How to evaluate a search engine? - seo

I am a student carrying out a study to enhance a search engine's existing algorithm.
I want to know how I can evaluate the search engine - which I have improved - to quantify how much the algorithm was improved.
How should I go about comparing the old and new algorithm?
Thanks

This is normally done by creating a test suite of questions and then evaluating how well the search response answers those questions. In some cases the responses should be unambiguous (if you type slashdot into a search engine you expect to get slashdot.org as your top hit), so you can think of these as a class of hard queries with 'correct' answers.
Most other queries are inherently subjective. To minimise bias you should ask multiple users to try your search engine and rate the results for comparison with the original. Here is an example of a computer science paper that does something similar:
http://www.cs.uic.edu/~liub/searchEval/SearchEngineEvaluation.htm
Regarding specific comparison of the algorithms, although obvious, what you measure depends on what you're interested in knowing. For example, you can compare efficiency in computation, memory usage, crawling overhead or time to return results. If you are trying to produce very specific behaviour, such as running specialist searches (e.g. a literature search) for certain parameters, then you need to explicitly test this.
Heuristics for relevance are also a useful check. For example, when someone uses search terms that are probably 'programming-related', do you tend to get more results from stackoverflow.com? Would your search results be better if you did? If you are providing a set of trust weightings for specific sites or domains (e.g. rating .edu or .ac.uk domains as more trustworthy for technical results), then you need to test the effectiveness of these weightings.

First, let me start out by saying, kudos to you for attempting to apply traditional research methods to search engine results. Many SEO's have done this before you, and generally keep this to themselves as sharing "amazing findings" usually means you can't exploit or have the upper hand anymore, this said I will share as best I can some pointers and things to look for.
Identify what part of the algorithm are you trying to improve?
Different searches execute different algorithms.
Broad Searches
For instance in a broad term search, engines tend to return a variety of results. Common part of these results include
News Feeds
Products
Images
Blog Posts
Local Results (this is based off of a Geo IP lookup).
Which of these result types are thrown into the mix can vary based on the word.
Example: Cats returns images of cats, and news, Shoes returns local shopping for shoes. (this is based on my IP in Chicago on October 6th)
The goal in returning results for a broad term is to provide a little bit of everything for everyone so that everyone is happy.
Regional Modifiers
Generally any time a regional term is attached to a search, it will modify the results greatly. If you search for "Chicago web design" because the word Chicago is attached, the results will start with a top 10 regional results. (these are the one liners to the right of the map), after than 10 listings will display in general "result fashion".
The results in the "top ten local" tend to be drastically different than those in organic listing below. This is because the local results (from google maps) rely on entirely different data for ranking.
Example: Having a phone number on your website with the area code of Chicago will help in local results... but NOT in the general results. Same with address, yellow book listing and so forth.
Results Speed
Currently (as of 10/06/09) Google is beta testing "caffeine" The main highlight of this engine build is that it returns results in almost half the time. Although you may not consider Google to be slow now... speeding up an algorithm is important when millions of searches happen every hour.
Reducing Spam Listings
We have all found experienced a search that was riddled with spam. The new release of Google Caffeine http://www2.sandbox.google.com/ is a good example. Over the last 10+ one of the largest battles online has been between Search Engine Optimizers and Search Engines. Gaming google (and other engines) is highly profitable and what Google spends most of its time combating.
A good example is again the new release of Google Caffeine. So far my research and also a few others in the SEO field are finding this to be the first build in over 5 years to put more weight on Onsite elements (such as keywords, internal site linking, etc) than prior builds. Before this, each "release" seemed to favor inbound links more and more... this is the first to take a step back towards "content".
Ways to test an algorythm.
Compare two builds of the same engine. This is currently possible by comparing Caffeine (see link above or google, google caffeine) and the current Google.
Compare local results in different regions. Try finding search terms like web design, that return local results without a local keyword modifier. Then, use a proxy (found via google) to search from various locations. You will want to make sure you know the proxies location (find a site on google that will tell your your IP address geo IP zipcode or city). Then you can see how different regions return different results.
Warning... DONT pick the term locksmith... and be wary of any terms that when returning result, have LOTS of spammy listings.. Google local is fairly easy to spam, especially in competitive markets.
Do as mentioned in a prior answer, compare how many "click backs" users require to find a result. You should know, currently, no major engines use "bounce rates" as indicators of sites accuracy. This is PROBABLY because it would be EASY to make it look like your result has a bounce rate in the 4-8% range without actually having one that low... in other words it would be easy to game.
Track how many search variations users use on average for a given term in order to find the result that is desired. This is a good indicator of how well an engine is smart guessing the query type (as mentioned WAY up in this answer).
**Disclaimer. These views are based on my industry experience as of October 6th, 2009. One thing about SEO and engines is they change EVERY DAY. Google could release Caffeine tomorrow, and this would change a lot... that said, this is the fun of SEO research!
Cheers

In order to evaluate something, you have to define what you expect from it. This will help to define how to measure it.
Then, you'll be able to measure the improvement.
Concerning a search engine, I guess that you might be able to measure itsability to find things, its accuracy in returning what is relevant.
It's an interesting challenge.

I don't think you will find a final mathematical solution if that is your goal. In order to rate a given algorithm, you require standards and goals that must be accomplished.
What is your baseline to compare against?
What do you classify as "improved"?
What do you consider a "successful search"?
How large is your test group?
What are your tests?
For example, if your goal is to improve the process of page ranking then decide if you are judging the efficiency of the algorithm or the accuracy. Judging efficiency means that you time your code for a consistent large data set and record results. You would then work with your algorithm to improve the time.
If your goal is to improve accuracy then you need to define what is "inaccurate". If you search for "Cup" you can only say that the first site provided is the "best" if you yourself can accurately define what is the best answer for "Cup".
My suggestion for you would be to narrow the scope of your experiment. Define one or two qualities of a search engine that you feel need refinement and work towards improving them.

In the comments you've said "I have heard about a way to measure the quality of the search engines by counting how many time a user need to click a back button before finding the link he wants , but I can use this technique because you need users to test your search engine and that is a headache itself". Well, if you put your engine on the web for free for a few days and advertise a little you will probably get at least a couple dozen tries. Provide these users with the old or new version at random, and measure those clicks.
Other possibility: assume Google is by definition perfect, and compare your answer to its for certain queries. (Maybe sum of distance of your top ten links to their counterparts at Google, for example: if your second link is google's twelveth link, that's 10 distance). That's a huge assumption, but far easier to implement.

Information scientists commonly use precision and recall as two competing measures of quality for an information retrieval system (like a search engine).
So you could measure your search engine's performance relative to Google's by, for example, counting the number of relevant results in the top 10 (call that precision) and the number of important pages for that query that you think should have been in the top 10 but weren't (call that recall).
You'll still need to compare the results from each search engine by hand on some set of queries, but at least you'll have one metric to evaluate them on. And the balance of these two is important too: otherwise you can trivially get perfect precision by not returning any results or perfect recall by returning every page on the web as a result.
The Wikipedia article on precision and recall is quite good (and defines the F-measure which takes into account both).

I have had to test a search engine professionally. This is what I did.
The search included fuzzy logic. The user would type into a web page "Kari Trigger", and the search engine would retrieve entries like "Gary Trager", "Trager, C", "Corey Trager", etc, each with a score from 0->100 so that I could rank them from most likely to least likely.
First, I re-architected the code so that it could be executed removed from the web page, in a batch mode using a big file of search queries as input. For each line in the input file, the batch mode would write out the top search result and its score. I harvested thousands of actual search queries from our production system and ran them thru the batch setup in order to establish a baseline.
From then on, each time I modified the search logic, I would run the batch again and then diff the new results against the baseline. I also wrote tools to make it easier to see the interesting parts of the diff. For example, I didn't really care if the old logic returned "Corey Trager" as an 82 and the new logic returned it as an 83, so my tools would filter those out.
I could not have accomplished as much by hand-crafting test cases. I just wouldn't have had the imagination and insight to have created good test data. The real world data was so much richer.
So, to recap:
1) Create a mechanism that lets you diff the results of running new logic versus the results of prior logic.
2) Test with lots of realistic data.
3) Create tools that help you work with the diff, filtering out the noise, enhancing the signal.

You have to clearly identify positive and negative qualities such as how fast one gets the answer they are seeking or how many "wrong" answers they get on the way there. Is it an improvement if the right answer is #5 but the results are returned 20 times faster? Things like that will be different for each application. The correct answer may be more important in a corporate knowledge base search but a fast answer may be needed for a phone support application.
Without parameters no test can be claimed to be a victory.

Embrace the fact that the quality of search results are ultimately subjective. You should have multiple scoring algorithms for your comparison: The old one, the new one, and a few control groups (e.g. scoring by URI length or page size or some similarly intentionally broken concept). Now pick a bunch of queries that exercise your algorithms, say a hundred or so. Let's say you end up with 4 algorithms total. Make a 4x5 table, displaying the first 5 results of a query across each algorithm. (You could do top ten, but the first five are way more important.) Be sure to randomize which algorithm appears in each column. Then plop a human in front of this thing and have them pick which of the 4 result sets they like best. Repeat across your entire query set. Repeat for as many more humans as you can stand. This should give you a fair comparison based on total wins for each algorithm.

http://www.bingandgoogle.com/
Create an app like this that compares and extracts the data. Then run a test with 50 different things you need to look for and then compare with the results you want.

Related

Foursquare API: Getting an exhaustive list of venues in a given area

I'm using Foursquare API to get a list of venues of a certain category.
One important requirement is that the list is exhaustive, i.e. includes all relevant points. The v2/venues/search API endpoint enforces a limit of 50 venues on the output.
So the first idea that comes to mind is splitting the area into several sections (using "sw" and "ne" params) and then combining the results.
Clearly, the density of points will vary dramatically depending on location, so we'll need to use some kind of adaptive algorithm to flexibly adjust the size of the search window so that it contains all points. Also, there's an increased risk of running into the rate limit, so we might need the algorithm to stop when it's used up its quota of requests.
Finally, it seems that the only way to tell if a search window should be shrunk even further is to count the number of points in the result: if we have less than 50, then we've got a complete list for this section and can move on to the next one; otherwise, we should split it further. It seems to be wasteful as we'll be throwing away the intermediate results (i.e. all results in our search tree except for the leaves).
So here are some questions that I have:
Is it the best way to put together an exhaustive list? Maybe I'm
missing some API functionality?
Is there any specific algorithm you'd use in this case?
How would you go about reducing the number of results that have to be thrown away?
Thanks in advance!
An important disclaimer would be that foursquare does not like it when you perform a lot of searches in the same area.
Having said that, you should look into experimenting with categoryId filter in the venue search api. Most of the data on foursquare is food (restaurants) and nightlife related.
So if you exclude these (by including others, no way to exclude) you can search on a larger area and still get below 50 results.
Never really tried using such an algorithm because the categoryId filtering worked good enough, but in theory, the algorithm is simple, each lat/lng 0.001 is ~111 meters.
Search using a small radius (~200 for large metropolitan areas) and triangulate (scan) areas.
What got us to originally perform a lot of searches (and later stop doing so) is that sometimes foursquare filter out results without asking you (for me, it looks like bugs, for them its part of the algorithm). So for example I would search on a 50 meter radius, find the place I want (I know what I am searching for), expand to 500 meters, not find it (and get less than 50 results - so it was not dropped out because I hit the cap, it was dropped out because ???), move my search location ~300 meters north, find it -> sporadic behavior.
My point is (and the reason for why we stopped making a lot of searches and changed our approach), what you are trying to achieve, 'complete coverage' is very hard to do given the current API and the current usage policy, and -> it is not important really. After a few months of playing with it, we figured out that we should query foursqaure for what our users are looking for and require at this moment, we cache the results - over time we will have a complete coverage, maybe at start we will miss a few spots, but for the long run its not really important.
Hopefully this is not what you're doing, but as a friendly reminder: scraping foursquare's website and/or API is very much prohibited by its terms of service.

how to determine the accuracy of a semantic search engine?

my cousin has created a semantic search engine and he claims that his search engine is the most accurate.
I've seen many semantic search engine and they all look the same to me, because they are not designed to give you results based on the keyword you type.
So if you are creating a semantic search engine, how to to determine the accuracy of its results?
Actually sarnold's suggestion is not far off the mark.
What you would typically do is to take a whole bunch of people and have them try out a bunch of standard queries. Or if you wanted to make the experiment fairer you might let each user pick their own queries to avoid any accusation of bias (because you could pick standard queries you knew your engine was good at answering).
For each query the user would look through the first 10 or so results and say whether they thought each result was relevant or not (you may want to have users score on a scale rather than just yes/no).
Then for each of the queries you can calculate accuracy scores, depending on exactly how you set up the experiment Precision and Recall may be the most appropriate measures though these rely on having a known expected answer which you may not necessarily have. It may be simpler and more appropriate to calculate a simple percentage accuracy.
To determine whether your search engine was better than your competitors you'd have the same people perform the same queries on those search engines scoring in the same way. Having done this you can then calculate and compare the scores for the search engines against your own.

Solr Relevancy - How to A/B Test for Search Quality?

I am looking to perform live A/B and controlled side-by-side experiments to help understand how changes affect search quality. I will be testing variables such as boost value and fuzzyqueries.
What other metrics are used to determine whether users prefer A vs B? Here are 2 metrics I found online...
In Google Analytics, “% Search Exits” is a metric you can use to
measure the quality of your site-search results
Another way to measure search quality is to measure the number of
search result pages the visitor views.
Search Quality is something not easily measurable. For measuring relevance you need to have couple of things:
A competitor to measure relevance. For your case the different instance of your search engine will be the competitors for each other. I mean one search engine instance would have the basic algorithm running, the other with fuzzy enabled, another with both fuzzy and boosting and so on.
You need to manually rate the results. You can ask your colleagues to rate query/url pairs for popular queries and then for the holes(i.e. query/url pair not rated you can have some dynamic ranking function by using "Learning to Rank" Algorithm http://en.wikipedia.org/wiki/Learning_to_rank. Dont be surprised by that but thats true (please read below of an example of Google/Bing).
Google and Bing are competitors in the horizontal search market. These search engines employ manual judges around the world and invest millions on them, to rate their results for queries. So for each query/url pairs generally top 3 or top 5 results are rated. Based on these ratings they may use a metric like NDCG (Normalized Discounted Cumulative Gain) , which is one of finest metric and the one of most popular one.
According to wikipedia:
Discounted cumulative gain (DCG) is a measure of effectiveness of a Web search engine >algorithm or related applications, often used in information retrieval. Using a graded >relevance scale of documents in a search engine result set, DCG measures the usefulness, >or gain, of a document based on its position in the result list. The gain is accumulated >from the top of the result list to the bottom with the gain of each result discounted at >lower ranks.
Wikipedia explains NDCG in a great manner. It is a short article, please go through that.
As you have mentioned you can also have click through rate/data where in you have kind of wisdom of crowd Algorithm and you tweak the relevance based on that. It is a very good way out but it attracts spamming. So it has to be coupled with some metric such as NDCG/MAP etc. to solve your relevance problem.
I can provide more details on this if you still need to know more on how whole stuff put together would work in your case study.

Sphinx/Solr/Lucene/Elastic Relevancy

We have an extremely large database of 30+ Million products, and need to query them to create search results and ad displays thousands of times a second. We have been looking into Sphinx, Solr, Lucene, and Elastic as options to perform these constant massive searches.
Here's what we need to do. Take keywords and run them through the database to find products that match the closest. We're going to be using our OWN algorithm to decide which products are most related to target our advertisements, but we know that these engines already have their own relevancy algorithms.
So, our question is how can we use our own algorithms on top of the engine's, efficiently. Is it possible to add them to the engines themselves as a module of some sort? Or would we have to rewrite the engine's relevancy code? I suppose we could implement the algorithm from the application by executing multiple queries, but this would really kill efficiency.
Also, we'd like to know which search solution would work best for us. Right now we're leaning towards Sphinx, but we're really not sure.
Also, would you recommend running these engines over MySQL, or would it be better to run them over some type of key-value store like Cassandra? Keep in mind there are 30 Million records, and likely to double as we move along.
Thanks for your responses!
I can't give you an entire answer, as I haven't used all the products, but I can say some things which might help.
Lucene/Solr uses a vector space model. I'm not certain what you mean by you're using your "own" algorithm, but if it gets too far away from the notion of tf/idf (say, by using a neural net) you're going to have difficulties fitting it into lucene. If by your own algorithm you just mean you want to weight certain terms more heavily than others, that will fit in fine. Basically, lucene stores information about how important a term is to a document. If you want to redefine the calculation of how important a term is, that's easy to do. If you want to get away from the whole notion of a term's importance to a document, that's going to be a pain.
Lucene (and as a result Solr) stores things in its custom format. You don't need to use a database. 30 million records is not an remarkably large lucene index (depending, of course, on how big each record is). If you do want to use a db, use hadoop.
In general, you will want to use Solr instead of Lucene.
I have found it very easy to modify Lucene. But as my first bullet point said, if you want to use an algorithm that's not based on some notion of a term's importance to a document, I don't think Lucene will be the way to go.
I actually did something similar with Solr. I can't comment on the details, but basically the proprietary analysis/relevance step generated a series of search terms with associated boosts and fed them to Solr. I think this can be done with any search engine (they all support some sort of boosting).
Ultimately it comes down to what your particular analysis requires.

I am looking for a radio advertising scheduling algorithm / example / experience

Tried doing a bit of research on the following with no luck. Thought I'd ask here in case someone has come across it before.
I help a volunteer-run radio station with their technology needs. One of the main things that have come up is they would like to schedule their advertising programmatically.
There are a lot of neat and complex rule engines out there for advertising, but all we need is something pretty simple (along with any experience that's worth thinking about).
I would like to write something in SQL if possible to deal with these entities. Ideally if someone has written something like this for other advertising mediums (web, etc.,) it would be really helpful.
Entities:
Ads (consisting of a category, # of plays per day, start date, end date or permanent play)
Ad Category (Restaurant, Health, Food store, etc.)
To over-simplify the problem, this will be a elegant sql statement. Getting there... :)
I would like to be able to generate a playlist per day using the above two entities where:
No two ads in the same category are played within x number of ads of each other.
(nice to have) high promotion ads can be pushed
At this time, there are no "ad slots" to fill. There is no "time of day" considerations.
We queue up the ads for the day and go through them between songs/shows, etc. We know how many per hour we have to fill, etc.
Any thoughts/ideas/links/examples? I'm going to keep on looking and hopefully come across something instead of learning it the long way.
Very interesting question, SMO. Right now it looks like a constraint programming problem because you aren't looking for an optimal solution, just one that satisfies all the constraints you have specified. In response to those who wanted to close the question, I'd say they need to check out constraint programming a bit. It's far closer to stackoverflow that any operations research sites.
Look into constraint programming and scheduling - I'll bet you'll find an analogous problem toot sweet !
Keep us posted on your progress, please.
Ignoring the T-SQL request for the moment since that's unlikely to be the best language to write this in ...
One of my favorites approaches to tough 'layout' problems like this is Simulated Annealing. It's a good approach because you don't need to think HOW to solve the actual problem: all you define is a measure of how good the current layout is (a score if you will) and then you allow random changes that either increase or decrease that score. Over many iterations you gradually reduce the probability of moving to a worse score. This 'simulated annealing' approach reduces the probability of getting stuck in a local minimum.
So in your case the scoring function for a given layout might be based on the distance to the next advert in the same category and the distance to another advert of the same series. If you later have time of day considerations you can easily add them to the score function.
Initially you allocate the adverts sequentially, evenly or randomly within their time window (doesn't really matter which). Now you pick two slots and consider what happens to the score when you switch the contents of those two slots. If either advert moves out of its allowed range you can reject the change immediately. If both are still in range, does it move you to a better overall score? Initially you take changes randomly even if they make it worse but over time you reduce the probability of that happening so that by the end you are moving monotonically towards a better score.
Easy to implement, easy to add new 'rules' that affect score, can easily adjust run-time to accept a 'good enough' answer, ...
Another approach would be to use a genetic algorithm, see this similar question: Best Fit Scheduling Algorithm this is likely harder to program but will probably converge more quickly on a good answer.