GIS 6005 Lab 6: Choropleth Mapping

One of our tasks this week was to use a diverging color scheme to represent positive and negative population change in the counties of our chosen state. We first needed to apply a suitable projection for our state. In my case, I chose UTM Zone 13N for Colorado. This UTM zone covers the majority of Colorado, leaving only a strip along the westernmost border outside the zone and thus mildly distorted. If we were required to work with detailed spatial statistics this week or were focused on that section of Colorado, I would have chosen a different projection or created a custom one.

The next step was to normalize the data. Rather than use the normalization options in the layer properties, we created a new attribute in which we used the field calculator to calculate the percentage of population change by county from 2010 to 2014. This was the field we used as the basis for our choropleth maps.

We then faced three main tasks: Decide on the classification details (method and number of classes), how to symbolize the classes, and how to design the legend. I began by using the Natural Breaks classification method with seven classes. Seven classes would allow for one class representing minimal population change and three classes each for population increase and decrease. Natural Breaks was a good start, but, for this general reference map without any other specified purpose, I wanted to create a more symmetrical and directly comparable classification scheme to more easily see how counties compared. I manually adjusted the population increase and decrease classes to mirror each other.

For symbolizing these classes, I based the diverging color scheme on one included in ArcMap. I did adjust the HSV values, primarily saturation, to even out the contrast somewhat. The orange to red color ramp seems natural to represent a decline and is easily distinguished from the green color ramp. The yellow representing the middle class is distinguishable from both ramps while fitting in to both color schemes.

The final piece of the layout was the legend. My original intention was to use the legend property options to create the legend, but these were too limited. The data naturally fall into three categories (as I have classified them), so I converted the legend to graphics in order to split the legend into three categories. This created a legend that was more legible and intuitive to interpret.

GIS 6005 Lab 5: Symbol Mapping

Our lab exercises this week introduced us to some of the difficulties cartographers face when displaying data using proportional symbols. It can be an intuitive way to present data, yet it can also be a struggle to create a map that does not create unnecessary confusion. In the above example, we were required to use proportional symbols to communicate job gains (a positive number) and job losses (a negative number) by state. The first hurdle was dealing with the negative job numbers; directly symbolizing both positive and negative numbers from a single layer in ArcMap does not produce an acceptable result. We needed to export selections of states with positive and negative job numbers into two new layers. A new field was then added to the 'states with job losses' layer in which the field calculator was used to convert the negative numbers to positive. The resulting two layers were then used as the basis for the proportional map above.

The primary variable in creating this style of map is choosing how large the symbols should be and if Flannery's compensation should be applied. In this case, compensation was not applied. However, there was a discrepancy in size between the two layers. Experimentation with the minimum symbol sizes created proportional symbol progressions that were equivalent. Once I finalized the legend layout (converting it to graphics and editing it within ArcMap), I wanted to apply a type of transparency that is not available within ArcMap. I exported the layout to Adobe Illustrator and applied a 'multiply' transparency to create the transparency effect seen above. This minimizes the interpretive problems created by symbol overlap.

GIS 6005 Lab 4: Working with Color

Color ramp	Notes	Stepwise Intervals
Linear progression		R20	G35	B27
	-Lightest color selected using approximately the same ratio of RGB as darkest -The RGB steps divided by 5 leads to R steps of 20, G steps of 35, and B steps of 27	20 20 20 20 20	35 35 35 35 35	27 27 27 27 27
Adjusted progression
	-Using the same dark and light colors of purple, the adjusted progression steps are based on the general rule (provided in lab text) that the darker color steps are a third higher than average and the lighter color steps are a third lower than the average.	27 24 20 16 13	47 40 35 29 24	36 32 27 23 17
ColorBrew
	-The steps provided by colorbrew created a more defined color progression with greater variations in the steps between each color.	69 2 -22 11 29	28 73 47 37 53	52 57 23 19 28

              

The differences between my linear and adjusted progression color ramps are subtle, but the increased step size between the darkest colors in the adjusted progression ramp does aid in differentiating them. The Color Brewer ramp, however, created a progression of individual colors that are more defined and easier to distinguish. The RGB values show that Color Brewer varied the steps between each color selection much more than the linear or progression ramps. For example, the step from the darkest purple to the next color is large for R and B but relatively small for G, but the step to the next color is tiny for R (2) and very large for G (73). The third step actually reduces the R value instead of increasing it. This reflects our text in showing how complicated the relationship is between RGB values when creating color ramps and how many options we have in creating our maps.

GIS 6005 Lab 3: Typography

I went through several rounds of experimentation in order to get the right combination of legibility and visual hierarchy for each of the map features. Starting with the water features of San Francisco Bay and Golden Gate, I wanted to use fairly standard font/color combinations for water features. I chose the built-in 'coastal features' symbol option that converted the labels to blue italicized Arial font with extra spacing. I made San Francisco Bay larger due to its larger size, and I used the Draw toolbar to rotate the labels to align with their orientations and to fit within the map. My label for Lake Merced, however, was created manually by changing the font color to blue and italicizing. I increased character spacing only slightly in order to fit within map. I also applied a white halo of 0.5 to allow the text to stand out from the background.

The San Francisco label needed to be prominent without dominating the layout. I maintained the Arial font, increased the size to 14, changed the style to Bold, and applied a halo of 0.5. I placed the label in the center of the map; this will naturally be one of the first labels a viewer is drawn to, and it also happens to be in an area of the map without competing labels.

I treated Marin Peninsula as a landform. After experimentation, I settled on a dark grey (70%) Arial text with increased character spacing (40) and a light grey (20%) halo. The combination of grey text and grey halo allows the label to stand out from the green park background without contrasting as intensely as a black/white combination would. I used the Spline Text tool from the Draw toolbar to create the moderately curved text that roughly follows the curve of the peninsula.

I kept the labels for Treasure Island and Angel Island as simple Arial text with no halo. The text stands out from the blue background without a halo or other alteration. Also, given the placement of the islands away from other features and labels, a placement to the upper right clearly labels each island without the need for pointers or having the labels directly on the features. I also kept Sausalito relatively simple, but its location required a halo as well as placement directly on it. I experimented with rotating the text to better fit the feature, but this never looked right to my eye.

The parks were a challenge due to their relatively small size and location near other features and labels. I began by fitting the text within the features for Golden Gate Park and the Presidio of San Francisco, but this was a tight fit . This also obscured the features themselves in the process. Instead, I moved the text away from each park and used the Draw toolbar to create a simple line pointing from the label to the feature. This eliminates any confusion of what the text is labelling, and the consistency of style works well. I used the same style for the Golden Gate Bridge; the bridge feature is far too small for a directly placed label, and it fits well with the park style.

Keeping the general labelling style simple, I directly placed the text for Russian Hill, Nob Hill, and the San Miguel Hills on the feature areas with haloed Arial text. The halo was necessary to allow the labels to stand out from the streets symbology underneath. I used the same text style for Twin Peaks, only adding a small pointer line to more clearly indicate the feature area. 

GIS 6005 Lab 2: Coordinate Systems

My chosen area of interest is my current home state of Nevada. I chose NAD 1983 UTM Zone 11N for this map as this is the standard projection I have used in my volunteer experience with the BLM in Nevada. Nevada fits virtually perfectly within Zone 11. There are State Plane options, but the State Plane projections are divided into East, Central, and West Nevada. UTM Zone 11N is more appropriate for a single map of the entire state.  

GIS 6005 Lab 1: Map Design

Lab 1: City of Austin recreation opportunities map.

              Visual contrast: The requirements for the lab drove some of my choices in addressing the five design principles. Having only Travis County as the displayed map boundary made contrast with the background relatively simple. I chose beige with 20% transparency as a muted color for the county that would bring it out from the background while allowing for the other features to maintain contrast on top. The colors and outline of the other features were chosen to contrast with the Travis County polygon without dominating the layout.

               Legibility: I sized the text of the title and legend to maintain legibility without taking up too much space in the layout. There was a problem with recognizing the extent and locations of golf courses and waterways, so I experimented with various outline options. I ended up using minimal outlines (0.4 mm) of the same color as the main symbol; this allows  for much greater legibility for both symbols without cluttering the map the way a darker outline would.

               Figure-ground organization: This wasn't a huge consideration since there were so few elements to include and no basemap beyond Travis County. I experimented with various colors for the layout background, but each one conflicted with Travis County; I would have needed to make Travis County a more prominent color to make it stand out from any colored background, and that would have created issues with making the rest of the (more important) symbology stand out.

               Hierarchical organization: The purpose of the map is to highlight the locations of recreation opportunities, so the layers for recreation centers, waterways, and golf courses are given prominence. The raw umber triangles stand out from the tan background better than the original circles I used, and the use of outlines of the same color around golf courses and water bodies bring them forward visually. Roads are important, too, and are prominent in the layout but not dominating by being set to 50% grey. The legend was reordered to reflect the level of importance for each item.

               Balance: A landscape orientation was chosen in order to balance the blank space around the Travis County map. The large title text in the upper right corner is balanced by the moderately-sized legend and grey scale bar in the lower left corner. The upper left of the Travis County map extends a little further than the lower right, so the grey orientation arrow and author/date/source text make up for the extra blank space.

GIS 4048 Final Project

Figure 1: Layout of all six weighted overlay rasters.

Figure 2: Weighted overlay using all variables with equal influence.

For this final project, I was required to create a Weighted Overlay analysis (similar to that seen in Module 8) in order to narrow down home search areas for hypothetical clients. My clients work from home and are looking to move from Las Vegas, NV to southwestern Utah. They prioritize access to outdoor recreation but are also interested in living near Cedar City, Utah with its annual Shakespearean Festival. The results of this analysis were the six overlays seen in figure 1.

The link to my presentation can be found below:

http://students.uwf.edu/tae12/TyEvans_GIS4048ProjectPres.pptx

I am reasonably satisfied with my results. Although I am familiar with many of the areas considered in this project, I was surprised by the amount of highly rated land around smaller communities such as Kanarraville and Brian Head. If I were to continue this analysis I would like to consider other variables such as topography, elevation, and weather. Although mentioned in the presentation, I did not include proximity to Zion and Bryce Canyon National Parks as inputs for the Weighted Overlay tool. I would also like to conduct a similar analysis for the communities of Springdale and Moab.