Intended learning outcomes: Present important features and their possible values in reference to logistics and production resources. Explain the production environment: make-to-stock, assemble-to-order, make-to-order, and engineer-to-order. Differentiate the depth of product structure in the company from the depth of the product structure within the total supply chain.
Figure 4.4.3.1 shows the second group of features.
Fig. 4.4.3.1 Important features and their possible values in reference to logistics and production resources.
Production environment or manufacturing environment refers to whether a company, plant, product, or service is organized to fulfill orders downstream from a specific (customer) order penetration point (OPP). The organization involves methods and techniques of planning & control of development, procurement, production, and delivery.
This feature is naturally closely connected with the (customer) order penetration point (OPP) and the stocking level (see Fig. 1.3.3.1):
- Make-to-stock is a store at the level of the end product. Delivery takes place from the end products store according to customer order.
An order picking store or a commission stock represent a status between actual stocking and use. Here all items or products are brought together that will be used for a certain production or sales order. They are stocked until final use in production or in the form of delivery to the customer. See Section 15.4.1. - Assemble-to-order, or finish-to-order, is stocking at the level of assemblies or single parts. Upon receipt of a customer’s order, a customized product is assembled using key components from the assemblies store or from the single parts store (that is, from the in-house parts store or purchased parts store).
Package-to-order is a production environment in which a good can be packaged during the customer tolerance time. The item itself is the same for all customers. However, (only) packaging determines the end product. - Make-to-order involves stocking at the level of raw materials or direct purchasing of material from suppliers after receipt of a customer’s order. The final product is produced to meet the special needs of the customer using materials from the raw materials store or acquired through customer procurement orders. In both cases, the starting point is completed design and manufacturing process design. Thus, we can speak of stocking at the level of product and process design.
Consigned stocks, or consignment inventory, or vendor-owned inventory (VOI) are inventories that legally still belong to the supplier, but have already been physically moved to the company. (A consignment is the process leading to consigned stock.) - Engineer-to-order involves no stocking at all, at least for parts of a customer order. These must be developed or engineered prior to procurement and production.
The depth of product structure in the company is defined as the number of structure levels within the company.
This feature describes the degree to which the company’s logistics resources must work toward the inside and toward the outside of the company. In regard to the supply chain within a company, the following is possible:
- In a pure trading company the number of structure levels, and thus the depth of product structure, is zero. Note: A company is still a trading company if it administrates a supply chain but contracts the production processes to third parties. Actually, though, the underlying basis is a one-level process plan with all external operations.
- Pure assembling companies or producers of single parts generally have at least one-level production, with mainly outside suppliers.
- A supplier may produce preassemblies or single parts or perform individual operations (such as surface treatments). Here, again, one-level production is the general rule. Suppliers are forced, however, to depend on producers further along the supply chain. Sometimes they function as system suppliers.
- The greater the number of structure levels the company itself “makes,” the fewer components it will purchase from outside suppliers, and the greater the depth of product structure in the company.
This feature goes hand in hand with the feature depth of product structure within the total supply chain (Section 4.4.2). The less depth of product structure in a company as compared to that in the entire supply chain, the more strongly the company is bound to the transcorporate supply chain. In other words, with less depth of product structure, the greater the necessity for transcorporate cooperation. Experience has shown that deep product structure of the entire supply chain is also “wide,” in the sense that many components enter into each structure level. This extends the range of procurement tasks.
With great depth of production structure, a company may attempt to reduce the complexity of the network by turning over structure levels to third parties (buy decision). This reduces complexity within the company itself, but complexity is not reduced within the total supply chain. Each company should contribute toward mastering the total complexity. Outsourcing must result in lower transaction costs (see also Section 2.1.1). The general rule is that outsourcing replaces long push logistics with pull logistics, through augmenting the number of independent partners and thus the number of process levels in the process model. In consequence, more persons become involved in planning & control. As they stand closer to their part of the entire process, the quality of planning & control can increase.
Continuation in next subsection (4.4.3b).
Course section 4.4: Subsections and their intended learning outcomes
4.4 Characteristic Features Relevant to Planning & Control in Supply Chains
Intended learning outcomes: Produce an overview on principle and validity of characteristics in planning & control. Explain six features in reference to customer, and item or product or product family, five features in reference to logistics and production resources, as well as seven features in reference to the production or procurement order. Describe important relationships between characteristic features of transcorporate logistics in supply chains.
4.4.1 Principle and Validity of Characteristics in Planning & Control
Intended learning outcomes: Describe the characteristic in planning & control in a supply chain. Explain the use of the results of the analysis.
4.4.2 Features in Reference to a Product: Depth and Orientation of the Product Structure, and VAT Analysis
Intended learning outcomes: Present important features and possible values referring to a product. Differentiate between a convergent product structure and a divergent product structure. Disclose the VA analysis within the VAT analysis.
4.4.2b Features in Reference to Customer and Product Family: Frequency of Customer Demand and Product Variety Concept
Intended learning outcomes: Present important features and possible values referring to the customer demand and the product variety concept. Differentiate between continuous demand and discontinuous demand. Explain the product variety concept. Disclose the T analysis within the VAT analysis and its relation to the product variety concept.
4.4.2c Features in Reference to an Item: Unit Cost and Transportability
Intended learning outcomes: Present important features and possible values referring to an item: unit cost and transportability.
4.4.3 Features in Reference to Logistics and Production Resources: Production Environment and Depth of the Product Structure in the Company
Intended learning outcomes: Present important features and their possible values in reference to logistics and production resources. Explain the production environment: make-to-stock, assemble-to-order, make-to-order, and engineer-to-order. Differentiate the depth of product structure in the company from the depth of the product structure within the total supply chain.
4.4.3b Features in Reference to Production Resources: Facility Layout, Flexible Capability, Flexible Workforce, and Flexible Capacity
Intended learning outcomes: Present important features and their possible values in reference to production resources. Describe fixed-position manufacturing, job shop production, as well as single-item-oriented, high-volume and continuous line production. Differentiate flexible capability (of the production equipment), flexible workforce, and flexible capacity.
4.4.4 Features in Reference to the Production or Procurement Order: Reason for Order Release, Frequency of Order Repetition, and Flexibility of the Order Due Date
Intended learning outcomes: Present important features and possible values in reference to production or procurement order. Differentiate between order release according to demand, prediction, and consumption. Differentiate between production (or procurement) without, with infrequent, and with frequent order repetition. Identify the feature flexibility of the order due date.
4.4.4b Features in Reference to the Production or Procurement Order: Blanket Order, Lot Size or Batch Size, Lot Traceability, Loops in the Order Structure
Intended learning outcomes: Present important features and possible values in reference to production or procurement order. Identify the features type of long-term order and blanket order. Explain the concepts of lot size, lot traceability, and loops in the order structure.
4.4.5 Relationship between Facility Layout, Orientation of Product Structure, and (Order) Batch Size, and between Product Variety Concept, Production Environment, and Frequency of Order Repetition
Intended learning outcomes: Identify links among the features facility layout, orientation of product structure, and (order) batch size. Disclose links among the features product variety concept, production environment, and frequency of order repetition.
4.4.5b Relationship between the Frequency of Customer Demand and the Frequency of Order Repetition
Intended learning outcomes: Explain why the features frequency of customer demand and frequency of order repetition do not necessarily need to correspond.
4.4.6 Features of Transcorporate Logistics in Supply Chains
Intended learning outcomes: Present important features, possible values, and increasing complexity of supply chain collaboration, of supply chain coordination, and of the configuration of the supply chain.
