Collections management system Museum

- Thursday, August 31, 2017

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A Collections Management System (CMS), sometimes called a Collections Information System, is software used by the collections staff of a collecting institution -- primarily museums and archives, and to a lesser degree, libraries and galleries -- to organize, control, and manage collections objects by "tracking all information related to and about" those objects. A CMS is used by collections staff such as registrars, collections managers, and curators, to record information such as object locations, provenance, curatorial information, conservation reports, and exhibition histories, but that information is also accessed and used by other museum departments such as "education, membership, accounting, and administration."

Though early Collections Management Systems were cataloging databases, essentially digital versions of card catalogs, more recent and advanced systems are being used to improve communication between museum staff and to automate and manage collections-based tasks and workflows. They are also used to provide access to information about their collections and objects to researchers and the public, increasingly through online methods.

Among the many commercially produced Collections Management Systems are Axiell's Collections Management Software, Gallery Systems' The Museum System (TMS), PastPerfect Museum Software, Re:discovery Software's Proficio, Argus, EmbARK, and Archivists' Toolkit. Some institutions, particularly smaller museums, have customized existing database management systems and relational database software such as FileMaker Pro and Microsoft Access to create homegrown Collections Management Systems. A recent trend has been the growing number of web browser-based and cloud-based systems. Both CollectionSpace -- developed by multiple institutions led by the Museum of the Moving Image in New York -- and CollectiveAccess -- developed by Whirl-i-Gig-- are free, open-source, and web-based systems. Commercial web-based systems include Vernon Systems' eHive, Axiell Collections. Cloud-based systems include CollectorSystems, Zetcom's MuseumPlus RIA, SKINsoft's S-museum, UniqueCollection.org and Eloquent Museum.


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Development and history of collections management systems

Ever since machine-readable standards were developed for libraries in the 1960s, museums have had an interest in utilizing computers to record information about their collections. However, museums have very different needs from libraries; while bibliographic information about a library collection object is usually static, museum records are ever-changing because of the continuous need for new information about museum objects to be added to the records. As early as 1967, the Museum Computer Network (MCN), an informal group of New York museums, attempted to create a collections management database called GRIPHOS, and at a Metropolitan Museum of Art and IBM conference in 1968, speakers discussed current and proposed projects to automate collections management. In an effort to coordinate research into developing these systems, professional associations such as the Museum Data Bank Coordinating Committee (MDBCC), formed in 1972, were created to disseminate information about computers and databases to museums interested implementing computerized collections systems. During the 1980s, Collections Management Systems became more advanced with the rise of relational databases that "[relate] each piece of data to every other piece," and during this time some of today's popular systems were originally developed for specific institutions "based on generic relational databases" -- such as Gallery Systems' The Museum System for the Metropolitan Museum of Art and Re:discovery Software's Proficio for the Thomas Jefferson Foundation's Monticello -- before being released as commercial products. During the 1990s, with computers becoming faster and cheaper and with the rise of the Internet, collections management software became much more sophisticated, able to "present images, sort information in any one of a myriad of configurations, record exhibition information, track locations, and interface with a museum Website."

Though the goal during the 1960s was to use computers for collections record-keeping for purposes of accountability, MCN Executive Director Everett Ellin warned that museum professionals should include public access as a goal because it would "not be worth the effort if museums only create a glorified record-keeping system." Collections Management Systems have become crucial tools in increasing public access to collections information, expanding the types of information that are recorded. What was once "a simple tool for collections care and inventory" has become "a robust and powerful instrument for saving all information about museum objects," including interpretive material, digital objects, and digital surrogates. Since some Collections Management Systems now incorporate Digital Asset Management and content information storage, many museum professionals have started to use the acronym CMS to stand for "Content Management System."


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Information managed in collections management systems

In 1997, art historian and museum information studies consultant Robert A. Baron outlined the requirements for Collections Management Systems, not as a list of the kinds of collections object information that should be recorded, but rather as a list of collections activities such as administration, loan, exhibition, preservation, and retrieval, tasks that museums had been responsible for long before the invention of computers, and many modern Collections Management Systems go beyond cataloging by aiding in the management of these processes and workflows. The Canadian Heritage Information Network (CHIN) Collections Management Software Criteria Checklist (CMSCC), which aims to be a comprehensive list of the kinds of information that a museum may want to record in a CMS, organizes that list by processes and actions rather than type of information. The checklist "outlines a number of features commonly included in a commercial CMS, which can assist a museum in determining which features have priority."

Object entry

Managing and documenting information and tasks related to objects entering the museum, including acquisition or loan records, receipts, record of the reason for the deposit of the object, and record of the object's return to its owner.

Acquisition

The management and documentation of objects added to the institution's collection, including accession numbers, catalog numbers, object name or title, acquisition date, acquisition method, and transfer of title. There are many different accession numbering systems, and a CMS should allow an institution to use its existing numbering system.

Inventory control

Identification of objects for which the institution has a legal responsibility, including loaned objects and objects that have not been accessioned. Information recorded includes object location and status.

Location and movement control

Records of an object's current and past locations within the institution's premises so that it can be located, including dates of movement and authorizations for movement.

Catalog description

Information that describes and identifies objects, including creator/maker/artist, date(s) of creation, place of creation, provenance, object history, research on the object, and connections to other objects.

Conservation management

The management of information about an object's conservation "from a curatorial and collections management perspective," including conservation requests, examination records, condition reports, records of preventative actions, and treatment histories.

Risk management

Management of information about potential threats to collections objects, including documentation of specific threats, records of preventative measures, disaster plans and procedures, and emergency contacts.

Insurance management and valuation control

Documentation of insurance needs for objects for which the institution is responsible (included loaned objects) as well as the monetary value of objects for insurance purposes. This may include the names and contact information of appraisers as well as appraisal history.

Exhibition management

Management of an object's exhibition or display, including exhibition history and documentation of research done on an object for an exhibition. More advanced Collections Management Systems may have the ability to present information from the system on a museum's website or in an online exhibit.

Dispatch/shipping/transport

Management of objects leaving the institution's premises and being transferred to a different location, including location information, packing notes, crate dimensions, authorizations, customs information and documenting the means of transportation (including courier information).

Loaning and borrowing

Managing the temporary transfer of responsibility of an object from the museum to another institution or vice versa, including loan agreements, loan history, records of costs and payments, packing lists, and records of overdue loans.

Deaccessioning and disposal

Management and documentation of objects being deaccessioned and leaving the institution's collection, either by transfer, sale, exchange, or destruction/loss, including transfer of title, records of approval, and reason for disposal.


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Features of collections management systems

Functionality

A Collections Management System should be able to store data, edit data, delete data, access data through queries, sort data, and output data in the form of reports. Data is stored in the form of tables and is entered into the system (and sometimes edited) using forms. Queries are searches that help retrieve specific data from the system, and reports "are the means by which the results of a query are displayed or printed."

Flexibility

An efficient CMS, like a good relational database, should not have duplicate records and should not require that the same information be recorded in more than one place in the system. At the same time, the system should be flexible enough to accommodate more data as the collections expand. The user must also understand that not all information must be entered into a Collections Management System; for example, complex information such as complicated dimensions and measurements. Some institutions may not want to record confidential information such as private donor information in a CMS and instead keep it in a manual file or a separate, secure digital file, with pointers to the file's location recorded in the CMS. However, others argue that such confidential information should be recorded in the CMS to protect the information in the event of a disaster where manual files may be destroyed.

Backup and redundancy

A CMS should have "a built in backup and recovery process" to protect data against not only equipment failure and disaster but also human error, which may result in loss or corruption of data. Redundant copies of the information should be stored in multiple locations, and the backup process may be automated.

Data standards

Because a computerized system "demands a much greater degree of precision in the use of language for cataloging and data retrieval than does a manual system," data and metadata standards should be applied in a Collections Management System. Data standards provide rules for how information is entered into the system, and data that has been entered into the system in a consistent manner allows for more accurate and precise information retrieval and for easier exchange of data between different systems.

The three types of data standards are structure, content, and value:

  • Data structure standards describe the fields and categories of information (sometimes called elements) that are required to identify an object. In a museum CMS, these fields often include accession number, title/name of object, maker/creator of object, place of creation/origin, date of creation, dimensions, material, and source of object (for example, name of donor or seller). Examples of widely used data structure standards used for cultural objects are the Dublin Core Metadata Element Set (DC), Categories for the Description of Works of Art (CDWA), the MARC formats, the element sets of Cataloging of Cultural Objects (CCO), and the VRA (Visual Resources Association) Core Categories.
  • Data content standards provide guidelines for the formatting of information being entered into the fields, "controlling the syntax, style, grammar, and abbreviations" that should be used. Examples of data content standards used in institutions that collect cultural objects include Cataloging of Cultural Objects (CCO) and Describing Archives: A Content Standard (DACS).
  • Data value standards provide the preferred terms and vocabulary to be used in the fields, often in the form of authority lists, lexicons, data dictionaries, and thesauri. Examples include the Getty's Art and Architecture Thesaurus (AAT) and Thesaurus of Geographic Names (TGN), Nomenclature 4.0 for Museum Cataloguing, and Iconclass.

While most of these data standards apply to the cataloging and description of cultural objects, efforts are also being made to create data standards for natural history collections. Based on Dublin Core, the Darwin Core standard is a data structure standard for biodiversity information whose "glossary of terms" are the "fields" and "elements" needed to catalog biological and natural history specimens and samples.

Recognizing the importance of data standards to many users, some developers advertise that their Collections Management Systems are compliant with certain standards. For example, the Adlib Museum CMS is "certified as SPECTRUM compliant by the Collections Trust" and "also incorporates other international standards such as the 'CIDOC' guidelines and Getty 'Object ID.'"

Security and access

A Collections Management System should have security measures that "ensure that only authorized persons are able to enter, edit, or view" information contained in the system. However, there is a growing demand for public access to some of the collections and object information contained in the CMS, which "helps fulfill a museum's mission to educate the public and prove that the objects held in public trust are used to public benefit" while also encouraging collections staff to "support basic collection stewardship" by ensuring that information about the object is accurate before being made publicly accessible. The system should allow the public to be able to make and refine searches of publicly accessible information in the system.

Rights and reproductions

A CMS should also allow collections staff to manage information on reproduction rights of the objects for which the institution is responsible, including type of copyright scheme being applied (for example, U.S. copyright or Creative Commons license), copyright ownership, and digital watermarks.


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Considerations when selecting a system

Since every museum has different needs, a museum should make a needs assessment before selecting a Collections Management System. The museum should determine what collections processes it needs the system to manage. The museum should also identify who will be using the system and consider such factors as collection size (both present and future), staff technology skills, and budget/pricing.


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Conservation information management systems

Collections Management Systems have their origins in cataloging and registration, and consequently, most systems manage information and records "from a curatorial and collections management perspective." Conservation information in these systems is often limited to condition reporting and documentation of treatment history. While some advanced systems allow registrars to manage workflow tasks such as approvals and receipts, most systems are unable to manage conservation workflows. Many conservators also need a system that can not only store and manage conservation documentation but also easily share that information with other conservators and institutions.

Many Collections Management System developers have responded to this need by adding requested conservation features to their products. For example, in 2009, Gallery Systems, the developer of The Museum System (TMS), formed a consortium of stakeholders called the Conservation Working Group, to create a set of features to add to the conservation module of TMS.

Some conservators and institutions have taken a different approach, customizing existing software so that the system can manage conservation workflows. For example, at the Smithsonian National Postal Museum in 2012, former collections database administrator Kate Collen modified The Museum Systems' conservation module so that it could manage object treatment processes, including assigning roles and responsibilities to multiple staff, ordering and prioritizing conservation tasks and treatments, separating treatment images from object images, automating registrar and lender approvals for treatments, and even tracking staff hours. This was achieved by renaming and remapping fields in the existing system, in some cases using fields for different purposes than originally intended by the software developer.

Some software developers have been developing standalone systems specifically for the purpose of managing conservation information and tasks. Since 2000, Inventive Software Solutions has been developing the Conservation Tracker System for the Philadelphia Museum of Art to be "a comprehensive digital management tool for art conservation documentation." Developed since 2009 as a program of the Andrew W. Mellon Foundation, ConservationSpace is a project "to develop an open-source software application that will address a core need of the conservation community for a shared solution to the problem of documentation management." In 2013, Gallery Systems decided that adding incremental conservation features to The Museum System was no longer sufficient to meet the needs of conservators and began to develop a standalone web-based system to manage conservation processes called TMS Conservation Studio, which was released in summer of 2015.

Source of the article : Wikipedia



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