Given here are the following two chapters from the Grammar:
Back to top: PART ONE: Nature and Structure of Constituents
12.1 The notion of minimal constituents
Our first task is to identify the minimal
constituents, the building blocks of analysis (see above, 3.10).
The constitutive nature of the constituents must be understood as -emic (see above, 2.1). We must define those constituents which are mutually exclusive and which together form a closed system. To this end, I will first identify, in this chapter, the broadest classes of constituents, and will then, in the next chapter, define the types of constituents which belong to each of the classes.
Back to top: PART ONE: Nature and Structure of Constituents
12.2 Constituents proper and para-constituents
Within a grammatical frame of reference, the constituents proper must be minimal and systemic (see above, 3.10). The system within which they are inscribed is the record – physical and descriptive. They pertain to the things found in the ground and to the parameters that are overlaid on the physical reality. I will deal with the details in the following paragraphs.
Besides constituents proper, I recognize another class
which is in some ways parallel (para-constituents), which I call incidentals.
An incidental is a non-systemic item of description, i. e., an
entry in the recording system that refers to situations and events pertaining
to chronicle details – e.g., strategy to be pursued on a given day, daily review
of entire unit, weather as observed by a given supervisor, surveying as
pertaining to given operation, etc. By definition, this class is properly
outside the system, and thus it is not in fact a constituent as such. It is
considered alongside the constituents proper because it occupies in the archive
an analogous rank, and may accordingly be called a para-constituent.
Back to top: PART ONE: Nature and Structure of Constituents
12.3 Classes of constituents proper
There are two classes of constituents proper, which I call elements/para-elements and referents.
An element is a minimal
stratigraphic/typological constituent of the data, which is further defined as
either stationary (features – e.g. wall, floor), or movable (items and lots –
e.g. blade, sherd lot).
A para-element (on the analogy of terms like
para-medical, para-normal, or even paraphrase)
is an element which does not exist as such (stratigraphically), but is
presupposed on the basis of direct evidence (generally an impression left on
other elements: a peg’s impression on a sealing), or indirect evidence
(generally an argument, e.g. a wall assumed on the basis of a building’s
layout). In other words, the term refers to elements which exist only
inferentially, but are nevertheless assumed to be real (on the basis, precisely,
of a reasonable inference) and are not just imagined. By nature, a para-element
is identical to an element, and belongs in the same class. It is only in terms
of their evidentiary grounding that elements and para-elements should be distinguished.
A referent is a minimal constituent of
the recording system, pertaining to either the physical network (e.g. control
point, relay), or the analytical network (e.g. journal, photograph).
Following is a chart that surveys synoptically the
criteria for distinguishing the main classes of constituents and incidentals.
constituents
|
element
|
minimal stratigraphic/ typological constituent of data
|
stationary
|
feature
|
movable
|
object, specimen, sample
|
para-element
|
an element which does not exist as such (stratigraphically), but is
presupposed on the basis of
|
direct evidence
|
such as an impression left on another element, e.g. a peg on a sealing
|
indirect
evidence
|
generally an argument, e.g., a wall assumed on the basis of a
building’s layout
|
referent
|
minimal constituent of recording system, pertaining to
|
physical
network
|
e.g., control point, relay
|
analytical
network
|
e.g., journal, photograph
|
para-
constituents
|
incidental
|
non-systemic unit of description, i. e., situations
and events pertaining to chronicle details identified by appropriate specific
label ِ e.g. sg (strategy to be pursued on a given day), dy (daily
review of entire unit), we (weather as observed by given unit supervisor), sy
(surveying as pertaining to given unit), etc.
|
Fig. 12-1. Constituents and para-constituents.
Back to top: PART ONE: Nature and Structure of Constituents
12.4 Minimality and systemics
The constituents are minimal in a relative sense. This
means especially two things. First, each class excludes any other – in this
respect, they are minimal because no constituent so defined can be subsumed
under another (an element such as a wall cannot be subsumed under a referent
such as a locus). Second, within each type of constituent, nesting of subtypes
is possible – in this respect they are minimal without excluding the
possibility of combinatorial processes (an element such as a wall may consist
of components such a brick).
The notion of system underlies the classification,
meaning that any constituent is to be understood in relationship to all other constituents,
and not anectodatlly, in and by itself. In the next chapter we will look
specifically at the specific types of constituents and para-constituents, i.e.,
the concrete embodiments that elements, referents and incidentals can take.
First, however, we should describe the structure and organization of the constituents
within the system, i.e., their intrinsic and and their combinatorial properties.
Back to top: PART ONE: Nature and Structure of Constituents
12.5 Intrinsic properties as criteria for definition
There is a rich set of properties which defines any
given constituent. The specifics of these properties are given as paradigms of
variables or attributes, which I call rosters, and as lists of variants or attribute
states, which I call lexica; they are described in detail below in Section II/B.
Here I will explain the concepts.
Property is one of several analytical
traits which together define a constituent. It is to be further differentiated
into variables (or attributes) and variants (or attribute states – see already
above, 3.8).
A variable or attribute or
attribute argument is one of a set of possible qualities or identifying
marks which may be found to characterize a given constituent (e.g., type of contact
or color). Since these variables are listed as part of a roster, they are also
called “roster slots.”
A variant or attribute state
is the content of a variable, i.e., the particular quality which happens to
fill the particular slot (e.g., white). Since these slots are those listed
within a roster, the variants, which fill these slots, are also called “roster
contents.”
Variables and variants are organized according to the
logical structure of any given whole (e.g., emplacement), resulting in specific
paradigms. These are essentially inventories of choices sorted in a structural
sequence. There are two types of pertinent paradigms; a roster is
a structural sequence of attribute slots (variables), and a lexicon
a list of attribute states (variants for variables).
A special category that is related to the lexicon is
that of standards. These are criteria that define variants according
to precise parameters, e.g., the Munsell standard 10R 5/3 “weak red” as a more
specific and verifiable definition than a more generic “reddish.”
Any given constituent is defined on the basis of a
batch of properties that are drawn from the paradigms indicated, and it is
identified through a unique label. A label is an alpha-numeric
code that is derived from a sequential log. There are different labels that
correspond to different degrees of specificity.
Every constituent must have a generic label,
which is based on stratigraphy and on a minimum of typological specificity –
essentially features and items.
To the extent that typological analysis proceeds,
higher levels of specificity are possible, and they are reflected in a variety
of specific labels.
This overall classification is presented synoptically in Fig. 12-2.
attribute
|
one of several analytical
traits which together define a constituent
|
variable
|
or Roster Slot or Attribute
Argument: category of element structure (e.g., color)
|
variant
|
or Roster Entry or Attribute State: content of variable (= typological or specific label, e.g., white)
|
paradigm
|
inventory of choices sorted
in structural sequence
|
roster
|
structural sequence of
attribute arguments (variables)
|
lexicon
|
list of attribute states
(variants for variables)
|
standard
|
description of parameters
defining variants
|
implicit (e.g., “brown” as
common sense value)
|
explicit (e.g., Munsell
color value)
|
label
|
alpha-numeric
code derived from sequential log, which identifies uniquely any given constituent
|
generic label
|
minimum
stratigraphic/typological definition (e.g., feature, item) – primary or first
level of specificity
|
specific label
|
intermediate typological
definition (from lexicon of variants, e.g., wall, tablet)
|
Fig. 12-2. Intrinsic properties of consituents.
Back to top: PART ONE: Nature and Structure of Constituents
12.6 Combinatorial properties of elements
The structure of an element can be defined on the
basis of its combinatorial properties, which result in either splitting or
joining. On the one hand, an element may be split or subdivided into
components, and on the other, several elements may be joined or grouped into
clusters, as summarized in the following chart.
splitting
|
component
|
typological subdivision of
element (e.g., brick, sherd)
|
sub-component
|
quantitative subdivision of
element (e.g., sherd-1, sherd-2)
|
joining
|
cluster or
complex constituent
|
grouping of elements or
referents according to given criteria (e.g., aggregate)
|
Fig. 12-3. Combinatorial processes.
A component is a typological sub-unit of
an element, and sub-component a quantitative sub-unit of either an
element or a component (referents do not have components). There may be one or
more component of either type for any given element. For example, if the
element is a jar, a typological component of the jar may be a seal impression
on its shoulder, and a second typological component may be a cloth impression.
If there is more than one seal or cloth impressions, there will be more than
one quantitative sub-unit of that particular typological component. Analogously,
for a pottery lot, there will be one or more sherds (quantitative sub-component)
for any given type of ware and/or shape (typological component). This is
represented synoptically in the following chart.
element
|
typological component
|
quantitative sub-component
|
jar
|
seal impression
|
1
|
cloth impression
|
3
|
pottery lot
|
simple ware
|
35
|
early Trans-Caucasian
|
1
|
metallic ware
|
3
|
Fig. 12-3. Components and sub-components.
A cluster is a grouping of elements or
referents according to a given criterion. For example, a group of vessels
functionally related and sitting on the same floor constitutes a cluster
(aggregate), and so is a group of photographs related through a set of views (web).
A cluster may be viewed as a complex element. The most important of these
clusters fall under the category of aggregates.
The difference between elements and clusters is in the
degree of nesting established, or choice of parameters made, by the excavator:
for instance, bricks are generally considered as components of wall, and a wall
as an element of an aggregate. Paradoxically, it may be said that a site (or
the world itself!) is an aggregate, but neither susceptible of proper analysis.
On the other hand, a wall is an appropriate unit of analysis if considered an
element. As was already stressed above (10.1), there is no element which is so
in an absolute sense; it is only a relative function of nesting choices.
Back to top: PART ONE: Nature and Structure of Constituents
12.7 Summary
The analysis given above for constituents and
para-constituents (incidentals) is summarized in the diagram given below as
Fig. 12-5. The constituent is represented by the main box, next to which one
may place the incidental, which is outside the main system, and does not
therefore have any of the systemic articulation of the constituent, but fills
an analogous location within the archive.
Within the main box, the constituent proper is the central
node. The two main classes are shown as branching out below this central node.
The structure is represented in two ways – the components
splitting the element as lower branches (for typology and quantity, in sequence;
the quantitative component ia also called a sub-component), and the clusters
serving as higher nodes which group one or more individual constituents.
The properties or attributes are represented by the
variables or attributes (as listed in the rosters), for each of which there is
in turn a variant or attribute state (as listed in the lexicon).
Fig
Fig. 12-5. Summary
Back to top: PART ONE: Nature and Structure of Constituents
13. Introductory
Within the two broad classes of
constituents identified as elements and referents, we must now describe the
specific minimal constituents that can be identified in the archaeological record.
The applicable inventory is given in this chapter, with an explanation of the underlying
concepts. The pertinent codes will be introduced in the next chapter.
In the presentation, I will further
distinguish between two sets of terms.
The first set includes those elements and
referents that can be so understood in a technical as well as a conceptual
sense. They are also subject to labeling, in the sense that they are identified
by specific alphabetic codes and are indexed numerically (see next chapter).
As such, they are used as organizing
principles in the archive.
The terms of the second set, on the other
hand, are only used discursively for descriptive lexical purposes, and thus receive
no label.
It is important to note that only indexed
constituents (those which receive a label) are properly part of the closed
-emic system (for which see above, 3.4): none can be added, nor can any be
subtracted, without affecting the system as a whole. Purely lexical (non-indexed)
constituents, on the other hand, are part of an open system: those mentioned
here are only indicative, and as many can be introduced as is useful in any
given context.
In this chapter, indexed constituents are
given in bold italics, and non-indexed ones are given in regular italics. One
will also find a convenient synopsis in fig. 13-1.
Back to top: PART ONE: Nature and Structure of Constituents
13. Elements
There are two major types of elements,
depending on whether they are stationary or movable. The distinction between
the two does not rest on the physical impossibility or possibility, respectively,
of moving what is found in the ground. A bridge or the Assuan temples were
moved, the pyramids could be moved, but they remain nevertheless stationary.
The proper discrimination between the two types should rather be understood in
the following terms. A stationary element is one whose typological identity is
tied to a place, whereas a movable element is one whose typological identity is
independent of place. Thus a wall or a floor accumulation are such to the extent
that they remain in place as originally found: a dismantled wall, a sifted
floor accumulation are no longer a wall or a floor accumulation. By contrast, a
jar or a chunk of wood remain such regardless of whether they are seen in their
original context or not. Note that the link to a place is not meant in a geo-
or topographical sense: the London bridge moved to Arizona or the Assuan
temples raised to higher ground retain their typological identity as stationary
element (whatever else may have been lost in the process). Rather, the link to
a place is meant in the generic sense of emplacement (see above, 2.2; 4.2): it
is not only the permanent correlation of bricks and mortar that make up the
wall, but also its permanent correlation to other walls, floors, etc., that
gives it its proper identity as a wall. (In this sense, topography and
geography are higher nodes which give further meaning to the wider assemblages
of walls and floors – and this is what is lost in the case of the two examples
mentioned above. But the stationary integrity of the elements can be reconstituted
at the lower nodes of a given structural entity – a bridge, a building.)
The distinction between stationary and
movable elements is essentially stratigraphic, since reference to typology is
closely related to emplacement. I prefer to retain such a minimalist
distinction, rather than introducing more differentiated definitions, for two
reasons. First, the more generic the definition the less problematic is a
decision in the field at the moment of excavation; there is ample space for
greater specificity within the sphere of lexical definition that can be added
at any time during subsequent analysis. Second, it is preferable to remain as
close as possible to stratigraphy as distinct from typology in the primary labeling,
since the former is the primary goal of the excavation process as such. For
this reason, I do not distinguish further the stationary elements into such
categories as installations and deposits (see Schiffer; Miller-Rosen; Pfälzner).
The term used for any stationary element
is feature. Under this
term are subsumed, therefore, such diverse entities as a wall or a pit, a floor
surface or a floor accumulation.
The term used for any movable element is item.
Under this term are subsumed, therefore such diverse entities as a cuneiform
tablet or a jar, a carbon sample or a stone specimen.
Items are subdivided in two categories,
depending on the method used for their volumetric localization. An item
proper is triangulated individually (see below 16), while a q-lot
(for quantity lot) is a quantity of movable items (further specifiable as
components), triangulated as a volume. A q-lot has the following
characteristics: it is defined (1) as a locus (see presently) and (2) as a
level (intersecting the locus; see presently for the notion of level); also,
(3) it is valid for only one day of operation.
It is important to stress that items
proper and q-lots are distinguished purely in terms of volumetric specification
(see presently for the relationship of q-lots to aggregates). As indicated, an
item is triangulated individually, whereas items in a q-lot (q-items) are triangulated
with reference to a larger volume. A q-lot may thus be conceived as a
parallelepipedon (more simply, a box) containing a variety of items which are
triangulated not individually, but by reference to the larger “box.” It
appears, then, that a q-lot must be further distinguished to refer to
individual items within it. Accordingly, the items within a q-lot are
differentiated into three categories, which reflect the relative frequency of
what can be found within a q-lot: pottery; bones; anything else (objects,
specimens or samples).
To summarize, movable items fall into the
following groups:
item proper (triangulated individually)
items within q-lot, triangulated
within a “box” and distinguished as:
pottery
bones
any other items
The following lexical definitions of
elements will also be useful for an understanding of the concept of item. An object
is a manufactured item. A specimen is a non-manufactured item, subject
to count (e.g. a single stone), whereas a sample is a non-manufactured
item, non subject to count (e.g. soil). One should not confuse, therefore,
“item” with “object,” “specimen” or “sample,” since “item” is primarily a
stratigraphic concept, while the others are exclusively typological terms. In
other words, an item can be an object, a specimen or a sample.
Back to top: PART ONE: Nature and Structure of Constituents
13.3 Para-elements
A composite is a normalized rendering of an item of which multiple exemplars
exist. This definition could be applied to a variety of situations, e.g., the
extrapolation of surface lines in drawing a vessel or wall surface, is a
normalized rendering. However, the term is restricted to only such situations
defined as pertaining to “items for which multiple exemplars exist”; the term
itself, “composite,” refers to such multiplicity rather than to the normalization
which occurs. A composite is assumed as a concrete single element, not as an
idealized category. Examples are a composite brick (rendered from fragments) or
a seal impression (rendered from a multiplicity of individual rollings).
Note that the concept of composite does not apply to the combination of different drawings that are joined together, as, for example, in the case of profiles from different loci that are linked into a single drawing.
A negative
is a missing item, and a trace is a missing feature, present as
void and documented by the physical imprint it has left of part at least of its
surface(s) on other element(s). Sample negatives are objects on which sealings
were placed, seals from which rollings were rolled, shovel marks; sample traces
are quarried walls that have left a void filled with later detritus. The two
terms “negative” and “trace” are used so as to have the benefit of different
labels for items and features, respectively; they otherwise refer to the exact
same concept. Either term refers to the mirror image of the original element
(e.g., the impression of a basket on the back of a clay sealing): in this sense
the negative or trace is the interface between the original element and the
void which has taken its place. However, the terms “negative” and “trace” refer
not to this mirror image in a photographic sense, but rather to an element that
is documented but not currently existent (thus a seal documented by a seal
impression).
The following lexical definitions may help
explain further the concept. A mold is the physical embodiment of the outer
face of the void (the envelope around the outer part of the interface). A cast
filling the void would give an accurate representation of the missing element
(and would be a positive in a photographic sense).
To sum up:
negative/trace
|
original element, present only as void
|
imprint
|
interface left by negative/trace, now outer face of void
|
mold
|
physical embodiment of imprint, or physical envelope of
interface (interface as seen from outside)
|
cast
|
filling of void contained by interface, or copy of
original negative/trace (interface as seen from inside)
|
Zero
is a missing feature, which is inferentially probable but has left no physical
trace. The term “zero” is used to stress the fact that no direct physical
evidence is left of the element. Only zero elements which are essential for
discussion will be postulated (for instance, a totally eroded fourth wall of a
room), since there is otherwise no end to the number of zero elements that
could be posited (e.g. door lintels, windows, etc.).
Back to top: PART ONE: Nature and Structure of Constituents
13.4 Complex elements
An aggregate is a cluster of
elements, defined on the basis of depositional analysis, e.g., items on a
floor. It is to be distinguished from an assemblage, which is a cluster of
elements, defined on the basis of typological analysis, e.g., walls, spouted
jars. An assemblage is considered a referent, since it is not found as such;
see presently 13.6 (3).
A join is the combination of
two or more items which are stratigraphically distinct (because they have been
found in distinct emplacements), but fit together and thus can be shown to be
components of the same item. Each of the discrete stratigraphic items retains
its original designation (and labeling) as an individual item.
Note that a q-lot is a complex element as
well, in a very specific sense: it comprises a variety of typologically distinct
movable items. If I consider it, however, an element (see above, 13.2), it is
because of the considerations about nesting for which see above (13.4). Accordingly,
a q-lot receives a single element label, and is further subdivided into components,
while the individual entities within an aggregate are given individual labels
as elements, and are subsequently subsumed under the distinct label of the
aggregate.
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13.5 Referents
Back to top: PART ONE: Nature and Structure of Constituents
(1) Volumetric localization or positioning of elements
A marker is a triangulation
point set by the surveyor; it includes benchmarks (permanent markers) and
control points (temporary markers used to measure relays, and generally removed
during the course of excavation). Benchmarks are further differentiated into
primary and secondary, depending on the degree of precision which distinguishes
them: only primary benchmarks are obtained with full closure and may thus be
considered to have first order precision; secondary benchmarks and control
points, on the other hand, are obtained with second order precision.
A relay is a triangulation
point obtained by the excavator, by measuring from markers. Occasionally, a
relay label may also be given to triangulation points set by the surveyor,
hence endowed with greater accuracy than a relay proper. Thus a secondary
meaning of the category of relays refers to the listing of triangulation points
included in the book of a given operation.
A projected relay is one that does
not exist as a physical point in the ground, but is assumed for specific
triangulation purposes.
Note that if the excavator can make use of
a total station, the degree of precision of a relay may equal that of a benchmark.
Even so, it is useful to retain the terminological distinction between markers
and relays.
Two other lexical terms belong here. A section
is a physical plane cut vertically through the deposition. A profile is
the analytical rendering of a section (an index to spatial relationships of
elements contained in the volume through which the section is cut).
Back to top: PART ONE: Nature and Structure of Constituents
(2) Analogical representation of elements
A view is a window on a
constituent or a cluster of constituents (e.g., a wall, a tablet in situ, a
structure, a marker), giving an analogical representation by means of
photography. In practice, every view is embodied in one or more photographs; alternatively,
the term “photograph” refers to the physical embodiment of the view. However,
since a view abstracts from the photograph as such, the concept of view includes
photographs produced with standard cameras, digital photographs, and scans of
standard photographs. The main view is a single view in a web (see presently,
13.6 (2)), onto which secondary views are mapped as part of that view’s template
(see presently, 13.6 (2)). A secondary view is a view within a web, for which
no independent template is given, and which is instead mapped onto the template
of the corresponding main view.
Given a fully three-dimensional
photographic record, the application of the concepts of view and of web will be
altered, but the basic underlying notion will remain the same. A view is the
crystallization of a moment of understanding with the superimposition
of labels that serve as an index to the analytical breakdown of the stratigraphic
reality. Thus a thorough implementation of a GIS system will in effect serve as
a maximal view, with direct hyperlinks to the same set of analytical details for
which a grammatical definition like the one I am proposing here will continue
to serve as an essential infrastructure.
A drawing is an analogical
representation of measurements for a given constituent or cluster of
constituents, by means of hand drafting. As with a view, the concept of drawing
abstracts from its physical embodiment, and thus it subsumes hand drawings,
digital drawings, and scans of hand drawings.
A sketch is the same as a drawing,
but for temporary use only. Since it is not a permanent part of the archive,
and it does not qualify for electronic storage, it is not labeled as referent.
If, for whatever reason, a sketch needs to be integrated in the archive, then
it is considered a drawing.
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13.6 Complex referents (referent clusters)
Back to top: PART ONE: Nature and Structure of Constituents
(1) Volumetric localization or positioning of elements
A locus is a volumetric unit with minimal and undefined horizontal axis and unlimited vertical axis.
Its converse is the level, a volumetric unit with minimal vertical axis
and unlimited horizontal axis. Since we rely fully on absolute coordinates (and
thus absolute elevations) for individual elements, and since the concept of
stratum is used to refer to temporal sorting (see presently), a level is not used
as an indexed referent.
A sector is a subdivision of an
area or book. It is generally introduced for operational reasons, but indexed labeling
remains at the level of the area/book. This may happen, for instance, when two
distinct operations are conducted simultaneously within the same area, but
cannot easily be recorded on the same physical book, e.g., because of a great
difference in elevation or the presence of high baulks between the two sectors.
A square is volumetric unit with medium and fixed horizontal axis, and with unlimited vertical axis; it often includes smaller loci.
A square is also part of a pre-set grid, with numbers generally going from east to west, and from north to south, according to the pattern shown in the accompanying figure (this pattern is not applied rigidly, so that several variations occur, but all following the same general principle). In Mozan, we distinguish squares and loci with reference to the numeric sequence: we reserve
the sequence from 1 to 99 for squares tat are 5 m on the side, and the sequence 100 to 999 for all other
loci.
|
|
|
A quadrant is a partition of a
square, introduced for operational reasons to be specified individually. In
order to be assigned a distinct label, a quadrant must be defined as a locus.
An operation is a generic term for
a unit or an area, a square, or a sector.
A zone is a topographical
portion of the site, without precise boundaries, and loosely identifiable for
some recognizable traits, such as the nature of the contours or the presence of
some distinctive feature (see below, fig. 14-…, for a list of labels used in
Mozan.) It is indexed numerically for units, and alphabetically for areas.
A unit is a portion of a
zone defined logistically for operational reasons and indexed numerically
(e.g., A1). It serves as the basic sorting criterion for all field numbers
assigned during the excavation. Given my understanding of the grid as a volumetric,
rather than a physical, entity, units can be, and generally are, wholly asymmetrical,
see below, 26….
An area is a portion of a
zone, defined typologically as a result of architectural and functional analysis.
It is indexed alphabetically (e.g., AK).
A book is the component of
the archive which corresponds to a unit or an area.
Following is an example
of how the terms apply to a specific case at Mozan (see below, Figs. 14.3-5 for
a site plan that identifies on the ground some of the labels):
A
|
a
zone identified as a distinctive hill top
|
A6
|
a
unit and corresponding book identified logistically (sectors may be used, without
a separate label, e.g., to distinguish an upper and a lower operation within
the same unit
|
AK
|
an
area and corresponding book identified typologically (thus AK is the service
wing of the Royal Palace)
|
A6k1
|
a
locus of a predefined size, i.e., a square; it is indexed with a single or
double digit number
|
A6k100
|
a
locus within the unit/book; it is indexed with a triple digit number (without
any particular relationship, in terms of labeling, to any square)
|
Back to top: PART ONE: Nature and Structure of Constituents
(2) Analogical Representation of Elements
Digital is the term used for
a file that provides a cluster of relays, sorted typologically, and given in
numerical form. For example, such a file may contain the relays that define a
wall; they are entered in a certain format (see below, …), which produces a
script file, used in turn by such programs as AutoCAD to provide a graphic
rendering of the wall.
A plot is a cluster of
digital files, reproduced graphically on screen or paper.
A template is a graphic
overlay on a view, identifying elements and referents, including especially
secondary views; it can be drawn physically on a print or a drawing, or entered
as layer on a digital photograph or drawing; see below, …). A template might
be conceived as a primitive application of a GIS concept, applicable as long as
the implementation of a GIS system remains technically and financially out of reach
for an archaeological project.
A web is a cluster of views, taken
at the same time and pertaining to the same cluster of constituents, each view
being taken from a different angle; all views are interlaced together on the
same template.
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(3) Typological and/or chronological sorting of elements
An assemblage is a cluster
of elements, defined on the basis of typological analysis, e.g., walls or
spouted jars. (See above, 13,4, for a definition of aggregate.) An assemblage
may also be used to refer to elements of an aggregate that are presented not as
found in the ground, but according to their typological specificity, e.g., the
organized arrangement of the objects found in a burial.
A stratum is a minimal unit
of reference relating spatial elements in terms of a temporal sequence.
A phase is an intermediate unit
of reference relating spatial elements in terms of temporal sequence, and an horizon
is a maximal unit of reference relating spatial elements in terms of temporal
sequence.
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13.7 Summary
Following are two lists of constituents,
the first sorted by type, and the second alphabetically by code. A full
synopsis is given in Fig. 13-2.
elements
feature f
item –
individual i
components
of a lot qi, qp, qb
para-elements
composite c
negative n
trace e
zero z
q-lot q
element cluster
aggregate a
assemblage b
join j
referent
marker m
relay r
stratum s
phase h
view v
drawing
(2D and 3D) w,y
referent cluster
locus k
graphic g
|
a aggregate
b assemblage
c composite
e trace
f feature
g graphic
h phase
i item
– individual
j join
k locus
m marker
n negative
p plot
p plot
q q-lot
qb,qi,qp components
of a lot
r relay
s stratum
t template
t template
v view
w,y drawing
(2D and 3D)
z zero
|
Fig. 13-2 Synopsis of minimal constituents.
Note: We use the plural “loci” as in the Latin form.
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