diff --git a/kstars/ekos/align/align.ui b/kstars/ekos/align/align.ui index 24a60ef17..9884baf47 100644 --- a/kstars/ekos/align/align.ui +++ b/kstars/ekos/align/align.ui @@ -1,1805 +1,1805 @@ Align 0 0 610 469 0 3 Solver Control Qt::AlignLeading|Qt::AlignLeft|Qt::AlignVCenter 3 3 3 3 3 true Capture && Solve Load a FITS image and solve. Slew mount to image central coordinates. Load && Slew... false Stop Select which action to perform after the captured image is solved Select what action to take once a solution is found. Solver Action 3 3 3 3 3 Synchronize the telescope to the solution coordinates S&ync true gotoModeButtonGroup Synchronize the telescope to the solution coordinates and then slew to the target coordinates S&lew to Target gotoModeButtonGroup Just solve &Nothing gotoModeButtonGroup Telescope Coordinates Accuracy threshold in arcseconds between solution and target coordinates. Plate solver shall be repeatedly executed until the solution coordinates are below the accuracy threshold 1 300 10 30 DE: true After telescope completes slewing, wait until it settles for this many milliseconds before capturing the next image. Settle true After telescope completes slewing, wait until it settles for this many milliseconds before capturing the next image. 15000 100 RA: Accuracy threshold in arcseconds between solution and target coordinates. Plate solver shall be repeatedly executed until the solution coordinates are below the accuracy threshold Accuracy Solution Coordinates 3 3 3 3 3 Image scale in arcsecs/pixel true Image scale in arcsecs/pixel Pix: Field of View size in arcminutes true Image rotation angle, East of North true true RA: Difference between telescope coordinates and solution coordinates in Declination dDE Difference between telescope coordinates and solution coordinates in Right Ascension dRA: true Field of View size in arcminutes FOV: Image rotation angle, East of North Rot: Difference between telescope coordinates and solution coordinates in Declination font-weight: bold; true DE: Difference between telescope coordinates and solution coordinates in Right Ascension font-weight: bold; true <html><head/><body><p>Select which telescope to use when performing Field of View calculations.</p></body></html> Primary Scope Guide Scope Solver Options 3 3 3 3 3 1 1 CCD: Camera binning Exp: Exposure duration in seconds 0.100000000000000 60.000000000000000 0.500000000000000 3.000000000000000 Subtract dark frame. If no suitable dark frame is available, a dark frame shall be captured. Dark Bin: 22 22 22 22 Toggle Full Screen 22 22 22 22 Show in FITS Viewer 3 Options: Additional options to be the solver false 22 22 22 22 Edit solver options 3 Solver: Use online astrometry.net solver to solve the image. You must have an internet connection and a valid API key. Online true solverTypeGroup Use offline astrometry.net solver. You must install all the necessary index files for your field of view. Offline solverTypeGroup false Use astrometry solver on remote machine running INDI server. You must select INDI Astrometry driver from Auxiliary drivers in your Ekos devices profile for this option to be enabled. Remote solverTypeGroup Qt::Horizontal 40 20 0 0 Qt::Vertical 0 0 320 240 0 Solution Results 5 0 0 0 0 0 0 - <html><head/><body><p>The resuls from Astrometric Solutions from the Capture and Solve Tool, the Load and Slew Tool, and the Mount Model Tool will be displayed below.</p></body></html> + <html><head/><body><p>The results from Astrometric Solutions from the Capture and Solve Tool, the Load and Slew Tool, and the Mount Model Tool will be displayed below.</p></body></html> true 0 0 Qt::Horizontal 0 0 6 75 RA AlignCenter Dec AlignCenter Obj Name AlignCenter ~~ AlignCenter dRA AlignCenter dDE AlignCenter 0 32 32 32 32 32 32 32 33 Qt::Horizontal 40 20 Mount Model 0 0 100 100 190 190 Polar Alignment 0 0 0 0 true 0 150 Polar Alignment Assistant (Beta) 3 3 3 3 3 false <p>Polar Alignment Helper tool requires the following:</p><p>1. German Equatorial Mount</p><p>2. Wide FOV &gt; 1 degrees</p><p>For small FOVs, use the Legacy Polar Alignment Tool.</p> QFrame::NoFrame 0 3 3 3 3 3 <html><head/><body><p>This tool provides a simple method to polar align a German equatorial mount. <span style=" font-weight:600;">Unpark</span> your mount, <span style=" font-weight:600;">Point</span> toward the celestial pole, and <span style=" font-weight:600;">Engage</span> sidereal tracking.</p><p>Click <span style=" font-weight:600;">Start</span> to begin the process.</p></body></html> true 3 <html><head/><body><p><span style=" font-weight:600; color:#ff5500;">Disabled: FOV must be 30 arcmins or wider.</span></p></body></html> Qt::RichText Qt::Horizontal 40 20 Start 3 3 3 3 3 <html><head/><body><p>The assistant requires three images to find a solution. The first image shall now be captured and solved. Click <span style=" font-weight:600;">Capture</span> to start.</p></body></html> true 3 Qt::Horizontal 40 20 Capture 3 3 3 3 3 <html><head/><body><p>Select direction and range of <span style=" font-style:italic;">first</span> mount rotation, then click <span style=" font-weight:600;">Rotate</span> to continue. To automate the rest of the process, check <span style=" font-weight:600;">Auto Mode</span>.</p></body></html> true 3 West true East 15 60 15 30 ° Qt::Horizontal 40 20 <html><head/><body><p>Perform the remaining steps automatically</p></body></html> Auto Mode Rotate 3 3 3 3 3 <html><head/><body><p>The second image shall now be captured and solved. Click <span style=" font-weight:600;">Capture</span> to start.</p></body></html> true 3 Qt::Horizontal 40 20 Capture <html><head/><body><p>Select direction and range of final mount rotation, then click <span style=" font-weight:600;">Rotate</span> to continue.</p></body></html> true 3 West true East 15 60 15 30 ° Qt::Horizontal 40 20 Rotate <html><head/><body><p>The final image shall now be captured and solved. Click <span style=" font-weight:600;">Capture</span> to start.</p></body></html> true 3 Qt::Horizontal 40 20 Capture 3 3 3 3 3 Error Occurred true 3 Qt::Horizontal 40 20 Restart 3 <html><head/><body><p>Angle between expected perfectly aligned mount center and the actual center</p></body></html> Polar Error: 0 Qt::Horizontal 40 20 3 0 0 <html><head/><body><p>Correction vector is plotted above. Select a bright star to reposition the correction vector. Click <span style=" font-weight:600;">Next</span> when done.</p></body></html> true Next 3 3 3 3 3 <html><head/><body><p>Adjust mount's Altitude and Azimuth knobs until the selected star is centered within the crosshair. Click <span style=" font-weight:600;">Refresh</span> to begin continuous capture. Click <span style=" font-weight:600;">Done</span> when star is centered.</p></body></html> true 3 Refresh Exposure duration in seconds during refresh phase 1 30 Qt::Horizontal 40 20 Done Restart Legacy Polar Alignment Tool Qt::AlignLeading|Qt::AlignLeft|Qt::AlignTop 3 Az Error: true true Measure Az Error false Correct Az Error Qt::Vertical 3 Alt Error: true true Measure Alt Error false Correct Alt Error Qt::Vertical 20 40 QCustomPlot QWidget
auxiliary/qcustomplot.h
1 solveB loadSlewB stopB syncR slewR nothingR ScopeRAOut ScopeDecOut accuracySpin delaySpin SolverRAOut SolverDecOut dRAOut dDEOut FOVOut CCDCaptureCombo showFITSViewerB exposureIN alignDarkFrameCheck toggleFullScreenB binningCombo solverOptions onlineSolverR offlineSolverR remoteSolverR PAHStartB measureAzB correctAzB measureAltB correctAltB azError altError