In this case, the bitmask patch will be the parent of the output patch containing the transformed image. a parallelogram defining the area that contains the actual transformed image (the remaining, artificial pixels are considered outliers). When using the parameter transformation, the others (except for resize and inverse) are ignored. Being an affine transformation, the last row must be, otherwise the matrix will be discarded (see the example below). Recall that shear can be thought of as a force applied to the image along the positive x-axis.Ī transformation matrix may also be explicitly passed. TypeĪpply an affine transformation to input patches defined by resize, rotation, shear and interpolation method. In particular, type_param is replaced by one of the following labels, depending on the stage type. It is a generic label to indicate the StageType-specific key-value pairs we have to provide for defining the stage's parameters. Note that type_param is not the parameter's actual name (unlike, for instance, type or input). Note that the stage's definition expects a separate keep or scope entry for each attribute we want to target. On the other hand, keep can be used in any stage without restrictions. ARITHMETIC_LOGIC) as well as stages, like RESIZE, which modifies both im and shape. There are also stages that can process either im or values or both (e.g. The stage COPY_SHAPE works on the shape attribute.The stage REMAP_VALUES works on the values attribute. ![]() ![]() The stage THRESHOLD works on the im attribute.If a patch results from the combination of N patches, attributes will be copied from the first input patch (which becomes the parent).Īlthough scope is accepted by every stage, it is worth pointing out that, in general, stages are designed to process only a specific patch's attribute. For example, scope: VALUES allows operating on patch's values and keep: SHAPE allows copying parent's shape. Patch's attribute that the stage will process ( scope) or that must be preserved ( keep). If true, spawn a separate process for the stageĪttribute(s) to copy from the parent patch See here for further details about patch's ancestors tree. The parameter group_by allows grouping input patches by their N-th common ancestor, where N = group_by - 1 if group_by > 0 else N = group_by. Specifically, the i-th output patch Y will be the copy of the i-th input patch X (same attributes im, values, etc.) and X will be the parent of Y. A disabled stage becomes transparent, namely it transmits its input patches to the following stage(s) without processing them. Stages can be disabled by setting disabled: true. Maximum number of patches stored in a thread's queue (default: 8)Ī stage has mandatory name and type, plus a list of inputs and type-specific parameters. If true, leverage multithreading (use a thread for each stage) Random seed for reproducibility (default: no seed)Ĭolor palette for decorating output patches Studies a U.S.Embed Aliquis into a C++ or Python applicationīrief description of the pipeline's purpose Information on the Bayer criteria for listing studies and other relevant information is provided in the Study sponsors section of the portal. Interested researchers can use to request access to anonymized patient-level data and supporting documents from clinical studies to conduct research. This applies to data on new medicines and indications that have been approved by the EU and US regulatory agencies on or after January 01, 2014. ![]() This pertains to scope, timepoint and process of data access.Īs such, Bayer commits to sharing upon request from qualified researchers patient-level clinical trial data, study-level clinical trial data, and protocols from clinical trials in patients for medicines and indications approved in the US and EU as necessary for conducting legitimate research. Individual Participant Data (IPD) Sharing Statement:Īvailability of this study's data will be determined according to Bayer's commitment to the EFPIA/PhRMA "Principles for responsible clinical trial data sharing".
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |