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I have the following values:

Day 1: X11 X12 X13 X14 X15 ...
Day 2: X21 X22 X23 X24 X25 ...
Day 3: X31 X32 X33 X34 X35 ...
...
...

I can use the values of each day to plot a different CDF but is there a way I can visualize CDFs for all days to see how the distribution is changing across time? Is there something like a 3D variant that I can plot?

Actual values:

structure(list(Time = structure(c(1354348800, 1354435200, 1354521600, 
1354608000, 1354694400, 1354780800, 1354867200, 1354953600, 1355040000, 
1355126400, 1355212800, 1355299200, 1355385600, 1355472000, 1355558400, 
1355644800, 1355731200, 1355817600, 1355904000, 1355990400, 1356076800, 
1356163200, 1356249600, 1356336000, 1356422400, 1356508800, 1356595200, 
1356681600, 1356768000, 1356854400, 1356940800, 1354348800, 1354435200, 
1354521600, 1354608000, 1354694400, 1354780800, 1354867200, 1354953600, 
1355040000, 1355126400, 1355212800, 1355299200, 1355385600, 1355472000, 
1355558400, 1355644800, 1355731200, 1355817600, 1355904000, 1355990400, 
1356076800, 1356163200, 1356249600, 1356336000, 1356422400, 1356508800, 
1356595200, 1356681600, 1356768000, 1356854400, 1356940800, 1354348800, 
1354435200, 1354521600, 1354608000, 1354694400, 1354780800, 1354867200, 
1354953600, 1355040000, 1355126400, 1355212800, 1355299200, 1355385600, 
1355472000, 1355558400, 1355644800, 1355731200, 1355817600, 1355904000, 
1355990400, 1356076800, 1356163200, 1356249600, 1356336000, 1356422400, 
1356508800, 1356595200, 1356681600, 1356768000, 1356854400, 1356940800, 
1354348800, 1354435200, 1354521600, 1354608000, 1354694400, 1354780800, 
1354867200, 1354953600, 1355040000, 1355126400, 1355212800, 1355299200, 
1355385600, 1355472000, 1355558400, 1355644800, 1355731200, 1355817600, 
1355904000, 1355990400, 1356076800, 1356163200, 1356249600, 1356336000, 
1356422400, 1356508800, 1356595200, 1356681600, 1356768000, 1356854400, 
1356940800, 1354348800, 1354435200, 1354521600, 1354608000, 1354694400, 
1354780800, 1354867200, 1354953600, 1355040000, 1355126400, 1355212800, 
1355299200, 1355385600, 1355472000, 1355558400, 1355644800, 1355731200, 
1355817600, 1355904000, 1355990400, 1356076800, 1356163200, 1356249600, 
1356336000, 1356422400, 1356508800, 1356595200, 1356681600, 1356768000, 
1356854400, 1356940800, 1354348800, 1354435200, 1354521600, 1354608000, 
1354694400, 1354780800, 1354867200, 1354953600, 1355040000, 1355126400, 
1355212800, 1355299200, 1355385600, 1355472000, 1355558400, 1355644800, 
1355731200, 1355817600, 1355904000, 1355990400, 1356076800, 1356163200, 
1356249600, 1356336000, 1356422400, 1356508800, 1356595200, 1356681600, 
1356768000, 1356854400, 1356940800), class = c("POSIXct", "POSIXt"
), tzone = ""), Value = c(430664.239261698, 490234.194921927, 
526998.520971122, 536602.462982633, 258691.669906957, 11829.8290116318, 
12650.9461086689, 2720.1227453922, 6148.95630258592, 2680.86993550808, 
2678.03258008561, 2665.03710105507, 2704.83781604574, 2704.99305811391, 
2742.7040489269, 2802.16126409598, 2835.37392203882, 2822.02107441536, 
2816.32800725421, 2798.97376034702, 2796.01930330326, 2754.58930695667, 
2745.58482436398, 2729.8646537471, 2706.30089379909, 2657.97901504968, 
2755.8939918735, 2756.32635948648, 2703.73644754399, 2595.09862261747, 
2583.96164402217, 1103.38595759987, 1410.11179619836, 4758.52642632149, 
4799.73333750023, 3881.64395298922, 2769.52071665839, 2777.36511823707, 
2728.37598724549, 2732.36209370411, 2695.9513678436, 2686.83499265917, 
2681.5743717285, 2720.45290857566, 2732.73841594837, 2760.53934947503, 
2811.42766223853, 2844.41105991693, 2825.55269421361, 2820.7691523964, 
2807.55312109634, 2804.11955879203, 2757.32663905538, 2745.86930679521, 
2739.23425025641, 2715.98260303707, 2692.68857278371, 3527.71521116871, 
4262.25327731706, 4533.9804534, 4481.65508241964, 4421.37186792114, 
19613453.922832, 124804222.41819, 141787648.586654, 130924910.79881, 
168814882.872211, 11894959.6456705, 8774239.566537, 16080698.3234849, 
17161993.52566, 22336448.9385156, 15252276.6007502, 10331573.337916, 
8976597.77324162, 17169136.7951364, 12183504.3046438, 6957562.92857611, 
12930867.2067763, 10663528.8499475, 8969032.06072141, 12857780.0335602, 
10766886.886599, 14795620.653363, 9825272.66156014, 11044813.0699568, 
10367171.6540806, 9610185.60847421, 10931660.4285495, 8394075.58812457, 
8993089.38056002, 8026650.35585018, 7946595.12661373, 114329906.004844, 
137475638.687273, 148815385.289035, 135307862.23453, 184737114.110537, 
119730959.539068, 69757385.6095225, 90614972.0916845, 86831718.3941103, 
119775130.022637, 88442212.7020717, 58451067.337829, 65388376.2367906, 
63443348.7417144, 57280954.523376, 45166897.0970657, 83554097.8501678, 
66201693.7873501, 70795197.9863679, 84221546.3400137, 72983744.7919536, 
79897785.2230573, 69847018.9176478, 73346675.6554418, 64914201.3793851, 
63947528.2287373, 65351437.5297966, 59076239.7375999, 42688084.2661814, 
42066287.169797, 39734565.1701957, 90506964.9337797, 100149152.452364, 
120257643.646244, 111528999.398328, 138621214.049053, 9371.8136697, 
56524340.9066957, 73183012.7386646, 73134499.5072141, 91844218.5996012, 
59462704.401716, 46340856.9647138, 49809994.4841905, 52046927.2065564, 
43534299.417627, 37959416.2194319, 64876408.0181902, 55169784.3656278, 
55637721.2148036, 64303390.999086, 55469744.4302739, 59472270.8402672, 
52495047.7346662, 59934890.0182395, 57773465.6418628, 57227960.3434529, 
58180354.3542921, 50719237.2638962, 33168848.2017861, 33850765.333152, 
33841026.2326982, 110504056.059923, 133797335.531811, 148626502.57032, 
130569007.27317, 163603482.922618, 110945447.425452, 67150219.14672, 
85584433.1881761, 76873561.2170393, 117860559.12102, 84629012.3662336, 
54204572.2980234, 58898821.9609343, 62180038.7679437, 53059333.3332883, 
43914570.1205393, 79475697.2825237, 64196704.372024, 66182175.1487631, 
80851142.6092836, 65475805.206847, 68931230.2593625, 59859872.3417313, 
65228418.926433, 61498299.9737327, 60767088.8695188, 62752189.9148476, 
56770234.222601, 40910036.2385198, 39235601.7774785, 37635952.1705463
)), .Names = c("Time", "Value"), row.names = c(NA, -186L), class = "data.frame")

EDIT: Resulting image

enter image description here

share|improve this question

1 Answer 1

up vote 5 down vote accepted

Sure. Check function rgl.surface() in package rgl:

library(rgl)
data <- lapply(seq(0,2,by=0.1),function(i){rnorm(100)+i})  # a list with example data vectors
m <- sapply(data,function(i){ecdf(i)(seq(-3,5,by=0.1))})   # a matrix with the empirical CDF for each vector in the list, over a given range -3 to 5
rgl.surface(1:nrow(m), 5*(1:ncol(m)), m*20)    # play with the coefficients to get a better result

You can even rotate this surface! For more, check this question.

UPDATE: Here's what you can do with your data:

values.per.day <- lapply(unique(data$Time), function(x)data$Value[data$Time==x])
m <- sapply(values.per.day, function(x) ecdf(x)(seq(min(data$Value), max(data$Value), length.out=1000)) )
rgl.surface(1:nrow(m), 5*(1:ncol(m)), m*20)
share|improve this answer
    
+1 Thank you very much. I read the documentation for rgl but am not able to find out if it is possible to 1. Draw coordinate axes and 2. Export to png/eps. Can you give me some pointers on how to achieve this? Thanks! –  Legend Jan 8 '13 at 23:27
    
Sure. Check ?axis3d, ?rgl.snapshot and ?rgl.postscript in package rgl. –  Theodore Lytras Jan 8 '13 at 23:36
    
Great! Thank you for your time. Accepted as answer. –  Legend Jan 8 '13 at 23:42
    
I have a quick request. While your example of creating a matrix makes perfect sense, I am not quite sure how to do the same for my data. I have a data frame with date as one column and value as another column. The idea is to compute the CDF per day and then plot it in 3d using time as the third dimension. I have been trying to use ddply but I don't understand how to format this data properly. Can you kindly help me? I updated my question with the datastructure. –  Legend Jan 9 '13 at 1:15
    
OK, amended the answer... –  Theodore Lytras Jan 9 '13 at 16:58

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