RESULTS OF THE NIPS 2006 MODEL SELECTION GAME Isabelle Guyon, Amir Saffari, Gideon Dror, Gavin...
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Transcript of RESULTS OF THE NIPS 2006 MODEL SELECTION GAME Isabelle Guyon, Amir Saffari, Gideon Dror, Gavin...
RESULTS OF THE NIPS 2006 MODEL SELECTION GAME
Isabelle Guyon, Amir Saffari, Gideon Dror, Gavin Cawley, Olivier Guyon, and many other volunteers, see
http://www.agnostic.inf.ethz.ch/credits.php
Thanks
Part I
INTRODUCTION
Model selection
• Selecting models (neural net, decision tree, SVM, …)
• Selecting hyperparameters (number of hidden units, weight decay/ridge, kernel parameters, …)
• Selecting variables or features (space dimensionality reduction.)
• Selecting patterns (data cleaning, data reduction, e.g by clustering.)
Performance prediction challenge
How good are you at predicting
how good you are?
• Practically important in pilot studies.
• Good performance predictions render model selection trivial.
Model Selection Game
Find which model works best in a well controlled environment.
• A given “sandbox”: the CLOP Matlab® toolbox.• Focus only on devising model selection strategy.• Same datasets as the performance prediction
challenge, but “reshuffled”• Two $500 prizes offered.
Agnostic Learning vs. Prior Knowledge challenge
When everything else fails,
ask for additional domain knowledge…
• Two tracks:
– Agnostic learning: Preprocessed datasets in a nice “feature-based” representation, but no knowledge about the identity of the features.
– Prior knowledge: Raw data, sometimes not in a feature-based representation. Information given about the nature and structure of the data.
Game rules
• Date started: October 1st, 2006.• Date ended: December 1st, 2006 • Duration: 3 months.• Submit in Agnostic track only.• Optionally use CLOP or Spider.• Five last complete entries ranked:
– Total ALvsPK challenge entrants: 22.– Total ALvsPK developement entries: 546.– Number of game ranked participants: 10.– Number of game ranked submissions: 39.
Datasets
Dataset Domain Type Feat-ures
Training Examples
Validation Examples
Test Examples
ADA Marketing Dense 48 4147 415 41471
GINA Digits Dense 970 3153 315 31532
HIVADrug discovery
Dense 1617 3845 384 38449
NOVAText classif.
Sparse binary 16969 1754 175 17537
SYLVA Ecology Dense 216 13086 1308 130858
http://www.agnostic.inf.ethz.ch
Baseline BER distribution(Performance prediction challenge, 145 entrants)
0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4 0.45 0.50
50100150
ADA
0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4 0.45 0.50
50100150
GINA
0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4 0.45 0.50
50100150
HIVA
0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4 0.45 0.50
50100150
NOVA
0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4 0.45 0.50
50100150
SYLVA
BERTest BER
Agnostic track on Dec. 1st 2006
ADA GINA HIVA NOVA SYLVA Ave. rank Ave. best Rev-submitRoman_Lutz 1 1 5 1 4 2.4 LogitBoost_with_trees 1Juha_Reunanen 5 2 1 2 6 3.2 cross-indexing-7 1H._Jair_Escalante 7 3 2 3 7 4.4 BRun2311062 5J._Wichard 3 5 4 8 2 4.4 mixed_tree_ensembles 3VladN 6 4 3 5 5 4.6 RS1 3Marc_Boulle 2 7 7 6 1 4.6 SNB(CMA)_+_100k_F(2D)_t 1The_Machine 4 6 6 9 3 5.6 TMK 5weseeare 8 8 8 4 8 7.2 YAT 1pipibjc 9 9 9 7 9 8.6 naiveBayes_Ensemble 1
Yellow: used a CLOP model
• CLOP prize winner: Juha Reunanen (both ave. rank and ave. BER)
• Best ave. BER still held by Reference (Gavin Cawley) with the_bad.
Part II
PROTOCOL and
SCORING
Protocol
• Data split: training/validation/test.• Data proportions: 10/1/100.• Online feed-back on validation data.• Validation label release: not yet; one
month before end of challenge.• Final ranking on test data using the five
last complete submissions for each entrant.
Performance metrics
• Balanced Error Rate (BER): average of error rates of positive class and negative class.
• Area Under the ROC Curve (AUC).
• Guess error (for the performance prediction challenge only):
BER = abs(testBER – guessedBER)
CLOP
• CLOP=Challenge Learning Object Package.
• Based on the Spider developed at the Max Planck Institute.
• Two basic abstractions:– Data object– Model objecthttp://www.agnostic.inf.ethz.ch/models.php
CLOP tutorial
D=data(X,Y);hyper = {'degree=3', 'shrinkage=0.1'}; model = kridge(hyper); [resu, model] = train(model, D);tresu = test(model, testD);model = chain({standardize,kridge(hyper)});
At the Matlab prompt:
CLOP models
Preprocessing and FS
Model grouping
for k=1:10
base_model{k}=chain({standardize, naive});
end
my_model=ensemble(base_model);
Part III
RESULT ANALYSIS
What did we expect?
• Learn about new competitive machine learning techniques.
• Identify competitive methods of performance prediction, model selection, and ensemble learning (theory put into practice).
• Drive research in the direction of refining such methods (on-going benchmark).
Method comparison (PPC)
0 0.05 0.1 0.15 0.2 0.25 0.3 0.3510
-4
10-3
10-2
10-1
100
BER
Del
ta B
ER
X
TREE
NN/BNNNB
LD/SVM/KLS/GP
SYLVA
GINA
NOVA
ADA
HIVA
BER
Test BER
Agnostic track no significant improvement
so far
LS-SVM
Gavin Cawley, July 2006
Logitboost
Roman Lutz, July 2006
CLOP models (best entrant)
Dataset CLOP models selected
ADA 2*{sns,std,norm,gentleboost(neural),bias}; 2*{std,norm,gentleboost(kridge),bias}; 1*{rf,bias}
GINA 6*{std,gs,svc(degree=1)}; 3*{std,svc(degree=2)}
HIVA 3*{norm,svc(degree=1),bias}
NOVA 5*{norm,gentleboost(kridge),bias}
SYLVA 4*{std,norm,gentleboost(neural),bias}; 4*{std,neural}; 1*{rf,bias}
Juha Reunanen, cross-indexing-7
sns = shift’n’scale, std = standardize, norm = normalize (some details of hyperparameters not shown)
CLOP models (2nd best entrant)
Dataset CLOP models selected
ADA {sns, std, norm, neural(units=5), bias}
GINA {norm, svc(degree=5, shrinkage=0.01), bias}
HIVA {std, norm, gentleboost(kridge), bias}
NOVA {norm,gentleboost(neural), bias}
SYLVA {std, norm, neural(units=1), bias}
Hugo Jair Escalante Balderas, BRun2311062
sns = shift’n’scale, std = standardize, norm = normalize (some details of hyperparameters not shown)
Note: entry Boosting_1_001_x900 gave better results, but was older.
Danger of overfitting (PPC)
0 20 40 60 80 100 120 140 1600
0.05
0.1
0.15
0.2
0.25
0.3
0.35
0.4
0.45
0.5B
ER
Time (days)
ADA
GINA
HIVA
NOVA
SYLVA
Full line: test BER
Dashed line: validation BER
Two best CLOP entrants (game)
Time
Ave. test BER
H._Jair_Escalante
Juha Reunanen
Statistically significant difference for 3/5 datasets.
Stats / CV / bounds ???
Top ranking methods
• Performance prediction:– CV with many splits 90% train / 10% validation– Nested CV loops
• Model selection – Performance prediction challenge
• Use of a single model family• Regularized risk / Bayesian priors• Ensemble methods• Nested CV loops, computationally efficient with with VLOO
– Model selection game• Cross-indexing• Particle swarm
Part IV
COMPETE NOW
in the
PRIOR KNOWLEDGE TRACK
ADA
ADA is the marketing database
• Task: Discover high revenue people from census data. Two-class pb.
• Source: Census bureau, “Adult” database from the UCI machine-learning repository.
• Features: 14 original attributes including age, workclass, education, education, marital status, occupation, native country. Continuous, binary and categorical features.
•
GINA
• Task: Handwritten digit recognition. Separate the odd from the even digits. Two-class pb. with heterogeneous classes.
• Source: MNIST database formatted by LeCun and Cortes.
• Features: 28x28 pixel map.
•
GINA is the digit database
HIVA
HIVA is the HIV database
• Task: Find compounds active against the AIDS HIV infection. We brought it back to a two-class pb. (active vs. inactive), but provide the original labels (active, moderately active, and inactive).
• Data source: National Cancer Inst.• Data representation: The compounds are
represented by their 3d molecular structure.•
NOVA
NOVA is the text classification database
• Task: Classify newsgroup emails into politics or religion vs. other topics.
• Source: The 20-Newsgroup dataset from in the UCI machine-learning repository.
• Data representation : The raw text with an estimated 17000 words of vocabulary.
Subject: Re: Goalie masksLines: 21
Tom Barrasso wore a great mask, one time, last season. He unveiled it at a game in Boston.
It was all black, with Pgh city scenes on it. The "Golden Triangle" graced the top, alongwith a steel mill on one side and the Civic Arena on the other. On the back of the helmet was the old Pens' logo the current (at the time) Penslogo, and a space for the "new" logo.
A great mask done in by a goalie's superstition.
Lori
SYLVA
SYLVA is the ecology database
• Task: Classify forest cover types into Ponderosa pine vs. everything else.
• Source: US Forest Service (USFS). • Data representation: Forest cover type for 30 x 30
meter cells encoded with 108 features (elavation, hill shade, wilderness type, soil type, etc.)
•
How to enter?
• Enter results on any dataset in either track until March 1st 2007 at http://www.agnostic.inf.ethz.ch.
• Only “complete” entries (on 5 datasets) will be ranked. The 5 last will count.
• Seven prizes:– Best overall agnostic entry.
– Best overall prior knowledge entry.
– Best prior knowledge result in each dataset (5 prizes).
– Best paper.
Conclusions
• Less participation volume as in the previous challenges:– Entry level higher– Other on-going competitions
• Top methods in agnostic track as before– LS-SVMs and boosted logistic trees
• Top ranking entries closely followed by CLOP entries showing great advances in model selection.
• Todo: upgrade CLOP with LS-SVMs and logitboost.
Open problems
Bridge the gap between theory and practice…• What are the best estimators of the variance of CV?• What should k be in k-fold?• Are other cross-validation methods better than k-
fold (e.g bootstrap, 5x2CV)?• Are there better “hybrid” methods?• What search strategies are best?• More than 2 levels of inference?