2017 QUARTER 03

A B C D E F G H I K L M N O P R S T U V W

Describe computational intelligence methods that may apply to GIS&T
Exemplify the potential for machine learning to expand performance of specialized geospatial analysis functions
Identify artificial intelligence tools that may be useful for GIS&T
Describe a hypothesis space that includes searches for optimality of solutions within that space

Assess the effect of restricting data in the context of the availability of alternate sources of data
Exemplify areas where post-9/11 changes in policies have restricted or expanded data access

Discuss the way that a legal regime balances the need for security of geospatial data with the desire for open access

Define “prior and posterior distributions” and “Markov-Chain Monte Carlo”
Explain how the Bayesian perspective is a unified framework from which to view uncertainty
Compare and contrast Bayesian methods and classical “frequentist” statistical methods

Explain how the concept “digital cartographic models” unifies a number of principles for computer cartography
Identify areas in cartography and visualization that have, and those that have not, advanced because of computational approaches
Explain how the rise of interoperability and open standards has affected the production of cartographic representations and visualizations
Explain how optimization techniques are improving the automated design of maps
Describe the structure and function of geographic names databases (i.e., gazetteer) for use in mapping
Differentiate between GIS and graphics software tools for mapping and those for visualization purposes

Differentiate the interpretation of a series of three maps and a single multivariate map, each representing the same three related variables
Design a single map symbol that can be used to symbolize a set of related variables
Create a map that displays related variables using different mapping methods (e.g., choropleth
and proportional symbol, choropleth and cartogram) Create a map that displays related variables using the same mapping method (e.g., bivariate choropleth map, bivariate dot map)
Design a map series to show the change in a geographic pattern over time
Detect a multivariate outlier using a combination of maps and graphs
Explain the relationship among several variables in a parallel coordinate plot

Describe various approaches to the long-term funding of a GIS in an organization
Describe methods to evaluate the return on investment (ROI) of a GIS within an organization
Develop a budget for ongoing re-design and system improvement
Discuss the advantages and disadvantages of maintenance contracts for software, hardware, and data across an enterprise
Evaluate the adequacy of current investments in capital (e.g., facilities, hardware, software) and labor for a GIS
Justify changes to the investment in an enterprise GIS, including both cutbacks and increased expenses

List the likely sources of error in slope and aspect maps derived from digital elevation models (DEMs) and state the circumstances under which these can be very severe
Outline how higher order derivatives of height can be interpreted
Explain how slope and aspect can be represented as the vector field given by the first derivative of height
Explain why the properties of spatial continuity are characteristic of spatial surfaces
Explain why zero slopes are indicative of surface specific points such as peaks, pits, and passes, and list the conditions necessary for each
Design an algorithm that calculates slope and aspect from a triangulated irregular network (TIN) model
Outline a number of different methods for calculating slope from a DEM

Identify the hardware and space that will be needed for a GIS implementation
Compare and contrast the relative merits of housing GISs within IT (information technology) and MIS (management information system) facilities versus keeping them separate
Collaborate effectively with various units in an institution to develop efficient hardware and space solutions
Hypothesize the ways in which capital needs for GIS may change in the future

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