## 2020 QUARTER 04

##### DM-31 - Mathematical models of vagueness: Fuzzy sets and rough sets
• Compare and contrast the relative merits of fuzzy sets, rough sets, and other models
• Differentiate between fuzzy set membership and probabilistic set membership
• Explain the problems inherent in fuzzy sets
• Create appropriate membership functions to model vague phenomena
##### KE-17 - Measuring costs
• Explain how the saying “developing data is the largest single cost of implementing GIS” could be true for an organization that is already collecting data as part of its regular operations
• Describe some non-fiduciary barriers to GIS implementation
• Summarize what the literature suggests as means for overcoming some of the non-fiduciary barriers to GIS implementation
• Outline sources of additional costs associated with development of an enterprise GIS
• Outline the categories of costs that an organization should anticipate as it plans to design and implement a GIS
##### GS-08 - Mechanisms of control of geospatial information
• Distinguish among the various intellectual property rights, including copyright, patent, trademark, business methods, and other rights
• Explain how databases may be protected under U.S. copyright law
• Outline the intellectual property protection clause of a contract that a local government uses to license geospatial data to a community group
• Explain how maps may be protected under U.S. copyright law
• Differentiate geospatial information from other works protected under copyright law
• Define “metadata” in the context of the geospatial data set
• Use a metadata utility to create a geospatial metadata document for a digital database you created
• Formulate metadata for a graphic output that would be distributed to the general public
• Formulate metadata for a geostatistical analysis that would be released to an experienced audience
• Compose data integrity statements for a geostatistical or spatial analysis to be included in graphic output
• Identify software tools available to support metadata creation
• Interpret the elements of an existing metadata document
• Explain why metadata production should be integrated into the data production and database development workflows, rather than treated as an ancillary activity
• Outline the elements of the U.S. geospatial metadata standard
• Explain the ways in which metadata increases the value of geospatial data
##### CV-25 - Metadata, Quality, and Uncertainty
• Describe a scenario in which possible errors in a map may impact subsequent decision making, such as a land use decision based on a soils map
• Evaluate the uncertainty inherent in a map
• Compare the decisions made using a map with a reliability overlay from those made using a map pair separating data and reliability, both drawn from the same dataset
• Critique the assumption that maps can or should be “accurate”
##### FC-01 - Metaphysics and ontology
• Define common theories on what is “real,” such as realism, idealism, relativism, and experiential realism
• Compare and contrast the ability of different theories to explain various situations
• Recognize the commonalities of philosophical viewpoints and appreciate differences to enable work with diverse colleagues
• Evaluate the influences of particular worldviews (including one’s own) on GIS practices
• Justify the metaphysical theories with which you agree
• Identify the ontological assumptions underlying the work of colleagues
##### AM-82 - Microsimulation and calibration of agent activities
• Describe a “bottom-up” simulation from an activity-perspective with changes in the locations and/or activities the individual person (and/or vehicle) in space and time, in the activity patterns and space-time trajectories created by these activity patterns, and in the consequent emergent phenomena, such as traffic jams and land-use patterns
• Describe how various parameters in an agent-based model can be modified to evaluate the range of behaviors possible with a model specification
• Describe how measurements on the output of a model can be used to describe model behavior
##### DC-15 - Mission planning
• Plan an aerial imagery mission in response to a given request for proposals and map of a study area, taking into consideration vertical and horizontal control, atmospheric conditions, time of year, and time of day
##### CP-15 - Mobile Devices

Mobile devices refer to a computing system intended to be used by hand, such as smartphones or tablet computers. Mobile devices more broadly refer to mobile sensors and other hardware that has been made for relatively easy transportability, including wearable fitness trackers. Mobile devices are particularly relevant to Geographic Information Systems and Technology (GIS&T) in that they house multiple locational sensors that were until recently very expensive and only accessible to highly trained professionals. Now, mobile devices serve an important role in computing platform infrastructure and are key tools for collecting information and disseminating information to, from, and among heterogeneous and spatially dispersed audiences and devices. Due to the miniaturization and the decrease in the cost of computing capabilities, there has been widespread social uptake of mobile devices, making them ubiquitous. Mobile devices are embedded in Geographic Information Science (GIScience) meaning GIScience is increasingly permeating lived experiences and influencing social norms through the use of mobile devices. In this entry, locational sensors are described, with computational considerations specifically for mobile computing. Mobile app development is described in terms of key considerations for native versus cross-platform development. Finally, mobile devices are contextualized within computational infrastructure, addressing backend and frontend considerations.

##### CV-40 - Mobile Maps and Responsive Design

Geographic information increasingly is produced and consumed on mobile devices. The rise of mobile mapping is challenging traditional design conventions in research, industry, and education, and cartographers and GIScientists now need to accommodate this mobile context. This entry introduces emerging design considerations for mobile maps. First, the technical enablements and constraints that make mobile devices unique are described, including Global Positioning System (GPS) receivers and other sensors, reduced screensize and resolution, reduced processing power and memory capacity, less reliable data connectivity, reduced bandwidth, and physical mobility through variable environmental conditions. Scholarly influences on mobile mapping also are reviewed, including location-based services, adaptive cartography, volunteered geographic information, and locational privacy. Next, two strategies for creating mobile maps are introduced—mobile apps installed onto mobile operating systems versus responsive web maps that work on mobile and nonmobile devices—and core concepts of responsive web design are reviewed, including fluid grids, media queries, breakpoints, and frameworks. Finally, emerging design recommendations for mobile maps are summarized, with representation design adaptations needed to account for reduced screensizes and bandwidth and interaction design adaptations needed to account for multi-touch interaction and post-WIMP interfaces.