[2]: Clear Errors (191)
[3]: [ROVER] 1.5.0 Set steering to 50 degrees
[4]: Run Motor 6 (left front steer) to 622
[5]: Run Motor 7 (right front steer) to 622
[6]: Run Motor 8 (left rear steer) to 622
[7]: Run Motor 9 (right rear steer) to 622
[8]: [ROVER] 1.5.0 Move forward 50 cm w/disabled steering
[9]: Move (distance: 500 mm)
[10]: Move (distance: 0 mm)
[11]: Clear Errors (191)
[12]:[ROVER] 1.5.9 End crabbing
[2]: Clear Errors (191)
[3]: [ROVER] 1.6.0 Set steering to 50 degrees
[4]: Run Motor 6 (left front steer) to -622
[5]: Run Motor 7 (right front steer) to -622
[6]: Run Motor 8 (left rear steer) to -622
[7]: Run Motor 9 (right rear steer) to -622
[8]: [ROVER] 1.6.0 Move forward 50 cm w/disabled steering
[9]: Move (distance: 500 mm)
[10]: Move (distance: 0 mm)
[11]: Clear Errors (191)
[12]:[ROVER] 1.6.9 End crabbing
[2]: Clear Errors (191)
[3]: [ROVER] 1.7.0 Set steering to 50 degrees
[4]: Run Motor 6 (left front steer) to -622
[5]: Run Motor 7 (right front steer) to -622
[6]: Run Motor 8 (left rear steer) to -622
[7]: Run Motor 9 (right rear steer) to -622
[8]: [ROVER] 1.7.0 Move backward 50 cm w/disabled steering
[9]: Move (distance: -500 mm)
[10]: Move (distance: 0 mm)
[11]: Clear Errors (191)
[12]:[ROVER] 1.7.9 End crabbing
[2]: Clear Errors (191)
[3]: [ROVER] 1.8.0 Set steering to 50 degrees
[4]: Run Motor 6 (left front steer) to 622
[5]: Run Motor 7 (right front steer) to 622
[6]: Run Motor 8 (left rear steer) to 622
[7]: Run Motor 9 (right rear steer) to 622
[8]: [ROVER] 1.8.0 Move backward 50 cm w/disabled steering
[9]: Move (distance: -500 mm)
[10]: Move (distance: 0 mm)
[11]: Clear Errors (191)
[12]:[ROVER] 1.8.9 End crabbing
[2]:Generic: set parm dropout limit (Generic)
[2]: Clear Errors (183)
[3]: [ROVER] 2.1.4 WARNING: Confirm dust cover parameter
[4]: Set Parameter: dust_cvr to 800
[5]: MAE
[6]: Clear Errors (183)
[7]:[ROVER] 2.1.9 End MAE experiment
[2]: Clear Errors (183)
[3]: WAE experiment (gain: 0)
[4]: Health Check (level 2)
[5]: Run Motor 3 (right center drive) to -6000
[6]: WAE experiment (gain: 0)
[7]: Health Check (level 2)
[8]: Clear Errors (183)
[9]:[ROVER] 3.1.9 End WAE experiment
[1]:[ROVER] 4.1.1 Begin EOD imaging (earth)
[2]: Image (left,auto,ops,comp:yes,r250-r490,c0-c768,shift=2)
[3]: Image (left,reuse,ops,comp:yes,r10-r250,c0-c768,shift=2)
[4]: Image (right,auto,ops,comp:yes,r250-r298,c0-c768,shift=2)
[5]: Image (right,reuse,ops,comp:yes,r10-r58,c0-c768,shift=2)
[6]: Image (right,reuse,ops,comp:yes,r58-r106,c0-c768,shift=2)
[7]: Image (right,reuse,ops,comp:yes,r106-r154,c0-c768,shift=2)
[8]: Image (right,reuse,ops,comp:yes,r154-r202,c0-c768,shift=2)
[9]: Image (right,reuse,ops,comp:yes,r202-r250,c0-c768,shift=2)
[10]: Image (right,reuse,ops,comp:yes,r298-r346,c0-c768,shift=2)
[11]: Image (right,reuse,ops,comp:yes,r346-r394,c0-c768,shift=2)
[12]: Image (right,reuse,ops,comp:yes,r394-r442,c0-c768,shift=2)
[13]: Image (right,reuse,ops,comp:yes,r442-r490,c0-c768,shift=2)
[14]:[ROVER] 4.1.9 End EOD imaging (earth)
[1]:[ROVER] 4.2.1 Begin EOD imaging (Mars)
[2]: Image (left,auto,ops,comp:yes,r250-r490,c0-c768,shift=2)
[3]: Image (left,reuse,ops,comp:yes,r10-r250,c0-c768,shift=2)
[4]: Image (right,auto,ops,comp:yes,r250-r490,c0-c768,shift=2)
[5]: Image (right,reuse,ops,comp:yes,r10-r250,c0-c768,shift=2)
[6]:[ROVER] 4.2.9 End EOD imaging (Mars)
[1]:[ROVER] 4.5.2 Surface mapping FL image (FUR)
[2]:Image (left,auto,science,comp:no,r96-r375,c193-c576,s2)
[1]:[ROVER] 4.6.2 Surface mapping FR image (FUR)
[2]:Image (right,auto,science,comp:no,r96-r375,c193-c576,s2)
[1]:[ROVER] 5.01.1 Begin soil mechanics experiment (SIM)
[1]:[ROVER] 5.04.1 Begin soil mechanics experiment (SIM)
[1]:[ROVER] 5.05.1 Soil mechanics experiment (FUR)
[1]:[ROVER] 5.07.1 Soil mech left experiment (FUR)
[1]:[ROVER] 5.08.1 Soft soil mech left experiment (FUR)
[1]:[ROVER] 5.09.1 Soft Soil mechanics experiment (FUR)
[1]:[ROVER] 5.10.1 Start Wheelie/Soil actuator tare meaurement
[2]: Clear Errors (247)
[3]: Soil Mechanics (motor:2, counts:500, cycles:3)
[4]: Soil Mechanics (motor:0, counts:2000, cycles:1)
[5]: Soil Mechanics (motor:0, counts:-2000, cycles:1)
[6]: Soil Mechanics (motor:2, counts:-1500, cycles:1)
[7]: Clear Errors (247)
[8]:[ROVER] 5.10.9 End Wheelie/Soil actuator tare measurement
[1]:[ROVER] 5.11.1 Strip surface and draw-bar pull
[1]:[ROVER] 6.1.2 APXS FL image tall pre-deploy (M)
[2]:Image (left,auto,science,comp:no,r40-r383,c184-c724,shift=2)
[1]:[ROVER] 6.2.2 APXS FL image med pre-deploy FUR
[2]:Image (left,auto,science,comp:no,r83-r426,c184-c724,shift=2)
[1]:[ROVER] 6.3.2 APXS FL image soil pre-deploy (FUR)
[2]:Image (left,auto,science,comp:no,r181-r490,c154-c754,shift=2)
[1]:[ROVER] 6.4.2 APXS FR image tall pre-deploy (FUR)
[2]:Image (right,auto,science,comp:no,r40-r383,c44-c584,shift=2)
[1]:[ROVER] 6.5.2 APXS FR image med pre-deploy (FUR)
[2]:Image (right,auto,science,comp:no,r83-r426,c44-c584,shift=2)
[1]:[ROVER] 6.6.2 APXS FR image soil pre-deploy (FUR)
[2]:Image (right,auto,science,comp:no,r181-r490,c14-c614,shift=2)
[1]:[ROVER] 6.10.2 APXS RC image tall deploy (E)
[2]:Image (rear,auto,science,comp:no,r248-r490,c374-c757,shift=2)
[1]:[ROVER] 6.11.2 APXS RC image tall retract (E)
[2]:Image (rear,auto,science,comp:no,r46-r490,c340-c757,shift=2)
[1]:[ROVER] 6.12.2 APXS RC image med deploy (E)
[2]:Image (rear,auto,science,comp:no,r248-r490,c300-c683,shift=2)
[1]:[ROVER] 6.13.2 APXS RC image med retract (E)
[2]:Image (rear,auto,science,comp:no,r46-r490,c266-c683,shift=2)
[1]:[ROVER] 6.14.2 APXS RC image soil deploy (E)
[2]:Image (rear,auto,science,comp:no,r248-r490,c167-c550,shift=2)
[1]:[ROVER] 6.15.2 APXS RC image soil retract (E)
[2]:Image (rear,auto,science,comp:no,r50-r490,c129-c550,shift=2)
[1]:[ROVER] 6.30.2 APXS RC image tall deploy (FUR)
[2]:Image (rear,auto,science,comp:no,r248-r490,c374-c757,shift=1)
[1]:[ROVER] 6.31.2 APXS RC image tall retract (FUR)
[2]:Image (rear,auto,science,comp:no,r46-r490,c340-c757,shift=1)
[1]:[ROVER] 6.32.2 APXS RC image med deploy (FUR)
[2]:Image (rear,auto,science,comp:no,r248-r490,c300-c683,shift=1)
[1]:[ROVER] 6.33.2 APXS RC image med retract (FUR)
[2]:Image (rear,auto,science,comp:no,r46-r490,c266-c683,shift=1)
[1]:[ROVER] 6.34.2 APXS RC image soil deploy (FUR)
[2]:Image (rear,auto,science,comp:no,r248-r490,c167-c550,shift=1)
[1]:[ROVER] 6.35.2 APXS RC image soil retract (FUR)
[2]:Image (rear,auto,science,comp:no,r50-r490,c129-c550,shift=1)
[1]:[ROVER] 6.40.1 APXS RC strip image tall deploy (SIM)
[2]: [ROVER] 6.40.0 rows 242 cols 383
[3]: Image (rear,auto,science,comp:no,r248-r328,c374-c757,s2)
[4]: Image (rear,auto,science,comp:no,r328-r408,c374-c757,s2)
[5]: Image (rear,auto,science,comp:no,r408-r490,c374-c757,s2)
[6]:[ROVER] 6.40.9 End APXS RC strip image
[1]:[ROVER] 6.41.1 APXS RC strip image tall retract (SIM)
[2]: [ROVER] 6.41.0 rows 444 cols 417
[3]: Image (rear,auto,science,comp:no,r46-r126,c340-c757,s2)
[4]: Image (rear,auto,science,comp:no,r126-r206,c340-c757,s2)
[5]: Image (rear,auto,science,comp:no,r206-r286,c340-c757,s2)
[6]: Image (rear,auto,science,comp:no,r286-r366,c340-c757,s2)
[7]: Image (rear,auto,science,comp:no,r366-r446,c340-c757,s2)
[8]: Image (rear,auto,science,comp:no,r446-r490,c340-c757,s2)
[9]:[ROVER] 6.41.9 End APXS RC strip image
[1]:[ROVER] 6.42.1 APXS RC strip image med deploy (SIM)
[2]: [ROVER] 6.42.0 rows 242 cols 383
[3]: Image (rear,auto,science,comp:no,r248-r328,c300-c683,s2)
[4]: Image (rear,auto,science,comp:no,r328-r408,c300-c683,s2)
[5]: Image (rear,auto,science,comp:no,r408-r490,c300-c683,s2)
[6]:[ROVER] 6.42.9 End APXS RC strip image
[1]:[ROVER] 6.43.1 APXS RC strip image med retract (S
[2]: [ROVER] 6.43.0 rows 444 cols 417
[3]: Image (rear,auto,science,comp:no,r46-r126,c266-c683,s2)
[4]: Image (rear,auto,science,comp:no,r126-r206,c266-c683,s2)
[5]: Image (rear,auto,science,comp:no,r206-r286,c266-c683,s2)
[6]: Image (rear,auto,science,comp:no,r286-r366,c266-c683,s2)
[7]: Image (rear,auto,science,comp:no,r366-r446,c266-c683,s2)
[8]: Image (rear,auto,science,comp:no,r446-r490,c266-c683,s2)
[9]:[ROVER] 6.43.9 End APXS RC strip image
[1]:[ROVER] 6.44.1 APXS RC strip image soil deploy (SIM)
[2]: [ROVER] 6.44.0 rows 242 cols 383
[3]: Image (rear,auto,science,comp:no,r248-r328,c167-c550,s2)
[4]: Image (rear,auto,science,comp:no,r328-r408,c167-c550,s2)
[5]: Image (rear,auto,science,comp:no,r408-r490,c167-c550,s2)
[6]:[ROVER] 6.44.9 End APXS RC strip image
[1]:[ROVER] 6.45.1 APXS RC strip image soil retract (SIM)
[2]: [ROVER] 6.45.0 rows 440 cols 421
[3]: Image (rear,auto,science,comp:no,r50-r126,c129-c550,s2)
[4]: Image (rear,auto,science,comp:no,r126-r206,c129-c550,s2)
[5]: Image (rear,auto,science,comp:no,r206-r286,c129-c550,s2)
[6]: Image (rear,auto,science,comp:no,r286-r366,c129-c550,s2)
[7]: Image (rear,auto,science,comp:no,r366-r446,c129-c550,s2)
[8]: Image (rear,auto,science,comp:no,r446-r490,c129-c550,s2)
[9]:[ROVER] 6.45.9 End APXS RC strip image
[1]:[ROVER] 6.51.1 APXS FL mosaic img tall retract (FUR)
[2]: [ROVER] 6.51.0 rows 343 cols 540
[3]: Image (left,auto,science,comp:no,r40-r211,c184-c364,s2)
[4]: Image (left,auto,science,comp:no,r40-r211,c364-c544,s2)
[5]: Image (left,auto,science,comp:no,r40-r211,c544-c724,s2)
[6]: Image (left,auto,science,comp:no,r211-r383,c184-c364,s2)
[7]: Image (left,auto,science,comp:no,r211-r383,c364-c544,s2)
[8]: Image (left,auto,science,comp:no,r211-r383,c544-c724,s2)
[9]:[ROVER] 6.51.9 End APXS FL mosaic image
[1]:[ROVER] 6.52.1 APXS FL mosaic img med retract (FUR)
[2]: [ROVER] 6.52.0 rows 343 cols 540
[3]: Image (left,auto,science,comp:no,r83-r254,c184-c364,s2)
[4]: Image (left,auto,science,comp:no,r83-r254,c364-c544,s2)
[5]: Image (left,auto,science,comp:no,r83-r254,c544-c724,s2)
[6]: Image (left,auto,science,comp:no,r254-r426,c184-c364,s2)
[7]: Image (left,auto,science,comp:no,r254-r426,c364-c544,s2)
[8]: Image (left,auto,science,comp:no,r254-r426,c544-c724,s2)
[9]:[ROVER] 6.52.9 End APXS FL mosaic image
[1]:[ROVER] 6.53.1 APXS FL mosaic img soil retract (FUR)
[2]: [ROVER] 6.53.0 rows 309 cols 600
[3]: Image (left,auto,science,comp:no,r181-r335,c154-c354,s2)
[4]: Image (left,auto,science,comp:no,r181-r335,c354-c554,s2)
[5]: Image (left,auto,science,comp:no,r181-r335,c554-c754,s2)
[6]: Image (left,auto,science,comp:no,r335-r490,c154-c354,s2)
[7]: Image (left,auto,science,comp:no,r335-r490,c354-c554,s2)
[8]: Image (left,auto,science,comp:no,r335-r490,c554-c754,s2)
[9]:[ROVER] 6.53.9 End APXS FL mosaic image
[1]:[ROVER] 6.54.1 APXS FR mosaic img tall retract (FUR)
[2]: [ROVER] 6.54.0 rows 343 cols 540
[3]: Image (right,auto,science,comp:no,r40-r211,c44-c224,s2)
[4]: Image (right,auto,science,comp:no,r40-r211,c224-c404,s2)
[5]: Image (right,auto,science,comp:no,r40-r211,c404-c584,s2)
[6]: Image (right,auto,science,comp:no,r211-r383,c44-c224,s2)
[7]: Image (right,auto,science,comp:no,r211-r383,c224-c404,s2)
[8]: Image (right,auto,science,comp:no,r211-r383,c404-c584,s2)
[9]:[ROVER] 6.54.9 End APXS FR mosaic image
[1]:[ROVER] 6.55.1 APXS FR mosaic img med retract (FU
[2]: [ROVER] 6.55.0 rows 343 cols 540
[3]: Image (right,auto,science,comp:no,r83-r254,c44-c224,s2)
[4]: Image (right,auto,science,comp:no,r83-r254,c224-c404,s2)
[5]: Image (right,auto,science,comp:no,r83-r254,c404-c584,s2)
[6]: Image (right,auto,science,comp:no,r254-r426,c44-c224,s2)
[7]: Image (right,auto,science,comp:no,r254-r426,c224-c404,s2)
[8]: Image (right,auto,science,comp:no,r254-r426,c404-c584,s2)
[9]:[ROVER] 6.55.9 End APXS FR mosaic image
[1]:[ROVER] 6.56.1 APXS FR mosaic img soil retract (F
[2]: [ROVER] 6.56.0 rows 309 cols 600
[3]: Image (right,auto,science,comp:no,r181-r335,c14-c214,s2)
[4]: Image (right,auto,science,comp:no,r181-r335,c214-c414,s2)
[5]: Image (right,auto,science,comp:no,r181-r335,c414-c614,s2)
[6]: Image (right,auto,science,comp:no,r335-r490,c14-c214,s2)
[7]: Image (right,auto,science,comp:no,r335-r490,c214-c414,s2)
[8]: Image (right,auto,science,comp:no,r335-r490,c414-c614,s2)
[9]:[ROVER] 6.56.9 End APXS FR mosaic image
[1]:[ROVER] 6.71.1 APXS RC mosaic img tall deploy (FUR)
[2]: [ROVER] 6.71.0 rows 242 cols 383
[3]: Image (rear,auto,science,comp:no,r248-r369,c374-c501,s1)
[4]: Image (rear,auto,science,comp:no,r248-r369,c501-c629,s1)
[5]: Image (rear,auto,science,comp:no,r248-r369,c629-c757,s1)
[6]: Image (rear,auto,science,comp:no,r369-r490,c374-c501,s1)
[7]: Image (rear,auto,science,comp:no,r369-r490,c501-c629,s1)
[8]: Image (rear,auto,science,comp:no,r369-r490,c629-c757,s1)
[9]:[ROVER] 6.71.9 End APXS RC mosaic image
[1]:[ROVER] 6.72.1 APXS RC mosaic img tall retract (FUR)
[2]: [ROVER] 6.72.0 rows 444 cols 417
[3]: Image (rear,auto,science,comp:no,r46-r194,c340-c548,s1)
[4]: Image (rear,auto,science,comp:no,r194-r342,c340-c548,s1)
[5]: Image (rear,auto,science,comp:no,r342-r490,c340-c548,s1)
[6]: Image (rear,auto,science,comp:no,r46-r194,c548-c757,s1)
[7]: Image (rear,auto,science,comp:no,r194-r342,c548-c757,s1)
[8]: Image (rear,auto,science,comp:no,r342-r490,c548-c757,s1)
[9]:[ROVER] 6.72.9 End APXS RC mosaic image
[1]:[ROVER] 6.73.1 APXS RC mosaic img med deploy (FUR)
[2]: [ROVER] 6.73.0 rows 242 cols 383
[3]: Image (rear,auto,science,comp:no,r248-r369,c300-c427,s1)
[4]: Image (rear,auto,science,comp:no,r248-r369,c427-c555,s1)
[5]: Image (rear,auto,science,comp:no,r248-r369,c555-c683,s1)
[6]: Image (rear,auto,science,comp:no,r369-r490,c300-c427,s1)
[7]: Image (rear,auto,science,comp:no,r369-r490,c427-c555,s1)
[8]: Image (rear,auto,science,comp:no,r369-r490,c555-c683,s1)
[9]:[ROVER] 6.73.9 End APXS RC mosaic image
[1]:[ROVER] 6.74.1 APXS RC mosaic img med retract (FU
[2]: [ROVER] 6.74.0 rows 444 cols 417
[3]: Image (rear,auto,science,comp:no,r46-r194,c266-c474,s1)
[4]: Image (rear,auto,science,comp:no,r194-r342,c266-c474,s1)
[5]: Image (rear,auto,science,comp:no,r342-r490,c266-c474,s1)
[6]: Image (rear,auto,science,comp:no,r46-r194,c474-c683,s1)
[7]: Image (rear,auto,science,comp:no,r194-r342,c474-c683,s1)
[8]: Image (rear,auto,science,comp:no,r342-r490,c474-c683,s1)
[9]:[ROVER] 6.74.9 End APXS RC mosaic image
[1]:[ROVER] 6.75.1 APXS RC mosaic img soil deploy (FU
[2]: [ROVER] 6.75.0 rows 242 cols 383
[3]: Image (rear,auto,science,comp:no,r248-r369,c167-c294,s1)
[4]: Image (rear,auto,science,comp:no,r248-r369,c294-c422,s1)
[5]: Image (rear,auto,science,comp:no,r248-r369,c422-c550,s1)
[6]: Image (rear,auto,science,comp:no,r369-r490,c167-c294,s1)
[7]: Image (rear,auto,science,comp:no,r369-r490,c294-c422,s1)
[8]: Image (rear,auto,science,comp:no,r369-r490,c422-c550,s1)
[9]:[ROVER] 6.75.9 End APXS RC mosaic image
[1]:[ROVER] 6.76.1 APXS RC mosaic img soil retract (FUR)
[2]: [ROVER] 6.76.0 rows 440 cols 421
[3]: Image (rear,auto,science,comp:no,r50-r196,c129-c340,s1)
[4]: Image (rear,auto,science,comp:no,r196-r343,c129-c340,s1)
[5]: Image (rear,auto,science,comp:no,r343-r490,c129-c340,s1)
[6]: Image (rear,auto,science,comp:no,r50-r196,c340-c550,s1)
[7]: Image (rear,auto,science,comp:no,r196-r343,c340-c550,s1)
[8]: Image (rear,auto,science,comp:no,r343-r490,c340-c550,s1)
[9]:[ROVER] 6.76.9 End APXS RC mosaic image
[1]:[ROVER] 8.1.1 Begin APXS night ops read
[2]: Set Parameter: hold_comm to 1
[3]: Send APXS Command (RESET)
[4]: Wait 1 Second (Relative)
[5]: Send APXS Command (TX_START)
[6]: Turn Off Devices (128)
[7]: Clear Errors (255)
[8]: Set Parameter: hold_comm to 0
[9]:[ROVER] 8.1.9 End APXS night ops read
[1]:[ROVER] 9.1.1 Start Thermal Test
[2]: Set Error Mask (96)
[3]: Health Check (level 2)
[4]: Heat WEB heater for 3 Minutes
[5]: Health Check (level 0)
[6]: Wait 55 Seconds (Relative)
[7]: Health Check (level 0)
[8]: Wait 55 Seconds (Relative)
[9]: Health Check (level 0)
[10]: Wait 55 Seconds (Relative)
[11]: Health Check (level 0)
[12]: Wait 55 Seconds (Relative)
[13]: Health Check (level 0)
[14]: Wait 55 Seconds (Relative)
[15]: Health Check (level 0)
[16]: Wait 5 Minutes (Relative)
[17]: Health Check (level 2)
[18]: Set Error Mask (255)
[19]: Clear Errors (183)
[20]:[ROVER] 9.1.9 End Thermal Test
[1]:[ROVER] 9.2.2 Read persistent state table
[2]:Read Memory (memory segment:0, start address:5212hex, number of bytes:387)
[1]:[ROVER] 9.3.2 Reset Rover without shutdown
[2]:Generic (shutdown 0)
[1]:[ROVER] 9.4.1 Begin Night Ops Prep
[2]: Health Check (level 3)
[3]: [ROVER] 9.2.2 Read persistent state table
[4]: Read Memory
[5]: Clear Errors (255)
[6]: Set Parameter: batt_usage to 41
[7]: Set Parameter: modem_heat to 0
[8]: Set Parameter: modem_reheat to 0
[9]: Synch Clock
[10]:[ROVER] 9.4.9 End Night Ops Prep
[1]:[ROVER] 9.5.1 Begin Daytime Ops Prep
[2]: Set Parameter: batt_usage to 57
[3]: Health Check (level 3)
[4]: [ROVER] 9.2.2 Read persistent state table
[5]: Read Memory
[6]: Clear Errors (255)
[7]: Synch Clock
[8]:[ROVER] 9.5.9 End Daytime Ops Prep
[1]:[ROVER] 9.9.1 Start Thermal Test
[2]: Set Error Mask (96)
[3]: Health Check (level 2)
[4]: Heat left motors for 3 Minutes
[5]: Health Check (level 0)
[6]: Wait 55 Seconds (Relative)
[7]: Health Check (level 0)
[8]: Wait 55 Seconds (Relative)
[9]: Health Check (level 0)
[10]: Wait 55 Seconds (Relative)
[11]: Health Check (level 0)
[12]: Wait 55 Seconds (Relative)
[13]: Health Check (level 0)
[14]: Wait 55 Seconds (Relative)
[15]: Health Check (level 0)
[16]: Wait 5 Minutes (Relative)
[17]: Health Check (level 2)
[18]: Set Error Mask (255)
[19]: Clear Errors (183)
[20]:[ROVER] 9.9.9 End Thermal Test
TRAVERSE MACROS
Macro 1.5 Forward Left Crabbing at 50 Degrees
Macro Title:
1.5 Forward Left Crabbing at 50 Degrees Description:
This macro performs a crabbing maneuver useful in moving away
from an obstacle unusually close to the right side of the rover.
Command sequence:
[1]:[ROVER] 1.5.1 Forward left crabbing at 50 degrees
Usage notes:
Planet:
Earth/Mars
Vehicle:
SIM/FUR
Warnings:
Execution time:
Telemetry volume:
2100 bytes
Additional information:
Macro 1.6 Forward Right Crabbing at 50 Degrees
Macro Title:
1.6 Forward Right Crabbing at 50 Degrees Description:
This macro performs a crabbing maneuver useful in moving away
from an obstacle unusually close to the left side of the rover.
Command sequence:
[1]:[ROVER] 1.6.1 Forward right crabbing at 50 degrees
Usage notes:
Planet:
Earth/Mars
Vehicle:
SIM/FUR
Warnings:
Execution time:
Telemetry volume:
2100 bytes
Additional information:
Macro 1.7 Backward Left Crabbing at 50 Degrees
Macro Title:
1.7 Backward Left Crabbing at 50 Degrees Description:
This macro performs a crabbing maneuver useful in moving away
from an obstacle unusually close to the right side of the rover.
Command sequence:
[1]:[ROVER] 1.7.1 Backward left crabbing at 50 degrees
Usage notes:
Planet:
Earth/Mars
Vehicle:
SIM/FUR
Warnings:
Execution time:
Telemetry volume:
2100 bytes
Additional information:
Macro 1.8 Backward Right Crabbing at 50 Degrees
Macro Title:
1.8 Backward Right Crabbing at 50 Degrees Description:
This macro performs a crabbing maneuver useful in moving away
from an obstacle unusually close to the left side of the rover.
Command sequence:
[1]:[ROVER] 1.8.1 Backward right crabbing at 50 degrees
Usage notes:
Planet:
Earth/Mars
Vehicle:
SIM/FUR
Warnings:
Execution time:
Telemetry volume:
2100 bytes
Additional information:
Macro 1.9 Set Dropout Limit to 3
Macro Title:
1.9 Set Dropout Limit to 3 Description:
This macro sets the allowable number of laser dropouts
during hazard detection to three, to prevent interpretation of
normal dropouts as a hazard.
Command sequence:
[1]:[ROVER] 1.9.2 Set dropout limit to three
Usage notes:
Planet:
Earth/Mars
Vehicle:
SIM/FUR
Warnings:
Execution time:
Telemetry volume:
2100 bytes
Additional information:
MAE MACROS
Macro 2.1 MAE Experiment (baseline)
Macro Title:
2.1 MAE Experiment (baseline) Description:
This macro performs the baseline MAE experiment.
Command sequence:
[1]:[ROVER] 2.1.1 Begin MAE experiment
Usage notes:
The dust_cvr parameter value must be verified each time the macro
is used. The parameter value is temperature dependent; an incorrect
value may result in permanent damage to the dust cover mechanism.
Flight rule requires that the dust cover parameter be set immediately
before performing the MAE
command.
Planet:
Earth/Mars
Vehicle:
SIM/FUR
Warnings:
The parameter value is temperature dependent; an incorrect
value may result in permanent damage to the dust cover mechanism.
Execution time:
Telemetry volume:
146 bytes (1168 bits)
Additional information:
WAE MACROS
Macro 3.1 WAE Experiment (baseline)
Macro Title:
3.1 WAE Experiment (baseline) Description:
This macro performs the baseline WAE experiment.
Command sequence:
[1]:[ROVER] 3.1.1 Begin WAE experiment
Usage notes:
Planet:
Earth/Mars
Vehicle:
SIM/FUR
Warnings:
Execution time:
Telemetry volume:
140.7Kbytes (17592 bits)
Additional information:
IMAGING MACROS
Macro 4.1 End of Day Operations Imaging (Earth)
Macro Title:
4.1 End-of-Day Operations Imaging Description:
This macro performs baseline rover end-of-day operations imaging.
The right camera image is exposed in several strips to compensate for
dark current effects at Earth ambient temperatures.
Command sequence:
Usage notes:
Planet:
Earth
Vehicle:
SIM
Warnings:
Execution time:
Telemetry volume:
152.6Kbytes (1,220,640 bits)
Additional information:
Macro 4.2 End of Day Operations Imaging (Mars)
Macro Title:
4.2 End-of-Day Operations Imaging (Mars ambient) Description:
This macro performs baseline rover end-of-day operations imaging,
assuming Mars ambient temperatures.
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
152.1Kbytes (1,216,800 bits)
Additional information:
Macro 4.5 Surface Mapping Image with Front Left Camera (FUR)
Macro Title:
4.5 Surface Mapping Image with Front Left Camera (FUR) Description:
After positioning the rover in azimuth, this macro can be used to
image the surfaces hidden from the IMP and combined with the corresponding
right front image taken from the same rover position for stereo viewing
ad stereometric measurements.
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
108.4Kbytes (0.867 Mbits)
Additional information:
Macro 4.6 Surface Mapping Image with Front Right Camera (FUR)
Macro Title:
4.6 Surface Mapping Image with Front Right Camera (FUR) Description:
After positioning the rover in azimuth, this macro can be used to
image the surfaces hidden from the IMP and combined with the corresponding
left front image taken from the same rover position for stereo viewing
ad stereometric measurements.
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
108.4Kbytes (0.867 Mbits)
Additional information:
SOIL MECHANICS MACROS
Macro 5.01 Soil Mechanics Experiment (SIM)
Macro Title:
5.01 Soil Mechanics Experiment (SIM) Description:
This macro is an outdated version of the baseline soil mechanics experiment. It is designated
for SIM use only because the embedded imaging assumes a rear B&W camera and
Earth ambient temperatures.
Command sequence:
[2]: Health Check (level 2)
[3]: Image (rear,auto,tech,comp:no,r50-r100,c250-c400,shift=2)
[4]: Image (rear,reuse,tech,comp:no,r100-r150,c250-c400,shift=2)
[5]: Image (rear,reuse,tech,comp:no,r150-r200,c250-c400,shift=2)
[6]: Image (rear,reuse,tech,comp:no,r200-r250,c250-c400,shift=2)
[7]: Soil Mechanics (motor:5, counts:500, cycles:4)
[8]: Health Check (level 2)
[9]: Image (rear,auto,tech,comp:no,r50-r100,c0-c400,shift=2)
[10]: Image (rear,reuse,tech,comp:no,r100-r150,c0-c400,shift=2)
[11]: Image (rear,reuse,tech,comp:no,r150-r200,c0-c400,shift=2)
[12]: Image (rear,reuse,tech,comp:no,r200-r250,c0-c400,shift=2)
[13]: Move (distance: 200 mm)
[14]: Image (rear,auto,tech,comp:no,r50-r100,c0-c474,shift=2)
[15]: Image (rear,reuse,tech,comp:no,r100-r150,c0-c474,shift=2)
[16]: Image (rear,reuse,tech,comp:no,r150-r200,c0-c474,shift=2)
[17]: Image (rear,reuse,tech,comp:no,r200-r250,c0-c474,shift=2)
[18]: Health Check (level 2)
[19]: Soil Mechanics (motor:1, counts:500, cycles:4)
[20]: Health Check (level 2)
[21]: [ROVER] 5.01.0 Wait for IMP imaging
[22]: Wait 10 Minutes (Relative)
[23]: Run Motor 6 (left front steer) to 500
[24]: Run Motor 8 (left rear steer) to -500
[25]: Run Motor 9 (right rear steer) to -250
[26]: Image (right,auto,tech,comp:no,r238-r252,c400-c768,shift=2)
[27]: Image (right,reuse,tech,comp:no,r252-r300,c400-c768,shift=2)
[28]: Image (right,reuse,tech,comp:no,r300-r348,c400-c768,shift=2)
[29]: Image (right,reuse,tech,comp:no,r348-r396,c400-c768,shift=2)
[30]: Image (right,reuse,tech,comp:no,r396-r444,c400-c768,shift=2)
[31]: Image (right,reuse,tech,comp:no,r444-r488,c400-c768,shift=2)
[32]: Set Device 20 to 8
[33]: [ROVER] 5.01.8 Expect ERROR due to failed motor
[34]: Move (distance: 80 mm)
[35]: Health Check (level 2)
[36]: Image (left,auto,tech,comp:no,r252-r488,c474-c764,shift=2)
[37]: Image (right,auto,tech,comp:no,r252-r300,c400-c768,shift=2)
[38]: Image (right,reuse,tech,comp:no,r300-r348,c400-c768,shift=2)
[39]: Image (right,reuse,tech,comp:no,r348-r396,c400-c768,shift=2)
[40]: Image (right,reuse,tech,comp:no,r396-r444,c400-c768,shift=2)
[41]: Image (right,reuse,tech,comp:no,r444-r488,c400-c768,shift=2)
[42]: Set Device 20 to 1
[43]: Move (distance: -80 mm)
[44]: Clear Errors (247)
[45]: Health Check (level 2)
[46]:[ROVER] 5.01.9 End soil mechanics experiment (SIM
Usage notes:
Planet:
Earth
Vehicle:
SIM
Warnings:
Execution time:
Telemetry volume:
468Kbytes (3,744,296 bits)
Additional information:
Macro 5.04 Baseline Soil Mechanics Experiment (SIM)
Macro Title:
5.04 Baseline Soil Mechanics Experiment (SIM) Description:
This macro performs the baseline soil mechanics experiment. It is designated
for SIM use only because the embedded imaging assumes a rear B&W camera and
Earth ambient temperatures.
Command sequence:
[2]: Move (distance: 0 mm)
[3]: Health Check (level 2)
[4]: Image (rear,auto,tech,comp:no,r50-r100,c220-c400,s2)
[5]: Image (rear,auto,tech,comp:no,r100-r150,c220-c400,s2)
[6]: Image (rear,auto,tech,comp:no,r150-r200,c220-c400,s2)
[7]: Image (rear,auto,tech,comp:no,r200-r275,c220-c400,s2)
[8]: Soil Mechanics (motor:5, counts:500, cycles:4)
[9]: Health Check (level 2)
[10]: [ROVER] 5.04.0 Rear image after dig
[11]: Image (rear,auto,tech,comp:no,r50-r100,c0-c200,s2)
[12]: Image (rear,auto,tech,comp:no,r50-r100,c200-c435,s2)
[13]: Image (rear,reuse,tech,comp:no,r100-r150,c0-c200,s2)
[14]: Image (rear,reuse,tech,comp:no,r100-r150,c200-c435,s2)
[15]: Image (rear,reuse,tech,comp:no,r150-r200,c0-c200,s2)
[16]: Image (rear,reuse,tech,comp:no,r150-r200,c200-c435,s2)
[17]: Image (rear,reuse,tech,comp:no,r200-r250,c0-c200,s2)
[18]: Image (rear,reuse,tech,comp:no,r200-r250,c200-c435,s2)
[19]: [ROVER] 5.04.0 Wait for S0054 IMP imaging
[20]: Wait (Relative)
[21]: Move (distance: 200 mm)
[22]: [ROVER] 5.04.0 Image after exiting dig
[23]: Image (rear,auto,tech,comp:no,r50-r100,c0-c240,s2)
[24]: Image (rear,auto,tech,comp:no,r50-r100,c240-c474,s2)
[25]: Image (rear,reuse,tech,comp:no,r100-r150,c0-c240,s2)
[26]: Image (rear,reuse,tech,comp:no,r100-r150,c240-c474,s2)
[27]: Image (rear,reuse,tech,comp:no,r150-r200,c0-c240,s2)
[28]: Image (rear,reuse,tech,comp:no,r150-r200,c240-c474,s2)
[29]: Image (rear,reuse,tech,comp:no,r200-r250,c0-c240,s2)
[30]: Image (rear,reuse,tech,comp:no,r200-r250,c240-c474,s2)
[31]: Health Check (level 2)
[32]: Soil Mechanics (motor:1, counts:500, cycles:1)
[33]: Soil Mechanics (motor:3, counts:-15, cycles:1)
[34]: Soil Mechanics (motor:1, counts:500, cycles:1)
[35]: Soil Mechanics (motor:3, counts:-15, cycles:1)
[36]: Soil Mechanics (motor:1, counts:500, cycles:1)
[37]: Soil Mechanics (motor:3, counts:-15, cycles:1)
[38]: Soil Mechanics (motor:1, counts:500, cycles:1)
[39]: Soil Mechanics (motor:3, counts:-15, cycles:1)
[40]: Health Check (level 2)
[41]: Run Motor 6 (left front steer) to 500
[42]: Run Motor 8 (left rear steer) to -500
[43]: Run Motor 9 (right rear steer) to -250
[44]: Image (right,auto,tech,comp:no,r230-r280,c400-c718,s2)
[45]: Image (right,reuse,tech,comp:no,r250-r300,c400-c718,s2)
[46]: Image (right,reuse,tech,comp:no,r300-r350,c400-c718,s2)
[47]: Image (right,reuse,tech,comp:no,r350-r400,c400-c718,s2)
[48]: Set Device 20 to 8
[49]: [ROVER] 5.04.8 Expect ERROR due to failed motor
[50]: Move (distance: 80 mm)
[51]: Health Check (level 2)
[52]: [ROVER] 5.04.0 Wait for S0053 IMP imaging
[53]: Wait (Relative)
[54]: Image (left,auto,tech,comp:no,r252-r488,c474-c764,s2)
[55]: Image (right,auto,tech,comp:no,r158-r252,c400-c718,s2)
[56]: Image (right,auto,tech,comp:no,r252-r300,c400-c718,s2)
[57]: Image (right,reuse,tech,comp:no,r300-r348,c400-c718,s2)
[58]: Image (right,reuse,tech,comp:no,r348-r396,c400-c718,s2)
[59]: Image (right,reuse,tech,comp:no,r396-r444,c400-c718,s2)
[60]: Image (right,reuse,tech,comp:no,r444-r488,c400-c718,s2)
[61]: Set Device 20 to 1
[62]: Move (distance: -80 mm)
[63]: Clear Errors (247)
[64]: Health Check (level 2)
[65]:[ROVER] 5.04.9 End soil mechanics experiment (SIM)
Usage notes:
Planet:
Earth
Vehicle:
SIM
Warnings:
Execution time:
Telemetry volume:
Additional information:
Macro 5.05 Baseline Soil Mechanics Experiment (FUR)
Macro Title:
5.05 Baseline Soil Mechanics Experiment (FUR) Description:
This macro performs the baseline FUR soil mechanics experiment. It is designated
for FUR use only because the embedded imaging assumes a rear color camera and
Mars ambient temperatures.
Command sequence:
[2]: Move (distance: 0 mm)
[3]: Health Check (level 2)
[4]: Image (rear,auto,tech,comp:no,r50-r275,c220-c400,s1)
[5]: Soil Mechanics (motor:5, counts:500, cycles:4)
[6]: Health Check (level 2)
[7]: [ROVER] 5.05.0 Rear image after dig
[8]: Image (rear,auto,tech,comp:no,r50-r250,c0-c145,s1)
[9]: Image (rear,auto,tech,comp:no,r50-r250,c145-c290,s1)
[10]: Image (rear,auto,tech,comp:no,r50-r250,c290-c435,s1)
[11]: [ROVER] 5.05.0 Wait for S0054 IMP imaging
[12]: Wait 10 minutes (Relative)
[13]: Move (distance: 200 mm)
[14]: [ROVER] 5.05.0 Image after exiting dig
[15]: Image (rear,auto,tech,comp:no,r50-r250,c0-c118,s1)
[16]: Image (rear,auto,tech,comp:no,r50-r250,c118-c273,s1)
[17]: Image (rear,auto,tech,comp:no,r50-r250,c273-c356,s1)
[18]: Image (rear,auto,tech,comp:no,r50-r250,c356-c474,s1)
[19]: Health Check (level 2)
[20]: Soil Mechanics (motor:1, counts:500, cycles:1)
[21]: Soil Mechanics (motor:3, counts:-15, cycles:1)
[22]: Soil Mechanics (motor:1, counts:500, cycles:1)
[23]: Soil Mechanics (motor:3, counts:-15, cycles:1)
[24]: Soil Mechanics (motor:1, counts:500, cycles:1)
[25]: Soil Mechanics (motor:3, counts:-15, cycles:1)
[26]: Soil Mechanics (motor:1, counts:500, cycles:1)
[27]: Soil Mechanics (motor:3, counts:-15, cycles:1)
[28]: Health Check (level 2)
[29]: Run Motor 6 (left front steer) to 500
[30]: Run Motor 8 (left rear steer) to -500
[31]: Run Motor 9 (right rear steer) to -250
[32]: Image (right,auto,tech,comp:no,r230-r400,c400-c718,s2)
[33]: Set Device 20 to 8
[34]: [ROVER] 5.05.8 Expect ERROR due to failed motor
[35]: Move (distance: 80 mm)
[36]: Health Check (level 2)
[37]: [ROVER] 5.05.0 Wait for S0053 IMP imaging
[38]: Wait 10 minutes (Relative)
[39]: Image (left,auto,tech,comp:no,r252-r488,c474-c764,s2)
[40]: Image (right,auto,tech,comp:no,r158-r488,c400-c718,s2)
[41]: Set Device 20 to 1
[42]: Move (distance: -80 mm)
[43]: Clear Errors (247)
[44]: Health Check (level 2)
[45]:[ROVER] 5.05.9 End soil mechanics experiment (FUR)
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
Additional information:
Macro 5.07 Baseline Left Soil Mechanics Experiment (FUR)
Macro Title:
5.07 Baseline Left Soil Mechanics Experiment (FUR) Description:
This macro performs an alternate baseline FUR soil mechanics experiment.
The wheel push segment of the experiment is performed on the rover's left
side, rather than the right, in case this proves to be a better side for
IMP imaging.
The macro is designated
for FUR use only because the embedded imaging assumes a rear color camera and
Mars ambient temperatures.
Command sequence:
[2]: Move (distance: 0 mm)
[3]: Health Check (level 2)
[4]: Image (rear,auto,tech,comp:no,r50-r275,c220-c400,s1)
[5]: Soil Mechanics (motor:5, counts:500, cycles:4)
[6]: Health Check (level 2)
[7]: [ROVER] 5.07.0 Rear image after dig
[8]: Image (rear,auto,tech,comp:no,r50-r250,c0-c145,s1)
[9]: Image (rear,auto,tech,comp:no,r50-r250,c145-c290,s1)
[10]: Image (rear,auto,tech,comp:no,r50-r250,c290-c435,s1)
[11]: [ROVER] 5.07.0 Wait for S0054 IMP imaging
[12]: Wait 10 minutes (Relative)
[13]: Move (distance: 200 mm)
[14]: [ROVER] 5.07.0 Image after exiting dig
[15]: Image (rear,auto,tech,comp:no,r50-r250,c0-c118,s1)
[16]: Image (rear,auto,tech,comp:no,r50-r250,c118-c273,s1)
[17]: Image (rear,auto,tech,comp:no,r50-r250,c273-c356,s1)
[18]: Image (rear,auto,tech,comp:no,r50-r250,c356-c474,s1)
[19]: Health Check (level 2)
[20]: Soil Mechanics (motor:0, counts:500, cycles:1)
[21]: Soil Mechanics (motor:2, counts:-22, cycles:1)
[22]: Soil Mechanics (motor:0, counts:500, cycles:1)
[23]: Soil Mechanics (motor:2, counts:-22, cycles:1)
[24]: Soil Mechanics (motor:0, counts:500, cycles:1)
[25]: Soil Mechanics (motor:2, counts:-22, cycles:1)
[26]: Soil Mechanics (motor:0, counts:500, cycles:1)
[27]: Soil Mechanics (motor:2, counts:-22, cycles:1)
[28]: Health Check (level 2)
[29]: Run Motor 7 (right front steer) to -500
[30]: Run Motor 9 (right rear steer) to 500
[31]: Run Motor 8 (left rear steer) to 250
[32]: Image (left,auto,tech,comp:no,r230-r400,c50-c368,s2)
[33]: Set Device 19 to 8
[34]: [ROVER] 5.07.8 Expect ERROR due to failed motor
[35]: Move (distance: 80 mm)
[36]: Health Check (level 2)
[37]: [ROVER] 5.07.0 Wait for S0053 IMP imaging
[38]: Wait 10 minutes (Relative)
[39]: Image (left,auto,tech,comp:no,r158-r488,c40-c370,s2)
[40]: Image (right,auto,tech,comp:no,r252-r488,c5-c295,s2)
[41]: Set Device 19 to 1
[42]: Move (distance: -80 mm)
[43]: Clear Errors (247)
[44]: Health Check (level 2)
[45]:[ROVER] 5.07.9 End soil mechanics experiment (FUR)
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
Additional information:
Macro 5.08 Left Side Soft Soil Mechanics Experiment (FUR)
Macro Title:
5.08 Left Side Soft Soil Mechanics Experiment (FUR) Description:
This macro performs an alternate FUR soil mechanics experiment. This
macro is intended to be used when the rover is operating in soft soil.
The wheel push segment of the experiment is performed on the rover's left
side, rather than the right, in case this proves to be a better side for
IMP imaging.
The macro is designated
for FUR use only because the embedded imaging assumes a rear color camera and
Mars ambient temperatures.
Command sequence:
[2]: Move (distance: 0 mm)
[3]: Health Check (level 2)
[4]: Image (rear,auto,tech,comp:no,r50-r275,c220-c400,s1)
[5]: Soil Mechanics (motor:5, counts:250, cycles:4)
[6]: Health Check (level 2)
[7]: [ROVER] 5.08.0 Rear image after dig
[8]: Image (rear,auto,tech,comp:no,r50-r250,c0-c145,s1)
[9]: Image (rear,auto,tech,comp:no,r50-r250,c145-c290,s1)
[10]: Image (rear,auto,tech,comp:no,r50-r250,c290-c435,s1)
[11]: [ROVER] 5.08.0 Wait for S0054 IMP imaging
[12]: Wait 10 minutes (Relative)
[13]: Move (distance: 200 mm)
[14]: [ROVER] 5.08.0 Image after exiting dig
[15]: Image (rear,auto,tech,comp:no,r50-r250,c0-c118,s1)
[16]: Image (rear,auto,tech,comp:no,r50-r250,c118-c273,s1)
[17]: Image (rear,auto,tech,comp:no,r50-r250,c273-c356,s1)
[18]: Image (rear,auto,tech,comp:no,r50-r250,c356-c474,s1)
[19]: Health Check (level 2)
[20]: Soil Mechanics (motor:0, counts:250, cycles:1)
[21]: Soil Mechanics (motor:2, counts:-7, cycles:1)
[22]: Soil Mechanics (motor:0, counts:250, cycles:1)
[23]: Soil Mechanics (motor:2, counts:-7, cycles:1)
[24]: Soil Mechanics (motor:0, counts:250, cycles:1)
[25]: Soil Mechanics (motor:2, counts:-7, cycles:1)
[26]: Soil Mechanics (motor:0, counts:250, cycles:1)
[27]: Soil Mechanics (motor:2, counts:-7, cycles:1)
[28]: Health Check (level 2)
[29]: Run Motor 7 (right front steer) to -500
[30]: Run Motor 9 (right rear steer) to 500
[31]: Run Motor 8 (left rear steer) to 250
[32]: Image (left,auto,tech,comp:no,r230-r400,c50-c368,s2)
[33]: Set Device 19 to 8
[34]: [ROVER] 5.08.8 Expect ERROR due to failed motor
[35]: Move (distance: 80 mm)
[36]: Health Check (level 2)
[37]: [ROVER] 5.07.0 Wait for S0053 IMP imaging
[38]: Wait 10 minutes (Relative)
[39]: Image (left,auto,tech,comp:no,r158-r488,c40-c370,s2)
[40]: Image (right,auto,tech,comp:no,r252-r488,c5-c295,s2)
[41]: Set Device 19 to 1
[42]: Move (distance: -80 mm)
[43]: Clear Errors (247)
[44]: Health Check (level 2)
[45]:[ROVER] 5.08.9 End soil mechanics experiment (FUR)
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
Additional information:
Macro 5.09 Soft Soil Mechanics Experiment (FUR)
Macro Title:
5.09 Soft Soil Mechanics Experiment (FUR) Description:
This macro performs an alternate FUR soil mechanics experiment.
Wheel counts for all soil mechanics commands have been reduced to avoid
burying rover wheels deeply into the soil.
The macro is designated
for FUR use only because the embedded imaging assumes a rear color camera and
Mars ambient temperatures.
Command sequence:
[2]: Move (distance: 0 mm)
[3]: Health Check (level 2)
[4]: Image (rear,auto,tech,comp:no,r50-r275,c220-c400,s1)
[5]: Soil Mechanics (motor:5, counts:250, cycles:4)
[6]: Health Check (level 2)
[7]: [ROVER] 5.09.0 Rear image after dig
[8]: Image (rear,auto,tech,comp:no,r50-r250,c0-c145,s1)
[9]: Image (rear,auto,tech,comp:no,r50-r250,c145-c290,s1)
[10]: Image (rear,auto,tech,comp:no,r50-r250,c290-c435,s1)
[11]: [ROVER] 5.09.0 Wait for S0054 IMP imaging
[12]: Wait 10 minutes (Relative)
[13]: Move (distance: 200 mm)
[14]: [ROVER] 5.09.0 Image after exiting dig
[15]: Image (rear,auto,tech,comp:no,r50-r250,c0-c118,s1)
[16]: Image (rear,auto,tech,comp:no,r50-r250,c118-c273,s1)
[17]: Image (rear,auto,tech,comp:no,r50-r250,c273-c356,s1)
[18]: Image (rear,auto,tech,comp:no,r50-r250,c356-c474,s1)
[19]: Health Check (level 2)
[20]: Soil Mechanics (motor:1, counts:250, cycles:1)
[21]: Soil Mechanics (motor:3, counts:-7, cycles:1)
[22]: Soil Mechanics (motor:1, counts:250, cycles:1)
[23]: Soil Mechanics (motor:3, counts:-7, cycles:1)
[24]: Soil Mechanics (motor:1, counts:250, cycles:1)
[25]: Soil Mechanics (motor:3, counts:-7, cycles:1)
[26]: Soil Mechanics (motor:1, counts:250, cycles:1)
[27]: Soil Mechanics (motor:3, counts:-7, cycles:1)
[28]: Health Check (level 2)
[29]: Run Motor 6 (left front steer) to 500
[30]: Run Motor 8 (left rear steer) to -500
[31]: Run Motor 9 (right rear steer) to -250
[32]: Image (right,auto,tech,comp:no,r230-r400,c400-c718,s2)
[33]: Set Device 20 to 8
[34]: [ROVER] 5.09.8 Expect ERROR due to failed motor
[35]: Move (distance: 80 mm)
[36]: Health Check (level 2)
[37]: [ROVER] 5.09.0 Wait for S0053 IMP imaging
[38]: Wait 10 minutes (Relative)
[39]: Image (left,auto,tech,comp:no,r252-r488,c474-c764,s2)
[40]: Image (right,auto,tech,comp:no,r158-r488,c400-c718,s2)
[41]: Set Device 20 to 1
[42]: Move (distance: -80 mm)
[43]: Clear Errors (247)
[44]: Health Check (level 2)
[45]:[ROVER] 5.09.9 End soil mechanics experiment (FUR)
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
80 minutes
Telemetry volume:
3.71 Mbits
Additional information:
Macro 5.10 Wheelie/Soil Actuator Tare Measurement
Macro Title:
5.10 Wheelie/Soil Actuator Tare Measurement Description:
Command sequence:
Usage notes:
Planet:
Earth
Vehicle:
SIM
Warnings:
Execution time:
Telemetry volume:
7538 bytes (60,304 bits)
Additional information:
Macro 5.11 Strip Surface and Draw-Bar Pull
Macro Title:
5.11 Strip Surface and Draw-Bar Pull Description:
Command sequence:
[2]: Error Report (placeholder)
[2]: Move (distance: 40 mm)
[3]: Health Check (level 2)
[4]: Set Device 24 to 8
[5]: Move (distance: 200 mm)
[6]: [ROVER] 5.11.8 Expect ERROR due to failed motor
[7]: Turn Left/Right (by -10.00 degrees)
[8]: Set Device 24 to 1
[9]: Move (distance: -203 mm)
[10]: Turn Left/Right (by 10.00 degrees)
[11]: Set Device 24 to 8
[12]: Move (distance: 200 mm)
[13]: [ROVER] 5.11.8 Expect ERROR due to failed motor
[14]: Turn Left/Right (by -10.00 degrees)
[15]: Set Device 24 to 1
[16]: Move (distance: -203 mm)
[17]: Turn Left/Right (by 10.00 degrees)
[18]: Set Device 24 to 8
[19]: Move (distance: 200 mm)
[20]: [ROVER] 5.11.8 Expect ERROR due to failed motor
[21]: Turn Left/Right (by -10.00 degrees)
[22]: Set Device 24 to 1
[23]: Move (distance: -203 mm)
[24]: Turn Left/Right (by 10.00 degrees)
[25]: Set Device 24 to 8
[26]: Move (distance: 200 mm)
[27]: [ROVER] 5.11.8 Expect ERROR due to failed motor
[28]: Turn Left/Right (by -10.00 degrees)
[29]: Set Device 24 to 1
[30]: Move (distance: 0 mm)
[31]: Image (rear,auto,tech,comp:no,r1-r490,c100-c200,s1)
[32]: Image (rear,auto,tech,comp:no,r1-r490,c200-c300,s1)
[33]: Image (rear,auto,tech,comp:no,r1-r490,c300-c400,s1)
[34]: [ROVER] 5.11.0 Wait for S0054 IMP imaging
[35]: Wait 10 minutes (Relative)
[36]: [ROVER] 5.11.0 Nominal end draw-bar pull experime
[37]: [ROVER] 5.11.0 Optional APXS placement follows. Delete previous
imaging by rover if using this option.
[38]: Turn Left/Right (by -20.00 degrees)
[39]: Move (distance: -40 mm)
[40]: Set Parameter: contact_mask to 1887
[41]: Deploy APXS (-1980 counts)
[42]: Clear Errors (255)
[43]: Health Check (level 2)
[44]:[ROVER] 5.11.9 End draw-bar pull experiment
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
35 minutes
Telemetry volume:
165Kbytes (1.319 Mbits)
Additional information:
APXS IMAGING MACROS
Macro 6.1 Image Tall Rock with Front Left Camera
Macro Title:
6.1 Image Tall Rock with Front Left Camera Description:
After a find rock, this macro can be used to image a tall rock
with the front left camera before the rover turns around for
final APXS placement
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
187.9Kbytes (1,503,240 bits)
Additional information:
Macro 6.2 Image Medium Rock with Front Left Camera
Macro Title:
6.2 Image Medium Rock with Front Left Camera Description:
After a find rock, this macro can be used to image a medium rock
with the front left camera before the rover turns around for
final APXS placement
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
187.9Kbytes (1,503,240 bits)
Additional information:
Macro 6.3 Image Soil with Front Left Camera (FUR)
Macro Title:
6.3 Image Soil with Front Left Camera (FUR) Description:
After a find rock, this macro can be used to image an APXS soil site
with the front left camera before the rover turns around for
final APXS placement
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
188.1Kbytes (1,504,680 bits)
Additional information:
Macro 6.4 Image Tall Rock with Front Right Camera (FUR)
Macro Title:
6.4 Image Tall Rock with Front Right Camera (FUR)
Description:
After a find rock, this macro can be used to image an APXS tall rock site
with the front right camera before the rover turns around for
final APXS placement
Command sequence:
Usage notes:
Planet:
Earth
Vehicle:
SIM
Warnings:
Execution time:
Telemetry volume:
187.9Kbytes (1,503,240 bits)
Additional information:
Macro 6.5 Image Medium Rock with Front Right Camera (FUR)
Macro Title:
6.5 Image Medium Rock with Front Right Camera (FUR)
Description:
After a find rock, this macro can be used to image an APXS medium rock site
with the front right camera before the rover turns around for
final APXS placement
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
187.9Kbytes (1,503,240 bits)
Additional information:
Macro 6.6 Image Soil with Front Right Camera (FUR)
Macro Title:
6.6 Image Soil with Front Right Camera (FUR)
Description:
After a find rock, this macro can be used to image an APXS soil site
with the front right camera before the rover turns around for
final APXS placement
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
188.1Kbytes (1,504,680 bits)
Additional information:
Macro 6.10 Image Tall Rock with Rear Camera ADM_Deployed (Earth)
Macro Title:
6.10 Image Tall Rock with Rear Camera ADM_Deployed (Earth)
Description:
This macro captures the appropriate image of a tall rock after the APXS
has been deployed onto its surface. The shift factor used is appropriate for
the SIM rear camera.
Command sequence:
Usage notes:
Planet:
Earth
Vehicle:
SIM
Warnings:
Execution time:
Telemetry volume:
94.1Kbytes (752,448 bits)
Additional information:
Macro 6.11 Image Tall Rock with Rear Camera ADM-Retracted (Earth)
Macro Title:
6.11 Image Tall Rock with Rear Camera ADM-Retracted (Earth)
Description:
This macro captures the appropriate image of a tall rock either
before the APXS has been deployed or after the APXS
has been retracted from its surface. The shift factor used is appropriate for
the SIM rear camera.
Command sequence:
Usage notes:
Planet:
Earth
Vehicle:
SIM
Warnings:
Execution time:
Telemetry volume:
187.8Kbytes (1,502,664 bits)
Additional information:
Macro 6.12 Image Medium Rock with Rear Camera ADM-Deployed (Earth)
Macro Title:
6.12 Image Medium Rock with Rear Camera ADM-Deployed (Earth)
Description:
This macro captures the appropriate image of a medium rock after the APXS
has been deployed onto its surface. The shift factor used is appropriate for
the SIM rear camera.
Command sequence:
Usage notes:
Planet:
Earth
Vehicle:
SIM
Warnings:
Execution time:
Telemetry volume:
94.1Kbytes (752,448 bits)
Additional information:
Macro 6.13 Image Medium Rock with Rear Camera ADM-Retracted (Earth)
Macro Title:
6.13 Image Medium Rock with Rear Camera ADM-Retracted (Earth)
Description:
This macro captures the appropriate image of a medium rock either
before the APXS has been deployed or after the APXS
has been retracted from its surface. The shift factor used is appropriate for
the SIM rear camera.
Command sequence:
Usage notes:
Planet:
Earth
Vehicle:
SIM
Warnings:
Execution time:
Telemetry volume:
187.8Kbytes (1,502,664 bits)
Additional information:
Macro 6.14 Image Soil with Rear Camera ADM-Deployed (Earth)
Macro Title:
6.14 Image Soil with Rear Camera ADM-Deployed (Earth)
Description:
This macro captures the appropriate image of soil after the APXS
has been deployed onto its surface. The shift factor used is appropriate for
the SIM rear camera.
Command sequence:
Usage notes:
Planet:
Earth
Vehicle:
SIM
Warnings:
Execution time:
Telemetry volume:
94.1Kbytes (752,448 bits)
Additional information:
Macro 6.15 Image Soil with Rear Camera ADM-Retracted (Earth)
Macro Title:
6.15 Image Soil with Rear Camera ADM-Retracted (Earth)
Description:
This macro captures the appropriate image of soil either
before the APXS has been deployed or after the APXS
has been retracted from its surface. The shift factor used is appropriate for
the SIM rear camera.
Command sequence:
Usage notes:
Planet:
Earth
Vehicle:
SIM
Warnings:
Execution time:
Telemetry volume:
187.9 Kbytes (1,503,400 bits)
Additional information:
Macro 6.30 Image Tall Rock with Rear Camera ADM-Deployed (FUR)
Macro Title:
6.30 Image Tall Rock with Rear Camera ADM-Deployed (FUR)
Description:
This macro captures the appropriate image of a tall rock after the APXS
has been deployed onto its surface. The shift factor used is appropriate for
the FUR color rear camera.
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
94.1Kbytes (752,448 bits)
Additional information:
Macro 6.31 Image Tall Rock with Rear Camera ADM-Retracted (FUR)
Macro Title:
6.31 Image Tall Rock with Rear Camera ADM-Retracted (FUR)
Description:
This macro captures the appropriate image of a tall rock either
before the APXS has been deployed or after the APXS
has been retracted from its surface. The shift factor used is appropriate for
the FUR color rear camera.
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
187.8Kbytes (1,502,664 bits)
Additional information:
Macro 6.32 Image Medium Rock with Rear Camera ADM-Deployed (FUR)
Macro Title:
6.32 Image Medium Rock with Rear Camera ADM-Deployed (FUR)
Description:
This macro captures the appropriate image of a medium rock after the APXS
has been deployed to its surface. The shift factor used is appropriate for
the FUR color rear camera.
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
94.1Kbytes (752,448 bits)
Additional information:
Macro 6.33 Image Medium Rock with Rear Camera ADM-Retracted (FUR)
Macro Title:
6.33 Image Medium Rock with Rear Camera ADM-Retracted (FUR)
Description:
This macro captures the appropriate image of a medium rock either
before the APXS has been deployed or after the APXS
has been retracted from its surface. The shift factor used is appropriate for
the FUR color rear camera.
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
187.8Kbytes (1,502,664 bits)
Additional information:
Macro 6.34 Image Soil with Rear Camera ADM-Deployed (FUR)
Macro Title:
6.34 Image Soil with Rear Camera ADM-Deployed (FUR)
Description:
This macro captures the appropriate image of a soil site after the APXS
has been deployed to its surface. The shift factor used is appropriate for
the FUR color rear camera.
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
94.1Kbytes (752,448 bits)
Additional information:
Macro 6.35 Image Soil with Rear Camera ADM-Retracted (FUR)
Macro Title:
6.35 Image Soil with Rear Camera ADM-Retracted (FUR)
Description:
This macro captures the appropriate image of a soil site either
before the APXS has been deployed or after the APXS
has been retracted from its surface. The shift factor used is appropriate for
the FUR color rear camera.
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
187.9Kbytes (1,503,400 bits)
Additional information:
Macro 6.40 Strip Image Tall Rock with Rear Camera ADM-Deployed (SIM)
Macro Title:
6.40 Strip Image Tall Rock with Rear Camera ADM-Deployed (SIM)
Description:
This macro captures the appropriate image of a tall rock site after the APXS
has been deployed to its surface. The image is divided into strips to provide
useful images at Earth ambient temperatures. The shift factor used is appropriate for
the SIM rear camera.
Command sequence:
Usage notes:
Planet:
Earth
Vehicle:
SIM
Warnings:
Execution time:
Telemetry volume:
94.1Kbytes (753,512 bits)
Additional information:
Macro 6.41 Strip Image Tall Rock with Rear Camera ADM-Retracted (SIM)
Macro Title:
6.41 Strip Image Tall Rock with Rear Camera ADM-Retracted (SIM)
Description:
This macro captures the appropriate image of a tall rock site either
before the APXS has been deployed or after the APXS
has been retracted from its surface. The image is divided into strips to provide
useful images at Earth ambient temperatures. The shift factor used is appropriate for
the SIM rear camera.
Command sequence:
Usage notes:
Planet:
Earth
Vehicle:
SIM
Warnings:
Execution time:
Telemetry volume:
188.1Kbytes (1,505,056 bits)
Additional information:
Macro 6.42 Strip Image Medium Rock with Rear Camera ADM-Deployed (SIM)
Macro Title:
6.42 Strip Image Medium Rock with Rear Camera ADM-Deployed (SIM)
Description:
This macro captures the appropriate image of a medium rock site after the APXS
has been deployed to its surface. The image is divided into strips to provide
useful images at Earth ambient temperatures. The shift factor used is appropriate for
the SIM rear camera.
Command sequence:
Usage notes:
Planet:
Earth
Vehicle:
SIM
Warnings:
Execution time:
Telemetry volume:
94.1Kbytes (753,512 bits)
Additional information:
Macro 6.43 Strip Image Medium Rock with Rear Camera ADM-Retracted (SIM)
Macro Title:
6.43 Strip Image Medium Rock with Rear Camera ADM-Retracted (SIM)
Description:
This macro captures the appropriate image of a medium rock site either
before the APXS has been deployed or after the APXS
has been retracted from its surface. The image is divided into strips to provide
useful images at Earth ambient temperatures. The shift factor used is appropriate for
the SIM rear camera.
Command sequence:
Usage notes:
Planet:
Earth
Vehicle:
SIM
Warnings:
Execution time:
Telemetry volume:
188.1Kbytes (1,505,056 bits)
Additional information:
Macro 6.44 Strip Image Soil with Rear Camera ADM-Deployed (SIM)
Macro Title:
6.44 Strip Image Soil with Rear Camera ADM-Deployed (SIM)
Description:
This macro captures the appropriate image of a soil site after the APXS
has been deployed to its surface. The image is divided into strips to provide
useful images at Earth ambient temperatures. The shift factor used is appropriate for
the SIM rear camera.
Command sequence:
Usage notes:
Planet:
Earth
Vehicle:
SIM
Warnings:
Execution time:
Telemetry volume:
94.1Kbytes (753,512 bits)
Additional information:
Macro 6.45 Strip Image Soil with Rear Camera ADM-Retracted (SIM)
Macro Title:
6.45 Strip Image Soil with Rear Camera ADM-Retracted (SIM)
Description:
This macro captures the appropriate image of a soil site either
before the APXS has been deployed or after the APXS
has been retracted from its surface. The image is divided into strips to provide
useful images at Earth ambient temperatures. The shift factor used is appropriate for
the SIM rear camera.
Command sequence:
Usage notes:
Planet:
Earth
Vehicle:
SIM
Warnings:
Execution time:
Telemetry volume:
188.2Kbytes (1,505,776 bits)
Additional information:
Macro 6.51 Mosaic Image Tall Rock with Front Left Camera (FUR)
Macro Title:
6.51 Mosaic Image Tall Rock with Front Left Camera (FUR)
Description:
This macro captures an image of a tall rock site with the front left
camera after
completion of a 'Find Rock' command, before the rover turns in place to
face the ADM towards the rock.
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
Additional information:
Macro 6.52 Mosaic Image Medium Rock with Front Left Camera (FUR)
Macro Title:
6.52 Mosaic Image Medium Rock with Front Left Camera (FUR)
Description:
This macro captures an image of a medium height rock site with the front left
camera after
completion of a 'Find Rock' command, before the rover turns in place to
face the ADM towards the rock.
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
Additional information:
Macro 6.53 Mosaic Image Soil with Front Left Camera (FUR)
Macro Title:
6.53 Mosaic Image Soil with Front Left Camera (FUR)
Description:
This macro captures an image of a soil site with the front left
camera after
completion of a 'Find Rock' command, before the rover turns in place to
face the ADM towards the rock.
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
Additional information:
Macro 6.54 Mosaic Image Tall Rock with Front Right Camera (FUR)
Macro Title:
6.54 Mosaic Image Tall Rock with Front Right Camera (FUR)
Description:
This macro captures an image of a tall rock site with the front right
camera after
completion of a 'Find Rock' command, before the rover turns in place to
face the ADM towards the rock.
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
Additional information:
Macro 6.55 Mosaic Image Medium Rock with Front Right Camera (FUR)
Macro Title:
6.55 Mosaic Image Medium Rock with Front Right Camera (FUR)
Description:
This macro captures an image of a medium height rock site with the front right
camera after
completion of a 'Find Rock' command, before the rover turns in place to
face the ADM towards the rock.
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
Additional information:
Macro 6.56 Mosaic Image Soil with Front Right Camera (FUR)
Macro Title:
6.56 Mosaic Image Soil with Front Right Camera (FUR)
Description:
This macro captures an image of a soil site with the front right
camera after
completion of a 'Find Rock' command, before the rover turns in place to
face the ADM towards the rock.
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
Additional information:
Macro 6.71 Mosaic Image Tall Rock with Rear Camera, APXS Deployed (FUR)
Macro Title:
6.71 Mosaic Image Tall Rock with Rear Camera (FUR)
Description:
This macro captures an image of a tall rock site with the rear
camera after the APXS head has been deployed onto its surface.
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
Additional information:
Macro 6.72 Mosaic Image Tall Rock with Rear Camera, APXS Retracted (FUR)
Macro Title:
6.72 Mosaic Image Tall Rock with Rear Camera (FUR)
Description:
This macro captures an image of a tall rock site with the rear
camera with the APXS head retracted from its surface.
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
Additional information:
Macro 6.73 Mosaic Image Medium Rock with Rear Camera, APXS Deployed (FUR)
Macro Title:
6.73 Mosaic Image Medium Rock with Rear Camera, APXS Deployed (FUR)
Description:
This macro captures an apprpriate image of a medium rock site with the rear
camera with the APXS head deployed onto its surface.
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
Additional information:
Macro 6.74 Mosaic Image Medium Rock with Rear Camera, APXS Retracted (FUR)
Macro Title:
6.74 Mosaic Image Medium Rock with Rear Camera, APXS Retracted (FUR)
Description:
This macro captures an apprpriate image of a medium rock site with the rear
camera with the APXS head retracted.
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
Additional information:
Macro 6.75 Mosaic Image Soil Site with Rear Camera, APXS Deployed (FUR)
Macro Title:
6.75 Mosaic Image Soil Site with Rear Camera, APXS Deployed (FUR)
Description:
This macro captures an appropriate image of a soil site with the rear
camera with the APXS head deployed.
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
Additional information:
Macro 6.76 Mosaic Image Soil Site with Rear Camera, APXS Retracted (FUR)
Macro Title:
6.76 Mosaic Image Soil Site with Rear Camera, APXS Retracted (FUR)
Description:
This macro captures an apprpriate image of a soil site with the rear
camera with the APXS head retracted.
Command sequence:
Usage notes:
Planet:
Mars
Vehicle:
FUR
Warnings:
Execution time:
Telemetry volume:
Additional information:
APXS INSTRUMENT OPERATION MACROS
Macro 8.1 APXS Night Operations Read
Macro Title:
8.1 APXS Night Operations Read
Description:
This macro reads out the APXS overnight. It assumes that
APXS_NIGHT is set, so that the APXS collects data whenever the rover
is shutdown, and that the APXS is off whenever the rover is awake.
Command sequence:
Usage notes:
Planet:
Earth/Mars
Vehicle:
SIM/FUR
Warnings:
Execution time:
Telemetry volume:
2,603 bytes (20,824 bits)
Additional information:
MISCELLANEOUS MACROS
Macro 9.1 WEB Thermal Test
Macro Title:
9.1 Thermal Test
Description:
This macro performs a thermal test by operating the
WEB heater for three minutes, then observing WEB
temperatures for the next 10 minutes.
Command sequence:
Usage notes:
Planet:
Earth/Mars
Vehicle:
SIM/FUR
Warnings:
Execution time:
Telemetry volume:
1,544 bytes (12,352 bits)
Additional information:
Macro 9.2 Read Persistent State Table
Macro Title:
9.2 Read Persistent State Table
Description:
This macro reads the appropriate area in memory
containing the rover's persistent state table.
Command sequence:
Usage notes:
Planet:
Earth/Mars
Vehicle:
SIM/FUR
Warnings:
Execution time:
Telemetry volume:
414 bytes (3,312 bits)
Additional information:
Macro 9.3 Rover Reset
Macro Title:
9.3 Rover Reset
Description:
This macro performs a "SHUTDOWN 0" command, reseting
the rover without putting the rover to sleep.
Command sequence:
Usage notes:
Planet:
Earth/Mars
Vehicle:
SIM/FUR
Warnings:
Execution time:
Telemetry volume:
59 bytes (472 bits)
Additional information:
Macro 9.4 Night Operations Prep
Macro Title:
9.4 Night Operations Prep
Description:
This macro sets appropriate parameters in preparation for
overnight rover operations.
Command sequence:
Usage notes:
Planet:
Earth/Mars
Vehicle:
SIM/FUR
Warnings:
Execution time:
Telemetry volume:
Additional information:
Macro 9.5 Daytime Operations Prep
Macro Title:
9.5 Daytime Operations Prep
Description:
This macro sets appropriate parameters after initial
morning wakeup in preparation for
daytime rover operations.
Command sequence:
Usage notes:
Planet:
Earth/Mars
Vehicle:
SIM/FUR
Warnings:
Execution time:
Telemetry volume:
Additional information:
Macro 9.9 External Thermal Characterization Test
Macro Title:
9.9 External Thermal Characterization Test
Description:
This macro performs a thermal test by operating the
right motor heater circuit for three minutes, then observing
temperatures for the next 10 minutes.
Command sequence:
Usage notes:
Planet:
Earth/Mars
Vehicle:
SIM/FUR
Warnings:
Execution time:
Telemetry volume:
1,544 bytes (12,352 bits)
Additional information: