rerproducibility from an infomatics perspective

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Prepared for Program on Information Science – Brown Bag Talks MIT March 2015 Modeling Reproducibility from an Informatics Perspective Dr. Micah Altman <[email protected]> Director of Research, MIT Libraries Head/Scientist, Program on Information Sciences <informatics.mit.edu>

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Prepared for

Program on Information Science – Brown Bag Talks

MIT

March 2015

Modeling Reproducibility from an Informatics Perspective

Dr. Micah Altman<[email protected]>

Director of Research, MIT LibrariesHead/Scientist, Program on Information Sciences

<informatics.mit.edu>

DISCLAIMERThese opinions are my own, they are not the opinions of MIT, Brookings, any of the project funders, nor (with the exception of co-authored previously published work) my collaborators

Secondary disclaimer:

“It’s tough to make predictions, especially about the future!”

-- Attributed to Woody Allen, Yogi Berra, Niels Bohr, Vint Cerf, Winston Churchill, Confucius, Disreali [sic], Freeman Dyson, Cecil B. Demille, Albert Einstein, Enrico Fermi, Edgar R. Fiedler, Bob Fourer, Sam Goldwyn, Allan Lamport, Groucho Marx, Dan Quayle, George Bernard Shaw, Casey Stengel, Will Rogers, M. Taub, Mark Twain, Kerr L. White,

etc.

Modeling Reproducibility from an Informatics Perspective

Collaborators & Co-Conspirators

• Kobbi Nissim, Michael Bar-Sinai, Salil Vadhan & the Privacy Tools for Research Data Project<http://privacytools.seas.harvard.edu/>

• Jeff Gill• Michael P. McDonald

Research Support

Sloan FoundationNational Science Foundation (Award

#1237235)Modeling Reproducibility from an Informatics

Perspective

Micah Altman
Award #

Related Work• Allen, Liz, et al. "Credit where credit is due." Nature 508.7496

(2014): 312-313.• Altman, M., & Crosas, M. (2013). The evolution of data citation:

From principles to implementation. IASSIST Quarterly, 37.• Garnett, A., Altman, M., Andreev, L., Barbarosa, S., Castro, E.,

Crosas, M., ... & Yang, X. (2013, May). Linking OJS and Dataverse. In PKP Scholarly Publishing Conference 2013.

• Altman, M., Fox, J., Jackman, S., & Zeileis, A. (2011). An Special Volume on" Political Methodology". Journal of Statistical Software, 42(i01).

• Altman, M. (2008). A fingerprint method for scientific data verification. In Advances in Computer and Information Sciences and Engineering (pp. 311-316). Springer Netherlands.

• Altman, M., & King, G. (2007). A proposed standard for the scholarly citation of quantitative data. D-lib Magazine, 13(3/4).

• Altman, Micah, Jeff Gill, and Michael P. McDonald. (2004). Numerical issues in statistical computing for the social scientist. John Wiley & Sons.

• Altman, M., & McDonald, M. P. (2003). Replication with attention to numerical accuracy. Political Analysis, 11(3), 302-307.

• Altman, Micah. "A review of JMP 4.03 with special attention to its numerical accuracy." The American Statistician 56.1 (2002): 72-75.

• Altman, M., & McDonald, M. P. (2001). Choosing reliable statistical software. Political Science & Politics, 34(03), 681-687.

• Altman, M., Andreev, L., Diggory, M., King, G., Kolster, E., Sone, A., ... & Krot, M. (2001, January). Overview of the virtual data center project and software. In Proceedings of the JCDL 2001 (pp. 203-204). ACM.

Modeling Reproducibility from an Informatics Perspective

Roadmap for this Talk

Reproducibility Concerns…

Modeling Reproducible Research from an Information Perspective

How can informatics improve reproducibility?

Modeling Reproducibility from an Informatics Perspective

Modeling Reproducibility from an Informatics Perspective

Information Perspective

Increased Retractions, Allegations of Fraud

Maximizing the Impact of Research through Research Data Management

7

What Goes in the File Drawer?

Maximizing the Impact of Research through Research Data Management

Daniel Schectman’s Lab Notebook

Providing Initial

Evidence of Quasi Crystals

• Null results are less likely to be published published results as a whole are biased toward positive findings

• Outliers are routinely discarded unexpected patterns of evidence across studies remain hidden

8

Replicability of Published Results

Maximizing the Impact of Research through Research Data Management

Many journals have no replication policy

Even in journals with clear policy, success rate is low

9

Modeling Reproducibility from an Informatics Perspective

Many Initiatives to Improve Scientific Reliability

•Retraction monitoring

•Data citation

•Clinical trial preregistration

•Registered replication

•Open data

•Badges

Modeling Reproducibility from an Informatics Perspective

Reproducibility Concerns

Modeling Reproducibility from an Informatics Perspective

Framing Reproducibility from an Informatics Perspective

Reproducibility claims are not formulated as direct claims about the world…

1. What claims about information are implied by reproducibility claims/issues?*

2. What properties of information and information flow are related to those claims?

3. How would possible changes to information processing and flow yield?(And how much would they it cost?)

*

Modeling Reproducibility from an Informatics Perspective

Some Types of Reproducibility Issues/Use CasesCommon Labels For Reproducibility Problems

Example Interventions

Misconduct, Bit Rot, Author Responsibility Discipline/community data archives. NIH genomic data sharing policyRetractionWatch; Collaborative Data Collection Projects

Misconduct, Negligence, Confusion , Typo, Proofreader error*, Dynamic Data Problem, Versioning problem

Dat, DataHub, DataVerse (versioning)

Misconduct, Negligence, Harmless Error, S/Weave; Compendia; Vistrails

Reproducibility [NSF; Donoho 1995]

Replicability [King 1995, many journals]

Journal replication data & code archives.

Virtual Machine archiving.

Replication [NSF]; Reproducibility [King 1995];Independent Replication

Protocol Archive, Journal of Visual Experiments

Result Validation, Fact Checking Data Citation Standards

Calibration, Extension, Reuse Data Archives

File-Drawer Problem APS Preregistration Badge, Journal of Null Results

Undereporting (Adverse Events); Data Dredging (Multiple Comparisons)

Clinical Trial Preregistration

Data Dredging: Multiple Comparisons; P-Hacking

Holdout Data Escrow

Sensitivity, Robustness Sensitivity Analysis

Reliability Metaanalysis; Cochrane Review; Data Integration

Generalizability Cochrane Review

Modeling Reproducibility from an Informatics Perspective

More Operational Reproducibility ClaimsCommon Labels Example Interventions

File-Drawer Problem APS Preregistration Badge, Journal of Null Results

Undereporting (Adverse Events); Data Dredging (Multiple Comparisons)

Clinical Trial Preregistration

Data Dredging: Multiple Comparisons; P-Hacking Holdout Data Escrow

Sensitivity, Robustness Sensitivity Analysis

Reliability Metaanalysis;Cochrane Review

Generalizability Cochrane Review

Scholarly Communications in the age of Big Data

My Model of The World,ca. Early Grad School

λβ

Parameters

Scholarly Communications in the age of Big Data

My Model of The World, as a PostDoc in quantitative social science

Target Population

Frame

Selection

Super Population

Laws

(structures) λβ

(generates)

Parameters

Modeling Reproducibility from an Informatics Perspective

Domain Theoretic and Statistical Models are Not Enough

Entities, and Relationships, and Straw Models(oh my!)

Modeling Reproducibility from an Informatics Perspective

‘The World’

‘Actors’(people)

‘Theory’(ideas)

‘Documents’

‘Methods’

‘Data’(affect decisions of)

(interact/intervene/simulate)

(select and apply)

(select, design, perform) )

(create and apply)

Analysis

(output)

(apply over)(observe,edit)

Creation/Collection

Storage/Ingest

Processing

Internal SharingAnalysis

External dissemination/

publication

Re-use

Long-term

access

Where to Intervene: Consider Actors

Scholarly Publishers

Researchers

Data Archives/Publisher

Research Sponsors

Data Sources/S

ubjectsConsumers

Service/Infrastructure

Providers

Research Organizations

Modeling Reproducibility from an Informatics Perspective

Modeling Reproducibility from an Informatics Perspective

Documents*(compendia, fairy tales)

‘’We applied a general linear model’‘We conjecture kids will choose candy’‘δ = 2.3 * √Ω’‘Chewing gum tastes great’

(Altman, et al. 2013)

‘’

Assertions about

other entities

Logical Claims

Theorem 1….Lemma 1.1

Speculations, Commentary

Thanks to my dog for his support…

References, Citation

U49845.1 GI:1293613

doi:10.1002/0470841559.ch1orcid:0000-0001-7382-6960

Internal Meta-Information

Title: XXXX

Publication Operations

(manuscripts,

proofreading, translation,

…)

Modeling Reproducibility from an Informatics Perspective

People (their Relationships & Action)

Identity

Who is the actor?Relationship(or action)

What did the actor do, or how are they related?

Relationship Context(time, duration, intent)

Modeling Reproducibility from an Informatics Perspective

Modeling Methods, Analysis & Data…

‘’ΩΩΩΩ

Theory(Rules, Entities, Concepts)

Algorithm (Protocol, Operationalization)

Theory(Rules, Entities, Concepts)

Theory(Rules, Entities, Concepts)

Implementation(Software, Coding Rules, Instrumentation )

Execution(Deployment, House Survey Style, Equipment Setting )

Execution Context(weather, compiler, Operating System,

system load)

Algorithms (Protocol, Operationalization)

Implementations(Software, Coding Rules, Instrumentation Design )

Executions(Deployment, House Survey Style, Operating System, Instrument, Computer , Starting Values, PRNG seeds)

Structure

Formats

Versions/Revisions

Selections

Integrations

Instantiations(copies)

Modeling Reproducibility from an Informatics Perspective

Improving Reproducibility

Modeling Reproducibility from an Informatics Perspective

Some Types of Reproducibility Issues/Use CasesCommon Labels Reproducibility Related Issue Example Interventions

Misconduct, Bit Rot, Author Responsibility

Data was fabricated, corrupted, or radically misinterpreted prior to analysis

Discipline/community data archives. NIH genomic data sharing policyRetractionWatch; Collaborative Data Collection Projects

Misconduct, Negligence, Confusion , Typo, Proofreader error*, Dynamic Data Problem, Versioning problem

Data {referenced by identifier | provided as an instance| described by method} has nontrivial set of semantic differences from that used as input to the publication

Dat, DataHub, DataVerse (versioning)

Misconduct, Negligence, Harmless Error,

Published analysis algorithm does not correspond to implemented analysis

S/Weave; Compendia; Vistrails

Reproducibility [NSF; Donoho 1995]

Replicability [King 1995, many journals]

Variance of estimates given data instance & analysis implementation

Journal replication data & code archives.

Virtual Machine archiving.

Replication [NSF]Reproducibility [King 1995]Independent Replication

Variance of estimates given method algorithm and analysis algorithm

Protocol Archive, Journal of Visual Experiments

Result Validation, Fact Checking

Variance of estimates given data identifier & analysis algorithm

Data Citation Standards

Calibration, Extension, Reuse

Produce new analysis given data identifier Data Archives

Modeling Reproducibility from an Informatics Perspective

More Operational Reproducibility ClaimsCommon Labels Reproducibility Related Issue Example

Interventions

File-Drawer Problem Publisher bias toward significant (or expected) results APS Preregistration Badge, Journal of Null Results

Undereporting (Adverse Events); Data Dredging (Multiple Comparisons)

Author bias toward publishing favored outcomes Clinical Trial Preregistration

Data Dredging: Multiple Comparisons; P-Hacking

Author bias to creating significant results resulting in difference between stated method/analysis and actual (complete) method/analysis

Holdout Data Escrow

Sensitivity, Robustness Variance of support for claims across specification change Sensitivity Analysis

Reliability Variance of support for claims across repeated measures, samples

Metaanalysis;Cochrane ReviewData Integration

Generalizability Variance of support for claims across different frames Cochrane Review

Laws, Truth Variance of support for claims to other populations Grand Challenge ?

… … …

Operational Reproducibility ClaimsReproducibility Related Issue Related informatics claims

Label Validation, Fact Checking

Reproducibility Issue Variance of estimates given data identifier & analysis algorithm

Reproducibility Claim Variance of estimates given data identifier & analysis algorithm is known & correctly represented.

Use Case Post-publication reviewer wants to establish that published claims correspond to analysis method performed…

Potential supporting informational claims

1. Instance of data retrieved via identifier is semantically equivalent to instance of data used to support published claim

2. analysis algorithm is robust to choice of reasonable alternative implementation

3. implementation of algorithm is robust to reasonable choice of execution details and context

4. published direct claims about data are semantically equivalent to subset of claims produced by authors previous application of analysis

5. …

Potential information systems properties supporting claims

1a. Detailed provenance history for data from collection through analysis and deposition1b. Automatic replication of direct data claims from deposited source1c. Cryptographic evidence (e.g. cryptographic signed {analysis output including, cryptographic hash of data} & {cryptographic hash of data retrieved via identifier}…2a. Standard implementation, subject to community review2b. Report of results of application of implementation on standard testbed2c. Availability of implementation for inspection….3. …

Conjectures: How Could Informatics Improve Reproducibility

Formal Properties

(Some formal properties on information flow and management tend to support reproducibility related inferences…)

• Transparency

• Auditability

• Provenance

• Fixity

• Identification

• Durability

• Integrity

• Repeatability

• Self-documentation

• Non-repudiation

Properties applied to different stages, entities, and to components of the information system itself

Systems Property*

(How does the system interact with users, and what incentives and culture does it engender?)

• Barriers to entry

• Ease of use

• Support for intellectual communities

• Speed and performance

• Security

• Access control

• Personalization

• Credit and attribution

• Incent well-founded trust among actors

• Disincent “glamour & deceit”

(How does the system integrate into research ecosystem?)

Systems Oriented

• Sustainability

• Cost

• Incent well-founded trust in system and outputs

Modeling Reproducibility from an Informatics Perspective

Discussion – How can we better support reproducibility

with information infrastructure?* •How can we better identify the inferential claims implied by specific set of (non)reproducibility claims/issues?

•Which information flows and systems that most closely associated with these inferential claims?

•Which properties of information systems support generating these inferential claims?

Additional References

• de Waard, A. (2010). The story of science: a syntagmatic/paradigmatic analysis of scientific text. In Proceedings of the AMICUS Workshop (pp. 36-41).

• Gentleman, R., & Lang, D. T. (2007). Statistical analyses and reproducible research. Journal of Computational and Graphical Statistics, 16(1).

• Freire, Juliana. "Making computations and publications reproducible with vistrails." Computing in Science & Engineering 14.4 (2012): 18-25.

• Kevles, Daniel J. The Baltimore case: A trial of politics, science, and character. WW Norton & Company, 2000.

• King, G. (1995). Replication, replication. PS: Political Science & Politics, 28(03), 444-452.

• McCullough, B. D. (2009). Open access economics journals and the market for reproducible economic research. Economic Analysis and Policy, 39(1), 117-126.

Modeling Reproducibility from an Informatics Perspective

Questions?E-mail: [email protected]

Web: informatics.mit.edu

Modeling Reproducibility from an Informatics Perspective