Path
Distance Back Link Tool
أداة مسار مسافة
الرابط الخلفي
ArcMap ArcGIS
How to use Path Distance
Back Link Tool in Arc Toolbox ArcMap ArcGIS??
كيفية استخدام أداة مسار مسافة الرابط الخلفي ؟؟
Path to access the toolمسار الوصول الى الأداة
:
Path Distance Back Link Tool, Distance Toolset, Spatial Analyst Tools Toolbox
Path Distance Back Link
Defines the neighbor
that is the next cell on the least accumulative cost path to the least-cost
source, while accounting for surface distance along with horizontal and
vertical cost factors.
يحدد الجار الذي يمثل الخلية التالية على مسار
التكلفة الأقل تراكمًا للمصدر الأقل تكلفة ، مع حساب مسافة السطح جنبًا إلى جنب مع
عوامل التكلفة الأفقية والعمودية.
1. Input raster or feature source data أدخل
البيانات النقطية او مصدر بيانات المعلم
The input source
locations.
This is a raster or
feature dataset that identifies the cells or locations from or to which the
least accumulated cost distance for every output cell location is calculated.
For rasters, the input
type can be integer or floating point.
مواقع مصدر الإدخال.
هذه مجموعة بيانات نقطية أو ميزة تحدد الخلايا أو
المواقع منها أو التي يتم فيها حساب أقل مسافة تكلفة متراكمة لكل موقع خلية إخراج.
بالنسبة إلى البيانات النقطية ، يمكن أن يكون نوع
الإدخال عددًا صحيحًا أو نقطة عشرية.
2.
Output backlink raster الرابط
الخارجي للبيانات النقطية المخرجة
The output cost backlink
raster.
The backlink raster
contains values 0 through 8, which define the direction or identify the next
neighboring cell (the succeeding cell) along the least accumulative cost path
from a cell to reach its least-cost source, while accounting for surface
distance as well as horizontal and vertical surface factors.
If the path is to pass
into the right neighbor, the cell will be assigned the value 1, 2 for the lower
right diagonal cell, and continue clockwise. The value 0 is reserved for source
cells.
تكلفة الخرج النقطية للوصلة الخلفية.
تحتوي البيانات النقطية للوصلة الخلفية على القيم
من 0 إلى 8 ، والتي تحدد الاتجاه أو تحدد الخلية المجاورة التالية (الخلية
التالية) على طول مسار التكلفة الأقل تراكمًا من الخلية للوصول إلى مصدرها الأقل
تكلفة ، مع مراعاة المسافة السطحية وكذلك الأفقية وعوامل السطح العمودي.
إذا كان المسار سيمر إلى الجار الأيمن ، فسيتم
تعيين القيمة 1 ، 2 للخلية القطرية السفلية اليمنى للخلية ، والمتابعة في اتجاه
عقارب الساعة. القيمة 0 محجوزة للخلايا المصدر.
Input cost raster (optional)
A raster defining the impedance or cost to move planimetrically through
each cell.
The value at each cell location represents the cost-per-unit distance for
moving through the cell. Each cell location value is multiplied by the cell
resolution while also compensating for diagonal movement to obtain the total
cost of passing through the cell.
The values of the cost raster can be integer or floating point, but they
cannot be negative or zero (you cannot have a negative or zero cost).
Input surface raster (optional)
A raster defining the elevation values at each cell location.
The values are used to calculate the actual surface distance covered when
passing between cells.
Maximum distance (optional)
The threshold that the accumulative cost values cannot exceed.
If an accumulative cost distance value exceeds this value, the output
value for the cell location will be NoData. The maximum distance is the extent
for which the accumulative cost distances are calculated.
The default distance is to the edge of the output raster.
Output distance raster (optional)
The output path distance raster.
The output path distance raster identifies, for each cell, the least
accumulative cost distance, over a cost surface to the identified source
locations, while accounting for surface distance as well as horizontal and
vertical surface factors.
A source can be a cell, a set of cells, or one or more feature locations.
The output raster is of floating-point type.
Input horizontal raster (optional)
A raster defining the horizontal direction at each cell.
The values on the raster must be integers ranging from 0 to 360, with 0
degrees being north, or toward the top of the screen, and increasing clockwise.
Flat areas should be given a value of -1. The values at each location will be
used in conjunction with the Horizontal factor to determine the horizontal cost
incurred when moving from a cell to its neighbors.
Horizontal factor (optional)
Specifies the relationship between the horizontal cost factor and the
horizontal relative moving angle (HRMA).
There are several factors with modifiers from which to select that
identify a defined horizontal factor graph. Additionally, a table can be used
to create a custom graph. The graphs are used to identify the horizontal factor
used in calculating the total cost for moving into a neighboring cell.
In the descriptions below, two acronyms are used: HF stands for horizontal
factor, which defines the horizontal difficulty encountered when moving from
one cell to the next; and HRMA stands for horizontal relative moving angle,
which identifies the angle between the horizontal direction from a cell and the
moving direction.
The Horizontal factor options are as follows:
· Binary—If the HRMA is less than the cut angle, the HF is set to the value
associated with the zero factor; otherwise, it is infinity.
· Forward—Only forward movement is allowed. The HRMA must be greater than or
equal to 0 and less than 90 degrees (0 <= HRMA < 90). If the HRMA is
greater than 0 and less than 45 degrees, the HF for the cell is set to the
value associated with the zero factor. If the HRMA is greater than or equal to
45 degrees, the side value modifier value is used. The HF for any HRMA equal to
or greater than 90 degrees is set to infinity.
· Linear—The HF is a linear function of the HRMA.
· Inverse Linear—The HF is an inverse linear function of the HRMA.
· Table—A table file will be used to define the horizontal factor graph used
to determine the HFs.
Modifiers to the horizontal factors are the following:
· Zero factor—The horizontal factor to be used when the HRMA is zero. This factor
positions the y-intercept for any of the horizontal factor functions.
· Cut angle—The HRMA angle beyond which the HF will be set to infinity.
· Slope—The slope of the straight line used with the Linear and Inverse
Linear horizontal factor keywords. The slope is specified as a fraction of rise
over run (for example, 45 percent slope is 1/45, which is input as 0.02222).
· Side value—The HF when the HRMA is greater than or equal to 45 degrees and
less than 90 degrees when the Forward horizontal factor keyword is specified.
· Table name—The name of the table defining the HF.
Input vertical raster (optional)
A raster defining the z-values for each cell location.
The values are used for calculating the slope used to identify the
vertical factor incurred when moving from one cell to another.
Vertical factor (optional)
Specifies the relationship between the vertical cost factor and the
vertical relative moving angle (VRMA).
There are several factors with modifiers from which to select that
identify a defined vertical factor graph. Additionally, a table can be used to
create a custom graph. The graphs are used to identify the vertical factor used
in calculating the total cost for moving into a neighboring cell.
In the descriptions below, two acronyms are used: VF stands for vertical
factor, which defines the vertical difficulty encountered in moving from one
cell to the next; and VRMA stands for vertical relative moving angle, which
identifies the slope angle between the FROM or processing cell and the TO cell.
The Vertical factor options are as follows:
· Binary—If the VRMA is greater than the low-cut angle and less than the
high-cut angle, the VF is set to the value associated with the zero factor;
otherwise, it is infinity.
· Linear—The VF is a linear function of the VRMA.
· Symmetric Linear—The VF is a linear function of the VRMA in either the
negative or positive side of the VRMA, respectively, and the two linear
functions are symmetrical with respect to the VF (y) axis.
· Inverse Linear—The VF is an inverse linear function of the VRMA.
· Symmetric Inverse Linear—The VF is an inverse linear function of the VRMA
in either the negative or positive side of the VRMA, respectively, and the two
linear functions are symmetrical with respect to the VF (y) axis.
· Cos—The VF is the cosine-based function of the VRMA.
· Sec—The VF is the secant-based function of the VRMA.
· Cos-Sec—The VF is the cosine-based function of the VRMA when the VRMA is
negative and is the secant-based function of the VRMA when the VRMA is
nonnegative.
· Sec-Cos—The VF is the secant-based function of the VRMA when the VRMA is
negative and is the cosine-based function of the VRMA when the VRMA is
nonnegative.
· Table—A table file will be used to define the vertical-factor graph used
to determine the VFs.
Modifiers to the vertical keywords are the following:
· Zero factor—The vertical factor used when the VRMA is zero. This factor
positions the y-intercept of the specified function. By definition, the zero
factor is not applicable to any of the trigonometric vertical functions (COS,
SEC, COS-SEC, or SEC-COS). The y-intercept is defined by these functions.
· Low Cut angle—The VRMA angle below which the VF will be set to infinity.
· High Cut angle—The VRMA angle above which the VF will be set to infinity.
· Slope—The slope of the straight line used with the Linear and Inverse
Linear vertical-factor keywords. The slope is specified as a fraction of rise
over run (for example, 45 percent slope is 1/45, which is input as 0.02222).
· Table name—The name of the table defining the VF.
Multiplier to apply to costs (optional)
The multiplier to apply to the cost values.
This allows for control of the mode of travel or the magnitude at a
source. The greater the multiplier, the greater the cost to move through each
cell.
The values must be greater than zero. The default is 1.
Start cost (optional)
The starting cost from which to begin the cost calculations.
Allows for the specification of the fixed cost associated with a source.
Instead of starting at a cost of zero, the cost algorithm will begin with the
value set by Start cost.
The values must be zero or greater. The default is 0.
Accumulative cost resistance rate
(optional)
This parameter simulates the increase in the effort to overcome costs as
the accumulative cost increases. It is used to model fatigue of the traveler.
The growing accumulative cost to reach a cell is multiplied by the resistance
rate and added to the cost to move into the subsequent cell.
It is a modified version of a compound interest rate formula that is used
to calculate the apparent cost of moving through a cell. As the value of the
resistance rate increases, it increases the cost of the cells that are visited
later. The greater the resistance rate, the more additional cost is added to
reach the next cell, which is compounded for each subsequent movement. Since
the resistance rate is similar to a compound rate and generally the
accumulative cost values are very large, small resistance rates are suggested,
such as 0.02, 0.005, or even smaller, depending on the accumulative cost
values.
The values must be zero or greater. The default is 0.
Capacity (optional)
The cost capacity for the traveler for a source.
The cost calculations continue for each source until the specified
capacity is reached.
The values must be greater than zero. The default capacity is to the edge
of the output raster.
Travel direction (optional)
Specifies the direction of the traveler when applying horizontal and
vertical factors, the source resistance rate, and the source starting cost.
· FROM_SOURCE—The horizontal factor, vertical factor, source resistance
rate, and source starting cost will be applied beginning at the input source,
and travel out to the nonsource cells. This is the default.
· TO_SOURCE—The horizontal factor, vertical factor, source resistance rate,
and source starting cost will be applied beginning at each nonsource cell and
travel back to the input source.
If you select the String option, you can choose between from and to options,
which will be applied to all sources.
If you select the Field option, you can select the field from the source
data that determines the direction to use for each source. The field must
contain the text string FROM_SOURCE or TO_SOURCE.
3.
Input cost raster (optional) أدخل
تكلفة البيانات النقطية (اختياري)
A raster defining the
impedance or cost to move planimetrically through each cell.
The value at each cell
location represents the cost-per-unit distance for moving through the cell.
Each cell location value is multiplied by the cell resolution while also
compensating for diagonal movement to obtain the total cost of passing through
the cell.
The values of the cost
raster can be integer or floating point, but they cannot be negative or zero
(you cannot have a negative or zero cost).
نقطية تحدد الممانعة أو التكلفة للتحرك على مستوى
مستوي عبر كل خلية.
تمثل القيمة في كل موقع خلية التكلفة لكل وحدة
مسافة للتنقل عبر الخلية. يتم ضرب كل قيمة موقع خلية في دقة الخلية مع التعويض
أيضًا عن الحركة القطرية للحصول على التكلفة الإجمالية للمرور عبر الخلية.
يمكن أن تكون قيم التكلفة النقطية عددًا صحيحًا أو
فاصلة عائمة ، لكن لا يمكن أن تكون سالبة أو صفرية (لا يمكن أن يكون لديك تكلفة
سالبة أو صفرية).
4.
Input surface raster (optional) أدخل
سطح البيانات النقطية (اختياري)
A raster defining the
elevation values at each cell location.
The values are used to
calculate the actual surface distance covered when passing between cells.
نقطية تحدد قيم الارتفاع في كل موقع خلية.
تُستخدم القيم لحساب مسافة السطح الفعلية التي يتم
تغطيتها عند المرور بين الخلايا.
5.
Maximum distance (optional) أقصى
مسافة (اختياري)
The threshold that the
accumulative cost values cannot exceed.
If an accumulative cost
distance value exceeds this value, the output value for the cell location will
be NoData. The maximum distance is the extent for which the accumulative cost
distances are calculated.
The default distance is
to the edge of the output raster.
الحد الذي لا يمكن لقيم التكلفة التراكمية تجاوزه.
إذا تجاوزت قيمة مسافة التكلفة التراكمية هذه
القيمة ، فستكون قيمة الإخراج لموقع الخلية NoData. أقصى
مسافة هي المدى الذي يتم من خلاله حساب مسافات التكلفة التراكمية.
المسافة الافتراضية إلى حافة البيانات النقطية
الناتجة.
6.
Output distance raster (optional) مسافة
البيانات النقطية المخرجة (اختياري)
The output path distance
raster.
The output path distance
raster identifies, for each cell, the least accumulative cost distance, over a
cost surface to the identified source locations, while accounting for surface
distance as well as horizontal and vertical surface factors.
A source can be a cell,
a set of cells, or one or more feature locations.
The output raster is of
floating-point type.
مسافة مسار الإخراج النقطية.
تحدد المسافة النقطية لمسار الإخراج ، لكل خلية ،
أقل مسافة تكلفة تراكمية ، على سطح التكلفة إلى مواقع المصدر المحددة ، مع حساب
مسافة السطح بالإضافة إلى عوامل السطح الأفقية والرأسية.
يمكن أن يكون المصدر خلية أو مجموعة من الخلايا أو
موقع معلم واحد أو أكثر.
النقطية الناتجة هي من نوع النقطة العائمة.
7.
Horizontal factor parameters (optional) معلمات العامل الأفقي (اختياري)Input horizontal raster (optional)
8.
Vertical Factor parameters (optional) معلمات العامل الرأسي (اختياري)
Source Characteristics خصائص المصدر
الفئات الإضافة الثلاثة تم شرحهم في
وصف أداة Path
Distance Allocation
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