用了不恰當的資訊，並減低了企業之競爭力。 本研究的目的，擬針對產能成本及產能管理作進一步探討，瞭解其對企業界之決策方面的影響程度。本研究係以國內一通信電纜公司作為研究對象，並以個案及田野研究的方式來探討產能成本及產能管理之相關議題，以提供給相同產業的其他公司，或其他產業作為採行此技術時的參考。 本研究之研究主題包括下列二大項： 一、 建立一套作業制成本制觀念下的產能成本制度，並依據作業制成本制的架構來計算產能成本。 二、 運用所建立的產能成本制度及其所提供的產能成本資訊來協助產能管理。 本研究採用個案研究之方式，將產能成本管理制度之整體架構實施於個案公司內，期能透過此研究方法瞭解產能成本管理之整體架構，以彌補目前文獻中偏重理論探討而缺乏實務研究之缺點。 本研究透過作業制成本制度的適當設計，企業可以獲致設備與人員方面的產能成本，使得管理當局得以瞭解各作業之產能成本，再根據設備與人員方面不同的特性加以妥善管理，可獲致排程管理、閒置產能開發、產品定價決策、提昇產品附加價值（value added）及加強生產管理等效益。 因此，在產能成本管理制度所提供的產能成本資訊中，管理當局除了可以看出各作業尚有多少閒置產能改善的空間之外，尚可於生產之前即可得知瓶頸部門之所在，藉以預先進行生產排程管理，俾降低瓶頸部門之影響；另外，對於資本決策方面所需的資訊，亦可由本制度的資訊中獲得，避免不必要之資本支出；本研究對於日益競爭的產業環境而言，實為一不可或缺之管理工具，藉由本研究所提出之產能成本管理制度的設計與實施，不僅可提升產能管理決策、瓶頸部門管理、資本決策、定價決策等之決策品質，並可間接地降低成本，達到提昇企業競爭力之目的。 / In today’s manufacturing environment, the percentage of equipment cost and labor cost of product cost have became very important, because of expensive auto-machine and high labor cost. If introduce incorrect concept and information of capacity, it would influence the allocation of product cost, that is, allocate the idle capacity cost of equipment and labor to the cost of finished goods. Fail to link capacity cost to capacity management system, it would allocate the non-value-added capacity cost to product cost, and would lead business to “death spiral” because of using incorrect-information for pricing-decision and order-selection-decision. The purpose of the study is to research the influences of business decision-making with the information of capacity cost and capacity management. The research method that I used is case study and field study in a communication cable manufacturing company. The study includes two themes: 1. Building a capacity oriented Activity-Based Costing system, and calculating capacity cost according the ABC system. 2. Using the information of capacity cost system to assist the management of capacity. The study is case study and performs the designed capacity cost management system to the company, I expect to understand the frame of capacity cost management and expand existing literatures that focus on theoretical research to applied research. Through the designed capacity-oriented ABC system, business could get the information of capacity cost between equipment and employee. Using the information of capacity cost, business could get the advantages of order-scheduling management、idle-capacity management、pricing-decision、promoting value-added of products and strengthening production management. Finally, management team could understand the unused-capacity of each activity from the capacity-oriented ABC system, and could predict the bottle-neck department before manufacturing. Management team could reduce the influence of bottle-neck through order-scheduling management. And, management team could avoid unnecessary capital expenditure from the system. For today’s competitive environment, the capacity-oriented ABC system was very important for management, it could promote the quality of decision-making of capacity management、bottle-neck management、capital management、pricing management, and then, increase the competition advantages by reducing product cost indirectly.

產能成本

產能管理

作業制成本制

作業制管理制度

閒置產能

未使用產能

Capacity cost

Capacity management

Activity-Based Costing

ABC

ABM

Idle capacity

Un-used capacity