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“Artificial Intelligence” in Database Querying
Dept. of CSE
Seung-won Hwang
Why do you need to ace this
class?


“producing machines to automate
tasks requiring intelligent behavior”
(wikipedia)
AI techniques are highly relevant to
many research fields, including
database
More obvious applications
But…
Crash course on DB
SQL queries
select *
from cars
where color=‘red’ and
type=‘convertible’ and
brand=`hyundai’

Crash course on DB

Deciding the most efficient execution
plan among:



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

hyundai->red->convertible?
red->convertible->hyundai?
convertible->hyundai->red?
…
Depends on data structures (B+-tree),
data distributions, …
However, all these efforts are useless
efforts, if no object qualifies
Our strength
Our strength

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Internet shopping, web bulletin
board, cyworld, …
You are sending SQL queries
without you knowing
(at least until you see DB errors)
DBMS is optimizing your query for
you without you knowing
Our weakness


But do you use DBMS for managing
your word files, photos, etc..
What do you use?



File system (Browsing)
Google desktop (Searching)
SQL semantics is too strict

No red hyundai convertible! Or too
many red hyundai elantra?
While Google makes $$$ for
Giving “Artificial Intelligence”

What are the intelligent behaviors
expected?

Suggesting alternatives:

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Red hyundai
Red convertible
Orange convertible
What are the possible automation?

Deciding Red hyundai < Red
convertible
But how?

Any idea?
Underspecified/Overspecified
Queries
GAP
[S1] Borrowing wisdom from
data (as google does)
Useful for both too many or empty results
Text ranking


tf (term frequency): how often query
term appears in document
idf (inverse document frequency):
how rare query term is in document
collection
cars.com
convertible
hyundai
hyundai
red
convertible
red
hyundai
red
red
red
red
red
red
red
red
convertible
high tf
low idf
Applying to database
brand
Red hyundai = 0.9
idf
color
idf
hyundai 0.5
black
0.1
BMW
0.8
red
0.4
kia
0.3
purple 0.9
Red honda = 0.4
Black hyundai = 0.8
What is the assumption?


Rare items are preferred
Can you think of exceptions?


‘purple pony’ vs. ‘purple lexus’
How can we handle this problem?
[S2] Borrowing wisdom of
other users
Query frequency

Keyword frequency in prior queries


Eg., car=‘BMW’ appearing in 50% of
prior queries
Summing up, we can highly rank
cars that are heavily queried before
and rare in stocks
[S3] Borrowing wisdom from
domain knowledge
Example 1: color
(a)
(b)
(c)
(d)
(e)
Example 2: shape=‘retro’
[S4] Borrowing wisdom from
specific user

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Notion of similarity significantly
differs across users
Shape?
C
A
B
You cannot expect users to
describe


(or machine to understand) explicit
explanation like
I want a photo of a building similar
to eiffel tower in terms of shape, but
not in terms of the overall shape,
but in terms of the shape of the
steel material…………..
Mindreader?
(mediabakery.com)
In our car search example
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You can show ‘red bmw’ and
‘hyundai sedan’
Based on user response (or clicks),
you can figure out which is more
important factors, e.g., color
Then you can show more red cars to
figure out further on preference on
brands
Summing up
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You need to bridge the gap between
SQL and ideal results, by
collecting/analyzing as much as
information available from data,
prior users, user himself/herself, …
Implicitly and automatically
Another implicit info to think
about

Tagging frequency ranking/
automatic classification?
Summary

Networks enables access to a large amount of user
created contents/info “Web 2.0”
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Intelligent retrieval techniques is the key in new era
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http://youtube.com/watch?v=6gmP4nk0EOE (interesting web
2.0 video)
Ranking
Classification
I will then show how AI techniques (that you already know!)
got me a PhD in intelligent retrieval research
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Rank Formulation: machine learning
Rank/Classification Processing : best first search, hill
climbing
Q&A