1) The points on the network are referred to as nodes.
2) Lines connecting nodes on a network are called links.
3) Transportation models may be used when a firm is trying to decide where to locate a new facility.
4) A typical transportation problem may ask the question, “How many of X should be shipped to point E from source A?”
5) The objective of a transportation problem solution is to schedule shipments from sources to destinations while minimizing total transportation and production costs.
6) In a transportation problem, each destination must be supplied by one and only one source.
7) In a transportation problem, a single source may supply something to all destinations.
8) Assignment problems involve determining the most efficient assignment of people to projects, salesmen to territories, contracts to bidders, and so on.
9) The objective of an assignment problem solution most often is to minimize the total costs or time of performing the assigned tasks.
10) In the assignment problem, the costs for a dummy row will be equal to the lowest cost of the column for each respective cell in that row.
11) A transportation problem with intermediate points is called a transshipment problem.
12) The transshipment problem is a maximization problem.
13) The minimal-spanning tree technique finds the shortest route to a series of destinations.
14) In the minimal-spanning tree technique, it is necessary to start at the last node in the network.
15) The maximal-flow technique would be helpful to city planners in determining how freeways should be expanded.
16) The minimal-spanning tree technique determines the path through the network that connects all the points while minimizing total distance.
17) The shortest-route technique is the same as the minimal-spanning tree technique.
18) Busy highways are often analyzed with the maximal-flow technique.
19) Transportation companies would definitely be interested in the shortest-route technique to optimize travel.
20) Cable television companies would employ the shortest-route technique to lay out the cables connecting individual houses.
21) We may begin the maximal-flow technique by picking an arbitrary path through the network.
22) The maximal-flow technique might be used by the U.S. Army Corps of Engineers to study water run-off in an attempt to minimize the danger from floods.
23) The shortest-route technique might be used by someone planning a vacation in order to minimize the required amount of driving.
24) A traveling salesperson might use the shortest route technique to minimize the distance traveled to reach one of his/her customers.
25) In the minimal-spanning tree technique, if there is a tie for the nearest node, that suggests that there may be more than one optimal solution.
26) The maximal-flow model might be of use to an engineer looking for spare capacity in an oil pipeline system.
27) The shortest-route model assumes that one is trying to connect two end points in the shortest manner possible, rather than attempting to connect all the nodes in the model.
28) In the maximal-flow technique, a zero (0) means no flow or a one-way arc.
29) The maximal-flow model assumes that there is a net flow from “source” to “sink.”
30) If your goal was to construct a network in which all points were connected and the distance between them was as short as possible, the technique that you would use is
A) shortest-route.
B) maximal-flow.
C) shortest-spanning tree.
D) minimal-flow.
E) minimal-spanning tree.