Art Condition Report Template Guggenheim

Media artworks often require complex, cross-disciplinary documentation, challenging traditional cataloging systems. Curators, registrars, exhibition technicians, IT specialists, intellectual property managers, conservators, outside experts and artists contribute to compiling a multi-voice record for each work of art.

Paper and report templates in Word make formatting and writing your school and business papers a snap. Write outlines, cover letters, speeches, theses, team reports, and business papers with pre-built report template designs or add your own customizations. A sample baseline condition report form, which can be adapted by the user, is provided at the end of this Note for paintings on canvas or rigid supports (Sample Report 1, found in the Appendix). The baseline condition report records information collected during the initial, thorough examination on acquisition, or it can be adapted to the.


Aebhric Coleman from the NAT and Steve Dye from SFMOMA documenting TV Buddha (1989) by Nam June Paik. Photo: San Francisco Museum of Modern Art.

Catalogue artwork

Enter detailed information about the artwork gathered during the acquisition process into collections database, minimally including:

  • Artist, title, creation date, display dimensions, edition number
  • Media format, duration
  • Display equipment, sculptural components
  • Provenance, exhibition history
  • Accession/collection number
  • Valuation, vendor cost
  • Credit line

Additional information collected in the object file may be uploaded into the database or simply tracked and kept as hard copy.

Inventory and label artwork components

  • Media: e.g. video, audio, film, slides, hard-disk drives.
  • Useful websites: EAI Online Resource Guide; Texas Commission Videotape Identification and Assessment Guide; IMAP Cataloguing Project
  • Dedicated display equipment: (e.g. screens, monitors, projectors, speakers, playback equipment, lights, cameras). Record manufacturer and model numbers; collect product manuals for all equipment
  • Useful website: Mona Jimenez: Artist Instrumentation Database
  • Sculptural components: measure and record all objects to be installed.

Organize collected information

Create object files, or binder, from the acquisition process

These files will grow as the work is exhibited, loaned, and conserved. Most institutions create separate files for different purposes such as acquisition, curatorial, conservation and registration. Most of this information will be stored electronically as well, in collections databases, text documents, and digital images.

Cataloging Media Art

Records for media installations hold a great deal of information which can be difficult to manage.Below is a guide to the type of material you might find in a record for a media artwork and a suggested way of organizing this information into sections within your file or binder. Read more here on collection management systems.

    • Accession Number
    • Artist
    • Title
    • Medium
    • Description
    • Dimensions
    • Duration
    • Image size (max / min)
    • Room size
    • Incoming receipt
    • Bill of sale
    • Purchase agreement / Deed of gift
    • In some cases you might have a commissioning agreement or a co-ownership agreement note to introduction to legal documents
    • Curatorial proposal
    • Copy of the Certificate of authenticity or the original
    • Copyright agreement
    • Acquisition correspondence
    • Original inventory of media/ display equipment/ sculptural components which are part of the acquisition
    • Cost assessment
    • Acquisition assessment
    • Media
    • Diagram or list of media components which shows the format, when it was made, what it was made from and what it is used for.
    • Display equipment
    • List of dedicated equipment which came as part of the purchase (say why it is dedicated)
    • Manuals
    • Sculptural components
    • Installation specifications
    • Additional floor plans and wiring diagrams etc.
    • List of prior displays
    • Information about displays and other editions of the work
    • Photographs relating to prior displays
    • Texts relating to prior displays
    • Display summary, including equipment used, logs of minor incidents reported during display, display maintenance procedures, budgets, installation plans, notes about exhibition formats made for the display, photographs, correspondence.
    • Loan documents
    • Artist and gallery contact sheet
    • Correspondence with the artist
    • Artist recommended technical specifications
    • Artist’s statement
    • Artist’s interview
    • Documents relating to the artwork, including other editions
    • Exhibition reviews
    • Structure and condition report(s)
    • Media migration record
    • Template
    • Conservation treatment reports/ treatment photographs
    • Major damage reports
    • Storage guidelines
    • Disaster plan recommendations
    • Scientific analysis reports
    • Guidelines for packing and transport

Document installed artwork

Review documentation from artist/vendor/donor. Is it sufficient for long-term care and future installation?

  • Documenting media art includes recording the work in its existing state as it enters the collection:
  • Photograph the installation and its individual components
  • Videotape the initial installation
  • Archive installation plans and specifications for display

Conduct artist interviews

The artist interviews may actually include communications with the artist, technicians, owners, gallery staff and others familiar with the artwork. The goal of these interviews is to gather information about technical history, exhibition requirements, artist intent, and technological obsolescence.

(Guidelines for artist interviews may be found on the INCCA website)

Create archival transcripts of the interviews. If they can be shared and may benefit colleagues, consider joining INCCA and entering abstracts of the interviews on the INCCA Artists Archives Database

Develop conservation plan

The conservation plan anticipates:

  • Installation equipment: maintenance requirements and future equipment replacement
  • Media migration cycle
  • Storage specifications
  • Future conservation strategies and costs

Additional information about conserving media works may be found at the following websites:

Prepare for future display

  • Make media exhibition copies as needed
  • Project costs for future exhibition

Pack and store artwork

  • Proper archival storage and packing is crucial to the longevity of the artwork.
  • A brief summary of storage concerns for media may be found in [IMAP’s Preservation 101 section on Storage).

Condition Report Templates

When assessing media art, aim to extend existing condition reporting practices to include media artworks. A condition report provides the baseline against which future examinations can be compared. For media-based works of art a report is divided into three sections – the media elements, the equipment and the overall installation. They are different from condition reports for more conventional works of art in that some of the components may be easily replaceable without loss. It is often not possible to know by looking at any component, its value or significance in relation to the identity of the work of art. In addition to the example reports below, please also refer to the website Time-based Media Conservation by Joanna Phillips, Time-based Media Conservator at the Solomon R. Guggenheim Museum http://www.guggenheim.org/conservation/time-based-media













Sonalksis stereo tools vst and company.

Assessing Digital Video

Peter Oleksik assessing Boomerang by Nancy Holt and Richard Serra (1974).

Assessing your digital video media is a crucial step on entering your collection. Not only will it help you to understand the technical characteristics and anomalies of the file(s), it will help you create a baseline against which future examinations can be compared, and generally gain a better understanding of each artwork and your collection as a whole.

Video files are assessed and condition checked both visually and aurally with the appropriate tools. This section covers the design requirements of a work station, approaches to running initial technical analysis on your file(s), the visual and aural technical assessment and its documentation.

  • visibilityVisual Assessment

    luminance, chrominance, color space and gamma, are the key characteristics to visually asses

    Tools for Visual Assessment
    • Reference monitor (SD vs HD)
    • Oscilloscopes
    • Playback Software
  • Key characteristics for aural assessment: Levels (db/VU), phase

      Tools for Aural Assessment
    • Meters (digital)
    • Phase Oscilloscope
    • Monitors
    • Waveform visualization
    • Analogue artifacts
    • Digital artifacts
    • Identifying cause / original – A/V Artifact Atlas

Assessment Workstation

To assess, quality-control and condition report your digital video files, you might want to consider designing a workstation that is customized to your needs and dedicated to these video evaluating activities. Below you will find three examples of workstations that serve various budgets and are aimed at different levels of quality-control. The three tiers outlined are designed to serve both standard definition (SD) and high definition (HD) video systems. If you are working exclusively with either SD or HD material, you could make savings by acquiring just the tools for your specific needs. The following aspects are the 7 key components relevant to all digital video assessment workstations.

  • Since the signal connections of your devices will play an important role in the playback of your video files, these will be briefly described together with their commonly associated formats. It is important to note that many analog formats only support 1 signal type and therefore outputting them on a “better” (or more recent) signal type can actually change the authenticity of the signal. Keeping the signal native is has been referred to as transparent migration.

    Composite Video [analog connection, SD]: All the information that composes the signal, luminance, chrominance, blanking and synchronization (CVBS), is merged together into one signal. Composite video is a single connection type (either BNC or RCA). Analog formats that utilize a composite signal output and are recorded using a composite signal include ½” open-reel, ¾” U-matic, laser disc and VHS.

    S-Video or Y/C [analog connection, SD]: As opposed to the composite signal, S-Video separates the luminance (Y) and the chrominance (C) into two different channels. Thereby it is a step up in quality from the composite video. It is transmitted by a distinctive looking, 4-pin connector. Formats that allowed for Y/C include VHS and DVD.

    Component Video [analog connection, SD]: Component video is the best quality connection to transmit analog video signals. The signal is separated into three channels: Y (luminance), Pb (Blue minus L) and Pr (Red minus L). The green is derived using the pythagorean theorem. Component video comes as three adjoined plugs, sometimes color-coded to green (Y), blue (Pb) and red (Pr). This connection should be used on analog Betacam and Betacam SP.

    Serial Digital Interface [SDI, SD or HD]. The SDI signal is a digital bit stream that can be used to transmit analog and digital video signals, and has also been used to by digital formats to record the signal to tape (Digital Betacam). SD-SDI is a signal connection type, using the BNC connection type, that packages the video, aural, and any ancillary data (timecode, closed captioning, etc) into a signal bit stream for transmission. SD-SDI is a 4:2:2 YUV system of video transmission. HD-SDI uses the same principal but splits the signal amongst multiple connections to increase the bandwidth necessary for transmission of High Definition material.

    High Definition Multimedia Interface [HDMI]: HDMI is typically used in the connection of monitors and other devices together in the transmission of high definition material.

  • For standard definition video files –for example videos that come from SD tape transfers–, watching the video on a Cathode Ray Tube (CRT) monitor is crucial, as only these monitors will show you both fields of the interlaced content and provide you with an authentic display of the video signal. CRT monitors are no longer manufactured, however they can be found through appropriate web platforms (e.g. eBay) or forums who post when Broadcast studios sell off their equipment. Make sure the video inputs fit your system before you buy it, and calibration is recommended when setting up.

    Viewing interlaced video files on a computer monitor is problematic because these monitors cannot display interlaced footage and will attempt to merge the fields together into discrete frames. Certain errors, e.g. a head clog from a tape digitization, can only affect one field and lead to a complete area of image loss, which you would not see on a computer monitor.

    With the advent of high definition video, the term progressive entered the video world. Progressive means that a video –just like film– contains full discrete frames, as opposed to the two-fields interlaced. Progressive video content is often indicated by a lower case p, for example 720p. These videos can be quality-controlled easily on a computer monitor. A more advanced approach for viewing these kinds of files would be a color-calibrated, LCD studio monitor.

  • Watching digital videos, especially uncompressed or high data rate, can be challenging for older or regular “desktop”-computers. Your workstation requires a relatively powerful computer, with a minimum of several GB of RAM. Most videos will lag, if you play them directly from external hard drives, depending on your interface, and from servers, depending on your connection; therefore it is good practice to save them locally for assessment requiring sufficient storage space on your computer. Alternatively you could consider an external hard drive or RAID with a fast interface connection. The platform you choose –Mac or PC– depends on the kind of software to be used: Final Cut Pro only works on Macs, whereas Adobe Premiere is available for both platforms. Make sure to choose your computer platform depending on your software and hardware needs and compatibilities.

  • An Analog to Digital converter is necessary to process both standard definition material from your computer to a CRT monitor as well as provides connection types for connecting external HD monitors and scopes.

  • Monitors, even when calibrated, are inherently subjective in how they represent the visual information. Oscilloscopes provide an objective view of the signal by providing access to the luminance and chrominance electronic information. The two critical scopes for the assessment of both analog and digital video are a waveform monitor and a vectorscope.
    Waveform Monitor:The waveform monitor measures the luminance (black and white) information of the video signal. A graticule is used to plot the information on a scale and allows one to see whether the blacks are too low in the signal (which may disrupt sync in an analog system) or the whites are two high (which would allow visual confirmation that the whites are “blown out” or exceed 100 IRE).
    Vectorscope: The vectorscope is a 360 degree color wheel that measures the hue and saturation of the chrominance information in the video signal. Known references like fleshtone, blue sky, etc. can be used to discern whether the chrominance information is being represented faithfully.

  • Software is crucial in the assessment of your digital video material. It is important to understand the basics of the software and how it functions to know whether your video is being processed and faithfully represented. Typically, capture and editing software like Blackmagic’s Media Express, Adobe Premiere and Final Cut Pro X can be used to analyze the discrete portions of your video material and allows for an in-depth assessment of its basic characteristics (luminance, chrominance and audio). Free tools such as QCtools also allow for in-depth assessment of your video files and have been developed for the archiving community.

  • Quality audio monitors and meters are also necessary in the assessment of video material. A pair of studio grade, near-field speakers is recommended for listening to a piece. In addition, audio scopes using either the decibel (dB) or volume unit (VU) method of measurement are useful in looking at whether the audio is clipped, compressed or otherwise distorted, and for measuring whether the audio is in phase or not.


Set-ups for Assessment Workstations

Basic Advanced Professional
Analog-to-digital video card
Computer
Video editing software
Video playback software
Assessment software
CRT monitor with SDI video input
CRT Monitor with composite video input
Audio monitors
Audio meter
Analog waveform monitor/vectorscope
Digital waveform monitor/vectorscope
Sync generator with colorbars/1Khz tone
CRT monitor with component video input

Initial Technical Analysis

The amount of technical information that you might receive with a digital video artwork will vary depending on the artist.

File Characteristics

These are the key characteristics of the file that you will ideally want to have prior to receiving the the digital video. If this is not possible, the following aspects should examined on receiving the files:

  • What is the file wrapper? e.g. mov, mp4, avi, etc.
  • What is your codec? e.g Apple Pro Res 4:2:2, Uncompressed, H.264
  • What is the video resolution? e.g 1080 x 1920, 480 x 720, 576 x 720, etc.
  • What is the aspect ratio? 16:9, 4:3, etc.
  • What timecode is present?
  • What is the duration?
  • What is the pixel aspect ratio? Square vs non-square
  • What is the chroma subsampling?: e.g. 422, 4444, etc.
  • Is the file interlaced or progressive?
  • What is the audio codec? e.g. PCM, AAC, etc.
  • How are the audio channels arranged? e.g. channel count, assignment
  • Are any subtitles present?

Environment Characteristics

When assessing digital video files, it is incredibly helpful to have a good understanding of the environment the file was created in, i.e. the software and hardware systems used for production of the video. These can be useful in confirming assessment and/or diagnosing errors. This information will help inform both the accurate assessment of the video material as well as how to best care for it in the future. The following information is useful to receive from the artist upon acquisition:

  • How was the work shot, or what were the sources?
  • How was the work edited? e.g Final Cut Pro 7.0.7, Adobe Premiere Pro CC
  • If possible, could you provide your project file or XML output of it?
  • What playback environment did you use when viewing your piece? e.g. Mac Pro running OS X 10.9, PC Tower running Windows 8, etc.
  • What software do you typically use when checking/viewing your files? e.g. Quicktime 7, Quicktime X, VLC, etc.

Display Characteristics

As with any media-based artwork, it is useful to review an artists display specifications, if possible.

Assessing Files

  • Confirm that the content is as expected.
  • Ensure that there are no technical problems with the streams.
  • That there is no conflicting information between the streams and the wrapper. For example, a particular combination of stream(s) and wrapper may provide ambiguous instructions for decoding, leaving the possibility that different players might play back the video stream differently. If this is the case it is helpful to clarify with the artist or their representative, if at all possible.
  • That this is not an of absence of key information in the streams and the wrapper.
  • Confirm that the basic matches content matches what was expected from the artist, for example the codec, the wrapper, audio sample rate and bit¬depth, subsampling, frame rate and the duration.


Assessing Files: How to

  • Run MediaInfo on your file(s) to expose the technical metadata for analysis:

MAC Users:

  • Open Terminal
  • Run MediaInfo on the video files you are about to assess with the command: mediainfo -f [path to input file]


Condition

Assessing files: Identifying Technical Problems

Integrity

This step is to confirm that the files integrity is intact and there are no obvious signs that the file is incomplete or corrupted. The first method of checking the integrity of the file is to confirm that the file checksum associated with the file, if supplied with the artist on receipt, validates when transferred or moved to your storage infrastructure. If the checksum does not validate, this is a clear sign that something technically has changed within the file. The second method of checking the file integrity is to analyze the MediaInfo report for clear indicators of technical problems. These can vary, but an example is a file that will not open in any player and the mediainfo report looks like the image below:

When analyzing this report, it becomes clear that the file is incomplete and lacks the video and audio streams necessary for playback as the MediaInfo report finishes without displaying the video or audio stream technical metadata. This makes it clear that this information is not present in the file and is the reason for its inability to be displayed. This is a critical error with the file and will necessitate replacement.

Conflicts in Wrapper versus Streams

Problems might arise in the consistent playback of a video stream with regards to aspect ratio and color interpretation if there is conflicting metadata held in the wrapper and the stream. For example as demonstrated in the “Video” section of this MediaInfo report:

Mediainfo report

Video
ID/String : 1
Format : AVC
Format/Info : Advanced Video Codec
Format_Profile : Main@L4.0
Format_Settings_CABAC/String : No
Format_Settings_RefFrames/String : 2 frames
Format_Settings_GOP : M=1, N=50
CodecID : avc1
CodecID/Info : Advanced Video Coding
Duration/String : 2mn 57s
BitRate/String : 4 925 Kbps
Width/String : 1 920 pixels
Height/String : 1 080 pixels
DisplayAspectRatio/String : 16:9
FrameRate_Mode/String : Constant
FrameRate/String : 25.000 fps
ColorSpace : YUV
ChromaSubsampling : 4:2:0
BitDepth/String : 8 bits
ScanType/String : Progressive
Bits (Pixel*Frame) : 0.095
StreamSize/String : 104 MiB (98%)
Language/String : English
Encoded_Date : UTC 2014-03-27 11:47:51
Tagged_Date : UTC 2014-03-27 11:55:51
colour_primaries : BT.709
transfer_characteristics : BT.709
matrix_coefficients : BT.601
colour_range : Limited

In this example, the 3 fields to look at are:

  • color primaries
  • transfer_characteristics
  • matrix_coefficients

There is a conflict in the subsampling between the “color_primaries” and the “matrix_coefficient” where the file contains decoding information that relates to 2 very different color spaces, BT.709 and BT.601. This conflict would expose itself if played back in Quicktime where the player would default to BT.601, which is the incorrect colorspace.

Brochures plays a very important role when it comes to places that have frequent visitors. Museum, for instance, require brochure design to inform the visitors about upcoming exhibition or to just put general information about the museum.

But designing a brochure is not an easy task and can be expensive if they are required frequently. The easy way out is to use available online. You can find brochure design specific to museum also. We have put up some amazing museum brochure template designs that you can use. Checkout the list and find the best templates for yourself. File Format. Illustrator.

InDesign. MS Word. Pages. Photoshop. PublisherSize: US, A4Contemporary Art Museum BrochureThis template comes with a contemporary design which is perfect to be used as a Art Museum. The layout that you get is of a three fold brochure. The design is subdued and subtle and can be edited and customized with images and text of your choice.

The template come in high quality and is print ready.Pottery Museum BrochureThe brochure template given here is suitable for pottery museum. The design is also earthy and rustic and gives a quick reference to pottery. You will only require to change text and images, the design is appropriate and requires no kind of change.Natural History Museum BrochureIf you are looking forward to creating a brochure for a natural history museum, we have a template ready for you here.

The link has been provided and once you have downloaded the template you can easily edit it on photoshop and use it. You can use it as a two fold brochure or a single fold brochure.Museum Information Tri-Fold Brochure TemplateThis tri-folder brochure template is great if you want to make it a text heavy brochure, given detailed information about the museum. Download the template from the given link. And upload the information text via photoshop.

Mac

And use the default layout to save time.Museum Rack Brochure DesignAnother well designed brochure template that you can download and use instantly, without having to create a brochure from the beginning or hire a professional designer to design it for you.Museum Information Bi-Fold Brochure TemplateThis here is also an informative brochure with bi-folds. If you want to create a bi-fold brochure for displaying museum information you download the given template which is absolutely easy to use of you have basic knowledge of Photoshop.Creative Museum BrochureThe template given here is more colorful and creative than the other templates given in the list. Generally brochure are not very brightly designed but you can always make an exception depending on the demand of the client. Luckily, with the template being available, you don’t have to create the brochure all by yourself.Designing brochures can be expensive and time consuming. Especially when it has to be done regularly. The templates given here are easy to work with.

These templates come with smart layers which makes it super easy to edit. You can add images and text and also change the background if required. Use these templates to make things easy for you and save your time and efforts.