THE HUMAN REMOTE SENSER IN SPACE:¶
Contents
Since the first man in space (Yuri Gagarin of the USSR), cosmonauts and astronauts have taken photos with cameras pointed out of their spacecraft windows. The writer (NMS) recalls his conversation with Scott Carpenter (the second American in space), who was my passenger being driven to a Conference I organized where Carpenter was the keynote speaker, about that Mercury flight. He said he got so excited by the view out the window that he spent more than the allotted time for picture taking, acting really as a space tourist fascinated by the scenes below, prompting a plea from Mission Control to get back on track. The background to the long, well-organized U.S. programs to survey the Earth with a camera (which was also done on the Moon) is given on this first page. The Mercury and Gemini programs are described, with representative pictures.
THE HUMAN REMOTE SENSER IN SPACE:¶
ASTRONAUT PHOTOGRAPHY¶
Guest Writer: Dr. Paul D. Lowman, Jr.
History of Photography during Manned Space Missions¶
Every U.S. manned mission since 1962 has included a look back at Earth by film photography, generally with hand-held cameras. This photography has been one of the most productive but least-known products of the U.S. civilian space program. This Section briefly summarizes the history and current status of such photography, focusing especially on geologically useful targets, i.e., land areas. We present the photography according to each program, although photography is rarely more than an incidental activity on most manned missions. (Women routinely fly on NASA missions, so, euphemisms for “manned” are not necessary). We add one example from the Soviet/Russian missions.
` <>`__12-1: To get you into the mood to think “astronautical”, who was the first man in space, the first American in space, the first American to orbit Earth, and the first “dynamic duo” of Americans to orbit the planet? **ANSWER**
For the missions in general, the most readable and authoritative account is a book entitled, “Liftoff” (1988) by one of the astronauts, Michael Collins of Apollo 11 fame *. A general reference covering all of American space photography through 1989 appears in the journal Geocarto International, vol. 4, no. 1, 1989. Collections of astronaut photographs prior to those shot from the Space Shuttle are the mainstays of two books, “Space Panorama” and “The Third Planet” by the author (PDL, Jr.) *.
To facilitate readability, we cite references by placing a blue asterisk near or next to individuals involved, such that the reader can access the full reference optionally. We list only the most important references this way. The literature on the subject is now quite extensive. We follow the same approach, cited by a double asterisk (**), for several tables that list photo equipment used in various missions.
Internet access to information about most of the U.S. astronaut missions, along with selected photos taken during these flights, is available at http://images.jsc.nasa.gov (select the Press Release option button).
` <>`__12-2: Does the Mojave Desert appear anywhere in this photo? **ANSWER**
Mercury and Gemini Photography¶
Astronaut photography started with the Mercury program. The unmanned MA-4 mission carried an automatic 70mm camera that returned systematic coverage of North Africa. NASA sent the photos to Morrison and Chown of Canada’s McGill University for detailed analysis. All four Mercury orbital missions included hand-held cameras, primarily the precision German-made Hasselblad cameras, available commercially:
` <>`__12-3: Does this picture give you a clue as to the origin of the term “delta”? `ANSWER <Sect12_answers.html#12-3>`__
This Gemini 11 photo illustrates how the astronauts see the Earth’s curvature from altitudes of several hundred kilometers. The scene shows almost all of the Indian subcontinent; the white areas in the background near the horizon are possibly clouds atop the snow-covered Himalayas.
on horizon (right top) and Sri Lanka (Ceylon), the island nation, at lower right.|
The flight plan (plots of orbits) for Gemini 12 is shown in this map:
One of the key photos obtained during this mission shows Oman, the Straits of Hormuz, the Persian Gulf, and part of the Zagros Mountains of Iran.
` <>`__12-4: Which way is South in this picture? **ANSWER**
To keep space photography in perspective, we note that the U.S. Air Force conducted film photography of the Earth’s surface, as differentiated from weather satellite imaging (Section 14), since 1960, under the now-declassified CORONA program. This program amassed thousands of high resolution pictures, but these and the programs that procured them (CORONA, ARGON, and LANYARD) were highly classified then. Published in Life, the National Geographic, and many newspapers, the Gemini photographs were the first real demonstration of the scientific and applied utility of space photography. They are, even today, of archival value, because in three decades since they were taken, in some places significant geomorphic and environmental changes have altered the appearance of the terrain. Africa’s Lake Chad, for example, has visibly shrunk, as has the Aral Sea in Asia. Terrain photos often showed oceanographic features well, and were studied intensively by R.L. Stephenson and others. The Gemini astronauts also conducted a wide range of astronomical and other specialized types of photography.
The most important result of the Gemini terrain photography was its stimulus to what eventually became the Landsat program. Under the leadership of W.A. Fischer and W. Pecora, the Gemini pictures were the central evidence cited by the U.S. Geological Survey in proposing its Earth Resources Observation Satellite (EROS) in 1966. Interagency conflicts arose, but in due course, EROS became ERTS, the Earth Resources Technology Satellite, later renamed Landsat. A popular account of these developments has been published by Hall *). However, not many people realize that ERTS was an Apollo Program spinoff, in that the Gemini photography was an effective catalyst to stimulate satellite remote sensing, as postulated by Lowman (1996) *. ERTS undoubtedly would have developed anyway, as an offshoot from weather satellite imaging, but we suggest that Gemini advanced it by perhaps five years.
Primary Contact: Nicholas M. Short, Sr. email: nmshort@nationi.net Section 12 Author: Dr. Paul D. Lowman Jr. (lowman@denali.gsfc.nasa.gov)