This release includes major improvements to WFDB functionality and package structure.
Native WFDB implementation: Added C++ implementation for reading and writing WFDB files, removing the system dependency on external WFDB libraries
Annotation improvements: Enhanced annotation handling with new helper functions and improved frequency handling
Signal format: Updated signal format to accept integer data types for improved memory efficiency and compatibility
Documentation: Added new
annotation-guide vignette and expanded
wfdb-guide vignette with detailed examples
Breaking changes: Removed
segmentation.R functions and related vignette
(functionality may be restored in future releases)
Code quality: Extensive refactoring and documentation improvements across the package, including detailed inline comments
This is an updated release to CRAN for this package. The changes to this version are as follows.
Update to ggm() function to allow for appropriate
theming for dark and light color themes (removes issues with importing
colors)
Update to code and testing suite to assess compatibility with the
{ggplot2} v4.0.0 release
Addition of a series of functions for F wave extraction and analysis
Addition of rudimentary functions for windowing signal based on surface ECG
New function to read in Prucka (CardioLab) for EP study
recordings with the read_prucka() function
This is the first CRAN release for this package. The initial
version contains key features for working with intracardiac electrograms
(EGM) and surface electrocardiograms (ECG), visualizing signals, and
working with annotations stored in the WFDB format. A
single, major class is introduced here.
egm objects contain signal data and meta-data with
specific dispatch methods, and are composed of three internal classes
signal_table that contains the raw signal dataheader_table that contains meta-data about the signal
dataannotation_table that identifies samples and labels
them with specific annotationsAdditional I/O features are introduced to work with data stored in
the WFDB format:
read_wfdb() reads in WFDB data and returns
an egm objectwrite_wfdb() writes an egm object to a
WFDB-compatible formatThis first version also allows working with ECG and EGM data using:
read_muse() for ECG data (GE MUSE, v9)read_lspro() for EGM data (LabSystem Pro)