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I am trying to connect bivariate location points together to form a route. My points refer to fish locations, and so I need paths that only pass through water, and not the surrounding land. Basically, I need to do multiple least cost path analyses and join them altogether. I would like to do this in R, as I have more experience there than I do with ArcGIS, python, modelbuilder, etc.

I have used ArcGIS to create a cost surface, with water coded as 0 and land coded as "NoData", and have imported this into R.

I have tried using shortestPath from the gdistance pkg, but R always shuts down on me when I try running it even just between two points. For example:

costpath=shortestPath(costtrans,c29924[1,],c29924[2,],output="SpatialLines")

where my cost surface is "costtrans", and "c29924" is a SpatialPointsDataFrame with my lat/long locations. I had planned to run a loop so that I could do this for each row in the data frame. However, I do not know why R is not handling even one iteration well. When converting my cost surface to a transition object for the first arguements, I do receive the following warning messages:

Warning messages:
1: In array(ans, c(len.a%/%d2, d.ans), if (!all(vapply(dn.ans, is.null,  :
Reached total allocation of 6057Mb: see help(memory.size)
2: In array(ans, c(len.a%/%d2, d.ans), if (!all(vapply(dn.ans, is.null,  :
Reached total allocation of 6057Mb: see help(memory.size)
3: In as.vector(transition.values) :
Reached total allocation of 6057Mb: see help(memory.size)
4: In as.vector(transition.values) :
Reached total allocation of 6057Mb: see help(memory.size)
5: In .TM.repl.i.mat(as(x, "TsparseMatrix"), i = i, value = value) :
number of items to replace is not a multiple of replacement length

Any suggestions for solving this, or other approaches to my initial goal would be greatly appreciated!

-M

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You should be able to do this using the gdistance package. Can you report the dimensions of your raster -- it could be a memory problem. shortestPath() and costDistance() both need TransitionLayer objects, so if you are not able to produce these, it won't work. If it is, indeed, a memory limitation, consider upscaling your raster using aggregate() from the raster package. –  digitalmaps Mar 7 '12 at 19:40
    
It could also be your cost surface parameterization that is causing these errors (cost surface needs to be a conductance surface, so 1/cost). If you don't want paths to cross land set land to 0.00001, and set water to 1. This will cause the paths to avoid land, and give the geographic path length in raster units between points on water only. –  digitalmaps Mar 7 '12 at 20:05

2 Answers 2

up vote 1 down vote accepted

It is possible to do what you wish using the gdistance package. It may be an issue with the size of your raster (i.e. it is too big for memory), in which case you can upscale it with aggregate() from the raster package. It may also be an issue with your parameterization of land and sea as noted in another comment.

Here is an example of what I believe you want to achieve (below). I have parameterized the land as a high cost barrier (=10000 cost units), and the sea as no barrier (=1 cost unit). Note also that I take the inverse to produce a conductance surface. If you want the lengths of the paths between locations, it can be done with costDistance() and this will give you the result as a geographic path length in the units of the raster.

library(gdistance)

## Create cost surface where "land" exists in the middle
cost <- raster(nrow=100, ncol=100, 
           xmn=0, xmx=100, ymn=0, ymx=100, crs="+proj=utm")
cost[] <- 1
cost[cellFromRowColCombine(cost, 50:55,20:80)] <- 10000

## Produce transition matrices, and correct because 8 directions
trCost <- transition(1/cost, mean, directions=8)
trCost <- geoCorrection(trCost, type="c")

## Create three points (representing three points in time series)
pts <- cbind(x=c(20, 60, 40), y=c(80, 60, 20))

## Display results
plot(cost)
plot(SpatialPoints(pts), add=TRUE, pch=20, col="red")
text(pts[,1]+2, pts[,2]+2, 1:nrow(pts))
plot(shortestPath(trCost, pts[1,], pts[2,], output="SpatialLines"), add=TRUE)
plot(shortestPath(trCost, pts[2,], pts[3,], output="SpatialLines"), add=TRUE)

Example plot of least-cost paths around land

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Thanks PaulG - your post is super helpful. I didn't know about aggregate() for rasters, and I think this may be what is causing trouble. I initially had a very high resolution raster, so I think I will have to sacrifice some of the resolution to get my shortestPaths. –  user1195564 Mar 7 '12 at 20:49
    
I'm still having an issue with R...it stops working when I try shortestPath(). I have tried aggregating my raster so that there are 1000x fewer cells, but I still face this problem. Could this be because I am trying to find the shortest path between two points that may now be in the same cell after aggregating? –  user1195564 Mar 7 '12 at 21:24
    
If you are giving shortestPath() a corrected TransitionLayer object it should work. Have you updated R and the package to the newest versions? Also, check that you have no NAs or other oddities in your coordinates? Try the same for your cost layer e.g. unique(cost), you could try setting NA cells to 1 if they exist cost[is.na(cost)] <- 1. Finally, check to see if the raster is residing in memory or on disk. You may be able to force it into memory with cost[] <- getValues(cost) –  digitalmaps Mar 7 '12 at 21:31
    
I have no NAs in my cost raster, or my coordinates. I will try your memory vs disk suggestion. –  user1195564 Mar 7 '12 at 21:39
    
Nope, I just tried and R exited out again.... –  user1195564 Mar 7 '12 at 21:41

You could use a minimum spanning tree, where the cost on each edge is a function of distance and other factors. In your case, set the weight to infinity if an edge crosses non-water, making sure it never gets used unless they are required at the end to connect the graph. If the graph is non-connected, you can run two or more minimum spanning trees on each disconnected group of points. See wikipedia for easily implemented algorithms, notably Prim's algorithm.

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I am going to look into your suggestions Benjamin - which R packages do you suggest if I decide to go this route? –  user1195564 Mar 7 '12 at 18:31
    
No specific packages in mind, it would be fairly simple to code your own implementation. –  Benjamin Mar 7 '12 at 19:07
    
I don't have tons of experience with graph theory, so I have a feeling this will be a big undertaking... –  user1195564 Mar 7 '12 at 19:14
    
Run a search on CRAN for "minimum spanning tree", it will list a few packages that implement this. –  Benjamin Mar 7 '12 at 19:19
    
I have begun searching the topic. My main concern is that I won't retain the time component of my locations. Right now, they are all in order from oldest to newest, and I would like to connect them as such, to show a movement path. –  user1195564 Mar 7 '12 at 19:31

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