public async Task <bool> StartTrackingAsync(string mapName) { _skillHelper.LogMessage($"Attempting to track within map {mapName}."); _abort = false; // We don't get the newly loaded map back from Occ software until we start and stop tracking. So... _skillHelper.LogMessage("Loading map and starting tracking."); _misty.SetCurrentSlamMap(mapName, OnResponse); await Task.Delay(1000); _misty.StartTracking(OnResponse); await _skillHelper.MoveHeadAsync(_headPitchOffset, _headRollOffset, _headYawOffset); _misty.RegisterSlamStatusEvent(SlamStatusCallback, 0, true, "MapDockSlamStatusEvent", null, OnResponse); _misty.RegisterSelfStateEvent(SelfStateCallback, 250, true, "MapDockSelfStateEvent", OnResponse); // There is a current defect where switching maps does not fully take effect until we start tracking // and stop tracking. So we need to start, stop, and re-start. _misty.StopTracking(OnResponse); await Task.Delay(4000); _misty.StartTracking(OnResponse); await Task.Delay(4000); _misty.GetMap(OnResponse); await Task.Delay(4000); if (_slamStatus == null || _slamStatus.SensorStatus != MistyRobotics.Common.Types.SlamSensorMode.Streaming) { _skillHelper.LogMessage("Failed to start tracking."); Cleanup(); return(false); } _skillHelper.LogMessage("Checking for pose."); int count = 0; while (_slamStatus.RunMode != MistyRobotics.Common.Types.SlamRunningMode.Tracking && count++ < 40) { await _skillHelper.TurnAsync(10); _misty.GetSlamStatus(OnResponse); } if (_slamStatus.RunMode == MistyRobotics.Common.Types.SlamRunningMode.Tracking) { _skillHelper.LogMessage($"Pose acquired. Map cell is [{_mapCell.X},{_mapCell.Y}]. Map yaw is {_mapYaw:f2}."); _tracking = true; } else { _skillHelper.LogMessage("Unable to obtain pose."); Cleanup(); _tracking = false; } return(_tracking); }
private async Task <bool> ExecuteDockAsync() { _charging = false; // Set head position. await _skillHelper.MoveHeadAsync(_headPitchOffset, _headRollOffset, _headYawOffset); if (_abort) { return(false); } // Find the charger. if (!await FindChargerAsync()) { return(false); } // Get Misty aligned with charger based upon charger pose X and Euler angle. int retries = 0; while (Math.Abs(_chargerPose.X) > ALIGNED_X || Math.Abs(_chargerPose.EulerYaw) > ALIGNED_EULER_YAW) { if (retries++ > ALIGN_MAX_RETRIES) { _skillHelper.LogMessage("Failed to align with charger."); return(false); } _skillHelper.LogMessage($"Charger position is [{_chargerPose.X:f3}, {_chargerPose.Y:f3}, {_chargerPose.Z:f3}] meters. Euler yaw is {_chargerPose.EulerYaw:f3} degrees."); await FaceChargerAsync(ALIGNED_X); if (_abort) { return(false); } if (Math.Abs(_chargerPose.X) > ALIGNED_X || Math.Abs(_chargerPose.EulerYaw) > ALIGNED_EULER_YAW) { await AlignWithChargerAsync(); if (Math.Abs(_chargerPose.Z - IDEAL_ALIGNMENT_DISTANCE) > .1) { await _skillHelper.DriveAsync(_chargerPose.Z - IDEAL_ALIGNMENT_DISTANCE); } } } _skillHelper.LogMessage($"Charger position is [{_chargerPose.X:f3}, {_chargerPose.Y:f3}, {_chargerPose.Z:f3}] meters. Euler yaw is {_chargerPose.EulerYaw:f3} degrees."); // Backup and drive straight forward to check alignment. double chargerDistance = _chargerPose.Z; var offsets = new List <double>(); await _skillHelper.DriveAsync(-1.0, true); await Task.Delay(1000); offsets.Add(_chargerPose.X); for (int i = 0; i < 6; i++) { await _skillHelper.DriveAsync(.25, true); await Task.Delay(1000); offsets.Add(_chargerPose.X); } foreach (var o in offsets) { _skillHelper.LogMessage(o.ToString("f3")); } double slope = (offsets[0] - offsets.Last()) / 1.5; double estimateFinalOffset = offsets.Last() - slope * 0.5; double offsetAngle = -Math.Asin(estimateFinalOffset / 0.4) * 180.0 / Math.PI; _skillHelper.LogMessage($"Estimate final offset {estimateFinalOffset:f3} meters and {offsetAngle} degrees."); if (Math.Abs(offsetAngle) > FINAL_OFFSET_ANGLE_MAX) { _skillHelper.LogMessage("Offset angle is too large. Backing up and retrying dock process."); await _skillHelper.DriveAsync(-IDEAL_ALIGNMENT_DISTANCE + 0.25); return(false); } await _skillHelper.TurnAsync(offsetAngle); // Turn around. _skillHelper.LogMessage("Turning 180 degrees to face away from charger."); await _skillHelper.TurnAsync(-180); if (_abort) { return(false); } // Back on to charger. _skillHelper.LogMessage($"Driving {chargerDistance - 0.5 + CHARGER_DOCK_OVERSHOOT:f3} meters to back on to charger."); await _skillHelper.DriveAsync(-chargerDistance + 0.5 - CHARGER_DOCK_OVERSHOOT, true); if (_abort) { return(false); } // Check if we've ended up on top of the wedge. await Task.Delay(1000); _skillHelper.LogMessage($"Roll = {_skillHelper.ImuRoll:f3}. Pitch = {_skillHelper.ImuPitch:f3}."); if (Math.Abs(_skillHelper.ImuRoll) > MISTY_ON_WEDGE_ROLL || Math.Abs(AxisRotation(_initialPitch, _skillHelper.ImuPitch)) > MISTY_ON_WEDGE_PITCH) { // We're on the wedge. Drive away from the charger and try again. _skillHelper.LogMessage($"We appear to have driven on top of the alignment wedge. IMU roll is {_skillHelper.ImuRoll:f3}. IMU pitch is {_skillHelper.ImuPitch:f3}."); await _skillHelper.DriveAsync(IDEAL_ALIGNMENT_DISTANCE - 0.1); if (_abort) { return(false); } await _skillHelper.TurnAsync(180); _chargerPose = null; return(false); } // Check that we're fully docked: back up a little bit to get more aligned. _misty.DriveHeading(0, 0.2, 500, true, OnResponse); // It can take several seconds for the charging indicator to update... await Task.Delay(7000); // Check that we're charging. if (!_charging) { _misty.PlayAudio("s_Anger3.wav", 100, OnResponse); await _skillHelper.DriveAsync(IDEAL_ALIGNMENT_DISTANCE - 0.1); if (_abort) { return(false); } await _skillHelper.TurnAsync(180); _chargerPose = null; return(false); } _misty.PlayAudio("s_Ecstacy.wav", 100, OnResponse); return(true); }
private Task <bool> TurnAsync(double degrees) { return(_skillHelper.TurnAsync(degrees)); }