Creating groups comparable based on a number of variables - cluster-analysis

I have a number of students and I want to divide them into groups. I have measured 5 skills in my students. The goal is to assign students to groups in such as a way that all groups have comparable levels of each skill. In other words I want each of the skills to be distributed comparably across groups, and not concentrated in some groups. What statistical analysis may do this? Preferably in SPSS

You probably want your groups to have a certain size, too?
This looks more like a resource allocation rather than a clustering problem to me. Think of skills as resources.

Related

Methods for searching for people with similar purchasing habits in big data with a given person as the base

I'm looking at finding people with similar purchasing behaviors with a given person or group as a starting point for a market research problem.
I'm going to use vectors and represent every person and their habits as a vector and then compare these vectors to return the base person or group. I'd probably use Faiss. I believe KNN can be used too.
But I'm looking to see is if I can use other methods such as clustering methods like k-means clustering for such a question, and with the presence of a given person or group as the base. I thought the only way clustering algs would work is to first cluster the data, then return the group that the 'base person or group' falls into. However, this would be costly and probably not very accurate. But potentially this technique can be used to reduce the search space.
So, do you know of any other ways? (non-Machine Learning or Information Retrieval methods would be welcomed too :) )

Create pairs with weighting

Programming has been a while for me, apologies.
I have a list of pairs, where the pair is a person and the affiliated group of the person. That is X = {'Person1','GroupA';'Person2','GroupB';'Person3','GroupA';...}
Now I would like to create random pairs of the people in this list. This is pretty straightforward. However, I would like that the probability of two person matching which are in the same group to be low, e.g., 10% or x% and people from different groups 90%.
Does someone have a algorithm for this? Preferably MATLAB or a different programming language?
You can build the list picking the right around of percentage yourself then use function like randperm to shuffle them and make the list ramdom.

Data mining methods

I would like to know which data mining methods (regression, assosiation, clustring or classification) I have to use in case if I would like to find the highest number of reviews among several apps categories.
Thanks in advance for any support.
None.
Finding the maximum is not data mining. It's a simple for loop.
Clustering is the task of dividing the population or data points into a number of groups such that data points in the same groups are more similar to other data points in the same group than those in other groups. In simple words, the aim is to segregate groups with similar traits and assign them into clusters.

Unsupervised Anomaly Detection with Mixed Numeric and Categorical Data

I am working on a data analysis project over the summer. The main goal is to use some access logging data in the hospital about user accessing patient information and try to detect abnormal accessing behaviors. Several attributes have been chosen to characterize a user (e.g. employee role, department, zip-code) and a patient (e.g. age, sex, zip-code). There are about 13 - 15 variables under consideration.
I was using R before and now I am using Python. I am able to use either depending on any suitable tools/libraries you guys suggest.
Before I ask any question, I do want to mention that a lot of the data fields have undergone an anonymization process when handed to me, as required in the healthcare industry for the protection of personal information. Specifically, a lot of VARCHAR values are turned into random integer values, only maintaining referential integrity across the dataset.
Questions:
An exact definition of an outlier was not given (it's defined based on the behavior of most of the data, if there's a general behavior) and there's no labeled training set telling me which rows of the dataset are considered abnormal. I believe the project belongs to the area of unsupervised learning so I was looking into clustering.
Since the data is mixed (numeric and categorical), I am not sure how would clustering work with this type of data.
I've read that one could expand the categorical data and let each category in a variable to be either 0 or 1 in order to do the clustering, but then how would R/Python handle such high dimensional data for me? (simply expanding employer role would bring in ~100 more variables)
How would the result of clustering be interpreted?
Using clustering algorithm, wouldn't the potential "outliers" be grouped into clusters as well? And how am I suppose to detect them?
Also, with categorical data involved, I am not sure how "distance between points" is defined any more and does the proximity of data points indicate similar behaviors? Does expanding each category into a dummy column with true/false values help? What's the distance then?
Faced with the challenges of cluster analysis, I also started to try slicing the data up and just look at two variables at a time. For example, I would look at the age range of patients accessed by a certain employee role, and I use the quartiles and inter-quartile range to define outliers. For categorical variables, for instance, employee role and types of events being triggered, I would just look at the frequency of each event being triggered.
Can someone explain to me the problem of using quartiles with data that's not normally distributed? And what would be the remedy of this?
And in the end, which of the two approaches (or some other approaches) would you suggest? And what's the best way to use such an approach?
Thanks a lot.
You can decide upon a similarity measure for mixed data (e.g. Gower distance).
Then you can use any of the distance-based outlier detection methods.
You can use k-prototypes algorithm for mixed numeric and categorical attributes.
Here you can find a python implementation.

Doubts about clustering methods for tweets

I'm fairly new to clustering and related topics so please forgive my questions.
I'm trying to get introduced into this area by doing some tests, and as a first experiment I'd like to create clusters on tweets based on content similarity. The basic idea for the experiment would be storing tweets on a database and periodically calculate the clustering (ie. using a cron job). Please note that the database would obtain new tweets from time to time.
Being ignorant in this field, my idea (probably naive) would be to do something like this:
1. For each new tweet in the db, extract N-grams (N=3 for example) into a set
2. Perform Jaccard similarity and compare with each of the existing clusters. If result > threshold then it would be assigned to that cluster
3. Once finished I'd get M clusters containing similar tweets
Now I see some problems with this basic approach. Let's put aside computational cost, how would the comparison between a tweet and a cluster be done? Assuming I have a tweet Tn and a cluster C1 containing T1, T4, T10 which one should I compare it to? Given that we're talking about similarity, it could well happen that sim(Tn,T1) > threshold but sim(Tn,T4) < threshold. My gut feeling tells me that something like an average should be used for the cluster, in order to avoid this problem.
Also, it could happen that sim(Tn, C1) and sim(Tn, C2) are both > threshold but similarity with C1 would be higher. In that case Tn should go to C1. This could be done brute force as well to assign the tweet to the cluster with maximum similarity.
And last of all, it's the computational issue. I've been reading a bit about minhash and it seems to be the answer to this problem, although I need to do some more research on it.
Anyway, my main question would be: could someone with experience in the area recommend me which approach should I aim to? I read some mentions about LSA and other methods, but trying to cope with everything is getting a bit overwhelming, so I'd appreciate some guiding.
From what I'm reading a tool for this would be hierarchical clustering, as it would allow regrouping of clusters whenever new data enters. Is this correct?
Please note that I'm not looking for any complicated case. My use case idea would be being able to cluster similar tweets into groups without any previous information. For example, tweets from Foursquare ("I'm checking in ..." which are similar to each other would be one case, or "My klout score is ..."). Also note that I'd like this to be language independent, so I'm not interested in having to deal with specific language issues.
It looks like to me that you are trying to address two different problems in one, i.e. "syntactic" and "semantic" clustering. They are quite different problems, expecially if you are in the realm of short-text analysis (and Twitter is the king of short-text analysis, of course).
"Syntactic" clustering means aggregating tweets that come, most likely, from the same source. Your example of Foursquare fits perfectly, but it is also common for retweets, people sharing online newspaper articles or blog posts, and many other cases. For this type of problem, using a N-gram model is almost mandatory, as you said (my experience suggests that N=2 is good for tweets, since you can find significant tweets that have as low as 3-4 features). Normalization is also an important factor here, removing RT tag, mentions, hashtags might help.
"Semantic" clustering means aggregating tweets that share the same topic. This is a much more difficult problem, and it won't likely work if you try to aggregate random sample of tweets, due to the fact that they, usually, carry too little information. These techniques might work, though, if you restrict your domain to a specific subset of tweets (i.e. the one matching a keyword, or an hashtag). LSA could be useful here, while it is useless for syntactic clusters.
Based on your observation, I think what you want is syntactic clustering. Your biggest issue, though, is the fact that you need online clustering, and not static clustering. The classical clustering algorithms that would work well in the static case (like hierarchical clustering, or union find) aren't really suited for online clustering , unless you redo the clustering from scratch every time a new tweet gets added to your database. "Averaging" the clusters to add new elements isn't a great solution according to my experience, because you need to retain all the information of every cluster member to update the "average" every time new data gets in. Also, algorithms like hierarchical clustering and union find work well because they can join pre-existant clusters if a link of similarity is found between them, and they don't simply assign a new element to the "closest" cluster, which is what you suggested to do in your post.
Algorithms like MinHash (or SimHash) are indeed more suited to online clustering, because they support the idea of "querying" for similar documents. MinHash is essentially a way to obtain pairs of documents that exceed a certain threshold of similarity (in particular, MinHash can be considered an estimator of Jaccard similarity) without having to rely on a quadratic algorithm like pairwise comparison (it is, in fact, O(nlog(n)) in time). It is, though, quadratic in space, therefore a memory-only implementation of MinHash is useful for small collections only (say 10000 tweets). In your case, though, it can be useful to save "sketches" (i.e., the set of hashes you obtain by min-hashing a tweet) of your tweets in a database to form an "index", and query the new ones against that index. You can then form a similarity graph, by adding edges between vertices (tweets) that matched the similarity query. The connected components of your graph will be your clusters.
This sounds a lot like canopy pre-clustering to me.
Essentially, each cluster is represented by the first object that started the cluster.
Objects within the outer radius join the cluster. Objects that are not within the inner radius of at least one cluster start a new cluster. This way, you get an overlapping (non-disjoint!) quantization of your dataset. Since this can drastically reduce the data size, it can be used to speed up various algorithms.
However don't expect useful results from clustering tweets. Tweet data is just to much noise. Most tweets have just a few words, too little to define a good similarity. On the other hand, you have the various retweets that are near duplicates - but trivial to detect.
So what would be a good cluster of tweets? Can this n-gram similarity actually capture this?