POSC Specifications: Epicentre Version 3.0 | Logical Data Model |
This change provides additional attributes to selected property entities for recording probability distribution curves.
CHANGE ESM_probability_behavior ALTER ENTITY pty_area; ADD distribution : OPTIONAL ndt_line (*<desc> This is the description of the value of this property as a function of probability. The conventional representation of this property is recorded in the data value attribute.*); ADD distribution_type : OPTIONAL ndt_probability_distribution_type (*<desc> This describes the shape of the probability distribution. This shape should be used to interpolate between values.*); ADD standard_deviation : OPTIONAL ndt_real4 (*<desc> The standard deviation of the probability distribution.*); ADD minimum_value : OPTIONAL ndt_real4 (*<desc> The minimum value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD mode_value : OPTIONAL ndt_real4 (*<desc> The mode value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD maximum_value : OPTIONAL ndt_real4 (*<desc> The maximum value of the probability distribution. This value is in the same units of measure as the data_value.*); END_ENTITY; ALTER ENTITY pty_fluid_component_ratio; ADD distribution : OPTIONAL ndt_line (*<desc> This is the description of the value of this property as a function of probability. The conventional representation of this property is recorded in the data value attribute.*); ADD distribution_type : OPTIONAL ndt_probability_distribution_type (*<desc> This describes the shape of the probability distribution. This shape should be used to interpolate between values.*); ADD standard_deviation : OPTIONAL ndt_real4 (*<desc> The standard deviation of the probability distribution.*); ADD minimum_value : OPTIONAL ndt_real4 (*<desc> The minimum value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD mode_value : OPTIONAL ndt_real4 (*<desc> The mode value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD maximum_value : OPTIONAL ndt_real4 (*<desc> The maximum value of the probability distribution. This value is in the same units of measure as the data_value.*); END_ENTITY; ALTER ENTITY pty_fluid_saturation; ADD distribution : OPTIONAL ndt_line (*<desc> This is the description of the value of this property as a function of probability. The conventional representation of this property is recorded in the data value attribute.*); ADD distribution_type : OPTIONAL ndt_probability_distribution_type (*<desc> This describes the shape of the probability distribution. This shape should be used to interpolate between values.*); ADD standard_deviation : OPTIONAL ndt_real4 (*<desc> The standard deviation of the probability distribution.*); ADD minimum_value : OPTIONAL ndt_real4 (*<desc> The minimum value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD mode_value : OPTIONAL ndt_real4 (*<desc> The mode value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD maximum_value : OPTIONAL ndt_real4 (*<desc> The maximum value of the probability distribution. This value is in the same units of measure as the data_value.*); END_ENTITY; ALTER ENTITY pty_location_1d; ADD distribution : OPTIONAL ndt_line (*<desc> This is the description of the value of this property as a function of probability. The conventional representation of this property is recorded in the data value attribute.*); ADD distribution_type : OPTIONAL ndt_probability_distribution_type (*<desc> This describes the shape of the probability distribution. This shape should be used to interpolate between values.*); ADD standard_deviation : OPTIONAL ndt_real4 (*<desc> The standard deviation of the probability distribution.*); ADD minimum_value : OPTIONAL ndt_real4 (*<desc> The minimum value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD mode_value : OPTIONAL ndt_real4 (*<desc> The mode value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD maximum_value : OPTIONAL ndt_real4 (*<desc> The maximum value of the probability distribution. This value is in the same units of measure as the data_value.*); END_ENTITY; ALTER ENTITY pty_net_to_gross_thickness_ratio; ADD distribution : OPTIONAL ndt_line (*<desc> This is the description of the value of this property as a function of probability. The conventional representation of this property is recorded in the data value attribute.*); ADD distribution_type : OPTIONAL ndt_probability_distribution_type (*<desc> This describes the shape of the probability distribution. This shape should be used to interpolate between values.*); ADD standard_deviation : OPTIONAL ndt_real4 (*<desc> The standard deviation of the probability distribution.*); ADD minimum_value : OPTIONAL ndt_real4 (*<desc> The minimum value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD mode_value : OPTIONAL ndt_real4 (*<desc> The mode value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD maximum_value : OPTIONAL ndt_real4 (*<desc> The maximum value of the probability distribution. This value is in the same units of measure as the data_value.*); END_ENTITY; ALTER ENTITY pty_porosity; ADD distribution : OPTIONAL ndt_line (*<desc> This is the description of the value of this property as a function of probability. The conventional representation of this property is recorded in the data value attribute.*); ADD distribution_type : OPTIONAL ndt_probability_distribution_type (*<desc> This describes the shape of the probability distribution. This shape should be used to interpolate between values.*); ADD standard_deviation : OPTIONAL ndt_real4 (*<desc> The standard deviation of the probability distribution.*); ADD minimum_value : OPTIONAL ndt_real4 (*<desc> The minimum value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD mode_value : OPTIONAL ndt_real4 (*<desc> The mode value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD maximum_value : OPTIONAL ndt_real4 (*<desc> The maximum value of the probability distribution. This value is in the same units of measure as the data_value.*); END_ENTITY; ALTER ENTITY pty_shrinkage_factor; ADD distribution : OPTIONAL ndt_line (*<desc> This is the description of the value of this property as a function of probability. The conventional representation of this property is recorded in the data value attribute.*); ADD distribution_type : OPTIONAL ndt_probability_distribution_type (*<desc> This describes the shape of the probability distribution. This shape should be used to interpolate between values.*); ADD standard_deviation : OPTIONAL ndt_real4 (*<desc> The standard deviation of the probability distribution.*); ADD minimum_value : OPTIONAL ndt_real4 (*<desc> The minimum value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD mode_value : OPTIONAL ndt_real4 (*<desc> The mode value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD maximum_value : OPTIONAL ndt_real4 (*<desc> The maximum value of the probability distribution. This value is in the same units of measure as the data_value.*); END_ENTITY; ALTER ENTITY pty_standard_volume_gas; ADD distribution : OPTIONAL ndt_line (*<desc> This is the description of the value of this property as a function of probability. The conventional representation of this property is recorded in the data value attribute.*); ADD distribution_type : OPTIONAL ndt_probability_distribution_type (*<desc> This describes the shape of the probability distribution. This shape should be used to interpolate between values.*); ADD standard_deviation : OPTIONAL ndt_real4 (*<desc> The standard deviation of the probability distribution.*); ADD minimum_value : OPTIONAL ndt_real4 (*<desc> The minimum value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD mode_value : OPTIONAL ndt_real4 (*<desc> The mode value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD maximum_value : OPTIONAL ndt_real4 (*<desc> The maximum value of the probability distribution. This value is in the same units of measure as the data_value.*); END_ENTITY; ALTER ENTITY pty_standard_volume_gas_rate; ADD distribution : OPTIONAL ndt_line (*<desc> This is the description of the value of this property as a function of probability. The conventional representation of this property is recorded in the data value attribute.*); ADD distribution_type : OPTIONAL ndt_probability_distribution_type (*<desc> This describes the shape of the probability distribution. This shape should be used to interpolate between values.*); ADD standard_deviation : OPTIONAL ndt_real4 (*<desc> The standard deviation of the probability distribution.*); ADD minimum_value : OPTIONAL ndt_real4 (*<desc> The minimum value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD mode_value : OPTIONAL ndt_real4 (*<desc> The mode value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD maximum_value : OPTIONAL ndt_real4 (*<desc> The maximum value of the probability distribution. This value is in the same units of measure as the data_value.*); END_ENTITY; ALTER ENTITY pty_standard_volume_liquid; ADD distribution : OPTIONAL ndt_line (*<desc> This is the description of the value of this property as a function of probability. The conventional representation of this property is recorded in the data value attribute.*); ADD distribution_type : OPTIONAL ndt_probability_distribution_type (*<desc> This describes the shape of the probability distribution. This shape should be used to interpolate between values.*); ADD standard_deviation : OPTIONAL ndt_real4 (*<desc> The standard deviation of the probability distribution.*); ADD minimum_value : OPTIONAL ndt_real4 (*<desc> The minimum value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD mode_value : OPTIONAL ndt_real4 (*<desc> The mode value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD maximum_value : OPTIONAL ndt_real4 (*<desc> The maximum value of the probability distribution. This value is in the same units of measure as the data_value.*); END_ENTITY; ALTER ENTITY pty_standard_volume_liquid_rate; ADD distribution : OPTIONAL ndt_line (*<desc> This is the description of the value of this property as a function of probability. The conventional representation of this property is recorded in the data value attribute.*); ADD distribution_type : OPTIONAL ndt_probability_distribution_type (*<desc> This describes the shape of the probability distribution. This shape should be used to interpolate between values.*); ADD standard_deviation : OPTIONAL ndt_real4 (*<desc> The standard deviation of the probability distribution.*); ADD minimum_value : OPTIONAL ndt_real4 (*<desc> The minimum value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD mode_value : OPTIONAL ndt_real4 (*<desc> The mode value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD maximum_value : OPTIONAL ndt_real4 (*<desc> The maximum value of the probability distribution. This value is in the same units of measure as the data_value.*); END_ENTITY; ALTER ENTITY pty_thickness; ADD distribution : OPTIONAL ndt_line (*<desc> This is the description of the value of this property as a function of probability. The conventional representation of this property is recorded in the data value attribute.*); ADD distribution_type : OPTIONAL ndt_probability_distribution_type (*<desc> This describes the shape of the probability distribution. This shape should be used to interpolate between values.*); ADD standard_deviation : OPTIONAL ndt_real4 (*<desc> The standard deviation of the probability distribution.*); ADD minimum_value : OPTIONAL ndt_real4 (*<desc> The minimum value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD mode_value : OPTIONAL ndt_real4 (*<desc> The mode value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD maximum_value : OPTIONAL ndt_real4 (*<desc> The maximum value of the probability distribution. This value is in the same units of measure as the data_value.*); END_ENTITY; ALTER ENTITY pty_ultimate_recovery_factor; ADD distribution : OPTIONAL ndt_line (*<desc> This is the description of the value of this property as a function of probability. The conventional representation of this property is recorded in the data value attribute.*); ADD distribution_type : OPTIONAL ndt_probability_distribution_type (*<desc> This describes the shape of the probability distribution. This shape should be used to interpolate between values.*); ADD standard_deviation : OPTIONAL ndt_real4 (*<desc> The standard deviation of the probability distribution.*); ADD minimum_value : OPTIONAL ndt_real4 (*<desc> The minimum value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD mode_value : OPTIONAL ndt_real4 (*<desc> The mode value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD maximum_value : OPTIONAL ndt_real4 (*<desc> The maximum value of the probability distribution. This value is in the same units of measure as the data_value.*); END_ENTITY; ALTER ENTITY pty_volume; ADD distribution : OPTIONAL ndt_line (*<desc> This is the description of the value of this property as a function of probability. The conventional representation of this property is recorded in the data value attribute.*); ADD distribution_type : OPTIONAL ndt_probability_distribution_type (*<desc> This describes the shape of the probability distribution. This shape should be used to interpolate between values.*); ADD standard_deviation : OPTIONAL ndt_real4 (*<desc> The standard deviation of the probability distribution.*); ADD minimum_value : OPTIONAL ndt_real4 (*<desc> The minimum value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD mode_value : OPTIONAL ndt_real4 (*<desc> The mode value of the probability distribution. This value is in the same units of measure as the data_value.*); ADD maximum_value : OPTIONAL ndt_real4 (*<desc> The maximum value of the probability distribution. This value is in the same units of measure as the data_value.*); END_ENTITY; ADD TYPE ndt_probability_distribution_type = ENUMERATION OF ( uniform, triangular, normal, lognormal, stretched_beta ) (*<desc> These are the types of probability distribution shape. The shape specifies how to interpolate between values.*); END_TYPE; END_CHANGE;