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I have a MySQL table containing

  • (100 million) Lat/Lng coordinates of locations in America
  • Number of people living within a square mile radius of that location

Question: After generating and overlaying the heatmap on a Google maps or Openstreetmaps, the number of people living with a square mile radius has to be determined at any point on the map wherever the mouse cursor is positioned at. (Simple averaging using the neighboring data points can be used)

How do you generate such a heatmap? Is it recommended to use Mapreduce?

enter image description here

Initial Thoughts

Heatmap has to be pre-rendered serverside

Downloading all the necessary points onto the browser then generating the heatmap clientside can be a problem: Large number of coordinates have to be retrieved from the database (heavy database load) AND transferred to the browser (large dataset), furthermore the browser have to process the large number of points to generate the heatmap. This will be far too slow, so I suppose we have to pre-render the heatmap serverside and retrieve the heatmap tiles to overlap on the map.

Better Alternative: Process serverside, render clientside

Instead of fully rendering the heatmap server side and serving the image tiles, we can simplify the data by clustering points that are close together into a single point and a weight/bias, then send these smaller dataset of simplified point data (via JSON) to the browser for clientside rendering of the heatmap (using heatmapjs). Sending lat/lng points instead of image tiles will make the application/website more responsive.

This will also allow us to read the heatmap intensity values directly from Javscript and implement the hover popup box (see image above) in Javascript/jQuery. Not sure how to do this if we instead had sent the heatmap tiles to the browser.

Map/reduce?

We probably need to split up the job (processing 100 million data points) into smaller chunks and generate the heatmap across several nodes. This will be done once a month. Having several nodes generate the heatmap makes me think of mapreduce and hadoop, although I have not used them before.

Existing solutions

gheat generates the heatmap on-demand, so it will be too slow for our purpose. However we still need a tile server for the heatmap tiles that we pre-render, maybe we can use an OSM tile server.

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I'm not sure if you're asking how to produce the heatmap data or how to render it efficiently in a browser on Google Maps, since you mentioned both. This question would be better if you mentioned whatever research you've done so far, what you've tried, and what problems you encountered. – Martin Atkins Mar 22 '13 at 5:16
    
I am asking about the approach to take. I have collected the data and need to produce a heatmap. On-demand rendering (both serverside and clientside) of the heatmap tiles when a browser requests for it will be too slow due to the large number of data points involved, so it has to be pre-rendered. So I guess the main question here is on how we can create (pre-render) the heatmap from 100 million data points. – Nyxynyx Mar 22 '13 at 5:32
    
Okay, so you're asking about how to produce the heatmap data. Your question is currently very open-ended and unlikely to get a good answer. It could be improved by stating what you've learned so far in your research into heat map generation... for example, what led you to think of using MapReduce? What have you tried so far? What specific problems have you run into? – Martin Atkins Mar 22 '13 at 5:35
    
Thank you for the suggestions, I have reworded my question taking them into account. What approach do you think best suits this problem? – Nyxynyx Mar 22 '13 at 5:49
up vote 2 down vote accepted

To answer this we must first consider the sorts of problems map/reduce is well suited for. The best problems for map/reduce are those that can be broken down into small sub-problems that can be solved separately. A good analogy to think about this class of problem might be to consider the SQL GROUP BY construct, which effectively breaks a resultset into multiple chunks and computes an aggregate function on each: if you can imagine solving a problem via a GROUP BY (dataset size notwithstanding) then it is probably a good fit for map/reduce.

Your specific problem requires partitioning the data into geospatial regions and then computing some sort of aggregate for each of these regions. You'll then render these regions as two-dimensional tile images that can be overlaid on a Google Map.

A natural way to approach this then would be to start with a map function that accepts a stream of the rows from your data source, which consist of a geospatial point (lat/long) and a count. The contract for a map function is to emit tuples of the form (key, value), so in this case your mapper would need to "simplify" the point to create a key -- that is, to reduce its accuracy so that several neighboring points will share the same value -- and return that value along with the population at the current point. Here is some pseudocode for this:

function map(row):
    key = simplify_point(row.point) # implementation of this function TBD by you
    emit(key, row.population_count)

This will produce an intermediate dataset with items like the following:

| key           | value |
| 37.78,-122.43 | 2303  |
| 37.78,-122.43 | 2009  |
| 37.78,-122.43 | 3001  |
| 37.78,-122.43 | 1238  |
| 37.79,-122.43 | 1343  |
| 37.79,-122.43 | 3005  |
| 37.79,-122.43 | 2145  |
| 37.79,-122.43 | 1536  |

Notice that each distinct key now has multiple values associated with it. The task of the reduce function is to take a set of values with the same key and produce a single value that represents that whole group of the data. Without knowing the details of your problem at hand, I'm going to assume that it's sufficient to determine the total population in each group, which we can achieve by simply adding together all of the values. A reduce function receives a key and a list of all of the values that had that key in the mapper's output, so our reducer could look as simple as this (again, in pseudocode):

function reduce(key, population_counts):
    sum = 0
    for value in population_counts:
        sum = sum + value
    emit(key, sum)

For the example resultset above, this would result in the following final result:

| key           | value |
| 37.78,-122.43 | 8551  |
| 37.79,-122.43 | 8029  |

You could then take this smaller set of points and values and render them as areas of different colors on a map, thus creating a visual heatmap.

Although I've used simple integer counts here for simplicity, in practice any type can be used as the value, so you can use instances of a particular class, or arrays, or any other value you can produce given a single row of data at a time. In your screenshot you show a hovertip that gives the number of records that were merged to produce the given datapoint, which you could do by having your reducer not only sum but also simultaneously count the rows, and return both together in some sort of object or data structure.

The above outlines the logical workflow for a map/reduce operation and describes one way to use map/reduce to create a heatmap. I'm sure I didn't solve your problem exactly, but if you can frame your problem within the workflow I described above then it could be a good fit for a map/reduce solution. I've also focused on the theory of map/reduce rather than the specific implementation in Hadoop, but hopefully you can easily map the concepts I've described onto the constructs provided by Hadoop.

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