Topic 10

Question 1

what is isarithmic mapping

Answer 1

deals with continuous fields
elevation mainly
impression of depth
based on the concept of continuity of phenomena

rate of change maps

isometric
isopleth

Question 2

change of elevation over space = ______

Answer 2

slope

Question 3

isometric

Answer 3

by far more common
location of points is real
true point data

Question 4

isopleth

Answer 4

conceptual point data
phenomena we have is continuous, but we measure at a location. measured at the centre of a polygon

Question 5

where do points come from?

Answer 5

lidar
TIN (triangulated networks) (sketchup angled surfaces)
isolines
rasters (pixels and cells)
Sfm
surveyed points
satellite measurements

Question 6

how to model continuous surfaces

Answer 6

raster
TIN
isolines

Question 7

what is thiessen polygon

Answer 7

used for socio-economic data
polygons represent the spacing of the dots themselves
irregular tesallation

Question 8

what is TIN

Answer 8

triangulated networks
estimating between known points

Question 9

describe global mapping methods

Answer 9

raster
regression model that produces a surface to then extract elevations

trend surface
shows general trends of the data

extreme values along the edges (nothing to control it if there no points there)

Question 10

describe local mapping methods

Answer 10

look at the same amount of your point observations to estimate values

Inverse distance weighting

geospatial - kriging

more hyper local/defined

Question 11

describe inverse distance weighting

Answer 11

estimating values of a point based on nearest neighbours

the closer another point the more influence it has

creates little tragets in your data (data is most likely not dense enough)

Question 12

geospatial - kriging

Answer 12

often the “best” interpolation method
look at the spatial distribution of points and their attribures and then how it sets up the inverse distance weighting

data distribution controls the search parameters

Question 13

how to symbolize isarithmic maps

Answer 13

isolines
shading betweeen isolines
continuous tone

fishnet or 3d perspective

augmentation
hillshade
slope, azimuth, curvature

Question 14

classed values vs. colour ramp

Answer 14

what works better for your map?

Question 15

hypsometric curve

Answer 15

use of colour and size allocation can be problematic

elevation changes on earths surface

Question 16

contouring characteristics

Answer 16

contours usually relate to elevation
estimating values
draw line of equal value between data points
inverse weighting distancing
isolines : show lines of equal value

create vector representation of ‘breaks’

can only be ratio or interval measurement level

Question 17

what are slope and aspect measurements and the two components

Answer 17

slope and aspect are key measurements that can be performed on terrain models

two components

slope (vertical)
aspect (horizontal)

0 = north
90 = east
180 = south
270 = west

Question 18

slope computations

Answer 18

raster DEM
computation is the ratio of two components
(vertical and window distance)

convert to % by multiplying by 100

can be extended to account for more than 4 neighbours (extended to 8)

complex and used inside ArcGIS

Question 19

aspect computations

Answer 19

raster DEM
aspect is expressed using angles on a unit circle (circular data)

sign and magnitude of differences reveals the “tilt”

Question 20

does representation of slope appear less or more noisy (blurry) with larger pixels?

Answer 20

less noisy

Question 21

small pixels = _____

Answer 21

more noise

usually not as good for slope and aspect maps

Question 22

precision of slope and aspect maps

Answer 22

derivation of slope and aspect maps from terrain models are very sensitive to precision/accuracy of the input DEM on TIN

questionable
precision is much lower with larger pixels
best is 2x the original data pixel size

Question 23

deriving slope curvature

Answer 23

measured in slope direction or aspect
spatial change of slope or aspect
spatial derivative

input map
first order produce (slope angle, aspect)
second order products (slope profile, plan curvature, flat, convex, concave)

Question 24

profile curvature

Answer 24

going down or to 0 (skate ramp) = concave up (+)
becomes steeper (bows out) = convex up (-)

Question 25

planform curvature

Answer 25

diverges away from middle = convex (+)
converges to middle = concave (-)

Question 26

what is relative radiance?q

Answer 26

simulate relative amount of light being reflected by a surface

Question 27

best ways to visualize terrain

Answer 27

contours and hillshade are the best for elevation
DEMS and TIN are very useful
early techniques involved artists shading the map, now there is automation within the software to “project light”

Question 28

describe unidirectional vs multidirectional

Answer 28

uni has light source from one direction

multi is coming from various angles but makes the image appear more washed out but also has more detail

Question 29

Eyton (1990) colour sterescopic effect

Answer 29

added detail and countours can sometimes make your map harder to interpret or understand quickly

Question 30

what is a low pass filter

Answer 30

removes all the high frequency information (noise) and shows general trends in the data

Question 31

what is a high pass filter

Answer 31

removes all the low frequency information and shows the high frequency information
takes out general trends

Question 32

what does a convolution filter do

Answer 32

widely applied operations in a variety of raster application

used to smooth things out
extract things
remove things
DEM (slope and aspect)

Question 33

there is always a ________ when running filters on images

Answer 33

trade-off

Question 34

low pass filter in photoshop example

Answer 34

the girl photo
remove noise and “scratch marks”

Question 35

high pass filter photoshop example

Answer 35

owl photo
sharpens edges
extract high frequency and then add it back in
for aesthetics

Question 36

convolution coefficients

Answer 36

the moving window (kernal) is a matrix of convolution coefficients (weights) commonly 3x3, 5x5, 7x7 pixels in size

Question 37

moving window (kernal)

Answer 37

3x3, 5x5, 7x7 pixels in size
1/9
low pass
smoothing
only interval and ratio data
bigger the window the smoother it will be
reduces difference between pixels

Question 38

edge detector (laplacian) filters

Answer 38

shows edges
high pass
enhance or sharpen
exaggerates difference between pixels

Question 39

nominal = ________ filter

Answer 39

modal

Question 40

sobel filters

Answer 40

horizontal edge detector
vertical edge detector

Question 41

laplacian filters

Answer 41

edge detector
edges = 0
shows you where the edges are
look at nearest neighbour
if you put a 9 in the middle it becomes and edge enhancement

Question 42

statistical filters

Answer 42

median (remove noise)

modal (reduce noise)

minimum ( erosion)

maximum (expansion)