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Current priority technical areas for SCALE include: small-scale agroecological production solutions; social and behavior change approaches for agriculture, livelihoods and natural resource management-related activities; production in fragile and conflict-affected contexts; and youth engagement in alternative livelihoods. Please reach out to us if you are interested in collaborating on these or related activities.
The scale() CSS function defines a transformation that resizes an element on the 2D plane. Because the amount of scaling is defined by a vector [sx, sy], it can resize the horizontal and vertical dimensions at different scales. Its result is a data type.
\n The scale() CSS function defines a transformation that resizes an element on the 2D\n plane. Because the amount of scaling is defined by a vector [sx, sy], it can resize the horizontal and vertical dimensions at\n different scales. Its result is a data type.\n
The scale CSS property allows you to specify scale transforms individually and independently of the transform property. This maps better to typical user interface usage, and saves having to remember the exact order of transform functions to specify in the transform value.
The following example shows how to scale an element on hover. Two boxes are shown, one with a single scale value which scales the element along both axes. The second box has two scale values which scales the element along the X and Y axes independently.
\n The following example shows how to scale an element on hover.\n Two boxes are shown, one with a single scale value which scales the element along both axes.\n The second box has two scale values which scales the element along the X and Y axes independently.\n
DOE issued a Request for Information (RFI) in 2018 soliciting stakeholder feedback on opportunities to enable high volume production and multi-sector use of hydrogen. The objective of this RFI was to assess the domestic resources compatible with large-scale hydrogen production, as well as to identify pathways to effectively leverage these resources for near- and long-term use in major industries. View the past RFI.
Increases or decreases the size of a shape by expanding and contracting vertices. Objects always scale from their relative origin to the coordinate system. Scale values are specified as decimal percentages. For example, the function call scale(2.0) increases the dimension of a shape by 200%.
Transformations apply to everything that happens after and subsequent calls to the function multiply the effect. For example, calling scale(2.0) and then scale(1.5) is the same as scale(3.0). If scale() is called within draw(), the transformation is reset when the loop begins again. Using this function with the z parameter requires using P3D as a parameter for size(), as shown in the third example above. This function can be further controlled with pushMatrix() and popMatrix().
The initial IASC Humanitarian System-Wide Emergency Activation (L3 Response) was put in place in 2012 to deliver a rapid, concerted mobilization of capacity and systems to enable accelerated and scaled-up assistance and protection over a short and focused duration. Although initially designed for sudden onset emergencies, most L3 activations were applied to large-scale protracted crises. And in some cases, the L3 designations lasted for a number of years.
If plants are summered outdoors, beneficial parasitoids may suppress populations on brown soft scale. Look for holes in scale covers for evidence of their presence. Parasitized scale may be a different color (often black) than a healthy scale of the same age. Avoid treating parasitized scale with pesticides.
The value of scale determines how column scaling is performed(after centering). If scale is a numeric-alike vector with lengthequal to the number of columns of x, then each column ofx is divided by the corresponding value from scale.If scale is TRUE then scaling is done by dividing the(centered) columns of x by their standard deviations ifcenter is TRUE, and the root mean square otherwise.If scale is FALSE, no scaling is done.
The root-mean-square for a (possibly centered) column is defined as\sqrt\sum(x^2)/(n-1), where x isa vector of the non-missing values and n is the number ofnon-missing values. In the case center = TRUE, this is thesame as the standard deviation, but in general it is not. (To scaleby the standard deviations without centering, usescale(x, center = FALSE, scale = apply(x, 2, sd, na.rm = TRUE)).)
SCALE will empower subnational champions to drive ambition at the national and international level and will leverage action and advocacy organized around a set of high-level thematic and sectoral goals needed to keep a 1.5-aligned, climate-resilient future within reach. The initiative will expand the number of subnational entities committed to ambitious climate targets; connect them to relevant tools and resources and support the development of additional programs and technical assistance; showcase the efforts of leading cities, states, and regions and facilitate peer-to-peer exchange and capacity building; and promote multi-level and cross-sector dialogue, including on opportunities to mobilize finance for subnational action at scale.
Understanding how Earth Engine handles scale is crucial to interpreting scientific results obtained from Earth Engine. Here, scale means pixel resolution. Unlike other GIS and image processing platforms, the scale of analysis is determined from the output, rather than the input. Specifically, when you make a request for results, an image to display or a statistic, for example, you specify the scale at which data is input to the analysis. This concept is illustrated in Figure 1.
Image assets in Earth Engine exist at multiple scales, in image pyramids. The pyramiding policy (represented by dashed lines in Figure 1) determines how each pixel at a given level of the pyramid is computed from the aggregation of a 2x2 block of pixels at the next lower level. For continuous valued images, the pixel values of upper levels of the pyramid are the mean of pixels at the next lower level. For discrete valued images, pixel values of upper levels of the pyramid are a sample (usually the top left pixel) of pixels at the next lower level.
The lowest level of the image pyramid represents image data at native resolution, when it is ingested into Earth Engine. During ingestion, the data are aggregated (according to the pyramiding policy) to create higher pyramid levels. The data are aggregated until the entire image fits within a 256x256 pixel tile. When you use an image in your code, Earth Engine chooses a level of the pyramid with the closest scale less than or equal to the scale specified by your analysis and resamples (using nearest neighbor by default) as necessary.
Scale of analysis in Earth Engine is determined on a "pull" basis. The scale at which to request inputs to a computation is determined from the output. For example, if you add an image to the map with Map.addLayer(), the zoom level of the map in the Code Editor determines the scale at which inputs are requested from the image pyramid. For other computations, you specify scale as an argument. For example, using the NIR band of a Landsat image, which has 30 meters native resolution:
In this example, note that the pixel value at a constant location (the image centroid) varies based on scale. This is due to the fact that different pyramid levels are selected for different scales. For similar scales, nearest neighbor resampling results in the same pixel value being returned. The important point is that by varying the scale, different image inputs are requested.
We interviewed several health and fitness experts, including Dr. Linda Everett, a bariatrician (a physician who specializes in weight loss); Beth Skwarecki, a health writer; and Rachel L. Pires, author of Diet Enlightenment and weight-loss counselor. We also spent hours poring over customer reviews of scales on Amazon and at other retailers.
For each round of testing, we set up all the scales according to their manuals and calibrated them as instructed. Then over the course of a few weeks, we weighed ourselves a ridiculous number of times in a row, using books, jackets, water bottles, and dumbbells to add and subtract different weights and see if the scales could pick up on the differences.
We learned that some scales offer a seemingly manufactured sense of precision and accuracy: They may calculate your weight based on the memory of your previous readings rather than actually weighing you each time.
We gave each scale a maximum 0.2-pound margin of error. So, for example, if a scale weighed one tester at 120.0 pounds and they then got back on the scale with a 0.4-pound book, we considered the scale to be accurate if it said she weighed anything between 120.2 to 120.6 pounds.
The EatSmart Precision+ Ultra-Wide Bathroom Scale performed exceptionally well in our testing, providing dozens of accurate and precise weights over the course of multiple weeks, always within a 0.2-pound margin of error. Many inexpensive bathroom scales respond reliably only to a weight change on the order of half a pound, or, as we found through our testing, even pull your weight readings from memory without trying to measure you.
This scale is only available in one color (silver) and comes with a two-year warranty, which is an average length of time for bathroom scales (our runner-up pick from Greater Goods has an impressive five-year warranty).
If you require a higher weight capacity or just want a bigger platform: The EatSmart 550 Lb. Digital Bathroom Scale is a beautiful, extra-large scale that is as accurate as our picks on level flooring, but beeps loudly three times after each weigh-in with no way to turn the sound off. This scale is covered by a two-year warranty.
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