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Handle System

January 13, 2023

The Handle System is the Corporation for National Research Initiatives's proprietary registry assigning persistent identifiers, or handles, to information resources, and for resolving "those handles into the information necessary to locate, access, and otherwise make use of the resources".[1]

As with handles used elsewhere in computing, Handle System handles are opaque, and encode no information about the underlying resource, being bound only to metadata regarding the resource. Consequently, the handles are not rendered invalid by changes to the metadata.

The system was developed by Bob Kahn at the Corporation for National Research Initiatives (CNRI). The original work was funded by the Defense Advanced Research Projects Agency (DARPA) between 1992 and 1996, as part of a wider framework for distributed digital object services,[2] and was thus contemporaneous with the early deployment of the World Wide Web, with similar goals.

The Handle System was first implemented in autumn 1994, and was administered and operated by CNRI until December 2015, when a new "multi-primary administrator" (MPA) mode of operation was introduced. The DONA Foundation[3] now administers the system's Global Handle Registry and accredits MPAs, including CNRI and the International DOI Foundation.[4] The system currently provides the underlying infrastructure for such handle-based systems as Digital Object Identifiers and DSpace, which are mainly used to provide access to scholarly, professional and government documents and other information resources.

CNRI provides specifications and the source code for reference implementations for the servers and protocols used in the system under a royalty-free "Public License", similar to an open source license.[5]

Thousands of handle services are currently running. Over 1000 of these are at universities and libraries, but they are also in operation at national laboratories, research groups, government agencies, and commercial enterprises, receiving over 200 million resolution requests per month.

Specifications

The Handle System is defined in informational RFCs 3650,[1] 3651[6] and 3652[7] of the Internet Engineering Task Force (IETF); it includes an open set of protocols, a namespace, and a reference implementation of the protocols. Documentation, software, and related information is provided by CNRI on a dedicated website[8]

Handles consist of a prefix which identifies a "naming authority" and a suffix which gives the "local name" of a resource. Similar to domain names, prefixes are issued to naming authorities by one of the "multi-primary administrators" of the system upon payment of a fee, which must be renewed annually. A naming authority may create any number of handles, with unique "local names", within their assigned prefixes. An example of a handle is:

  • 20.1000/100
  • 10.1000/182

In the first example, which is the handle for the HANDLE.NET software license, 20.1000 is the prefix assigned to the naming authority (in this case, Handle.net itself) and 100 is the local name within that namespace. The local name may consist of any characters from the Unicode UCS-2 character set. The prefix also consists of any UCS-2 characters, other than "/". The prefixes consist of one or more naming authority segments, separated by periods, representing a hierarchy of naming authorities. Thus, in the example 20 is the naming authority prefix for CNRI, while 1000 designates a subordinate naming authority within the 20 prefix. Other examples of top-level prefixes for the federated naming authorities of the DONA Foundation are 10 for DOI handles; 11 for handles assigned by the ITU; 21 for handles issued by the German Gesellschaft für wissenschaftliche Datenverarbeitung mbH Göttingen (GWDG), the scientific computing center of the University of Göttingen; and 86 for the Coalition of Handle Services – China. Older "legacy" prefixes issued by CNRI before the "multi-primary administrator" (MPA) structure was instituted are typically four of five digits, as in the second example above, a handle administered by the University of Leicester. All prefixes must be registered in the Global Handle Registry through an DONA Foundation approved registrar, normally for a fee.

As with other uses of handles in computing, the handle is opaque; that is, it encodes no information about the underlying resource and provides only the means to retrieve metadata about the resource.

This may be contrasted with a Uniform Resource Locator (URL), which may encode within the identifier such attributes of the resource as the protocol to be used to access the server holding the resource, the server host name and port number, and perhaps even location specifics such as the name of a file in the server file system containing the resource. In the Handle System, these specifics are not encoded in the handle, but are found in the metadata to which the handle is bound.

The metadata may include many attributes of the information resource, such as its locations, the forms in which it is available, the types of access (e.g. "free" versus "paid") offered, and to whom. The processing of the metadata to determine how and where the resource should be accessed, and the provision of the resource to the user, are performed in a separate step, called "resolution", using a Resolver, a server which may be different from the ones involved in exchanging the handle for the metadata. Unlike URLs, which may become invalid if the metadata embedded within them becomes invalid, handles do not become invalid and do not need to change when locations or other metadata attributes change. This helps to prevent link rot, as changes in the information resource (such as location) need only be reflected in changes to the metadata, rather than in changes in every reference to the resource.

Each handle may have its own administrator and administration of the handles can be done in a distributed environment, similar to DNS domain names. The name-to-value bindings may also be secured, both via signatures to verify the data and via challenge response to verify the transmission of the data, allowing handles to be used in trust management applications.

It is possible for the same underlying information resource to be associated with multiple handles, as when two university libraries generate handles (and therefore possibly different sets of metadata) for the same book.

The Handle System is compatible with the Domain Name System (DNS), but does not require it, unlike persistent identifiers such as PURLs or ARKs, which are similar to handles, but which utilise domain names. However, unlike these domain-name based approaches, handles do require a separate prefix registration process and handle servers separate from the domain name servers.

Handles can be used natively, or expressed as Uniform Resource Identifiers (URIs) through a namespace within the info URI scheme;[9][10] for example, 20.1000/100 may be written as the URI, info:hdl/20.1000/100. Some Handle System namespaces, such as Digital Object Identifiers, are "info:" URI namespaces in their own right; for example, info:doi/10.1000/182 is another way of writing the handle for the current revision of the DOI Handbook[11] as a URI.

Some Handle System namespaces define special presentation rules. For example, Digital Object Identifiers, which represent a high percentage of the extant handles, are usually presented with a "doi:" prefix: doi:10.1000/182.

Any Handle may be expressed as a Uniform Resource Locator (URL) through the use of the generic HTTP proxy server,:[12]

Some Handle-based systems offer an HTTP proxy server that is intended for use with their own system such as:

Implementation

Implementation of the Handle System consists of Local Handle Services, each of which is made up of one or more sites that provide the servers that store specific handles. The Global Handle Registry is a unique Local Handle Service which stores information on the prefixes (also known as naming authorities) within the Handle System and can be queried to find out where specific handles are stored on other Local Handle Services within this distributed system.

The Handle System website provides a series of implementation tools, notably the HANDLE.NET Software[13] and HANDLE.NET Client Libraries.[14] Handle clients can be embedded in end user software (e.g., a web browser) or in server software (e.g., a web server) and extensions are already available for Adobe Acrobat[15] and Firefox.[16]

Handle client software libraries are available in both C and Java. Some applications have developed specific add-on tools, e.g., for the DOI System.[17]

The interoperable network of distributed handle resolver servers (also known as the Proxy Server System) are linked through a Global Resolver (which is one logical entity though physically decentralised and mirrored). Users of Handle System technology obtain a handle prefix created in the Global Handle Registry. The Global Handle Registry maintains and resolves the prefixes of locally maintained handle services. Any local handle service can, therefore, resolve any handle through the Global Resolver.

Handles (identifiers) are passed by a client, as a query of the naming authority/prefix, to the Handle System's Global Handle Registry (GHR). The GHR responds by sending the client the location information for the relevant Local Handle Service (which may consist of multiple servers in multiple sites); a query is then sent to the relevant server within the Local Handle Service. The Local Handle Service returns the information needed to acquire the resource, e.g., a URL which can then be turned into an HTTP re-direct. (Note: if the client already has information on the appropriate LHS to query, the initial query to GHR is omitted)

Though the original model from which the Handle System derives dealt with management of digital objects, the Handle System does not mandate any particular model of relationships between the identified entities, nor is it limited to identifying only digital objects: non-digital entities may be represented as a corresponding digital object for the purposes of digital object management. Some care is needed in the definition of such objects and how they relate to non-digital entities; there are established models that can aid in such definitions e.g., Functional Requirements for Bibliographic Records (FRBR), CIDOC CRM, and indecs content model. Some applications have found it helpful to marry such a framework to the handle application: for example, the Advanced Distributed Learning (ADL) Initiative[18] brings together Handle System application with existing standards for distributed learning content, using a Shareable Content Object Reference Model (SCORM),[19] and the Digital Object Identifier (DOI) system implementation of the Handle System has adopted it together with the indecs framework to deal with semantic interoperability.

The Handle System also makes explicit the importance of organizational commitment to a persistent identifier scheme, but does not mandate one model for ensuring such commitment. Individual applications may choose to establish their own sets of rules and social infrastructure to ensure persistence (e.g., when used in the DSpace application, and the DOI application).[20]

Design principles

The Handle system is designed to meet the following requirements to contribute to persistence[21]

The identifier string:

  • is not based on any changeable attributes of the entity (location, ownership, or any other attribute that may change without changing the referent's identity);
  • is opaque (preferably a ‘dumb number’: a well known pattern invites assumptions that may be misleading, and meaningful semantics may not translate across languages and may cause trademark conflicts);
  • is unique within the system (to avoid collisions and referential uncertainty);
  • has optional, but nice to have, features that should be supported (human-readable, cut-and-paste-able, embeddable; fits common systems, e.g., URI specification).

The identifier resolution mechanism:

  • is reliable (using redundancy, no single points of failure, and fast enough to not appear broken);
  • is scalable (higher loads simply managed with more computers);
  • is flexible (can adapt to changing computing environments; useful to new applications):
  • is trusted (both resolution and administration have technical trust methods; an operating organization is committed to the long term);
  • builds on open architecture (encouraging the leverage efforts of a community in building applications on the infrastructure);
  • is transparent (users need not know the infrastructure details).

Applications

Among the objects that are currently identified by handles are journal articles, technical reports, books, theses and dissertations, government documents, metadata, distributed learning content, and data sets. Handles are being used in digital watermarking applications, GRID applications, repositories, and more. Although individual users may download and use the HANDLE.NET software independently, many users have found it beneficial to collaborate in developing applications in a federation, using common policy or additional technology to provide shared services. As one of the first persistent identifier schemes, the Handle System has been widely adopted by public and private institutions and proven over several years. (See Paradigm, Persistent identifiers.)[22]

Handle System applications may use handles as simple persistent identifiers (as most commonly used, to resolve to the current URL of an object), or may choose to take advantage of other features. Its support for the simultaneous return as output of multiple pieces of current information related to the object, in defined data structures, enables priorities to be established for the order in which the multiple resolutions will be used. Handles can, therefore, resolve to different digital versions of the same content, to mirror sites, or to different business models (pay vs. free, secure vs. open, public vs. private). They can also resolve to different digital versions of differing content, such as a mix of objects required for a distance-learning course.

There are thousands of handle services running today, located in 71 countries, on 6 continents; over 1000 of them run at universities and libraries. Handle services are being run by user federations, national laboratories, universities, computing centers, libraries (national and local), government agencies, contractors, corporations, and research groups. Major publishers use the Handle System for persistent identification of commercially traded and Open Access content through its implementation with the Digital Object Identifier (DOI) system.

The number of prefixes, which allow users to assign handles, is growing and stands at over 12,000 as of early 2014. There are six top-level Global Handle Registry servers that receive (on average) 68 million resolution requests per month. Proxy servers known to CNRI, passing requests to the system on the Web, receive (on average) 200 million resolution requests per month. (Statistics from Handle Quick Facts.)

In 2010, CNRI and ITU (International Telecommunication Union) entered into an agreement to collaborate on use of the Handle System (and the Digital Object Architecture more generally) and are working on the specific details of that collaboration; in April 2009 ITU listed the Handle System as an "emerging trend".[23]

Licences and use policy

Handle System, HANDLE.NET and Global Handle Registry are trademarks of the Corporation for National Research Initiatives (CNRI), a non-profit research and development corporation in the USA. The Handle System is the subject of patents by CNRI, which licenses its Handle System technology through a public license,[24] similar to an open source license, in order to enable broader use of the technology. Handle System infrastructure is supported by prefix registration and service fees, with the majority coming from single prefix holders. The largest current single contributor is the International DOI Foundation. The Public License allows commercial and non-commercial use at low cost of both its patented technology and the reference implementation of the software, and allows the software to be freely embedded in other systems and products. A Service Agreement[5] is also available for users who intend to provide identifier and/or resolution services using the Handle System technology under the Handle System public license.

Related technologies

The Handle System represents several components of a long-term digital object architecture. In January 2010 CNRI released its general-purpose Digital Object Repository software,[25] another major component of this architecture. More information[26] about the release, including protocol specification, source code and ready-to-use system, clients and utilities, is available.[27][28]

See also

References

  1. ^ a b "RFC 3650: Handle System Overview".
  2. ^ "Kahn/Wilensky Architecture". CNRI. 1995-05-13. Retrieved 2013-03-13.
  3. ^ "DONA Foundation". dona.net.
  4. ^ "Digital Object Identifier System". doi.org.
  5. ^ a b "Redirect to Current Handle.Net web site content". handle.net. Retrieved 15 March 2018.
  6. ^ "RFC 3651: Handle System Namespace and Service Definition".
  7. ^ "RFC 3652: Handle System Protocol (ver 2.1) Specification".
  8. ^ "handle.net". handle.net. Retrieved 2013-03-13.
  9. ^ "About "info" URIs – Frequently Asked Questions". Info-uri.info. Retrieved 2013-03-13.
  10. ^ "RFC 4452: The "info" URI Scheme for Information Assats with Identifiers in Public Namespaces".
  11. ^ . International DOI Foundation. doi:10.1000/182. Archived from the original on 16 September 2022.
  12. ^ "HDL.NET Services: Proxy Server System". Handle.net. Retrieved 2013-03-13.
  13. ^ "HS Software Download". Handle.net. Retrieved 2013-03-13.
  14. ^ "Software Client Libraries". Handle.net. Retrieved 2013-03-13.
  15. ^ "HDL Plug-in for Adobe Acrobat and Acrobat Reader". Handle.net. Retrieved 2013-03-13.
  16. ^ . handle.net. Archived from the original on September 5, 2015.
  17. ^ "DOI System Tools". Doi.org. 2012-07-12. Retrieved 2013-03-13.
  18. ^ "adlnet.gov". adlnet.gov. Retrieved 2013-03-13.
  19. ^ . adlnet.gov. Archived from the original on 2008-06-14.
  20. ^ "doi.org". doi.org. 2013-01-08. Retrieved 2013-03-13.
  21. ^ . Oscars.org. 2012-08-24. Archived from the original on 2013-03-30. Retrieved 2013-03-13.
  22. ^ . paradigm. 2008-01-02. Archived from the original on 2013-03-29. Retrieved 2013-03-13.
  23. ^ "Handle System". Itu.int. 2010-04-16. Retrieved 2013-03-13.
  24. ^ "LICENSE" (PDF). www.handle.net. Retrieved 2020-05-11.
  25. ^ "dorepository.org". dorepository.org. 2013-01-08. Retrieved 2013-03-13.
  26. ^ "Digital Object Repository Server: A Component of the Digital Object Architecture". Dlib.org. 2010-02-04. Retrieved 2013-03-13.
  27. ^ Reilly S, Tupelo-Schneck R (January 2010). "Digital Object Repository Server: A Component of the Digital Object Architecture". D-Lib Magazine. DO Repository. 16 (1/2). doi:10.1045/january2010-reilly. ISSN 1082-9873. Retrieved 2013-03-13.
  28. ^ "Cordra". cordra.org.

External links

January 13, 2023
handle, system, corporation, national, research, initiatives, proprietary, registry, assigning, persistent, identifiers, handles, information, resources, resolving, those, handles, into, information, necessary, locate, access, otherwise, make, resources, with,. The Handle System is the Corporation for National Research Initiatives s proprietary registry assigning persistent identifiers or handles to information resources and for resolving those handles into the information necessary to locate access and otherwise make use of the resources 1 As with handles used elsewhere in computing Handle System handles are opaque and encode no information about the underlying resource being bound only to metadata regarding the resource Consequently the handles are not rendered invalid by changes to the metadata The system was developed by Bob Kahn at the Corporation for National Research Initiatives CNRI The original work was funded by the Defense Advanced Research Projects Agency DARPA between 1992 and 1996 as part of a wider framework for distributed digital object services 2 and was thus contemporaneous with the early deployment of the World Wide Web with similar goals The Handle System was first implemented in autumn 1994 and was administered and operated by CNRI until December 2015 when a new multi primary administrator MPA mode of operation was introduced The DONA Foundation 3 now administers the system s Global Handle Registry and accredits MPAs including CNRI and the International DOI Foundation 4 The system currently provides the underlying infrastructure for such handle based systems as Digital Object Identifiers and DSpace which are mainly used to provide access to scholarly professional and government documents and other information resources CNRI provides specifications and the source code for reference implementations for the servers and protocols used in the system under a royalty free Public License similar to an open source license 5 Thousands of handle services are currently running Over 1000 of these are at universities and libraries but they are also in operation at national laboratories research groups government agencies and commercial enterprises receiving over 200 million resolution requests per month Contents 1 Specifications 2 Implementation 3 Design principles 4 Applications 5 Licences and use policy 6 Related technologies 7 See also 8 References 9 External linksSpecifications EditThe Handle System is defined in informational RFCs 3650 1 3651 6 and 3652 7 of the Internet Engineering Task Force IETF it includes an open set of protocols a namespace and a reference implementation of the protocols Documentation software and related information is provided by CNRI on a dedicated website 8 Handles consist of a prefix which identifies a naming authority and a suffix which gives the local name of a resource Similar to domain names prefixes are issued to naming authorities by one of the multi primary administrators of the system upon payment of a fee which must be renewed annually A naming authority may create any number of handles with unique local names within their assigned prefixes An example of a handle is 20 1000 100 10 1000 182In the first example which is the handle for the HANDLE NET software license 20 1000 is the prefix assigned to the naming authority in this case Handle net itself and 100 is the local name within that namespace The local name may consist of any characters from the Unicode UCS 2 character set The prefix also consists of any UCS 2 characters other than The prefixes consist of one or more naming authority segments separated by periods representing a hierarchy of naming authorities Thus in the example 20 is the naming authority prefix for CNRI while 1000 designates a subordinate naming authority within the 20 prefix Other examples of top level prefixes for the federated naming authorities of the DONA Foundation are 10 for DOI handles 11 for handles assigned by the ITU 21 for handles issued by the German Gesellschaft fur wissenschaftliche Datenverarbeitung mbH Gottingen GWDG the scientific computing center of the University of Gottingen and 86 for the Coalition of Handle Services China Older legacy prefixes issued by CNRI before the multi primary administrator MPA structure was instituted are typically four of five digits as in the second example above a handle administered by the University of Leicester All prefixes must be registered in the Global Handle Registry through an DONA Foundation approved registrar normally for a fee As with other uses of handles in computing the handle is opaque that is it encodes no information about the underlying resource and provides only the means to retrieve metadata about the resource This may be contrasted with a Uniform Resource Locator URL which may encode within the identifier such attributes of the resource as the protocol to be used to access the server holding the resource the server host name and port number and perhaps even location specifics such as the name of a file in the server file system containing the resource In the Handle System these specifics are not encoded in the handle but are found in the metadata to which the handle is bound The metadata may include many attributes of the information resource such as its locations the forms in which it is available the types of access e g free versus paid offered and to whom The processing of the metadata to determine how and where the resource should be accessed and the provision of the resource to the user are performed in a separate step called resolution using a Resolver a server which may be different from the ones involved in exchanging the handle for the metadata Unlike URLs which may become invalid if the metadata embedded within them becomes invalid handles do not become invalid and do not need to change when locations or other metadata attributes change This helps to prevent link rot as changes in the information resource such as location need only be reflected in changes to the metadata rather than in changes in every reference to the resource Each handle may have its own administrator and administration of the handles can be done in a distributed environment similar to DNS domain names The name to value bindings may also be secured both via signatures to verify the data and via challenge response to verify the transmission of the data allowing handles to be used in trust management applications It is possible for the same underlying information resource to be associated with multiple handles as when two university libraries generate handles and therefore possibly different sets of metadata for the same book The Handle System is compatible with the Domain Name System DNS but does not require it unlike persistent identifiers such as PURLs or ARKs which are similar to handles but which utilise domain names However unlike these domain name based approaches handles do require a separate prefix registration process and handle servers separate from the domain name servers Handles can be used natively or expressed as Uniform Resource Identifiers URIs through a namespace within the info URI scheme 9 10 for example 20 1000 100 may be written as the URI info hdl 20 1000 100 Some Handle System namespaces such as Digital Object Identifiers are info URI namespaces in their own right for example info doi 10 1000 182 is another way of writing the handle for the current revision of the DOI Handbook 11 as a URI Some Handle System namespaces define special presentation rules For example Digital Object Identifiers which represent a high percentage of the extant handles are usually presented with a doi prefix doi 10 1000 182 Any Handle may be expressed as a Uniform Resource Locator URL through the use of the generic HTTP proxy server 12 a rel nofollow class external free href https hdl handle net 20 1000 100 https hdl handle net 20 1000 100 a Some Handle based systems offer an HTTP proxy server that is intended for use with their own system such as a rel nofollow class external free href https doi org 10 1000 182 https doi org 10 1000 182 a Implementation EditImplementation of the Handle System consists of Local Handle Services each of which is made up of one or more sites that provide the servers that store specific handles The Global Handle Registry is a unique Local Handle Service which stores information on the prefixes also known as naming authorities within the Handle System and can be queried to find out where specific handles are stored on other Local Handle Services within this distributed system The Handle System website provides a series of implementation tools notably the HANDLE NET Software 13 and HANDLE NET Client Libraries 14 Handle clients can be embedded in end user software e g a web browser or in server software e g a web server and extensions are already available for Adobe Acrobat 15 and Firefox 16 Handle client software libraries are available in both C and Java Some applications have developed specific add on tools e g for the DOI System 17 The interoperable network of distributed handle resolver servers also known as the Proxy Server System are linked through a Global Resolver which is one logical entity though physically decentralised and mirrored Users of Handle System technology obtain a handle prefix created in the Global Handle Registry The Global Handle Registry maintains and resolves the prefixes of locally maintained handle services Any local handle service can therefore resolve any handle through the Global Resolver Handles identifiers are passed by a client as a query of the naming authority prefix to the Handle System s Global Handle Registry GHR The GHR responds by sending the client the location information for the relevant Local Handle Service which may consist of multiple servers in multiple sites a query is then sent to the relevant server within the Local Handle Service The Local Handle Service returns the information needed to acquire the resource e g a URL which can then be turned into an HTTP re direct Note if the client already has information on the appropriate LHS to query the initial query to GHR is omitted Though the original model from which the Handle System derives dealt with management of digital objects the Handle System does not mandate any particular model of relationships between the identified entities nor is it limited to identifying only digital objects non digital entities may be represented as a corresponding digital object for the purposes of digital object management Some care is needed in the definition of such objects and how they relate to non digital entities there are established models that can aid in such definitions e g Functional Requirements for Bibliographic Records FRBR CIDOC CRM and indecs content model Some applications have found it helpful to marry such a framework to the handle application for example the Advanced Distributed Learning ADL Initiative 18 brings together Handle System application with existing standards for distributed learning content using a Shareable Content Object Reference Model SCORM 19 and the Digital Object Identifier DOI system implementation of the Handle System has adopted it together with the indecs framework to deal with semantic interoperability The Handle System also makes explicit the importance of organizational commitment to a persistent identifier scheme but does not mandate one model for ensuring such commitment Individual applications may choose to establish their own sets of rules and social infrastructure to ensure persistence e g when used in the DSpace application and the DOI application 20 Design principles EditThe Handle system is designed to meet the following requirements to contribute to persistence 21 The identifier string is not based on any changeable attributes of the entity location ownership or any other attribute that may change without changing the referent s identity is opaque preferably a dumb number a well known pattern invites assumptions that may be misleading and meaningful semantics may not translate across languages and may cause trademark conflicts is unique within the system to avoid collisions and referential uncertainty has optional but nice to have features that should be supported human readable cut and paste able embeddable fits common systems e g URI specification The identifier resolution mechanism is reliable using redundancy no single points of failure and fast enough to not appear broken is scalable higher loads simply managed with more computers is flexible can adapt to changing computing environments useful to new applications is trusted both resolution and administration have technical trust methods an operating organization is committed to the long term builds on open architecture encouraging the leverage efforts of a community in building applications on the infrastructure is transparent users need not know the infrastructure details Applications EditAmong the objects that are currently identified by handles are journal articles technical reports books theses and dissertations government documents metadata distributed learning content and data sets Handles are being used in digital watermarking applications GRID applications repositories and more Although individual users may download and use the HANDLE NET software independently many users have found it beneficial to collaborate in developing applications in a federation using common policy or additional technology to provide shared services As one of the first persistent identifier schemes the Handle System has been widely adopted by public and private institutions and proven over several years See Paradigm Persistent identifiers 22 Handle System applications may use handles as simple persistent identifiers as most commonly used to resolve to the current URL of an object or may choose to take advantage of other features Its support for the simultaneous return as output of multiple pieces of current information related to the object in defined data structures enables priorities to be established for the order in which the multiple resolutions will be used Handles can therefore resolve to different digital versions of the same content to mirror sites or to different business models pay vs free secure vs open public vs private They can also resolve to different digital versions of differing content such as a mix of objects required for a distance learning course There are thousands of handle services running today located in 71 countries on 6 continents over 1000 of them run at universities and libraries Handle services are being run by user federations national laboratories universities computing centers libraries national and local government agencies contractors corporations and research groups Major publishers use the Handle System for persistent identification of commercially traded and Open Access content through its implementation with the Digital Object Identifier DOI system The number of prefixes which allow users to assign handles is growing and stands at over 12 000 as of early 2014 There are six top level Global Handle Registry servers that receive on average 68 million resolution requests per month Proxy servers known to CNRI passing requests to the system on the Web receive on average 200 million resolution requests per month Statistics from Handle Quick Facts In 2010 CNRI and ITU International Telecommunication Union entered into an agreement to collaborate on use of the Handle System and the Digital Object Architecture more generally and are working on the specific details of that collaboration in April 2009 ITU listed the Handle System as an emerging trend 23 Licences and use policy EditHandle System HANDLE NET and Global Handle Registry are trademarks of the Corporation for National Research Initiatives CNRI a non profit research and development corporation in the USA The Handle System is the subject of patents by CNRI which licenses its Handle System technology through a public license 24 similar to an open source license in order to enable broader use of the technology Handle System infrastructure is supported by prefix registration and service fees with the majority coming from single prefix holders The largest current single contributor is the International DOI Foundation The Public License allows commercial and non commercial use at low cost of both its patented technology and the reference implementation of the software and allows the software to be freely embedded in other systems and products A Service Agreement 5 is also available for users who intend to provide identifier and or resolution services using the Handle System technology under the Handle System public license Related technologies EditThe Handle System represents several components of a long term digital object architecture In January 2010 CNRI released its general purpose Digital Object Repository software 25 another major component of this architecture More information 26 about the release including protocol specification source code and ready to use system clients and utilities is available 27 28 See also EditArchival Resource Key ARK Digital Library Electronic Publishing Hypertext Institutional Repository Linked Data OpenURL Permalink Persistent URL Resource Description Framework Semantic Web Uniform Resource NameReferences Edit a b RFC 3650 Handle System Overview Kahn Wilensky Architecture CNRI 1995 05 13 Retrieved 2013 03 13 DONA Foundation dona net Digital Object Identifier System doi org a b Redirect to Current Handle Net web site content handle net Retrieved 15 March 2018 RFC 3651 Handle System Namespace and Service Definition RFC 3652 Handle System Protocol ver 2 1 Specification handle net handle net Retrieved 2013 03 13 About info URIs Frequently Asked Questions Info uri info Retrieved 2013 03 13 RFC 4452 The info URI Scheme for Information Assats with Identifiers in Public Namespaces DOI Handbook International DOI Foundation doi 10 1000 182 Archived from the original on 16 September 2022 HDL NET Services Proxy Server System Handle net Retrieved 2013 03 13 HS Software Download Handle net Retrieved 2013 03 13 Software Client Libraries Handle net Retrieved 2013 03 13 HDL Plug in for Adobe Acrobat and Acrobat Reader Handle net Retrieved 2013 03 13 Redirect to Current Handle Net web site content handle net Archived from the original on September 5 2015 DOI System Tools Doi org 2012 07 12 Retrieved 2013 03 13 adlnet gov adlnet gov Retrieved 2013 03 13 SCORM adlnet gov Archived from the original on 2008 06 14 doi org doi org 2013 01 08 Retrieved 2013 03 13 Identifier Systems in Network Architecture Laurence Lannom CNRI Video of presentation or presentation PDF only from the Digital Motion Picture Metadata Symposium Science amp Technology Council Academy of Motion Picture Arts amp Sciences 11 June 2009 Oscars org 2012 08 24 Archived from the original on 2013 03 30 Retrieved 2013 03 13 workbook on digital private papers administrative and preservation metadata persistent identifiers paradigm 2008 01 02 Archived from the original on 2013 03 29 Retrieved 2013 03 13 Handle System Itu int 2010 04 16 Retrieved 2013 03 13 LICENSE PDF www handle net Retrieved 2020 05 11 dorepository org dorepository org 2013 01 08 Retrieved 2013 03 13 Digital Object Repository Server A Component of the Digital Object Architecture Dlib org 2010 02 04 Retrieved 2013 03 13 Reilly S Tupelo Schneck R January 2010 Digital Object Repository Server A Component of the Digital Object Architecture D Lib Magazine DO Repository 16 1 2 doi 10 1045 january2010 reilly ISSN 1082 9873 Retrieved 2013 03 13 Cordra cordra org External links EditOfficial website Persistent identifiers project at Paradigm Archived 2016 01 27 at the Wayback Machine Retrieved from https en wikipedia org w index php title Handle System amp oldid 1129542557, wikipedia, wiki, book, books, library,

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