This exercise completes the analysis of the
airport-siting problem in FigureĀ airport-id-figure
. 1. Provide reasonable variable domains, probabilities, and utilities for the network, assuming that there are three possible sites.
2. Solve the decision problem.
3. What happens if changes in technology mean that each aircraft generates half the noise?
4. What if noise avoidance becomes three times more important?
5. Calculate the VPI for ${AirTraffic}$, ${Litigation}$, and ${Construction}$ in your model.
. 1. Provide reasonable variable domains, probabilities, and utilities for the network, assuming that there are three possible sites.
2. Solve the decision problem.
3. What happens if changes in technology mean that each aircraft generates half the noise?
4. What if noise avoidance becomes three times more important?
5. Calculate the VPI for ${AirTraffic}$, ${Litigation}$, and ${Construction}$ in your model.
This exercise completes the analysis of the
airport-siting problem in FigureĀ airport-id-figure
.
1. Provide reasonable variable domains, probabilities, and utilities
for the network, assuming that there are three possible sites.
2. Solve the decision problem.
3. What happens if changes in technology mean that each aircraft
generates half the noise?
4. What if noise avoidance becomes three times more important?
5. Calculate the VPI for ${AirTraffic}$, ${Litigation}$, and
${Construction}$ in your model.