Intended learning outcomes: Present routing and scheduling and the optimization of loading space.
Continuation from previous subsection (15.4.3)
Routing and scheduling determine the order in which a means of transportation will reach the individual stations (customer, transshipment stations, warehouses, and so on).
The objective is to deliver to all customers in a delivery area at minimal cost. Strategic route optimization is required. The return movements of empty road vehicles must also be planned (direct return following delivery, loading of a return load, empty load minimization). Routing and scheduling are complex optimization problems that must be solved, taking account of numerous constraints and restrictions, such as weight and volume constraints, distances, delivery time windows, and more. Planners often implement algorithms from “operations research.” Using so-called “opening heuristics,” an initial tour is scheduled and then optimized through the use of “improving heuristics.” For a detailed description of this procedure, see, for example, [DoSo10].
Optimization of loading space is closely connected to the two problems outlined above.
Selection of the means of transportation and scheduling of the tour results in the assignment of a definite number of load units to each means of transportation (for example, truck or rail wagon). The next task is to load the goods into the units with optimal utilization of the loading space, leaving the least possible space unused. Planners may again use heuristic methods from the field of “operations research” to achieve optimization of the loading space.
Transport planning and scheduling produces transportation orders, which trigger the physical transportation of goods.
The transportation order stipulates the time and place for pickup of a particular number of load units and the time and place they will be delivered.
This order can contain a single load unit, several load units referring to a unique delivery order, or the optimized, combined transportation of several delivery orders. The transportation order usually sets a delivery time window or a maximum delivery lead time.
Consolidation is a term for packages and lots that move from suppliers to a carrier terminal and are sorted and then combined with similar shipments from other suppliers for travel to their final destination (see [ASCM22]).
For the supplier, the advantage of this transshipment is daily deliveries of various goods to various receivers. This is to the customer’s advantage, as well. However, the advantage must be weighed against the costs of trans-shipment. Routing and scheduling with consolidation is usually a job for the transport company, freight forwarder, or third-party logistics provider. Simple cases of consolidation are called milk
runs, or regular routes for pickup of mixed loads from several suppliers (see [ASCM22]).
Transportation control consists of monitoring the route movements of the transport units, monitoring traffic conditions and delays, and registering and evaluating disturbances.
Transport controlling of external transport systems is usually managed via a control center that controls, monitors, and coordinates transports in dependency on actual conditions and contingencies. Today, drivers can communicate with central control via mobile data terminals, cellular phones, and personal digital assistants. The wireless Internet allows for the use of small handheld devices for interfacing with central control and accessing traffic and weather information. Some vehicles are also equipped with satellite navigation systems, such as global-positioning-system (GPS) receivers, that compute the location of vehicles in real-time and allow tracking by central control.
Whereas the delivery note used to suffice as the supporting document, today the entire goods flow is usually managed electronically. This makes standardization of communication means essential, so that uniform monitoring is possible in intermodal transport chains.
- Via scanning of the bar code on the goods, the legal “passing of the risk” that occurs at transshipment is documented.
- EDIFACT (electronic data exchange for administration, commerce, and transport) is one of the format standards that have been created for information technology support of transport control.
- RFID or another transponder technique for worldwide self-identification of goods and use electronic product codes (EPCs).
- Tracking and tracing of package deliveries is now offered by many transport service providers. Using the World Wide Web via the Internet, customers can view information on their shipments (identified by transponders, for example).
Transport planning must also consider outsourcing logistics tasks to specialized distribution companies (self-owned or third-party logistics providers). With their focus on core competency and due to consolidation effects, the result can be a significant reduction in operating costs as well as improved efficiency, service, and flexibility. Companies can put these advantages to good use, for they stand under the growing pressure to lower costs and, at the same time, to meet higher demands from customers regarding service, price, and delivery capability. Courier services and express carriers are becoming more and more a part of logistics chains, in particular to fulfill just-in-time deliveries. For an extensive discussion of distribution tasks, see, for example, [Ross15], [Pfoh18], and [MarA95].
Course section 15.4: Subsections and their intended learning outcomes
15.4 Distribution Control
Intended learning outcomes: Explain order picking, packaging, load building, and transportation to receiver.
15.4.1 Order Picking
Intended learning outcomes: Explain discrete order picking and batch picking. Describe sequential picking and zone picking. Differentiate between decentralized goods preparation and centralized goods preparation.
15.4.2 Packaging
Intended learning outcomes: Present a conceptual framework to handle the diverse functions and requirements of packaging.
15.4.2b Load Building
Intended learning outcomes: Explain load building. Identify the levels of aggregation in load building.
15.4.3 Transportation to Receiver
Intended learning outcomes: Describe the selection of the mode of transport. Explain the transport chain from supplier to receiver and various kinds of organizing transshipment points.
15.4.3b Transport Routing and Scheduling
Intended learning outcomes: Present routing and scheduling and the optimization of loading space.
