<?xml version="1.0" encoding="UTF-8"?><oembed><type>video</type><version>1.0</version><html>&lt;iframe src=&quot;https://www.loom.com/embed/c1947aedd9c04944ac1b7600924e766a&quot; frameborder=&quot;0&quot; width=&quot;2560&quot; height=&quot;1920&quot; webkitallowfullscreen mozallowfullscreen allowfullscreen&gt;&lt;/iframe&gt;</html><height>1920</height><width>2560</width><provider_name>Loom</provider_name><provider_url>https://www.loom.com</provider_url><thumbnail_height>1920</thumbnail_height><thumbnail_width>2560</thumbnail_width><thumbnail_url>https://cdn.loom.com/sessions/thumbnails/c1947aedd9c04944ac1b7600924e766a-3d64a0356d28e8ea.gif</thumbnail_url><duration>347.986</duration><title>Introducing Composite Channels and Signature Analysis for Enhanced Monitoring 📊</title><description>In this video, I&apos;m excited to introduce a new feature in team-ack called composite channels, which allows us to mathematically combine two identical sensors into a single monitoring channel. This enhancement significantly improves the accuracy of monitoring part-off operations with synchronized spindles, addressing issues like false undercut alarms caused by power discrepancies between the main and subspindles. Additionally, I discuss our new signature analysis method that helps us better track horsepower throughout the cut, ensuring smoother operations and reducing the need for costly repairs. If you have any questions about setting this up, please reach out!</description></oembed>