![]() ![]() I particularly like the ability to use multidimensional tools, like and x-y pad, to control two values simultaneously, like WB and Tint.Īnyway, here is the "tutorial" I wrote up on the other thread, walking through a rough outline of how this works on a MacBook Pro and an iPad. Still, if you are into this sort of thing, it might be worth looking into. It uses existing tools and technology and is not an original idea - it appears that Pusher Labs will probably release something just like it in an upcoming update to PFixer. I put together a proof-of-concept iPad MIDI controller to demonstrate how one might configure an iPad MIDI interface to control Lightroom. However, even niftier is the use of a virtual control surface that can be configured with whatever faders and pots and other controls you desire to send and receive MIDI controls - enter the iPad. Pusher Labs sells a MIDI hardware controller to go along with this application to make Lightroom control fader- and dial-based, pretty nifty. The application permits the user to assign keyboard shortcuts or MIDI CC#'s to various Lightroom controls to speed up control or adapt control of the Lightroom interface. The thread mentioned PFixer, by PusherLabs - for those not familiar with this application, it is a utility that binds itself to Lightroom and opens control of Lightroom's sliders and buttons and menu items to two types of controls:ġ) Customizable hot keys/keyboard shortcuts In Mixbus, enable the OSC protocol in Preferences->Control Surfaces.I don't use Lightroom very often but a thread in another forum got me curious about how one might adapt existing tools to interface with Lightroom's many sliders and controls, with the idea that one might be able to improve the mouse/trackpad-click-and-drag-a-slider approach.Enter the computer’s IP address in the TouchOSC application.Determine your computer’s IP address on the wireless network that is shared with your phone/tablet.Select the new layout for the TouchOSC app, and you should see the TTC-1 control panel appear.You should see you computer name appear in the “Found Hosts” list.In the TouchOSC application (on your phone/tablet), click “Layout -> Add From Editor”.On your desktop computer, launch the TouchOSC editor, and “Open” the layout file.Download Harrison’s TTC-1 tablet layout here: ttc-1 download.Also download the TouchOSC editor to your Desktop computer, from the TouchOSC web site.Purchase the TouchOSC application from your phone/tablet App Store. ![]() Because it needs a name, we called it TTC-1, or “TouchOSC Transport Controller #1” Installing and launching the TTC-1 controller layout for Mixbus: We’ve developed a layout file that allows you to remotely control Mixbus’s transport features. TouchOSC can load different “layouts” which define the location of the buttons and widgets, and what messages will be sent to Mixbus over the OSC protocol. If you add a great new feature to the TTC-1 layout, be sure to share it with us, and we will incorporate your changes so other users will get the benefit as well. In keeping with Mixbus’s open-ended development model, users may view, modify, and edit the TouchOSC layout that we’ve provided for Mixbus. TouchOSC is not developed by Harrison it is developed by Hexler, and it has its own community forums and website. Mixbus has a rich OSC-compatible remote control API. TouchOSC sends “Open Sound Control” messages to any receiving app. TouchOSC is a remote-control application that runs on iOS and Android phones and tablets. Appendix C: Videos (Training and Tutorial).AVL Drumkits: Black Pearl and Red Zeppelin.Presonus Faderport, Faderport8 and Faderport16.Mackie MCU-compatible fader controllers.Recording with Varispeed (32C TapeX Only).Scrolling and Zooming in the Editor Window.Primary Windows: Editor, Mixer and Recorder.Operational Differences from Other DAWs.Differences between Mixbus and Mixbus 32C.About This Manual (online version and PDF download). ![]()
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