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Writing DMPs helps researchers formalize the data management process, identify weaknesses in their plan, and provide them with a record of what they intend to do.  We recommend using the DMPTool to create your data management plan.​  This resource can help save time, protect your data investment, and increase your research efficiency.  It also helps you prospectively think about the data you will collect and how you will manage it, thus strengthening your research design.

The allows researchers to:

• Browse other DMPs that have been made publicly visible by DMPTool users,
• Save your DMPs for future review and revision,
• Access ready-to-use, funder-specific DMPs, such as plans for the National Science Foundation (NSF), National Institutes of Health (NIH), National Endowment for the Humanities (NEH) and Department of Energy (DOE),
• Review funder requirements for DMPs by being able to review a list of funding agencies’ DMP requirements,
• Get step-by-step instructions and guidance for data plans, and
• Find additional data management resources.

DMPTool User Manual (PDF)

Beyond the DMPTool, libraries and data centers have drafted guides to help researchers write and implement their data management plan. They have put together an annotated "guide to the guides" in an effort to help you locate the most relevant advice for your own research needs. This list will be continually updated.

While ICPSR is a social science organization, the data management framework they have developed is valuable across disciplines. The framework describes what ICPSR has determined to be the key elements of a good data management plan, the relative importance of each element, and the rationale for including this information in your plan, along with examples.

The Data Conservancy, an initiative based at Johns Hopkins University and aimed at developing "data curation infrastructure for cross disciplinary discovery of observational data".

Documenting your data

An important step toward making your data useful both to you and other researchers is to develop a framework for documenting and describing your data and the context in which it was created. The Pennsylvania State University Libraries suggest that data documentation might include the following:

• names, labels and descriptions for variables, records and their values
• explanation of codes and classification schemes used
• codes of, and reasons for, missing values
• derived data created after collection, with code, algorithm or command file used to create them
• weighting and grossing variables created and how they should be use
• data listing with descriptions for cases, individuals or items studied, for example for logging qualitative interviews

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Describing your data with Metadata

Metadata is the data used to describe your data. This makes it easier to store and locate your data, and makes it much easier for future researchers to use your data. A number of metadata schemas exist to help you organize and structure your data description. Metadata schemas can be viewed at the .

The Libraries at MIT have put together a guide to the most basic elements to document, regardless of discipline. These include Title, Creator, Identifier, Subject, Funders, Rights, Access information, Language, Dates, Location, Methodology, Data processing, Sources, List of file names, File Formats, File structure, Variable list, Code lists, Versions, and Checksums. For more detail, see the

For a more comprehensive overview of metadata in general: NISO distinguishes between three types of metadata: descriptive, structural and administrative. Descriptive metadata is the information used to search and locate an object such as title, author, subjects, keywords, publisher; structural metadata gives a description of how the components of the object are organized; and administrative metadata refers to the technical information including file type. Two sub-types of administrative metadata are rights management metadata and preservation metadata.

Source: . . NISO Press. ISBN 1-880124-62-9. Accessed: 6 March 2011.

The methodology you choose for managing your data will vary depending on the collection method, nature of the data, and the types of analyses to be applied. Some more common methods for managing data are databases, spreadsheets, data management tools, and standard file systems. The lists below summarize the benefits of each approach and provide links to further resources on the Web.

• Databases and Spreadsheets: These common tools are relatively simple to set up, with spreadsheets being the simplest in most cases. Both offer advantages in managing your data - databases are especially useful for setting up complex relationships and generating queries and reports based on your data and the relationships between your data; spreadsheets are especially helpful for storing numeric and text data. The University of Wisconsin Libraries provide helpful information for both:   |  
• e-Science tools
  • Designed specifically for research and collaboration.
  • Streamlined for data intensive analysis and scalability
  • Increasingly being adopted by research organizations.
• File Systems such as your own Local Area Network (LAN)
  • Ubiquitous, easy to use, and relatively simple.
  • Easily configurable in terms of access control and sharing.
  • Lend themselves to the structured, hierarchical storage of large numbers of files.
  • Highly portable.

For more information on the basic organization of your data files, see the

Storing and backing up your data

Where data is stored and backed up may depend on funding considerations, collection processes, the need for encryption or increased security, and available resources. Data storage locations may include one or all of the following options: an internal or external hard drive on a personal computer, a departmental or university server, ÏòÈÕ¿ûÊÓƵapproved cloud storage OneDrive/SharePoint, or cloud storage such as . Subject archives and data repositories, such as , may also be an option, depending on your discipline, the nature of your data, funding guidelines, and other issues. See the "Sharing Data" tab for more information on external data repositories.

Securing your data

Know the implications of working with confidential, sensitive, or proprietary data. Restrictions upon the ownership or sharing of student, patient, or other personal data may be governed by federal HIPPA, or FERPA guidelines. Marquette's Office of Research and Sponsored Programs can help researchers working with sensitive data.

NSF guidelines require grantees to detail how they will disseminate and share their research results: "Investigators are expected to share with other researchers, at no more than incremental cost and within a reasonable time, the primary data, samples, physical collections and other supporting materials created or gathered in the course of work under NSF grants."

Why is sharing data important?

• To fulfill grant funding (e.g., NIH, NSF) and/or journal requirements (see above).
• To raise visibility and interest in research and publications.
• To add value to research.
• To accelerate discovery rates.
• To frame research as a public good, promoting community and collaboration.

Many other academic and governmental groups have released their own statements on the importance of data sharing:

• : A volunteer group of scientists, researchers, and others provide a guide to the concept of open data.
• : Drafted by a group of faculty at Cambridge and refined by the Open Knowledge Foundation Working Group on Open Data in Science, the Panton Principles lay out rationale and criteria for making science data openly available, particularly policies on reuse.
• aims to bring together discussion on policy, recommendations for best practices, and other issues relevant to making government-created-and/or-funded data open and accessible.
•  

Considerations about sharing data:

Some data may not be shared, based on policies from funding agencies or other relevant bodies. One example is the HIPPA (Health Insurance Portability and Accountability Act) Privacy Rule, which protects all "individually identifiable health information" derived from health care records and requires specification of data handling responsibilities. Marquette's Office of Research and Sponsored Programs can help researchers working with sensitive data.

Some issues you may want to consider:

• Do your data contain confidential or private information? If so, then they may require redaction or anonymization before they can be made public. If the data is anonymized, can individuals be re-identified?
• Are your datasets understandable to those who wish to use them? Supplementary materials for describing, deciphering, and contextualizing data should be made available. Consider including metadata, methodology descriptions, codebooks, data dictionaries, and other descriptive material to facilitate their use. (See the "Documenting Data" tab.)
• Do your datasets comply with the standards in your field regarding description, format, metadata, and sharing?
• What reuse policies do you wish for your data? Consider the Panton Principles carefully before you attach reuse restrictions.

How to Share your Data

Consider the following options:

• Publish your data as supplementary material or a "data publication" in a journal. Check with individual journals about their data policies.
• Deposit it in a disciplinary data repository if one exists for your research area.

External Data Repositories

The Distributed Data Curation Center (D2C2) at Purdue University Libraries has put together a listing of data repositories. These are repositories where researchers may be able to deposit and share their research data. The list is both browse-able and searchable.