# Blog

## What is Locality Sensitive Hashing

It’s a beautiful technique to find similar points that is nearest neighbours. It uses the concept of Hashing for this.

You may be familiar with how Hash Table is constructed. If not, please follow this link for a quick refresher on Hashing concepts. It’s a very efficient data structure which allows us to perform operations in O(1) time.

How it Works?

We apply a hash function to each available data point. This gives us the bucket or the key where the point can be placed.

We try to maximize collisions, so that similar points go to same bucket.

Now if we get an unlabelled query point and apply the hash function then it will go to same bucket where similar points exist.

This makes it easy to find the nearest neighbors for the query point. And subsequently we can apply k-NN to predict it’s class.

## What is Weighted k-NN Algorithm

We have seen the basic k-NN algorithm. You may want to read that first to better understand this concept.

Using k-NN we try to predict the class of a query point “Q” (an unclassified data-point). To do this we use the concept of neighbours or points that are similar or close to the query point and then do majority vote.

But we miss something here. Suppose we have 5 neighbours. Don’t you think that the points which are closer to Q needs to be given more importance?

That’s what we do here. We assign weights to the data-points based on their distance from Q. One way to calculate weight is to divide distance by 1 i.e. weight = 1/distance

Consider the following neighbours of Q. Here we have added a new column Weight = 1/Distance

 Point Label Distance Weight A Positive 0.1 10 B Negative 0.2 5 C Positive 0.4 2.5 D Negative 0.5 2

Now that we have weights assigned to each neighbour we can use weighted k-NN to predict the Label for Q. To do this we calculate positive and negative sums.

Positive Sum
We calculate sum of weights for positive labels i.e. A,C : 10+2.5 = 12.5

Negative Sum
We calculate sum of weights for negative labels i.e. B,D : 5+2 = 7

Since Positive Sum > Negative Sum we can say that for Q the label will be Positive.

## Time Based Splitting of Data

In a Machine Learning algorithm we can split the given dataset into training and test data. We can either split randomly or use time based splitting.

For time based splitting we need a timestamp as one of the attributes / features.

Like in case of e-commerce website we can have reviews for various products. These reviews can have timestamps also. In such scenarios it’s better to use time-based strategy.

To do this we can first sort the reviews using timestamp and then do the split.

1. Sort data by time.
2. Split – Training (80%) and Testing(20%)

This approach can give better accuracy. Since the testing data will be more recent and hence better prediction.

## What is k-nearest neighbors algorithm

In k-NN  we have a labeled dataset and we want to use it to predict an unlabelled query point. Stay with me if you don’t get this.

Query point is a similar object that has not yet been classified.

To understand k-NN let us consider a simple dataset of Bollywood Movies.

 Name Lead Actor Genre Director Production Box Office Dangal Aamir Khan Sports Nitish Aamir Khan Hit Badhai Ho Ayushman Comedy Amit Amit Sharma Hit Namaste England Arjun Romantic Vipul Shah Pen India Flop

In this dataset we have box-office as the label. Based on the attribute values a movie is classified as a Hit or a Flop. Of course there will be lot of other factors but for ease of understanding we have taken less features.

k-NN helps us predict if a new movie will be a Hit or a Flop, using this data.

A given movie in this dataset can be represented as a Vector. Vectors are used to represent a point in space. A vector has a magnitude and direction.  For more please refer to this article.

Converting to vector enables us to use the mathematical approach to solve such problems.

For example we can represent the move Dangal as  a Vector <1, 2, 3, 4, 5> where each value corresponds to a column. 1 represents Lead Actor for Dangal, 2 – Genre etc.

This helps us to compare two points easily. Since comparing two Vectors is easy.

## How k-NN works?

At a high level it’s a two step process:

1. We look at the given dataset and find “k” data points that are similar to the query point. We will discuss similarity shortly.
2. From this list of similar data points we do a majority vote.

So we need to define two things – similarity and k value (number of neighbors which can vote). We will look at these two shortly.

## k-NN Algorithm

For k-NN we divide the dataset into two parts. Training and Test dataset. The division is random. An example can be 80% training and 20% test.

It runs in two phases

1. Training Phase – In k-NN we don’t use the training data to come up with a model. We feed this data to algorithm. This data is used to find the nearest neighbors.
2. Test Phase – The Test data is used to find an optimal k value. For selecting k we need to experiment with different k values. Generally an odd k value is selected to help with majority voting. Like we can experiment with the following k values – 1,3,5,7 etc. For each k value we find accuracy using the test data. Accuracy is defined as the ratio of number of correct labels to total number of labels used. For this we provide as input a given data point find the corresponding label and then validate.

I mentioned “Similarity” earlier. Let’s see what it is.

Similarity refers to the closeness between two objects. There are various ways to compute distance between any two given points. Distance between two points can help us figure out if the objects are similar. The one we use here is Euclidean distance.

The Euclidean distance between points p and q is the length of the line segment connecting them.

Other ways to calculate distance includes Manhattan Distance, Cosine Similarity, Hamming Distance etc. To keep this article short and focussed on k-NN we are not going to get into the details of these distances.

## Applying k-NN

Coming back to our Movies dataset let’s see how to apply what we learnt so far.

A new movie starring Aamir Khan is coming and we would like to predict if it will be a Hit or not.

• Use the train data set and test data set to find a k-value. Find movies that are similar to the new movie using the attributes. Like Genre, Director etc. We use Euclidean distance for this.
• Do a majority vote. Like if k value is 3 and 2 similar movies have been Hit then this will also be Hit.

## Limitations of k-NN

The space and time complexity for k-NN is O(N*D) where N is the number of data points with D-dimensions or attributes. This means given a new movie it will take this much space and time to predict it’s outcome. Which is not good.