HiRISE | Stereo Pairs

Stereo Pairs

An explanation of stereo pairs and their use (PDF)

Planned stereo pairs have suitable stereo convergence angles and illumination by design. In addition to planned stereo pairs, the Pairendipity software can identify overlapping HiRISE images that are serendipitously suitable for stereo processing and find stereo pairs within the CTX dataset.

Planned HiRISE stereo pairs are listed in the “Stereo Pair List (CSV)” link below. Since this list is based on produced stereo anaglyphs it also contains a few serendipitous pairs that underwent special processing. Most serendipitous HiRISE stereo pairs are listed in the “Pairendipity Stereo” link, while CTX stereo pairs are listed in “Pairendipity CTX Stereo”.

Images taken close together in time minimize illumination and frost differences and are especially useful (see the Delta-Days column in the Pairendipity files or difference the orbit numbers in the image IDs in the Stereo Pair List file). Stereo pairs with both images planned within the same 14-day (168-orbit) operations cycle are known as SPORCs.

Stereo Pair List (csv) Pairendipity Stereo Pairendipity CTX Stereo SPORCs

Defrosting Dunes in Chasma Boreale: ESP_080112_2645 ESP_080139_2645 (Interval in Earth days: 2)
Center lat.	Center long.	1st half roll angle	2nd half roll angle	1st half incidence angle	2nd half incidence angle
84.55	336.	8.30	-5.70	61.4	62.2
North Polar Residual Cap: ESP_080027_2685 ESP_072140_2685 (Interval in Earth days: 615)
Center lat.	Center long.	1st half roll angle	2nd half roll angle	1st half incidence angle	2nd half incidence angle
88.45	183.	-27.	-19.8	65.4	73.7
Valleys along Lower Wallrock Slopes in Juventae Chasma: ESP_079825_1760 ESP_080313_1760 (Interval in Earth days: 38)
Center lat.	Center long.	1st half roll angle	2nd half roll angle	1st half incidence angle	2nd half incidence angle
-4.19	297.	-2.1	-14.2	59.4	60.5
Potential Fluvial Ripples on Surface above Shalbatana Vallis: ESP_079811_1875 ESP_079877_1875 (Interval in Earth days: 5)
Center lat.	Center long.	1st half roll angle	2nd half roll angle	1st half incidence angle	2nd half incidence angle
7.589	318.	-2.2	-21.2	53.2	54.8
Dune Interaction with Residual Polar Ice: ESP_080069_2605 ESP_080583_2610 (Interval in Earth days: 40)
Center lat.	Center long.	1st half roll angle	2nd half roll angle	1st half incidence angle	2nd half incidence angle
80.66	98.6	-8.3	6.294	59.7	63.1
Preserved Meanders in Jezero Crater Outlet: ESP_079846_1990 ESP_079701_1990 (Interval in Earth days: 11)
Center lat.	Center long.	1st half roll angle	2nd half roll angle	1st half incidence angle	2nd half incidence angle
18.72	78.4	29.1	12.20	46.0	47.2
Mid-Erg Dunes in Abalos Undae: ESP_079970_2615 ESP_079996_2615 (Interval in Earth days: 2)
Center lat.	Center long.	1st half roll angle	2nd half roll angle	1st half incidence angle	2nd half incidence angle
81.57	279.	-8.8	6.529	59.7	58.9
High-Latitude Icy Terrains: ESP_079916_2585 ESP_080074_2585 (Interval in Earth days: 12)
Center lat.	Center long.	1st half roll angle	2nd half roll angle	1st half incidence angle	2nd half incidence angle
78.55	317.	-8.2	6.069	57.8	57.7
North Polar Residual Cap Topography: ESP_079914_2695 ESP_079678_2695 (Interval in Earth days: 19)
Center lat.	Center long.	1st half roll angle	2nd half roll angle	1st half incidence angle	2nd half incidence angle
89.39	308.	-20.	-22.6	65.0	64.3
Dune and Gully Monitoring in Northern Mid-Latitude Crater: ESP_079951_2390 ESP_080083_2390 (Interval in Earth days: 10)
Center lat.	Center long.	1st half roll angle	2nd half roll angle	1st half incidence angle	2nd half incidence angle
58.74	87.3	6.02	-12.0	48.2	50.5
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