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Would anyone know how to use C/C++ to calculate the streakedness of data? The definition of streakedness is how many deviations away from the mean(i.e running average a numerical data streak. Thank you for your help.

[EDIT] From our company's chief software architect, here is the requirement for a statistical measure. Could someone please define a statistical formula based onour architect's definition of data streakedness? -- February 19th 2013 8:00AM

Equal numbers are a streak. 1,2,3,3,3,4,5 has a streak of 7.

Case A: 1,2,3,4,5,6,7,8,9,10,11,12,13 has a longest streak of 13.

Case B: 1,2,3,4,5,6,7,3,8,9,10,11,12 has a longest streak of 7, a second smaller streak of 6.

Case C: 1,2,3,4,5,6,7,1,2,3,4,5,6 has a longest streak of 7, and a second smaller streak of 6.

Case D: 1,2,3,4,5,6,7,1,2,3,1,2,1 has a longest streak of 7, a second smaller streak of 3, and a third smallest streak of 2

Case E: 1,2,3,4,5,6,7,6,5,4,1,2,3 has a longest streak of 7, and a second smaller streak of 3.

Case F: 1,2,3,4,5,6,7,6,5,4,3,2,1 has a longest streak of 7, and no smaller streaks.

The cases A – F are ordered in ‘most sorted to least sorted’, but all have the same length longest streak. Using the averages of streak length is not appropriate:

A: Average = 13/1 = 13

B: Average = (7+6)/2 = 6.5

C: Average = (7+6)/2 = 6.5

D: Average = (7+3+2)/3 = 4

E: Average = (7+3)/2 = 5

F: Average = 7/1 = 7

Factoring in non-streaks (counting them as 1’s):

A: Average = 13/1 = 13

B: Average = (7+6)/3 = 4.3

C: Average = (7+6)/2 = 6.5

D: Average = (7+3+2+1)/4 = 3.25

E: Average = (7+1+1+1+3)/5 = 2.6

F: Average = (7+1+1+1+1+1+1)/7 = 1.85

A variable R can be used to indicate how many deviations away from the mean a particular streak is. According to the disclosed embodiment, the level of a streak can be defined not just in (integer*deviation) distances from the mean but also as (integer*fraction_of_deviation) distances. To accomplish this, a variable R-factor can be used. The R-factor indicates the separation between two successive R-levels in terms of a fraction of the deviation. By varying the R-factor, streaks can be ranked as required. However, the "credibility" of the streak should also be considered, and included in a ranking mechanism. The deviation within the streak is an obvious measure of how staggered the data is within the streak. A good streak should be less staggered, or in other words, have less deviation. For this reason, a very high level streak is considered to be good, even if its deviation is more than what would normally be desired. Thus, while the level R influences the ranking positively, the deviation within the streak influences it negatively.

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What additional information would be required to answer this question? Thank you. –  Frank Feb 18 '13 at 15:51
    
hrrrrm. looks alot like homework. I would use the en.wikipedia.org/wiki/Root-mean-square_deviation ( what a coincidence... the R variable sounds like the residuals :-) ) or compare the predicted quantiles with the actuall results. –  Najzero Feb 18 '13 at 15:53
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What additional information would be required to answer this question? - What have you tried? Where are you stuck? Seems like you just copied and pasted the assignement, some effort on your part is required –  Mike Feb 18 '13 at 15:58
    
Najzero, This is not a homwework question. We are designing a data profiler to mesaure the descriptive statictics of numeric data stored in commercial relational databases. We just read the root-mean square deviation wikipedia link. How might RMSD be used to calculate the streakedness of data? Wht is your opinion of using a higher statistical moment such as kurtosis? Thank you for your reply. –  Frank Feb 18 '13 at 15:59
    
@Mike, We have tried 1)Longest increasing Subsequence and 2) Standard Deviation 3) Running Average to measure the streakedness of data? But, customers want more statistical mesaures. Thank you for your reply. –  Frank Feb 18 '13 at 16:02

2 Answers 2

up vote 1 down vote accepted

It's not at all clear what you want from this measure. If you don't care about the streak contents you could use the sum of squares of streak lengths divided by the square of the total length. This measure would be always between 0 and 1. It would be exactly 1 if the entire sequence is a single streak, slightly less if it's mostly one long streak, and 1/length if it has no streaks at all. For your cases this measure comes out as

A: Average = 13²/13² = 1.0000
B: Average = (7²+6²)/13² = 0.5030
C: Average = (7²+6²)/13² = 0.5030
D: Average = (7²+3²+2²+1²)/13² = 0.3728
E: Average = (7²+1²+1²+1²+3²)/13² = 0.3609
F: Average = (7²+1+1+1+1+1+1)/13² = 0.3254
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Thank you for your reply, Joni. I will try to show it our software director and architect later today. Thank you. –  Frank Feb 19 '13 at 14:58
    
@@Joni, Thank you for the calculations of the test cases. If I hear from our software director and architect, I will approve your answer. Also, coud you please comment on the applicability of Chauvenet's criteria to cases A, B, C, D, E and F. Thank you. –  Frank Feb 19 '13 at 15:06
    
To what do you want to apply Chauvenet's criteria? –  Joni Feb 19 '13 at 15:45
    
@@Joni, Chavenet's criterion might be used to prune the "data outliers" from the data subsequences underlying the data streaks. Thank you for your help. –  Frank Feb 19 '13 at 15:56
    
@@Joni, Wikipedia states that , "suppose a value is measured in several trials as 9, 10, 10, 10, 11, and 50. The mean is 16.7 and the standard deviation 14.92. 50 differs from 16.7 by 33.3, slightly more than two standard deviations. The probability of taking data more than two standard deviations from the mean is roughly 0.05. Six measurements were taken, so the statistic value (data size multiplied by the probability) is 0.05×6 = 0.3. Because 0.3 < 0.5, according to Chauvenet's criterion, the measured value of 50 should be discarded." Thank you for your help. –  Frank Feb 19 '13 at 15:59

Sorry if this is off base, but I'm looking at this from an image processing perspective.

One of the more interesting methods I've seen for analyzing scatterplots is "graph-theoretic scagnostics" or simply "scagnostics" (scatterplot diagnostics) proposed by Tukey, later written up by Wilkinson. In addition to "stringiness," there are several other interesting shape/cluster identifiers.

If your data is in 2-space or in 3-space, there are some image processing algorithms that can identify streaks of data, but I'd have to see some sample data plots/images to provide any further suggestions.

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Your idea sounds promising. I will show it our company's chief architect and software director later this morning. Thank you for your idea. I will let you know ASAP if our company's chief architect wants to adopt your idea. Thank you very much. –  Frank Feb 19 '13 at 6:39
    
@@Rethunk, Would you have time today to look at our company's sofware architects' examples in the edit above in the original question? I apologize for leaving out our software architect's examples. Thank you for your help. –  Frank Feb 19 '13 at 13:20
    
Could you please let us know if Chauvanet's criterion maight apply to calculate data streakedness? en.wikipedia.org/wiki/Chauvenet%27s_criterion Thank you for your help. –  Frank Feb 19 '13 at 14:33
    
Sorry, I just had the chance to read this 2 days after you posted your request. Since you've accepted the answer from Joni, I assume you're all set. Please let me know otherwise and I'll try to help, though I only check stackoverflow.com sporadically according to my work schedule. –  Rethunk Feb 22 '13 at 3:00
    
@@Rethunk, We would be very grateful if you help us solve this problem amd read your posted answer to our question. I know your work sechdule is very busy . So, we will be patient. Thank you for your reply. –  Frank Feb 23 '13 at 8:13

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