As described elsewhere in these Guides, documentation is required at a number of levels. Whereas generic project-level documentation is described elsewhere (see the general section on 'Project Metadata' and Section 5.1 of this guide), this section outlines the documentation required for individual datasets within an aerial survey project and may be repeated multiple times for different sets of data.
The following table contains a list of metadata elements and documentation absolutely essential to digital resources created by archaeologists from aerial photography or remotely sensed data. Each entry is explained in more detail under the relevant heading below.
|Subject||Archaeological keywords, preferably drawn from terminology sources (e.g. thesauri like the Thesaurus of Monument Types) where appropriate.|
|Coverage||The spatial/geographic and temporal location of the subject.|
|Format||The format of the data.|
|Rights Management||Any copyright and other legal or financial restrictions on the free use of the data.|
|Creator and Other Contributors||Specify main source(s), author(s), funder(s), and other contributers to the data's creation.|
|Date||Date and time of first acquisition/survey of the source data, plus key dates in the life cycle of the dataset.|
|Relation||Links to relevant information held in other places.|
We recommend additional documentation for digital resources based on aerial photography or remotely sensed data. Each entry is explained in more detail below.
|Instrumentation||Specify the instrumentation used to capture the original data, and an indication of which spectral bands were used.|
|Resolution||Indicate the scale/spatial precision of the data.|
|Processing Log||A free text field containing a log of processing steps which were used to produce the data.|
|Type||The technical specification of an image, e.g. 'oblique stereo photograph'.|
|Legend||The conventions (colours, symbols, etc) used in the dataset.|
|Bibliography||Indicates where to find relevant, further information on the collection, processing and interpretation of the data.|
Describing the subject of your dataset in a way that helps other archaeologists find information that is relevant for their research can be a tricky business. This is especially true when a dataset (for example an aerial photograph interpretation) contains information about a site or monument that has not been excavated or extensively surveyed. Numerous terms can be used to describe the subject of the rectification - from the generic 'archaeological monument' through terms such as 'Late Prehistoric' and then on to specific terms such as 'henge' and toponymics such as 'Stonehenge'. Luckily there are a few ways of ensuring that others know how to interpret the subject keywords that you choose.
If you are consistent in the level at which you assign keywords, other archaeologists who regularly use your documentation will have an easier time. Clearly indicating when you have chosen a keyword that is possible or uncertain can also be helpful.
The best way to assign keywords so that others will be able to interpret your meaning correctly is to try and use standard terminology. In the UK a number of helpful thesauri have been developed which provide suggestions for words that can be generally used to describe both archaeological sites and artefacts. Even if these terminology standards do not offer terms that are precise enough for a specialist's needs they provide a good, generalised starting place. Additional keywords can be added to specify the precise subject in more specialised terms.
4.2.2 Spatial and Temporal Coverage
Others will need to know where and when on earth your data refer to, and you'll no doubt need to keep detailed track of this for your own purposes too. It's possible to identify the spatial and temporal location of your aerial photograph rectification in a number of ways, including text descriptions (e.g. placenames and temporal period names) and numeric descriptions (e.g. UTM coordinates, latitude and longitude, National Grid References).
General points to keep in mind when describing spatial and temporal locations include keeping track of the numeric location as well as a text description, as placenames are often repeated (e.g. Dublin, Ireland and Dublin, Ohio in the United States) and temporal names mean different things in different places (e.g. the 'Roman' period does not start until the late first century AD in Scotland).
For numeric descriptions of image location there must be provision of a valid geographical centre point, bounding box or polygon boundary description. It is important to label the x, y, and z coordinates clearly and specify the unit of measurement used. It's also very helpful if you are able to indicate the precision with which you have recorded the spatial location.
It is important to provide a description of the format of each file in your dataset is stored in and an overview of formats is provided in Section 3.3. Appropriate formats for archiving digital datasets resulting from aerial photographs or remotely sensed images are discussed in Section 5.
4.2.4 Rights Management
All information users need accurate information about copyright restrictions that relate to a data resource. Clear indication of who controls copyright on all aspects of the information contained within a digital file is especially important. If you re-use digital data for which you do not own the copyright, you should indicate this and refer potential users to any documentation that describes who can and can not access and use the information. For example, if you have used a SPOT satellite image as part of a GIS project it may well be a violation of your licence from SPOT to share the original satellite image with anyone else.
The term 'creator' can be a bit misleading, because often no single person can be credited with primary intellectual responsibility for a digital resource. Instead it is helpful to keep track of anyone whose involvement helped produce the digital dataset. This includes information about the funding agency or developer who paid for the images/interpretation/research, the company or organisation responsible for production of the source image, pilots, photographers, rectifiers, image processors, project managers, and others. However, don't get too carried away and list every person who walked into the room where the digital dataset was being created, but rather choose the people and organisations most important in helping to create and maintain the data. At a minimum, the data provider and creator of the metadata should be entered here.
There are many different kinds of dates that are important in the life cycle of a digital dataset related to aerial photography and remote sensing. Despite this, the date field should only refer to the date of image capture. Dates referring to the content of the digital file -- for example the archaeological period in which a monument was built -- are best described under the heading of spatial and temporal coverage. Any other date information, including interpretation date, documentation date, publication date, and archiving date, should be placed within the processing log.
The International Standards Organisation has made a recommendation for the best way to record dates in ISO8601. Their recommendation is that dates be identified either in the format YYYY or YYYY-MM-DD where YYYY is the year, MM is the month, and DD is the date. In some cases the exact time an image was acquired may be relevant, for example when it is important to minimise shading in a satellite image; please record this information too.
Any text or number code which is used to identify a resource uniquely should be recorded. Examples include image or photographic frame numbers from commercial data suppliers, internal project identification numbers, and accession numbers issued by archives, libraries, museums, the National Monuments Record (NMR), and the regional Historic Environment Records (HERs) or Sites and Monuments Records (SMRs).
Often a specific instrument is coupled with its own software or, in the case of aerial photography, a specialist camera may be associated with a calibration file (essential information for the rectification of distortion and other errors associated with a specific instrument and image). For the user of aerial photographic or remote sensing data it is essential to understand the limitations or characteristics associated with instrumentation; for the provider of such data it is therefore essential to record the instrument and any other relevant technical data.
Common instruments are SPOT (Satellite Pour l'Observation de la Terre) and Landsat.
Other common instrument types include:
Most remote sensing data are collected and supplied in digital raster format. This means that each single digital number represents one observation of a piece of the earth's surface. The size and shape of this area is the spatial resolution. Resolution is related to scale and precision (quantifying the size and location of the smallest feature that can exist in the data), but not to accuracy (indicating whether a specific stated size or location is in fact correct). Information about resolution is important as it implicitly specifies both the geographic precision and the size of archaeological features that one can reasonably expect to discover in the data.
Although in some circumstances you can specify the resolution of a dataset with just one figure ('25 metres' would indicate that both the X- and the Y-resolution are 25 metres), good practice requires that you give separate X and Y resolutions. A single resolution figure is often insufficient for a variety of reasons:
Remember, any geometric transformation (such as georeferencing) or image enhancing technique (such as filtering) that is applied to a digital dataset may result in altered resolution settings which may bear no direct relation with the resolution of the original. If precise information about resolution is unobtainable, it will help if you can provide data about the instrument height, and scale of original (as in APs), etc.
As many general purpose scanners apply false (interpolated) resolution rather than true (optical) resolution, it is often wise to document the scanner used and the scanning resolution. Scanning resolution is generally specified as dots per inch or lines per inch.
4.2.10 Processing Log
There are three main categories of information about processing that are important to document: pre-processing, cleaning, and rectification. For all items listed in a procesing log it is generally a good idea to indicate clearly what software was used, giving the full name and version numbers, and when the major processing steps took place.
'Pre-processing' usually encompasses any processing step that is performed in order to get digital data into a useful form for analysis and interpretation to begin. There is such huge variation in how this can be done that it is impossible to provide a complete list of options here. In general, though, it is important to document:
When documenting procedures relating to the cleaning of digital remote sensing data, you may wish to include:
Finally, it is important to document all processes carried out while rectifying or georeferencing digital image files. This requires you to:
It's a good idea to keep a technical description of each image that you work with. The following table summarises the major types of images available in aerial photography and remote sensing.
All interpretations based on aerial photography or remotely sensed data require documentation about the graphical conventions used. Graphical data are generally devalued if a legend is not supplied, or if it is inadequate or misleading. It's well worth spending some time thinking about the kinds of information to include in your legend. In most cases this should not be an arduous task and it will generally allow you to organise and interpret your own data in a more efficient manner. Some organisations provide lists of standard conventions which can be adhered to when graphical output is generated.
Begin your legend with a descriptive title. In some cases this may be all that is required. This may occur when you are working with a scanned air photograph as it is unlikely to need an extensive legend because information on its geographic location, resolution, source, and image type is held elsewhere in your documentation.
Generally, though, every image should have an authoritative legend. In most instances these legends will still be very simple. For example, with categoric data you will need to document the numeric value, colour coding, shading, symbols or stippling associated with specific features. Although in many cases a simple description of a colour code may be sufficient, you should be aware that colours may display differently on individual computer screens.
More complex situations may also emerge. In the case of multi- or hyper-spectral imagery from non-standard sensors it may well be necessary to provide an extensive legend specifying what each band represents.
Legends may need to reflect the complexity of software used to provide data, or the data structure associated with specialist software. If an aerial photograph interpretation, for example, has been created in a CAD system the legend must reflect the fact that the information may be divided between separate layers representing specific themes. Each layer may be associated with a separate set of graphical conventions used to discriminate between specific objects or types of features. Clearly in this instance a nested legend describing individual layers and their associated conventions may be necessary. Alternatively, an image may have been prepared within a GIS which has the capability of attaching multiple text or numeric attributes through an associated table or database. Suitable documentation would include a description of the database structure, including any coding or related information needed to use the graphical database.
It is often useful to keep track of bibliographic references of relevance to the origin, processing or interpretation of the digital resource. The Harvard System is recommended as this is commonly used in archaeology.
 For example, the English Heritage National Monuments Thesauri http://thesaurus.english-heritage.org.uk/frequentuser.htm.