i. Abstract

This CDB Volume provides terms and definitions.  Many of the terms and definitions are specific to the simulation industry. Other terms and definitions have been updated to be consistent with the ISO 19xxx (Geomatics) series of standards, specifically ISO 19111 Spatial referencing by Coordinates and ISO 19017 Spatial Schema. Some work still remains to make the terms and definitions completely consistent with current OGC and ISO best practice.

ii.          Keywords

The following are keywords to be used by search engines and document catalogues.

ogcdoc, OGC document,  cdb, spatial reference model, srm, coordinate systems, crs, srs

iii.          Submitting organizations

The following organizations submitted this Document to the Open Geospatial Consortium (OGC):

CAE Inc.
Carl Reed, OGC Individual Member
Envitia, Ltd
Glen Johnson, OGC Individual Member
KaDSci, LLC
Laval University
Open Site Plan
University of Calgary
UK Met Office

The OGC CDB standard is based on and derived from an industry developed and maintained specification, which has been approved and published as OGC Document 15-003:  OGC Common DataBase Volume 1 Main Body.  An extensive listing of contributors to the legacy industry-led CDB specification is at Chapter 11, pp 475-476 in that OGC Best Practices Document (https://portal.opengeospatial.org/files/?artifact_id=61935).

iv.          Submitters

All questions regarding this submission should be directed to the editor or the submitters:

v.          Preface

For ease of editing and review, the standard has been separated into 12 Volumes and a schema repository.

• Volume 0: OGC CDB Companion Primer for the CDB standard (Best Practice).
• Volume 1:  OGC CDB Core Standard: Model and Physical Data Store Structure.
  The main body (core) of the CBD standard (Normative).
• Volume 2:  OGC CDB Core Model and Physical Structure Annexes (Best Practice).
• Volume 3:  OGC CDB Terms and Definitions (Normative).
• Volume 4:  OGC CDB Use of Shapefiles for Vector Data Storage (Best Practice).
• Volume 5:  OGC CDB Radar Cross Section (RCS) Models (Best Practice).
• Volume 6:  OGC CDB Rules for Encoding Data using OpenFlight (Best Practice).
• Volume 7:  OGC CDB Data Model Guidance (Best Practice).
• Volume 8:  OGC CDB Spatial Reference System Guidance (Best Practice).
• Volume 9:  OGC CDB Schema Package: provides the normative schemas for key features types required in the synthetic modelling environment. Essentially, these schemas are designed to enable semantic interoperability within the simulation context (Normative).
• Volume 10:  OGC CDB Implementation Guidance (Best Practice).
• Volume 11:  OGC CDB Core Standard Conceptual Model (Normative).
• Volume 12:  OGC CDB Navaids Attribution and Navaids Attribution Enumeration Values (Best Practice).

Attention is drawn to the possibility that some of the elements of this document may be the subject of patent rights. The Open Geospatial Consortium shall not be held responsible for identifying any or all such patent rights.

Recipients of this document are requested to submit, with their comments, notification of any relevant patent claims or other intellectual property rights of which they may be aware that might be infringed by any implementation of the standard set forth in this document, and to provide supporting documentation

Scope

The following are key terms and definitions in the CDB standard.

Description

A

Aliasing

Spatial and/or temporal image defects or artifacts in a raster image.  They are due to interaction between the discrete sampling of the raster format and the spatial and temporal frequencies inherent in the computed image of edges, surfaces and point features.  Manifestation of spatial aliasing includes edge stair-stepping and crawling, scintillation of narrow surfaces, break-up of long, narrow surfaces and positional or angular motion of scene edges in discrete steps.  Temporal aliasing includes double image and loss of dynamic image integrity due to the human eye’s ability to dynamically track individual fields at certain angular rates of motion.

Ambient Illumination

See Illumination, Ambient.

Anti-aliasing

Active image processing techniques that reduce the perception of the aliasing phenomena.

AO1

Angle of Orientation with greater than 1 degree resolution. The angular distance measured from true north (0 deg) clockwise to the major (Y) axis of the feature.

Areal Feature

See Feature, Areal and Polygon

Articulated Part

A child part of a model (usually a moving model) that is allowed some degree of motion with respect to the parent body of the model.  Examples of articulated parts include tank turrets, refueling drogues, and helicopter rotor blades.

Arithmetic Logic Unit

An arithmetic logic unit (ALU) is a digital circuit used to perform arithmetic and logic operations. It represents the fundamental building block of the central processing unit (CPU) of a computer. Modern CPUs contain very powerful and complex

B

Background Area

See Area, Background.

Base Material

See Material, Base.

Base Material Table

(BMT)

A data structure that contains a description of the Base Materials available to the CDB.  There is only one BMT per CDB.  Each entry in the BMT corresponds to a Base Material; the entry associates a name to the Base Material.

C

 

CDB device

A device that can directly input synthetic environment data that conforms to the format, structure and conventions of this standard.  A device need not input and process all of the CDB datasets and attributes to be CDB-compliant.

CDB simulator

A simulator whose client-devices can input synthetic environment data that conforms to the format, structure and conventions of the CDB standard.  Any subsystem or client-device that does not natively conform to this standard requires that CDB data be formatted and structured to the device’s native format and structure through the use of a runtime publisher. A simulator need not input and process all of the CDB datasets and attributes to be CDB-compliant.

CDB Translator

An off-line software process that translates an environmental database from its toolset-native format(s) into one of the CDB specified formats.

NOTE: The CDB data formats are based on industry standard tool formats; as a result a translation to the formats prescribed by this standard may not be required.

CDB Server

Gateway platform to CDB mass storage and applicable infrastructure.  CDB compliant servers access, filter and distribute CDB data in response to requests from the Database Generation Facility (DBGF) and the client-devices (or their runtime publishers).

CDB Geocell (tile)

Region of the earth, aligned to lines of latitude and longitude in accordance with Section 2.1 CDB Core (Volume 1). The size of a CDB Geocell per Zone is also specified in the Core CDB Standard section 2.1. Also known as DGGS Cell.

Channel

A field of view segment within a visual system’s total viewing field for which a corresponding unique scene segment is calculated and presented.

Client application

A software application that requires a complete or partial synthetic representation of the world.  CDB applications may require a CDB runtime publisher to convert the CDB compliant database into a form it can directly input.  Used interchangeably with “Client-device” in this standard.

Client-device

Simulation subsystems (Image Generators (IGs), Radar, Weather Server, Computer Generated Forces (CGF) Terrain Server, etc.) that require a complete or partial synthetic representation of the world.  A CDB client-device may require a CDB runtime publisher to convert the CDB data into a form it can ingest.

Coordinate

One of a sequence of n-numbers designating the position of a point (see point) in n-dimensional space.

NOTE In a coordinate reference system, the numbers shall be qualified by units. [adapted from ISO 19111]

Coordinate  Conversion

coordinate operation in which both coordinate reference systemsare based on the same datum

 

Coordinate Reference System

Coordinate system that is related to an object by a datum

NOTE For geodetic and vertical datums, the object will be the Earth.

Coordinate System

Set of mathematical rules for specifying how coordinates are to be assigned to points (ISO 19111).

Composite Material

See Material, Composite.

Composite Material Table

A data structure that contains a description of the Composite Materials available in a CDB tile or on a model.  Each entry in the CMT corresponds to a Composite Material.

Coordinate System, Geographic

A geographic coordinate system (GCS) uses a three-dimensional spherical surface to define locations on the earth. A GCS is often incorrectly called a datum, but a datum is only one part of a GCS. A GCS includes an angular unit of measure, a prime meridian, and a datum (based on a spheroid).A common choice of coordinates is latitude, longitude and elevation(or altitude).   For the CDB, the reference data is based on the WGS-84 ellipsoid, i.e., geographical latitude j and longitude l are the angles of the normal on the WGS-84 reference ellipsoid along the point to the equator and zero meridian.  The angles are given as degrees, minutes and seconds.  Altitude is the distance above and normal to the ellipsoid in meters.  The WGS-84 ellipsoidal earth models provides for accurate calculations over long distances on the earth’s surface. 

Correlation, Algorithmic

The degree of informational consistency between the outputs of two or more devices with equivalent Arithmetic Logic Units, each submitted to the same input data.  (e.g., consider two devices meshing terrain from a regular grid of elevation points, one using a regular mesh of right-handed triangles using the elevation points as vertices, and the other with a DeLauney triangulated mesh derived from the grid of elevation points).

Correlation, Numerical

The degree of informational consistency between the outputs of two or more devices, each submitted to the same input data,  (e.g., two devices computing the sine of an angle, one with a series of 10 terms, and another with an interpolation of a look-up table with 100 entries, or one device using 32-bit signed integers for its internal computations and the other using single-precision floats).  The CDB Standard addresses Runtime Source Database numerical accuracy correlation errors because a single representation is used for each data set.

Correlation, Parametric

The degree of informational consistency between the outputs of two or more devices, each submitted to the same input data but to different control parameters (e.g., consider two devices generating regular meshes of right-handed triangles based on a regular grids of elevation points organized by Level-of-Detail (LOD), one using an LOD meshing tolerance parameter of 1m and the other 2m).

Correlation, Raw Source DB

The degree of informational consistency between two or more sets of raw data^[1] (i.e., inputs to a modeling station) representing aspects of the same environment  (for instance, the correlation errors arising from Digital Terrain Elevation Data (DTED) elevation data that does not perfectly match the satellite raster imagery due to oblique view distortions induced by the satellite).  Correlation errors are intrinsic to the process of gathering data because there is no means to gather all of the required data from a single device, at a single instant in time.  Instead, datasets (e.g., elevation, raster imagery, geometry) are each gathered from various devices of various types, at different times, etc.  As a result, this process inherently introduces (raw source) correlation errors.

Correlation, Runtime DB

The degree of informational consistency between two or more runtime databases representing the same synthetic environment.  The CDB standard eliminates database correlation errors since only one database is used to represent the same synthetic environment.  A runtime database is a device-loadable database format that can be processed by a target device.  The CDB Standard defines a format that can be entered in runtime by client-devices that conform to the CDB standard.  By definition, the CDB Standard addresses all runtime database-level correlation errors.

Correlation, Source DB

The degree of informational consistency between the internal datasets of a source database produced by a DB generation toolset.  To a large extent, the effort expended by a modeler at their DB workstation consists in eliminating (or at least reducing) correlation errors arising from miss-correlated raw source data.

Culture

See Feature, Cultural.

Culture, 2D

Short for 2D Cultural Feature.  The 2D representation of a man-made or natural object (such as a road, a runway, a forest canopy), conformed to the terrain.

Culture, 3D

Short for 3D Cultural Feature.  The 3D representation of erect man-made or natural object (such as buildings, trees, towers) positioned on top of and usually conformed to the terrain.

D

 

Data Dictionary

 A data dictionary is a collection of descriptions of the data objects or items in a data model for the benefit of programmers and others who need to refer to them. See http://searchsoa.techtarget.com/definition/data-dictionary

Data Duplication

Data logically representing the same information, copied one or more times within a complex data structure.  The CDB Standard eliminates all duplication of data, i.e., the data appears once and only once within the CDB structure.

Data Normalization

Data normalization is the process of reducing data to its canonical form. For instance, Database normalization is the process of organizing the fields and tables of a relational database to minimize redundancy and dependency.

Data Redundancy

Information in the form of data that can readily be derived (within the limits of technological/cost reasonability) and re-formatted, or re-derived from other data.

Dataset

Organized group of related environmental data that cannot be broken down into a smaller set used to describe a synthetic environment element of the world.

Database Fidelity

Reflects the amount and type of synthetic environmental data needed by client-devices to simulate real-world environmental data with greater fidelity.  Consider for instance a simulator client-device capable of supporting a single-surface earth skin representation versus one capable of representing a multi-surface earth skin that represent tunnels, bathymetric data, location-dependent tide heights, etc.

Database Assembly

In many database tools, the generation of the terrain plays a pivotal role in the database assembly process because all of the cultural features are conformed and constrained to the terrain representation and structure.  Most client-devices in existence today have interdependent terrain geometry, raster imagery and culture; as a result of this, most tools in use today resolve these inter-dependencies during this critical and computationally expensive database assembly step. 

Database Generation Facility (DBGF)

A geographically co-located group of workstation(s), computer platforms, input devices (digitizing tablets, etc.), output devices (stereo viewers, etc.), modeling software, visualization software, CDB Server, CDB off-line publishing software and any other associated software and hardware used for the development/modification of the CDB.  The DBGF is used for the purpose of CDB creation and CDB updates.  Each workstation is equipped with one or more specialized tools.  The tool suite provides the means to generate and manipulate the synthetic environment.

Database Generation Timeline

Elapsed time from availability of Environmental DB requirements (geographic extent, fidelity, resolution, etc.) to availability of a compliant runtime Environmental DB, ready for use on all client-devices of a simulator.

Database Publishing

A process (either off-line^[2] or on-line) where all of differences between the tool-native representation and the client-device internal representation of the synthetic environment database are resolved.  During this step, the publisher transforms the assembled database so that it satisfies the client-device’s:

•         internal formats
•         internal data structure and organization
•         internal naming conventions
•         internal precision and number representation
•         data fidelity requirements (typically parameters that match the client-device algorithms)
•         performance limitations
•         level-of-detail representation and conventions

Database Publishing, Offline

The process of performing the steps listed above in Database Publishing, and then storing the result in a distinct SE database for each client-device. (Note that the stored databases are different for each client-device type and each vendor type).  In many cases, the published databases are proprietary.

Database Publishing, Online

The process of performing the steps listed above in Database Publishing, on-the-fly, based on paging requests of a client-device.  Since the publishing is performed on-demand, it exists only momentarily in memory; it is not stored on disk.

Database Resolution

Informational density (for instance, the number of elevation values per km², pixels per km², polygons per km²) of a modeled dataset.

Data Precision

Corresponds to the numerical precision (i.e., number of bits allocated) used to represent a unit.

Datum

Parameter or set of parameters that define the position of the origin, the scale, and the orientation of a coordinate system.

DGIWG

Defense Geographic Information Working Group

DGGS

Discrete Global Grid System: spatial reference system that uses a hierarchical tessellation of cells to partition and address the globe. “cell” aka “tile” or ”geocell”

Directional Illumination

See Illumination, Directional.

DIS

Distributed Interactive Simulations [IEEE Std 1278TM]

E

 

Environmental Data Coding Specification

An Environmental Data Coding Specification provides a mechanism to specify the environmental “things” that a particular data model is intended to represent. That is, a feature such as building could be represented alternatively as a Man-made Point Feature, a Radar RCS polar diagram or as an OpenFlight model, or some combination of these.  The representation of these is chosen by the data modeler and is orthogonal to the semantic of the “thing” that is represented (and its location). The provision of such a “thing” results in a shared understanding of “what the thing is and what it potentially means” to all participating applications.

Environmental Data Representation Model

A data representation model (EDRM) is a description used to provide identification of all environmental data elements within a system, including their attributes and the logical relationships between data elements.

Environmental DB, Runtime

A device-loadable database format that can be processed by a target device.  The CDB Standard defines a format that can be entered in runtime by simulator client-devices that conform to the CDB Standard.

Eyepoint

A single point (monocular) location of the observer’s eye relative to a scene representation.  Usually a point within the cockpit of the simulated aircraft or vehicle.

Eyepoint, Pilot

The normal eyepoint position when the pilot’s seat is adjusted properly for flying the aircraft.  Defined by the aircraft manufacturer for each pilot seating position.  The eyepoint(s) for which the display design is normally optimized and typically used for display testing purposes.

F

 

FACC

Feature and Attribute Coding Catalogue

FDD

Feature Data Dictionary

Feature

Abstraction of real world phenomena

NOTE A feature may occur as a type or an instance. Feature type or feature instance is used when only one is meant. [adapted from ISO 19101]

Feature, Areal (aka polygon)

A representation of closed area-oriented features conformed relative to the terrain such as forested areas, fields.  The information includes areal feature type identification, location, orientation, 2D geometry, connectivity, attribution and other surface characteristics relevant to simulation.

Feature, Cultural

Human made (constructed) point, lineal and areal features.

Feature, Lineal (previously Feature, Linear)

A geographic feature that can be represented by a line or set of lines. For example, rivers, roads within a pizza delivery area, and electric and telecommunication networks are all lineal features.  The information includes lineal feature type identification, location, orientation, geometry, connectivity, attribution and other surface characteristics relevant to simulation. See also LineString

Feature, Point

The representation of a single location in space or on the earth’s surface.  A Point Feature consists of a single <latitude, longitude> coordinate with or without an elevation and related properties such as feature type and orientation.  See also point.

Flat Earth

Jargon used in simulation community to signify the projection of the earth ellipsoid onto a flat surface.  The flat Earth approximation retains terrain relief but eliminates the effects of Earth surface curvature.  If you stay in the vicinity of a given fixed point, it may be a good enough approximation to consider the earth as “flat”, and use a North, East, Down rectangular coordinate system with origin at the fixed point.

FOM

Federation Object Model

FOV, Field of View

The horizontal and vertical subtended angles from a designated eyepoint to the boundaries of a visual system channel (channel FOV) or all channels (system FOV).

G

 

Geocell

Short form for geographic cell.  Synonymous with a single tile in the CDB tiled structure. A 1^o of latitude by 1^oof longitude area on the surface of the earth.   At the equator, this corresponds to an area of approximately of 111,319m × 111,319m.  (See also CDB Geocell).

Geodetic Datum

datum describing the relationship of a two- or three-dimensional coordinate system to the Earth (ISO 19111)

Geographic Extent

An earth surface area that has been modeled.

Geographic Projection

coordinate conversion from an ellipsoidal coordinate system to a plane

Geometric Primitive

Geometric object representing a single, connected, homogeneous element of space

Geospecific Model

A model is said to be geospecific if it is instanced once and only once within a CDB.  Geospecific models usually correspond to unique (in either shape, size, texture, materials or attribution), man-made, real-world 3D cultural features.

Geotypical Model

A model is said to be geotypical if it instanced multiple times within a CDB data store.  Geotypical models correspond to representative (in shape, size, texture, materials and attribution) models of real-world manmade or natural 3D cultural features.

H

 

HLS

High Level Architecture [IEEE Std 1516TM]

I

 

Illumination

One or more sources of illumination for the objects in the scene, such as daylight, twilight, landing lights.

Illumination, ambient

The non-directional component of illumination for the scene.  Daylight, twilight and moonlight have ambient components over the entire scene.  Landing lights typically provide ambient-type illumination over a limited area of the scene.

Illumination,

Directional

Scene illumination provided by an illumination source at a particular position or direction in the environmental database spatial frame.  The effect on object luminance depends on the angle between the illumination source and object surface normal.

J

 

K

 

L

 

Latency

The time interval from a request to a prescribed response from the targeted device.

Level-of-Detail (LOD)

Representations of the same thing that differ only in the amount of fidelity.  An LOD is said to be coarse if it contains little detail or fine if it contains considerable detail.

Light Point

A database element used to model a point source of light (e.g., a taxiway lights, street lights, collision lights).

Light String

A group of lights, usually a series of light points sharing common spacing characteristics and are of a common type.

Lineal (Linear) Feature

See Feature, Lineal.

LineString

Curve composed of straight-line segments (ISO 19107)

Local Vertical Spatial Frame

See Spatial Frame, Local Vertical.

M

 

Material

Shorthand for either Base Material or Composite Material.

Material, Base

Symbolic representation of a basic material in the CDB.  Basic materials are inputs to production or manufacturing processes.  They are often raw, that is unprocessed, but are sometimes processed before being used in more advanced production processes.  Basic materials represent the substances out of which a thing is or can be made.  Examples are materials such as steel, aluminum, copper, sand, soil, stone, glass, concrete, wood, water, rubber.  Base materials are chosen for their relevance to simulation.

Material, Composite

A symbolic representation that corresponds to a composite material that is made up of a primary substrate and one or more secondary substrates.  Each substrate is composed of one or more base materials entries.  The substrates can each be assigned a thickness.

Metadata

Data about data.  Metadata describes how and when and by whom a particular set of data was collected, and how the data is formatted.

Mission Functions

A set of low-level simulator query functions performed on the synthetic environment, including such functions as Height Above Terrain (HAT), Height Above Culture (HAC), Collision Detection (CD), Line-Of-Sight (LOS), Laser Range Finder (LRF), etc.

Model

A term which stands for the 2D or 3D representation of features (exclusive of the terrain and/or bathymetry itself) within the synthetic environment database.  Models can be statically positioned on the terrain (i.e., a cultural feature), or they are freely moving (i.e., a moving model).  Models are often a 3D representation of a man-made or a natural object positioned and conformed relative to the terrain.  The information includes its geometry, articulations, raster imagery (texture, normal map, light map, etc.), lighting systems, and other characteristics relevant to simulation.

Model, 2D

Refers to the modeled representations of 2D features; i.e., lineal or areal features that have no significant height with respect to the underlying terrain; 2D Models generally conform to the terrain profile.

Model, 3D

Refers to the modeled representation of 3D features that can be readily distinguished from the underlying terrain.  In the case where they are unique, they are referred to as GSModels. In the case where they are instanced, they are referred to as GTModels.  3DModels capable of movement are called MModels.  In the case where MModels are positioned by the modeler, they are called statically-positioned MModels.

Model, Cultural

A model that is statically positioned on the terrain or bathymetry skin.  Cultural models are often a 3D representation of a man-made or a natural object positioned and conformed relative to the terrain.  The information includes its geometry, articulations, raster imagery (texture, normal map, light map, etc.), lighting systems, and other characteristics relevant to simulation.

Model, GS

The geospecific representation of a cultural feature that is unique within the CDB.

Model, GT

The geotypical representation of a cultural feature that can be reused several times throughout the CDB.

Model, Moving

A model that is not fixed at one location in the synthetic environment database.  The simulation host can update the position and orientation of a moving model at every simulation iteration cycle.  A moving model is a 3D representation of manmade and natural objects free to move. 

Model-LOD

Refers to a specific level of detail of the modeled representation of a feature; a general term encompassing both 2D and 3D Model-LOD

Model-LOD, 2D

Refers to a specific level of detail of a 2D model.

Model-LOD, 3D

Refers to a specific level of detail of a 3D model.

Modeler

The person who creates and assembles a synthetic environment database.

Multipatch

A multipatch can be viewed as a container for a collection of geometries that represent 3D surfaces.

N

 

Navigational Data

Is a representation of ARINC-424 and DAFIF data in the form of NAVAIDs (VHF, ILS/MLS, NDB, Markers), Communications Stations, Airport/Heliport (including SIDs, STARs, Terminal Procedure/Approaches, Gates), Runway/Helipad, Waypoints, Routes, Holding Patterns, Airways and Airspace.

Normal Vector

A vector of unit length perpendicular to a surface.

Numerical Correlation

See Correlation, Numerical.

O

 

Ownship

The vehicle (aircraft, ship, tank, etc.) being simulated.

OTW

Out the Window

P

 

Parametric Correlation

See Correlation, Parametric.

Pilot Eyepoint

See Eyepoint, Pilot.

Point

0-dimensional geometric primitive, representing a position (ISO 19107)

PointM

A 2d Point consisting of a pair of double-precision coordinates in the order X, Y, plus a measure M.

PointZ

0-dimensional geometric primitive, representing a position (ISO 19107) with a Z value.

Point Feature

See Feature, Point.

Polygon

Planar surface defined by 1 exterior boundary and 0 or more interior boundaries. (ISO 19107)

PolygonM

A 2d Polygon consisting of a number of rings. A ring is a closed, non-self-intersecting loop. Note that intersections are calculated in XY space, not in XYM space. A PolygonM may contain multiple outer rings. The rings of a PolygonM are referred to as its parts.

PolygonZ

A Polygon in which each vertex (coordinate) has an associated Z value.

Polyline

A polyline is a connected sequence of line segments created as a single object. You can create straight line segments, arc segments, or a combination of the two.

PolylineM

A 2d polyline consisting of one or more parts.

PolylineZ

A Polyline in which each vertex (coordinate) has an associated Z value.

Q

 

R

 

Raw Source

A term generally used to describe the data imported into the database generation workstation for the purpose of off-line assembling and building the synthetic environment.  The level of pre-processing applied to the source may vary considerably (from raw data directly from sensors such as unprocessed satellite raster imagery or photos to data directly usable by simulator client-devices).  Source data need not be in digital form (e.g., photos).

Raw Source DB Correlation

See Correlation, Raw Source DB.

Runtime Publisher

A real-time software process (either shared or dedicated to a computer platform) that a simulation application client-device uses to transform or translate CDB data into a format that can be directly input by the client-device it serves. 

Runtime DB Correlation

See Correlation, Runtime DB.

S

 

Sensor Environmental Model (SEM)

A simulation of the synthetic environment over a portion of the electromagnetic spectrum that is relevant to a client-device.  A SEM is usually based on mathematical model of the environment for the portion of the electromagnetic spectrum of interest.

Sensor Simulation Model (SSM)

A simulation of a real-world sensor over a portion of the electromagnetic spectrum that is relevant to the sensor being simulated.  A SSM is usually based on mathematical model of the real-world sensor for the portion of the electromagnetic spectrum of interest.

Simulator CDB Repository

The simulator CDB repository consists of a mass storage system (typically a storage array) and its associated network infrastructure.  It is connected to the UMC (primarily for update purposes) and the CDB Servers (for simulator client-device runtime access).

Source DB Correlation

See Correlation, Source DB.

Synthetic Environment Generation

Synthesis of multiple source inputs to generate the required integrated environmental representation

T

 

Target Area of Interest

The geographical area where high value targets can be acquired and engaged by friendly forces

Terrain

A representation of earth surface shape/elevation, raster imagery, surface attribution and other earth surface characteristics relevant to simulation.  Also includes bodies of water such as oceans, lakes.

Terrain Profile

See Terrain.

Terrain Skin

See Terrain.

U

 

UHRB

Ultra-High Resolution Building

V

 

Viewpoint

The viewpoint is the position from which the synthetic environment database is being observed.

W

 

X

 

Y

 

Z

 

0-9

 

2D Feature

See Culture, 2D.

2D Model

See Model, 2D

2D Model-LOD

See Model-LOD, 2D

3D Feature

See Culture, 3D.

3D Model

See Model, 3D

3D Model-LOD

See Model-LOD, 3D