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{{short description|Project to digitize and restore pictures taken by the Lunar Orbiter program}}
{{Use mdy dates|date=September 2018}}
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The '''Lunar Orbiter Image Recovery Project''' (LOIRP) is a ] project to digitize data tapes from the five 1966 and 1967 ] spacecraft that were sent to the Moon.<ref>{{cite news |first= |last= |authorlink= |coauthors= |title=The Moon View |url=http://www.nytimes.com/2008/11/19/opinion/19wed3.html |quote=When the photograph was published, in 1966, it looked like a newsprint version of a high-contrast snapshot from space, a stark scattering of whites and blacks. The data from the lunar orbiter was stored on old analog tape drives. Now, imaging experts at NASA have digitized those drives — mining data that could not be recovered when they were first made — and produced a high-resolution version of that historic photograph. |work=] |date=2008-11-18 |accessdate=2008-11-20 }}</ref> The '''Lunar Orbiter Image Recovery Project''' ('''LOIRP''') was a project to digitize the original analog data tapes from the five ] spacecraft that were sent to the Moon in 1966 and 1967; it was funded by ], SkyCorp, SpaceRef Interactive, and private individuals.<ref>{{cite news |url=https://www.nytimes.com/2008/11/19/opinion/19wed3.html |title=The Moon View |work=] |date=November 19, 2008 |access-date=November 20, 2008 |archive-url=https://web.archive.org/web/20081120013917/http://www.nytimes.com/2008/11/19/opinion/19wed3.html |archive-date=November 20, 2008 |url-status=live }}</ref>

The first image to be successfully recovered by the project was released in November 2008. It was the ], taken in August 1966. On February 20, 2014, the project announced it had completed the primary tape capture portion of the project.<ref name="loirp20140220" /> One medium resolution image, most of one high resolution image and parts of three others are missing, apparently due to lapses at the time they were being recorded.<ref name="loirp20140224">{{cite web |url=http://www.moonviews.com/2014/02/lunar-orbiter-image-recovery-project-loirp-status-24-february-2014.html |title=Lunar Orbiter Image Recovery Project (LOIRP) Status 24 February 2014 |work=MoonViews |first=Dennis |last=Wingo |date=February 24, 2014 |access-date=September 23, 2014 |archive-url=https://web.archive.org/web/20181205132305/http://www.moonviews.com/2014/02/lunar-orbiter-image-recovery-project-loirp-status-24-february-2014.html |archive-date=December 5, 2018 }}</ref> The rest of the Lunar Orbiter images have been successfully recovered<ref name="loirp20140220">{{cite web |url=http://www.moonviews.com/2014/02/lunar-orbiter-image-recovery-project-loirp-status-20-february-2014.html |title=Lunar Orbiter Image Recovery Project (LOIRP) Status 20 February 2014 |work=MoonViews |first=Dennis |last=Wingo |date=February 20, 2014 |access-date=September 23, 2014 |archive-url=https://web.archive.org/web/20181205132305/http://www.moonviews.com/2014/02/lunar-orbiter-image-recovery-project-loirp-status-20-february-2014.html |archive-date=December 5, 2018 }}</ref> and have been published in NASA's ].<ref name="mview20180210">{{cite web |url=http://www.moonviews.com/2018/02/loirp-imagery-and-data-available-on-nasa-planetary-data-system.html |title=LOIRP Imagery and Data Available on NASA Planetary Data System |work=Moon Views |first=Keith |last=Cowing |date=February 10, 2018 |access-date=February 10, 2018 |archive-url=https://web.archive.org/web/20180211131621/http://www.moonviews.com/2018/02/loirp-imagery-and-data-available-on-nasa-planetary-data-system.html |archive-date=February 11, 2018 }}</ref>


==Background== ==Background==
The tapes from the ] missions were primarily used to locate landing sites for the manned ], and once those missions were over, the data was largely forgotten. The original tapes were carefully archived for 20 years in Maryland. When the tapes were released back to NASA's ] (JPL) in ], in about 1986, the decision of whether to scrap the tapes became the responsibility of archivist Nancy Evans. She instinctively decided that the tapes should be preserved. She recalled, "I could not morally get rid of this stuff".<ref name="Johnson">Johnson, J. (2009, March 22). NASA's early lunar images, in a new light. The Los Angeles Times. Posted to http://articles.latimes.com/2009/mar/22/nation/na-lunar22</ref> The images taken by the ] spacecraft were primarily used to locate landing sites for the crewed ]. Once those missions were over, the data, on about 1,500 tapes, was largely forgotten since it had served its purpose. The original tapes were carefully archived for 20 years by the government in Maryland. When the tapes were released back to NASA's ] (JPL) in ], in 1986, the decision of whether to scrap the tapes became the responsibility of JPL archivist Nancy Evans. She decided that the tapes should be preserved. She recalled, "I could not morally get rid of this stuff".<ref name="Johnson">{{cite news |url=https://www.latimes.com/archives/la-xpm-2009-mar-22-na-lunar22-story.html |title=NASA's early lunar images, in a new light |work=] |first=John Jr. |last=Johnson |date=March 22, 2009 |access-date=December 29, 2009 |archive-url=https://web.archive.org/web/20100206132756/http://articles.latimes.com/2009/mar/22/nation/na-lunar22 |archive-date=February 6, 2010 |url-status=live }}</ref>


Within a few years, Nancy Evans and a few colleagues were able to start a small project with funding from NASA. They managed to find four rare ] FR-900 tape drives – highly specialized drives that had only been used by government agencies such as the FAA, USAF, and NASA. (The FR-900's ] was adapted from the two-inch ] format, only in the FR-900's case, the drive was designed to record a wideband analog signal of any type for ] or other purposes, rather than specifically a video signal as in the two-inch Quad's case.) Over time, Evans' team also collected documentation and spare parts for the tape drives from various government surplus sources.
Engineer Mark Nelson of Caltech became interested in preserving the Lunar Orbiter tapes in the 1970's when he learned of their existence from Nancy Evans. Mr. Nelson suggested that a way should be found to read the tapes and restore the original pictures. He then set out to search for the FR-900 tape drives. After an extensive effort, the first 3 drives were located by Mark Nelson at Eglin Air Force Base. Later, Evans and Nelson were able to secure a 4th drive.


Within a few years, Mark Nelson and Nancy Evans were able to start a small project with funding from NASA. As mentioned above, they managed to find four rare ] FR-900 tape drives—highly specialized drives that had only been used by government agencies such as the FAA, USAF, and NASA. (The FR-900's ] was adapted from the ] format, only in the FR-900's case, the drive was designed to record a wideband analog signal of any type for ] or other purposes, rather than specifically a video signal as in 2" Quad's case.) Over time, they also collected documentation and spare parts for the tape drives from government surplus. The project was successful at getting raw analog data from the tapes, but in order to generate the images, they discovered that they needed the specialized demodulation hardware that had been used by the ] program, which no longer existed. They attempted to get funding from NASA or private sources to build the hardware, but were unsuccessful. Eventually, both Nancy Evans and Mark Nelson went on to other projects while the tape drives sat in Nancy Evans' garage.<ref name="Weiss">Weiss, J.C. (2008, November 22). 40 year old space photos? Posted to http://www.weissblog.com/2008/11/22/40-year-old-space-photos/</ref> The project was successful at getting the raw analog data from the tapes, but in order to generate the images, they discovered that they needed the specialized demodulation hardware that had been used by the ] but no longer existed. The members of the team attempted to get funding from NASA and private sources to build the hardware, but they were unsuccessful. Eventually, both Nancy Evans and Mark Nelson went on to other projects while the tape drives sat in Evans's garage.<ref name="Weiss">{{cite web |url=http://weissblog.com/2008/11/22/40-year-old-space-photos/ |title=40 year old space photos? |work=Weissblog |first=Jeremy C. |last=Weiss |date=November 22, 2008 |archive-url=https://web.archive.org/web/20081206160012/http://www.weissblog.com/2008/11/22/40-year-old-space-photos/ |archive-date=December 6, 2008}}</ref>


In 2004, Philip Horzempa was doing research on the Lunar Orbiter program at the NASA History Office in Washington, D.C. In the archives, he happened to come across a memo from 1996 containing a proposal by Mark Nelson to digitize the Lunar Orbiter images, as described above. Mr. Horzempa realized that he had come across a key document. After about a year of searching, Mr. Horzempa was able to make contact with Mark Nelson. <ref>Leo, Tom (December 30, 2008), "Saving a Vision of the Moon; CNY Man Helps Launch Effort to Restore First Photos of Earth from Space," The Post-Standard, http://www.highbeam.com/doc/1G1-191337519.html?key=01-42160D517E191D681009051A07674B2E224E324D3417295C30420B61651B617F137019731B7B1D6B39</ref> The two of them decided to restart the Lunar Orbiter tape recovery effort and find funding. They made contact with Jen Heldmann of NASA Ames who coordinated the effort from NASA's side. One serious delay to obtaining funding was the transfer, in 2006, of NASA's Lunar robotic precursor program from NASA Ames to NASA's Marshall Spaceflight Center. <ref> Moomaw, Bruce (March 9, 2007), NASA Budget Tucked Away for Now, But Hard Decisions Only Deferred," Space Travel, http://www.space-travel.com/reports/NASA_Budget_Tucked_Away_For_Now_But_Hard_Decisions_Only_Deferred_999.html </ref> In 2004, Philip Horzempa was doing research on the Lunar Orbiter program at the NASA History Office in Washington, D.C. In its archives, he happened to come across a memo from 1996 containing a proposal by Mark Nelson to digitize the Lunar Orbiter images, as described above. After about a year of searching, Horzempa made contact with Mark Nelson.<ref>{{cite news |url=http://www.highbeam.com/doc/1G1-191337519.html |title=Saving a Vision of the Moon; CNY Man Helps Launch Effort to Restore First Photos of Earth from Space |work=] |first=Tom |last=Leo |date=December 30, 2008 |archive-url=https://web.archive.org/web/20121105023930/http://www.highbeam.com/doc/1G1-191337519.html |archive-date=November 5, 2012}}</ref> The two of them decided to find funding and to restart the Lunar Orbiter tape recovery effort. They made contact with Jen Heldmann of the ].


In early 2007, Mr. Horzempa commented on the Lunar Orbiter tape recovery effort on a Web forum, NASASpaceflight.com. As a result, Dennis Wingo contacted Philip Horzempa through that forum. Mr. Horzempa put Mr. Wingo in contact with Mark Nelson and Nancy Evans and invited Mr. Wingo to join the team. In addition to the tape drives mentioned above, Mark Nelson had been able to obtain several tape heads.<ref> Horzempa, Philip (2009), "Lunar Orbiter Image Rescue and the NASA Headquarters History Office," http://history.nasa.gov/nltr26-2.pdf </ref> These are absolutely essential to the ongoing effort to read the data tapes. In addition, Ken Zin rejoined the team. Mr. Zin had been part of Mark Nelson's earlier efforts to read the Lunar Orbiter tapes. In early 2007, Horzempa commented on the Lunar Orbiter tape recovery effort on a Web forum, ]. As a result, Dennis Wingo contacted Philip Horzempa through that forum. Horzempa put Wingo in contact with Nelson and Evans, and they invited Wingo to join the team. In addition to the tape drives mentioned above, Nelson had been able to obtain several tape heads.<ref>{{cite journal |url=https://history.nasa.gov/nltr26-2.pdf |title=Lunar Orbiter Image Rescue and the NASA Headquarters History Office |journal=News & Notes |publisher=NASA History Division |first=Philip |last=Horzempa |volume=26 |issue=2 |pages=47–49 |year=2009 |access-date=July 12, 2017 |archive-url=https://web.archive.org/web/20171225230441/https://history.nasa.gov/nltr26-2.pdf |archive-date=December 25, 2017 |url-status=live }}</ref> The tape drives were absolutely essential to any effort to read the original Lunar Orbiter data tapes.


Dennis Wingo is president of the aerospace engineering company SkyCorp and a long-time worker in space and computing technologies. He knew he could muster the technical skills to tackle the management of renovating the tape drives, he could find contacts at NASA, and most importantly, he knew that the Moon was becoming a hot property again. Wingo said, "I knew the value of the tape drives and the tapes".<ref name="Johnson" /> Another group thought the same, writing, "future missions to the Moon have re-energized the lunar community and renewed interest in the Lunar Orbiter data".<ref name="Weller">{{cite conference |title=USGS Lunar Orbiter Digitization Project: Updates and Status |conference=38th Lunar and Planetary Science Conference. March 12–16, 2007. League City, Texas. |first1=L. |last1=Weller |first2=T. |last2=Becker |first3=B. |last3=Archinal |first4=A. |last4=Bennett |first5=D. |last5=Cook |first6=L. |last6=Gaddis |first7=D. |last7=Galuszka |first8=R. |last8=Kirk |first9=B. |last9=Redding |first10=D. |last10=Soltesz |page=2092 |date=March 2007 |id=LPI Contribution No. 1338 |bibcode=2007LPI....38.2092W}}</ref>
Dennis Wingo is president of the aerospace engineering company SkyCorp and a long-time veteran of space and computing technologies.


A newer spacecraft, the ] (LRO), entered orbit around the Moon on June 23, 2009, and, after testing, it began its photographic mission that September.<ref name="NASA">{{cite news |url=http://www.nasa.gov/home/hqnews/2009/jun/HQ_09-144_LRO_moon_orbit.html |title=NASA Lunar Mission Successfully Enters Moon Orbit |work=NASA.gov |first1=Grey |last1=Hautaluoma |first2=Ashley |last2=Edwards |first3=Nancy |last3=Neal-Jones |date=June 23, 2009 |access-date=April 25, 2014 |archive-url=https://web.archive.org/web/20131122175801/http://www.nasa.gov/home/hqnews/2009/jun/HQ_09-144_LRO_moon_orbit.html |archive-date=November 22, 2013 |url-status=live }}</ref> One of LRO's primary goals is to determine the risk to people working on the surface of the Moon. The LRO can create images of the surface that are comparable to the highest resolution images taken of the Moon from orbit during the Apollo era. The original Lunar Orbiter images were the highest resolution images ever taken of the Moon from orbit prior to the LRO's photography.<ref name="Soderman">{{cite web |url=http://lunarscience.arc.nasa.gov/articles/lunar-orbiter-image-recovery-project/ |title=Lunar Orbiter Image Recovery Project |work=NASA.gov |first1=T. |last1=Soderman |first2=D. |last2=Wingo |access-date=September 18, 2009 |archive-url=https://web.archive.org/web/20090923130633/http://lunarscience.arc.nasa.gov/articles/lunar-orbiter-image-recovery-project |archive-date=September 23, 2009 |url-status=live }}</ref> Digitized Lunar Orbiter images would be invaluable to scientists studying changes in the Moon's surface.
He knew he could muster the technical skills to tackle the management of renovating the tape drives, he could find contacts at NASA, and most importantly, he knew that the Moon was becoming a hot property again.


==Expertise and facilities==
Wingo said, "I knew the value of the tape drives and the tapes".<ref name="Johnson" /> Another group thought the same, writing, "future missions to the Moon have re-energized the lunar community and renewed interest in the Lunar Orbiter data".<ref name="Weller">Weller, L., Becker, B., Archinal, B., Bennett, A., Cook, D., Gaddis, L., et al. (2007). USGS Lunar Orbiter digitization project: updates and status. Retrieved December 3, 2009 from http://www.lpi.usra.edu/meetings/lpsc2007/pdf/2092.pdf</ref>
]


In February 2007, Wingo visited the four ] FR-900 tape drives for the first time in Evans's garage. Each drive was about {{convert|6|ft|m}} tall, {{convert|3|ft|m|sigfig=1}} wide, as deep as a refrigerator, and weighed about {{convert|600|lb|kg}}. These were all coated with thick layers of dust and cobwebs. They were stored with a pallet of manuals and schematics for the tape drives, along with hard copies of data related to the lunar images. Meanwhile, the tapes were stored safely in a climate-controlled warehouse. There were about 1,500 tapes, all packed into boxes, stacked four deep on pallets, and shrink-wrapped.<ref>{{cite news |url=http://www.moonviews.com/2008/11/image-collection-from-a-garage-to-nasa.html |title=Image Collection: From a Garage to NASA |work=MoonViews |first=Keith |last=Cowing |date=November 13, 2008 |access-date=May 11, 2014 |archive-url=https://web.archive.org/web/20180401045641/http://www.moonviews.com/2008/11/image-collection-from-a-garage-to-nasa.html |archive-date=April 1, 2018 }}</ref>
The ] was set to go to the moon in 2009, and one of its primary goals was to determine the risk to people working on the surface of the Moon. The LRO would create images of the surface that could be compared to the highest resolution images taken of the Moon during the Apollo era. The original Lunar Orbiter images are the highest resolution images of the Moon that had ever been taken until the LRO started taking images in the fall of 2009.<ref name="Soderman">Soderman, T., & NLSI staff. (2009, January 21). Lunar Orbiter Image Recovery Project. Retrieved September 18, 2009 from http://lunarscience.arc.nasa.gov/articles/lunar-orbiter-image-recovery-project</ref> The Lunar Orbiter images would be invaluable to scientists studying changes in the Moon's surface.


Wingo and Keith Cowing, a former NASA employee and president of SpaceRef Interactive, respectively, now served as co-leaders of the Lunar Orbiter Image Recovery Project (LOIRP). Both Cowing and Wingo provided the funds required to get the project started. They spent about a year looking for more funding, facilities, documentation, and expertise. ], director of NASA's ], agreed to store the tape drives and tapes in unused warehouse space until funding and facilities could be found to begin the restoration project.
==Expertise and facilities==
In February 2007, after joining the recovery team led by Philip Horzempa and Mark Nelson, it became possible for Dennis Wingo and Keith Cowing, a former NASA employee, to visit the four ] FM-900 tape drives for the first time. They had been stored for 7 years in a space provided by Mark Nelson. However, when they needed to be moved to a new space, they then were stored in Nancy Evans' overcrowded garage next to a chicken run. Each drive was about 6&nbsp;feet tall, 3&nbsp;feet wide, as deep as a refrigerator, and coated with a thick layer of dust and cobwebs. They were stored with a pallet of incomplete manuals and schematics for the tape drives, along with hard copies of data related to the lunar images. Meanwhile, the tapes were stored safely in a climate-controlled warehouse belonging to JPL. There were about 1500 tapes, all packed into boxes, stacked four deep on pallets, and shrink-wrapped.<ref>Cowing & Wingo, November 13, 2008, http://www.moonviews.com/archives/2008/11/image_collection_from_a_garage.html</ref>


In April 2007, the Jet Propulsion Laboratory released the tapes to the custody of Ames Research Center. Evans also transferred the ownership of the FR-900 drives to Wingo and Cowing. Wingo and Cowing rented two transfer trucks, loaded up the tape drives and documentation into one truck, and loaded the pallets of analog data tapes into the other truck. Cowing and Wingo then drove the trucks up to ], from ]. The drives and tapes then sat in storage for about the next year as funding for the project was sought.
After learning about the project from Philip Horzempa, Wingo and Cowing spent about a year looking for funding, facilities, documentation and expertise. They found expertise in the person of Ken Zin, an Army veteran who has a lifetime of experience in working with analog tape machines, who lived in the ], and who worked with Mark Nelson on the earlier recovery effort. At this time, Philip Horzempa suggested to Jen Heldmann , of NASA Ames, that Dennis Wingo lead the Lunar Orbiter tape recovery project.


Since the team required a facility with proper heating and cooling, and a sink, available vacant buildings outside the gate of Ames Research Center were whittled down to two: a barber shop, and a ] restaurant that had closed weeks before. The barber shop was relatively small, so working there would have required that the tapes be stored at a separate warehouse. On the other hand, the former McDonald's was much larger, had good lighting, adequate power, air conditioning, and parking. The building turned out to need some improvements in the electrical wiring. By July 2008, the team had moved into the former McDonald's (Building 596), now dubbed "McMoon's".
NASA was prepared to release the tapes to the custody of Wingo and Co., but they required that the tapes be stored in a government facility. Locating the tapes near Zin's residence lead the team to seek out facilities at ] in ]. Other advantages to the location are that ], the company that built the tape drives, is still operating just 12&nbsp;miles up the road, retired employees live in the area, and a collection of Ampex Corporation documentation is located at nearby ].<ref>Ampex Corporation Records finding aid, http://www.oac.cdlib.org/findaid/ark:/13030/ft4s2004rn</ref>


Wingo and Cowing quickly found more expertise in Ken Zin, a ] veteran who had long experience in working with analog tape machines, including the FR-900 series. By coincidence, Zin's brother worked at NASA Ames Research Center and it is via this coincidence that Wingo and Cowing initially got in touch with Zin. With the assistance of Ken Davidian at NASA Headquarters, funding was found in 2008 for a pilot project to show that the drives could be repaired, and that images could be recovered from the original tapes. The first task was to methodically disassemble and clean the tape drives. Meanwhile, Zin began testing the systems of the tape drives and making lists of devices to replace and refurbish. Parts for the drives were bought on eBay, online electronic parts stores, and other places.
In April 2008, Wingo and Cowing rented two Budget trucks, loaded up the tape drives and documentation into one truck, and loaded the pallets of magnetic tape into the second. At Ames, the ] had just opened, and was prepared to assist the team in finding physical facilities. Since the team required a facility with proper heating and cooling and a sink, the many vacant buildings were whittled down to two: a barber shop, and a ] that had closed mere weeks before they arrived. Since the barber shop was relatively small, using it would require that the tapes be stored at a remote warehouse. On the other hand, the McDonald's was much larger, had good lighting, adequate power and air conditioning, excellent parking and decent bathrooms. It turned out to need some improvements such as upgraded Internet access and electrical wiring, since the installed wiring was not designed to power racks of equipment requiring 5&nbsp;kW (the equivalent of fifty 100 watt light bulbs) out in the dining area.


==Management and recruiting allies==
By July 2008, the team had moved into the McDonald's, now dubbed "McMoon's". The first task was to methodically disassemble and wash the parts of the tape drives. Meanwhile, Ken Zin began testing the systems of the disk drives and making lists of devices to replace and refurbish.
Wingo and Cowing plunged into the management of the project: ordering parts, managing funds, searching surplus yards for equipment, researching refurbishing companies, and recruiting allies to the project. He began sending out an email newsletter, one that was later converted to a blog, MoonViews.com, and posting photos to the project's Facebook page. Student interns from the nearby ] were recruited, and the team requested help from retired and current employees of ] and from blog writers with audiences that might be able to help. Every day there seemed to be a new visitor to McMoon's, such as Dr. Lisa Gaddis from the ] project to digitize the Lunar Orbiter films, and Charlie Byrne, who wrote the memo recommending that the Lunar Orbiter data be stored on magnetic tape. The project was reported in the '']'',<ref name="Johnson" /> '']'',<ref name="Wood" /> '']'',<ref>{{cite news |url=http://news.nationalgeographic.com/news/2009/05/090505-moon-photos-video-ap.html |title=Abandoned McDonald's Serves Restored NASA Moon Pictures |work=National Geographic |agency=Associated Press |date=May 5, 2009 |access-date=January 28, 2010 |archive-url=https://web.archive.org/web/20100213222538/http://news.nationalgeographic.com/news/2009/05/090505-moon-photos-video-ap.html |archive-date=February 13, 2010 }}</ref> the ],<ref>{{cite AV media |url=https://www.youtube.com/watch?v=bwbw1vhtZ0g |title=First Moon Images No Longer Lost in Space |via=YouTube |publisher=Associated Press |first=Haven |last=Daley |date=April 20, 2009 |access-date=May 11, 2014 |archive-url=https://web.archive.org/web/20140215073215/http://www.youtube.com/watch?v=bwbw1vhtZ0g |archive-date=February 15, 2014 |url-status=live }}</ref> '']'',<ref>{{cite news |url=http://www.americanlibrariesmagazine.org/archive/2009/september2009/nasaimagessaved091609 |title=Archivist Saves, Restores Original NASA Moon Pictures |work=American Libraries Online |first=Greg |last=Landgraf |date=September 16, 2009 |access-date=May 11, 2014 |archive-url=https://web.archive.org/web/20140512214844/http://www.americanlibrariesmagazine.org/archive/2009/september2009/nasaimagessaved091609 |archive-date=May 12, 2014 |url-status=live }}</ref> the local news,<ref name="KTVU" /> and numerous blogs.<ref>{{cite news |url=http://edn.com/electronics-blogs/other/4307116/NASA-and-LOIRP-Return-to-the-Moon-42-Years-Later-Recovering-Lunar-Orbiter-Images |title=NASA and LOIRP Return to the Moon, 42 Years Later. Recovering Lunar Orbiter Images |work=EDN Network |first=Steve |last=Leibson |date=November 14, 2008 |access-date=May 11, 2014 |archive-url=https://web.archive.org/web/20140512230256/http://edn.com/electronics-blogs/other/4307116/NASA-and-LOIRP-Return-to-the-Moon-42-Years-Later-Recovering-Lunar-Orbiter-Images |archive-date=May 12, 2014 |url-status=live }}</ref><ref>{{cite web |url=http://olddirt.wordpress.com/2009/04/16/a-nasa-archivist-a-junkyard-warrior-and-a-technoarchaeologist-save-lunar-history/ |title=A NASA Archivist, a Junkyard Warrior, and a Technoarchaeologist Save Lunar History |work=Old Dirt – New Thoughts |date=April 16, 2009 |access-date=March 14, 2013 |archive-url=https://web.archive.org/web/20121113103541/http://olddirt.wordpress.com/2009/04/16/a-nasa-archivist-a-junkyard-warrior-and-a-technoarchaeologist-save-lunar-history/ |archive-date=November 13, 2012 |url-status=live }}</ref><ref>{{cite web |url=http://digitalcuration.blogspot.com/2009/04/heroic-data-recovery-story-40-year-old.html |title=Heroic data recovery story: 40-year-old lunar orbital data |work=Digital Curation Blog |publisher=Digital Curation Centre |first=Chris |last=Rusbridge |date=April 15, 2009 |access-date=January 28, 2010 |archive-url=https://web.archive.org/web/20091213013404/http://digitalcuration.blogspot.com/2009/04/heroic-data-recovery-story-40-year-old.html |archive-date=December 13, 2009 |url-status=live }}</ref>


Included in every news story was the message that the images are a vital piece of history, but more than this, that they contain scientific data of a time, place, and quality that has not been repeated. These are images that can assist in the current research about the Moon and the climate of the Earth. There may even be other lost data from the same era recorded using the same tape drives that could benefit from the efforts of the LOIRP team.<ref name="Johnson" /><ref name="Wood">{{cite news |url=http://www.computerworld.com/s/article/9134771/The_lost_NASA_tapes_Restoring_lunar_images_after_40_years_in_the_vault |title=The lost NASA tapes: Restoring lunar images after 40 years in the vault |work=Computerworld |first=Lamont |last=Wood |date=June 29, 2009 |access-date=March 14, 2013 |archive-url=https://web.archive.org/web/20121007180711/http://www.computerworld.com/s/article/9134771/The_lost_NASA_tapes_Restoring_lunar_images_after_40_years_in_the_vault |archive-date=October 7, 2012 |url-status=live }}</ref><ref>{{cite news |url=http://www.space.com/6518-moon-images-modern-makeover.html |title=Old Moon Images Get Modern Makeover |work=Space.com |first=Leonard |last=David |date=March 31, 2009 |access-date=May 11, 2014 |archive-url=https://web.archive.org/web/20140512222446/http://www.space.com/6518-moon-images-modern-makeover.html |archive-date=May 12, 2014 |url-status=live }}</ref>
==Marketing and recruiting allies==
Dennis Wingo plunged into the management of the project: ordering parts, managing funds, searching surplus yards for equipment, researching refurbishing companies, and recruiting allies to the project. He began sending out an email newsletter, which was later converted to a blog, MoonViews.com, and posting photos to the project's Facebook page. Student interns from nearby ] were recruited and the team requested help from retired employees of ] and from blog writers with audiences that might be able to help. Every day there seemed to be a new visitor to McMoon's, such as Dr. Lisa Gaddis from the ] project to digitize the Lunar Orbiter film, and Charlie Byrne, who wrote the memo recommending the ] data be stored on magnetic tape. The project was reported in the '']'',<ref name="Johnson" /> '']'',<ref name="Wood" /> '']'',<ref>National Geographic (AP). (2009, May 5). Retrieved from http://news.nationalgeographic.com/news/2009/05/090505-moon-photos-video-ap.html</ref> the ],<ref>Associated Press. (2009, April 20). First Moon Images No Longer Lost in Space. Retrieved from http://www.youtube.com/watch?v=bwbw1vhtZ0g</ref> '']'',<ref>Landgraf, G. (2009, September 16). Archivist Saves, Restores Original NASA Moon Pictures. Retrieved from http://www.ala.org/ala/alonline/currentnews/newsarchive/2009/september2009/nasaimagessaved091609.cfm</ref> the local news,<ref name="KTVU" /> and numerous blogs.<ref>Leibsson, S. (2008, November 14). NASA and LOIRP Return to the Moon, 42 Years Later. Recovering Lunar Orbiter Images. Retrieved from http://www.edn.com/blog/980000298/post/1860036586.html</ref><ref>Brian. (2009, April 16). A NASA Archivist, a Junkyard Warrior, and a Technoarchaeologist Save Lunar History. Retrieved from http://olddirt.wordpress.com/2009/04/16/a-nasa-archivist-a-junkyard-warrior-and-a-technoarchaeologist-save-lunar-history/</ref><ref>Digital Curation Centre. (2009, April 15). Heroic data recovery story: 40-year old lunar orbital data. Retrieved from http://digitalcuration.blogspot.com/2009/04/heroic-data-recovery-story-40-year-old.html</ref><ref>Cowing & Wingo (July 2008). MoonViews. Retrieved from http://www.moonviews.com/archives/2008/07/</ref> Included in every news story was the message that the images are a vital piece of history, but more than this, they contain scientific data of a time and place and quality that has not been repeated. These are images that can assist in the current research about the Moon and the climate of the Earth. There may even be other lost data from the same era recorded using the same tape drives that could benefit from the efforts of the LOIRP team.<ref name="Johnson" /><ref name="Wood">Wood, L. (2009, June 29). The lost NASA tapes: restoring lunar images after 40 years in the vault. ComputerWorld. Available at http://www.computerworld.com/s/article/9134771/The_lost_NASA_tapes_Restoring_lunar_images_after_40_years_in_the_vault?taxonomyId=12&pageNumber=5</ref><ref>David, L. (2009, April 1). Old Moon images get modern makeover. Available at http://www.foxnews.com/story/0,2933,511864,00.html Also at http://www.livescience.com/space/090331-st-moon-views-makeover.html</ref>


==Media and metadata== ==Media and metadata==
]
Shortly after moving into McMoon's, a group of students was recruited to remove all the tapes from the boxes, and put the tapes in some sort of order. Each Memorex tape takes about an hour to run on the tape drive, and holds one high-resolution image and one medium-resolution image of the same location.<ref name="Bourzac">Bourzac, K. (2009). Photo essay: surface restoration. Technology Review, 112(5), 34-41.</ref> Each reel has been labeled, wrapped in a clear plastic bag, and enclosed in a metal tin, which is sealed with fluorescent yellow tape. Additional labels have been placed on the outside of the tin; each tape is labeled with a code that usually consists of two letters and two numbers, for example: MT_19, WT_45, and GT_46. The labeling does not correspond to the numbering scheme that was assigned to the images, and there is no documentation that shows how the two numbering schemes line up. One of the student interns realized that the first letter indicates which ground station recorded the signal: "M" indicates that the tape was recorded in ]; "W" indicates that the tape was recorded in ]; and "G" indicates that the tape was recorded in ]. This guess was confirmed when the team listened to the audio track at the beginning of a few of the tapes, wherein the operator of the ground station recites information about the tape and the recording. On tapes marked with an "M", the operator has a distinctly Latin accent; on tapes marked with a "W", the operator has a distinctly Australian accent. Shortly after moving into McMoon's, a group of students from the NASA Astrobiology Academy was recruited to remove all the tapes from the boxes, and put the tapes in order. Each tape takes about an hour to run on the tape drive, and holds one high-resolution image and one medium-resolution image.<ref name="Bourzac">{{cite journal |url=http://digital.technologyreview.com/?xml=Technology_Review&iid=33624&startpage=page0000036 |title=Surface Restoration |journal=Technology Review |series=Photo Essay |first=Katherine |last=Bourzac |volume=112 |issue=5 |pages=34–41 |date=September–October 2009 |archive-url=https://web.archive.org/web/20160304061831/http://digital.technologyreview.com/?xml=Technology_Review&iid=33624&startpage=page0000036 |archive-date=March 4, 2016 |access-date=May 11, 2014 }}</ref> When archived in the early 1970s, each reel of tape was labeled, wrapped in a clear plastic bag, and enclosed in a ] tin, and sealed with yellow plastic tape. Additional labels have been placed on the outside of the tape container. Each tape is labeled with a code that usually consists of two letters and two numbers, for example: MT_19, WT_45, and GT_46. One of the Astrobiology Academy students realized that the first letter indicated which ground station recorded the data on the tape in that container: "M" indicates that the tape was recorded in ]; "W" indicates that the tape was recorded in ]; and "G" indicates that the tape was recorded in ]. This guess was confirmed when the team listened to the audio track at the beginning of a few of the tapes, wherein the operator of the ground station recites information about the tape and the recording. On tapes marked with an "M", the operator has a distinctly Spanish accent. On tapes marked with a "W", the operator has a distinctly Australian accent. On tapes marked with a "G" the operator speaks with an American accent. Sometimes audio track captures an operator at one tracking station talking to an operator at another tracking station. Each tape's opening audio includes the date that the tape was recorded in both local and Universal Time.


There are many other confusing problems with the tapes. Each tape is supposed to hold a complete pair of images, but some contain just a few minutes of audio signal, and some contain the same tiny portion of an image, over and over. In the early stages of the project, the team wanted to rescue images that have the most value and impact, but they found that it was very time intensive to find images in this disordered array of tapes.<ref>Cowing & Wingo (August 19, 2008). MoonViews. Retrieved from http://www.moonviews.com/archives/2008/08/</ref> There are many other confusing problems with the tapes. Each tape is supposed to hold a complete pair of images, but some contain just a few minutes of audio signal, and some contain the same tiny portion of an image, over and over. In the early stages of the project, the team wanted to rescue images that have the most value and impact, but they found that it was very time intensive to find images in this disordered array of tapes.{{citation needed|date=May 2014}}


==Hardware and funding== ==Hardware and funding==
]
In a completed and working magnetic tape drive system, the tape-drive heads apply a very specific magnetic field to the tape; the tape then induces a change in electrical current, which is captured. The data from the Lunar Orbiter tapes is then run through a demodulator, and through an analog-to-digital converter so that it can be fed into a computer for digital processing. Each image is divided up into strips on the tape, so the computer is used to bring the strips together to create a whole image.<ref name="Bourzac" /> Before even beginning the project, the team evaluated the risks and determined that there were two: one was that the tapes had deteriorated to the point where they could not be read; the second was that the tape drives would not be able to read the tapes. The milestones of the project were developed to test these risks as soon as possible with the least amount of money spent.


In a completed and working magnetic tape drive system, the tape-drive heads apply a very specific magnetic field to the tape; the tape then induces a change in electric current, which is captured. The data from the Lunar Orbiter tapes is then run through a demodulator, and through an analog-to-digital converter so that it can be fed into a computer for digital processing. Each image is divided up into strips on the tape, so the computer is used to bring the strips together to create a whole image.<ref name="Bourzac" /> Before even beginning the project, the team evaluated the risks and determined that there were two: one was that the tapes had deteriorated to the point where they could not be read; the second was that the tape drives would not be able to read the tapes. The milestones of the project were developed to test these risks as soon as possible with the least amount of money spent.{{citation needed|date=September 2011}}
Once the project started in earnest in July 2008, results came quickly. In only a couple of weeks, the first tape drive had been powered up, although it was clear that many parts still needed to be replaced.<ref>Cowing & Wingo (July 16, 2008). MoonViews. Retrieved from http://www.moonviews.com/archives/2008/07/16_july_2008_loirp_status.html</ref> Another week of cleaning and testing revealed that among the four drives and batches of spare parts there were enough good power supplies to run one of the tape drives, and there was at least one working head for the drive.<ref>Cowing & Wingo (July 23, 2008) Retrieved from http://www.moonviews.com/archives/2008/07/23_july_2008_loirp_status.html</ref> The head is the mechanism that touches the tape and reads and writes data, so it is absolutely critical; in the case of the ] FR-900 tape drives, the heads were not manufactured after 1974, cannot be replaced, and can only be refurbished at great expense by a single small company.


Once the project started in earnest in July 2008, results came quickly. In only a couple of weeks, the first tape drive had been powered up, although it was clear that many parts still needed to be replaced.<ref>{{cite news |url=http://www.moonviews.com/2008/07/16-july-2008-loirp-status.html |title=16 July 2008 LOIRP Status |work=MoonViews |first=Keith |last=Cowing |date=July 16, 2008 |access-date=May 11, 2014 |archive-url=https://web.archive.org/web/20181205133114/http://www.moonviews.com/2008/07/16-july-2008-loirp-status.html |archive-date=December 5, 2018 }}</ref> Another week of cleaning and testing revealed that among the four drives and batches of spare parts there were enough good power supplies to run one of the tape drives, and there was at least one working head for the drive.<ref>{{cite news |url=http://www.moonviews.com/2008/07/23-july-2008-loirp-status.html |title=23 July 2008 LOIRP Status |work=MoonViews |first=Keith |last=Cowing |date=July 23, 2008 |access-date=May 11, 2014 |archive-url=https://web.archive.org/web/20170326225307/http://www.moonviews.com/2008/07/23-july-2008-loirp-status.html |archive-date=March 26, 2017 }}</ref> The head is the mechanism that touches the tape and reads and writes data, so it is absolutely critical; in the case of the ] FR-900 tape drives, the heads were not manufactured after 1974, cannot be replaced, and can only be refurbished at great expense by a single small company.<ref name="avarchivering"/><ref name="mviews20130608"/>
After another month of repairing and replacing parts, testing and tuning mechanisms, the project got the first solid result that the tapes were good. Each tape starts with a short standard-format audio clip of the operator, and the tape drives were able to read the audio signal. () This does not use the video heads that are needed to read the Lunar Orbiter data off the tape, but this demonstrated that the tapes had not deteriorated and that many of the sub-systems of the tape drive were in good working order.<ref>Cowing & Wingo (September 3, 2008). MoonViews. Retrieved from http://www.moonviews.com/archives/2008/09/3_september_2008_loirp_status.html</ref>


After another month of repairing and replacing parts, testing and tuning mechanisms, the project got the first solid result that the tapes were good. Each tape starts with a short standard-format audio clip of the operator, and the tape drives were able to read the audio signal. () This does not use the video heads that are needed to read the Lunar Orbiter data off the tape, but this demonstrated that the tapes had not deteriorated and that many of the sub-systems of the tape drive were in good working order.<ref name="Cowing">{{cite news |url=http://www.moonviews.com/2008/09/3-september-2008-loirp-status.html |title=3 September 2008 LOIRP Status |work=MoonViews |first=Keith |last=Cowing |date=September 3, 2008 |access-date=May 11, 2014 |archive-url=https://web.archive.org/web/20181205132340/http://www.moonviews.com/2008/09/3-september-2008-loirp-status.html |archive-date=December 5, 2018 }}</ref>
The documentation for the tape drives was substantially incomplete, which kept the team from understanding the right way to repair, maintain, and use the tape drives. The search for documentation has been extensive and usually disappointing, as it often turns out that retired or elderly engineers have just recently cleaned out their garages. Posting to a blog, Dennis Wingo said, "I cannot tell you how many times we have heard similar stories of recently tossed manuals over the last six months".<ref>Wingo, D. (2009, April 2). {{bracket|Comment to blog post}}. Available at http://wattsupwiththat.com/2009/04/01/help-needed-to-recover-old-satellite-imagery/</ref> At just the right moment the team heard from a friend of a friend that a mother lode of maintenance documentation stored on ] (microfilm embedded in computer punch cards) had been saved by the retired head of ] field engineering. This documentation would make it possible for the team to understand the correct procedures for repairing the tape drives and aligning the mechanics<ref>Cowing & Wingo (August 4, 2008) MoonViews. Retrieved from http://www.moonviews.com/archives/2008/08/4_august_2008_loirp_status.html</ref><ref>Cowing & Wingo (August 19, 2008). MoonViews. Retrieved from http://www.moonviews.com/archives/2008/08/19_august_2008_loirp_status.html</ref>


The documentation for the tape drives was substantially incomplete, which kept the team from understanding the right way to repair, maintain, and use the tape drives. The search for documentation has been extensive and usually disappointing, as it often turns out that retired or elderly engineers have just recently cleaned out their garages. Posting to a blog, Dennis Wingo said, "I cannot tell you how many times we have heard similar stories of recently tossed manuals over the last six months". At just the right moment the team heard from a friend of a friend that a mother lode of maintenance documentation stored on ]s (microfilm embedded in computer punch cards) had been saved by the retired head of ] field engineering. This documentation would make it possible for the team to understand the correct procedures for repairing the tape drives and aligning the mechanics.<ref>{{cite news |url=http://www.moonviews.com/2008/08/4-august-2008-loirp-status.html |title=4 August 2008 LOIRP Status |work=MoonViews |first=Keith |last=Cowing |date=August 4, 2008 |access-date=May 11, 2014 |archive-url=https://web.archive.org/web/20181205131722/http://www.moonviews.com/2008/08/4-august-2008-loirp-status.html |archive-date=December 5, 2018 }}</ref><ref>{{cite news |url=http://www.moonviews.com/2008/08/19-august-2008-loirp-status.html |title=19 August 2008 LOIRP Status |work=MoonViews |first=Keith |last=Cowing |date=August 19, 2008 |access-date=May 11, 2014 |archive-url=https://web.archive.org/web/20181205131722/http://www.moonviews.com/2008/08/19-august-2008-loirp-status.html |archive-date=December 5, 2018 }}</ref>
At this point in the restoration, the demodulation of the tapes had become the biggest issue. The team wasn't sure if the demodulation board that came with the system was the correct one, if they needed a different one, or if they needed this one and another one. At the same time, they discovered a tape, which, from the audio clip at the start, sounded as if it contained a demodulated recording of one of the images. This was a lucky break, as it meant that a demodulator would not be needed to generate images from this tape. If the team could rescue this image, the project would prove "that the drive can be refurbished to the point of reliably playing a tape back".<ref>Cowing & Wingo (September 3, 2008). MoonViews. http://www.moonviews.com/archives/2008/09/3_september_2008_loirp_status.html</ref> Work continued, and the team coined the term "technoarchealogy" to describe the process of researching which tape contained what image. Posts to the blog continued, but with little substance until suddenly NASA announced a press conference.


At this point in the restoration, the demodulation of the tapes had become the biggest issue. The team was not sure if the demodulation board that came with the system was the correct one, if they needed a different one, or if they needed this one and another one. At the same time, they discovered a tape, which, from the audio clip at the start, sounded as if it contained a demodulated recording of one of the images. This was a lucky break, as it meant that a demodulator would not be needed to generate images from this tape. If the team could rescue this image, the project would prove "that the drive can be refurbished to the point of reliably playing a tape back".<ref name="Cowing"/> Work continued, and the team coined the term "technoarchaeology" to describe the process of researching which tape contained what image.
On November 13, 2008 NASA held a press conference and announced that they were releasing the first image that had been restored: a striking image, taken on August 23, 1966, of the Earth as viewed, for the very first time, from the Moon. This was a major milestone that showed that the tapes and the tape drives were both good. Preliminary analysis showed that the image had "four times the dynamic range of the ... {{bracket|original}} film image and up to twice the ultimate resolution".<ref>Wingo, D., & Cowing, K.L. (2009). Recovering high resolution lunar orbiter images from analog tape. Retrieved December 3, 2009 from http://www.lpi.usra.edu/meetings/lpsc2009/pdf/2517.pdf</ref> The NASA Exploration Systems Mission Directorate (ESMD) had sponsored the team so far with a small grant of $100,000. With these results, more funds were released--another $150,000 to complete a major restoration of the drives and to create the demodulation hardware needed for the other tapes. Gregory Schmidt, deputy director of the NASA Lunar Science Institute at Ames said, "Now that we've demonstrated the capability to retrieve images, our goal is to complete the tape drives' restoration and move toward retrieving all of the images on the remaining tapes".<ref>NASA. (2008, November 13). Correction – NASA restores historic Lunar Orbiter image. Posted to http://www.nasa.gov/centers/ames/news/releases/2008/08_99AR.html</ref>


]
Within a month, the next round of funding came through and restoration began in earnest.<ref>Cowing & Wingo (January 20, 2009). MoonViews. Retrieved from http://www.moonviews.com/archives/2009/01/lunar_orbiter_image_recovery_p.html</ref> The heads, capstan and rotor motors were being restored by two different companies. New documentation about the demodulation was discovered, and the team began building a board by hand. Custom belts were being manufactured to replace the old ones. Software was being written to process the digital images. The biggest expense was the heads, which cost around $30,000 to be refurbished.


Posts to the blog continued, but with little substance until suddenly NASA announced a press conference.{{citation needed|date=September 2011}} On November 13, 2008 NASA held a press conference and announced that they were releasing the first image that had been restored: a striking image, taken on August 23, 1966, of the Earth as viewed, for the very first time, from the Moon. This was a major milestone that showed that the tapes and the tape drives were both good. Preliminary analysis showed that the image had "four times the dynamic range of the ... {{bracket|original}} film image and up to twice the ultimate resolution".<ref>{{cite conference |title=Recovering High Resolution Lunar Orbiter Images from Analog Tape |conference=40th Lunar and Planetary Science Conference. March 23–27, 2009. The Woodlands, Texas. |first1=Dennis R. |last1=Wingo |first2=Keith L. |last2=Cowing |date=March 2009 |id=No. 2517 |bibcode=2009LPI....40.2517W}}</ref> The NASA Exploration Systems Mission Directorate (ESMD) had sponsored the team so far with a small grant of $100,000. With these results, more funds were released—another $150,000 to complete a major restoration of the drives and to create the demodulation hardware needed for the other tapes. Gregory Schmidt, deputy director of the NASA Lunar Science Institute at Ames said, "Now that we've demonstrated the capability to retrieve images, our goal is to complete the tape drives' restoration and move toward retrieving all of the images on the remaining tapes".<ref>{{cite news |url=http://www.nasa.gov/centers/ames/news/releases/2008/08_99AR.html |title=Correction – NASA Restores Historic Lunar Orbiter Image |work=NASA.gov |first1=Kimberly |last1=Newton |first2=Grey |last2=Hautaluoma |date=November 13, 2008 |access-date=January 28, 2010 |archive-url=https://web.archive.org/web/20100114151023/http://www.nasa.gov/centers/ames/news/releases/2008/08_99AR.html |archive-date=January 14, 2010 |url-status=live }}</ref>
On March 21, 2009, the team announced that they had rescued an un-demodulated image from one of the tapes, using the newly perfected demodulation system. The image, of the crater Copernicus, is from the Lunar Orbiter 2 spacecraft taken on November 24, 1966. NASA Scientist Martin Swetnick was quoted in a Time magazine article from 1966, calling this image "one of the great pictures of the century".<ref>Space: a new look at Copernicus. (1966, December 9). Time. Available at http://www.time.com/time/magazine/article/0,9171,898477,00.html</ref>


Within a month, the next round of funding came through and restoration began in earnest.<ref>{{cite news |url=http://www.moonviews.com/2009/01/lunar-orbiter-image-recovery-project-update-loirp-20-january-2009.html |title=Lunar Orbiter Image Recovery Project Update (LOIRP) 20 January 2009 |work=MoonViews |first=Keith |last=Cowing |date=January 20, 2009 |access-date=May 11, 2014 |archive-url=https://web.archive.org/web/20180402174733/http://www.moonviews.com/2009/01/lunar-orbiter-image-recovery-project-update-loirp-20-january-2009.html |archive-date=April 2, 2018 }}</ref> The heads, capstan and rotor motors were being restored by two different companies. New documentation about the demodulation was discovered, and the team began building a board by hand. Custom belts were being manufactured to replace the old ones. Software was being written to process the digital images. The biggest expense was the heads, which cost around $8,000 each to be refurbished.{{citation needed|date=September 2011}}
By April, the team had digitized 30 images.<ref name="KTVU">KTVU. (2009, April 10). Old NASA tapes reveal stunning new Moon images; resolution unparalleled. Available from http://www.ktvu.com/news/19153582/detail.html</ref> A couple of months later an article in ComputerWorld revealed that the project had a new grant of $600,000, and had hopes to completely digitize all the images by February 2010. Most of the new funding came from NASA, but about 10% came from other donors.<ref name="Wood" /> This new funding allowed the team to restore a second tape drive to full operation by November 2009, which made the process of restoring the images that much faster.<ref>Cowing & Wingo (November 12, 2009). MoonViews. Retrieved from http://www.moonviews.com/archives/2009/11/loirp_works_to_bring_second_fr.html</ref> Currently the biggest limitation to processing the images quickly is not the old tape drives, but the new Apple computers needed to convert the digital data into images. As of January 2010, the team is about to acquire a new Apple computer with 8 processors, which they hope will speed the process.

On March 21, 2009, the team announced that they had rescued an un-demodulated image from one of the tapes, using the newly perfected demodulation system. The image, of the crater Copernicus, is from the Lunar Orbiter 2 spacecraft taken on November 24, 1966. NASA Scientist Martin Swetnick was quoted in a ''Time'' magazine article from 1966, calling this image "one of the great pictures of the century".<ref>{{cite magazine |url=http://content.time.com/time/magazine/article/0,9171,898477,00.html |title=Space: A New Look at Copernicus |magazine=] |date=December 9, 1966 |access-date=May 11, 2014 |archive-url=https://web.archive.org/web/20140414111556/http://content.time.com/time/magazine/article/0,9171,898477,00.html |archive-date=April 14, 2014 |url-status=live }}</ref>

By April, the team had digitized 30 images.<ref name="KTVU">{{cite news |url=http://www.ktvu.com/news/news/old-nasa-tapes-reveal-stunning-new-moon-images-res/nKq7N/ |title=Old NASA Tapes Reveal Stunning New Moon Images; Resolution Unparalleled |work=KTVU |date=April 10, 2009 |archive-url=https://web.archive.org/web/20140512221156/http://www.ktvu.com/news/news/old-nasa-tapes-reveal-stunning-new-moon-images-res/nKq7N/ |archive-date=May 12, 2014}}</ref> A couple of months later an article in Computerworld revealed that the project had a new grant of $600,000, and had hopes to completely digitize all the images by February 2010. Most of the new funding came from NASA, but about 10% came from other donors.<ref name="Wood" /> This new funding allowed the team to restore a second tape drive to full operation by November 2009, which made the process of restoring the images that much faster.<ref>{{cite news |url=http://www.moonviews.com/2009/11/loirp-works-to-bring-second-fr-900-tape-drive-online.html |title=LOIRP Works To Bring Second FR-900 Tape Drive Online |work=MoonViews |first=Keith |last=Cowing |date=November 12, 2009 |access-date=May 11, 2014 |archive-url=https://web.archive.org/web/20181205131809/http://www.moonviews.com/2009/11/loirp-works-to-bring-second-fr-900-tape-drive-online.html |archive-date=December 5, 2018 }}</ref>

The Ampex FR-900 heads were refurbished by Videomagnetics of Colorado Springs, Colorado, the only company in the world that still refurbished Ampex and RCA Quadruplex video heads.<ref name="avarchivering">{{cite web |url=http://www.avarchivering.nl/node/1707 |title=Quadruplex Video Head Refurbishment Crowdfunding Project |work=AVArchivering.nl |publisher=Kennisbank Audiovisuele Archivering |access-date=September 11, 2013 |archive-url=https://web.archive.org/web/20131004233113/http://www.avarchivering.nl/node/1707 |archive-date=October 4, 2013}}</ref><ref name="mviews20130608">{{cite web |url=http://www.moonviews.com/2013/06/loirp-status-report-8-june-2013.html |title=LOIRP Status Report 8 June 2013 |work=Moon Views |first=Keith |last=Cowing |date=June 8, 2013 |access-date=September 11, 2013 |archive-url=https://web.archive.org/web/20181205132547/http://www.moonviews.com/2013/06/loirp-status-report-8-june-2013.html |archive-date=December 5, 2018 }}</ref>


==Future preservation== ==Future preservation==
By April 2017, all images had been delivered to the NASA Planetary Data System (PDS), a digital repository for NASA mission and ground support data. Peer review of the LOIRP PDS submission began in May 2017. The LOIRP Online Data Volumes were published for public access by NASA at the PDS Cartography and Imaging Sciences Node on January 31, 2018.<ref name="mview20180210" />
After each image is processed and restored, the data will be sent to the ] (PDS),<ref name="cs081114">{{cite web |url=http://www.collectspace.com/news/news-111408a.html |title=Repaired Data Drives Restoring the Moon |work=CollectSpace.com |date=November 14, 2008 |accessdate=February 5, 2010}}</ref> a digital repository for NASA mission and ground support data. The PDS was co-founded by Nancy Evans as a way to preserve and provide access to planetary datasets.

==See also==
{{Commons category|}}
* ]
* ], a spacecraft in solar orbit recontacted in 2014 by many of the members of Lunar Orbiter tape recovery effort


==References== ==References==
{{reflist}} {{Reflist |2}}

==Further reading==
;Publications
*{{cite report |url=http://paleoferrosaurus.com/Retrochallenge/lunar_images_paper.pdf |title=Tape Recording of Lunar Orbiter Pictures |publisher=Bellcom, Inc. |first=C. J. |last=Byrne |date=July 6, 1965 |id=TM-65-1012-6; N79-72860 |archive-url=https://web.archive.org/web/20140511070956/http://paleoferrosaurus.com/Retrochallenge/lunar_images_paper.pdf |archive-date=May 11, 2014}}
*{{cite conference |title=Analysis of Lunar Orbiter Images Recovered from Analog Tape |conference=42nd Lunar and Planetary Science Conference. March 7–11, 2011. The Woodlands, Texas. |first1=D. R. |last1=Wingo |first2=C. J. |last2=Byrne |page=2085 |date=March 2011 |bibcode=2011LPI....42.2085W |id=LPI Contribution No. 1608}}
*{{cite web |url=http://images.spaceref.com/news/2012/LORIPNLSIposter_2012a.pdf |title=Comparison of LO Copernicus Central Uplift with LRO LROC Mosaic |work=MoonViews |first1=D. R. |last1=Wingo |first2=K. L. |last2=Cowing |first3=A. |last3=Epps |date=July 17, 2012}}

;News
*{{cite magazine |url=https://www.wired.com/2014/04/lost-lunar-photos-recovered-by-great-feats-of-hackerdom-developed-at-a-mcdonalds |title=The Hackers Who Recovered NASA's Lost Lunar Photos |magazine=Wired |first=Doug |last=Bierend |date=April 23, 2014}}
*{{cite news |url=http://usatoday30.usatoday.com/tech/science/2008-11-13-1733192688_x.htm |title=Long-lost lunar photos get another day in the sun |work=USA Today |agency=Associated Press |first=Seth |last=Borenstein |date=November 13, 2008}}
*{{cite news |url=https://gizmodo.com/5089936/nasa-scales-up-1966s-moon-image-to-amazing-ultra-high-resolution |title=NASA Scales Up 1966's Moon Image to Amazing Ultra-High Resolution |work=Gizmodo |first=Jesus |last=Diaz |date=November 16, 2008}}
*{{cite web |url=http://earthobservatory.nasa.gov/IOTD/view.php?id=35906 |title=Earthrise 1966 |work=NASA.gov |first=Holli |last=Riebeek |date=November 15, 2008}}
*{{cite news |url=https://www.cnet.com/news/nasa-unveils-lunar-image-recovery-project/ |title=NASA unveils lunar image recovery project |work=CNET |first=Daniel |last=Terdiman |date=November 13, 2008}}


==External links== ==External links==
*{{Official|http://www.moonviews.com}} *{{Official website|http://www.moonviews.com}}
*McMoon's at Ames Research Center: {{coord|37.4094|N|122.0548|W|type:landmark_region:US-CA|display=inline,title}} *McMoon's at Ames Research Center: {{coord|37.4094|N|122.0548|W|type:landmark_region:US-CA|display=inline,title}}

* at ], March 22, 2009
{{Lunar Orbiter program}}
* at ], November 14, 2008
*, D. R. Wingo and K. L. Cowing, 40th ], 2009
*, C. J. Byrne, July 6, 1965


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Latest revision as of 09:38, 1 November 2024

Project to digitize and restore pictures taken by the Lunar Orbiter program

Earth taken from Lunar Orbiter 1 in 1966. Image as originally shown to the public displays extensive flaws and striping.
Earth taken from Lunar Orbiter 1 in 1966. This image shows the improvement in picture quality after capture and reprocessing by LOIRP.

The Lunar Orbiter Image Recovery Project (LOIRP) was a project to digitize the original analog data tapes from the five Lunar Orbiter spacecraft that were sent to the Moon in 1966 and 1967; it was funded by NASA, SkyCorp, SpaceRef Interactive, and private individuals.

The first image to be successfully recovered by the project was released in November 2008. It was the first photograph of the Earth from the Moon, taken in August 1966. On February 20, 2014, the project announced it had completed the primary tape capture portion of the project. One medium resolution image, most of one high resolution image and parts of three others are missing, apparently due to lapses at the time they were being recorded. The rest of the Lunar Orbiter images have been successfully recovered and have been published in NASA's Planetary Data System.

Background

The images taken by the Lunar Orbiter spacecraft were primarily used to locate landing sites for the crewed Apollo missions. Once those missions were over, the data, on about 1,500 tapes, was largely forgotten since it had served its purpose. The original tapes were carefully archived for 20 years by the government in Maryland. When the tapes were released back to NASA's Jet Propulsion Laboratory (JPL) in Pasadena, California, in 1986, the decision of whether to scrap the tapes became the responsibility of JPL archivist Nancy Evans. She decided that the tapes should be preserved. She recalled, "I could not morally get rid of this stuff".

Within a few years, Nancy Evans and a few colleagues were able to start a small project with funding from NASA. They managed to find four rare Ampex FR-900 tape drives – highly specialized drives that had only been used by government agencies such as the FAA, USAF, and NASA. (The FR-900's transport was adapted from the two-inch Quadruplex videotape format, only in the FR-900's case, the drive was designed to record a wideband analog signal of any type for instrumentation or other purposes, rather than specifically a video signal as in the two-inch Quad's case.) Over time, Evans' team also collected documentation and spare parts for the tape drives from various government surplus sources.

The project was successful at getting the raw analog data from the tapes, but in order to generate the images, they discovered that they needed the specialized demodulation hardware that had been used by the Lunar Orbiter program but no longer existed. The members of the team attempted to get funding from NASA and private sources to build the hardware, but they were unsuccessful. Eventually, both Nancy Evans and Mark Nelson went on to other projects while the tape drives sat in Evans's garage.

In 2004, Philip Horzempa was doing research on the Lunar Orbiter program at the NASA History Office in Washington, D.C. In its archives, he happened to come across a memo from 1996 containing a proposal by Mark Nelson to digitize the Lunar Orbiter images, as described above. After about a year of searching, Horzempa made contact with Mark Nelson. The two of them decided to find funding and to restart the Lunar Orbiter tape recovery effort. They made contact with Jen Heldmann of the NASA Ames Research Center.

In early 2007, Horzempa commented on the Lunar Orbiter tape recovery effort on a Web forum, NASASpaceflight.com. As a result, Dennis Wingo contacted Philip Horzempa through that forum. Horzempa put Wingo in contact with Nelson and Evans, and they invited Wingo to join the team. In addition to the tape drives mentioned above, Nelson had been able to obtain several tape heads. The tape drives were absolutely essential to any effort to read the original Lunar Orbiter data tapes.

Dennis Wingo is president of the aerospace engineering company SkyCorp and a long-time worker in space and computing technologies. He knew he could muster the technical skills to tackle the management of renovating the tape drives, he could find contacts at NASA, and most importantly, he knew that the Moon was becoming a hot property again. Wingo said, "I knew the value of the tape drives and the tapes". Another group thought the same, writing, "future missions to the Moon have re-energized the lunar community and renewed interest in the Lunar Orbiter data".

A newer spacecraft, the Lunar Reconnaissance Orbiter (LRO), entered orbit around the Moon on June 23, 2009, and, after testing, it began its photographic mission that September. One of LRO's primary goals is to determine the risk to people working on the surface of the Moon. The LRO can create images of the surface that are comparable to the highest resolution images taken of the Moon from orbit during the Apollo era. The original Lunar Orbiter images were the highest resolution images ever taken of the Moon from orbit prior to the LRO's photography. Digitized Lunar Orbiter images would be invaluable to scientists studying changes in the Moon's surface.

Expertise and facilities

Front half of LOIRP's facilities

In February 2007, Wingo visited the four Ampex FR-900 tape drives for the first time in Evans's garage. Each drive was about 6 feet (1.8 m) tall, 3 feet (0.9 m) wide, as deep as a refrigerator, and weighed about 600 pounds (270 kg). These were all coated with thick layers of dust and cobwebs. They were stored with a pallet of manuals and schematics for the tape drives, along with hard copies of data related to the lunar images. Meanwhile, the tapes were stored safely in a climate-controlled warehouse. There were about 1,500 tapes, all packed into boxes, stacked four deep on pallets, and shrink-wrapped.

Wingo and Keith Cowing, a former NASA employee and president of SpaceRef Interactive, respectively, now served as co-leaders of the Lunar Orbiter Image Recovery Project (LOIRP). Both Cowing and Wingo provided the funds required to get the project started. They spent about a year looking for more funding, facilities, documentation, and expertise. Pete Worden, director of NASA's Ames Research Center, agreed to store the tape drives and tapes in unused warehouse space until funding and facilities could be found to begin the restoration project.

In April 2007, the Jet Propulsion Laboratory released the tapes to the custody of Ames Research Center. Evans also transferred the ownership of the FR-900 drives to Wingo and Cowing. Wingo and Cowing rented two transfer trucks, loaded up the tape drives and documentation into one truck, and loaded the pallets of analog data tapes into the other truck. Cowing and Wingo then drove the trucks up to Mountain View, California, from Burbank. The drives and tapes then sat in storage for about the next year as funding for the project was sought.

Since the team required a facility with proper heating and cooling, and a sink, available vacant buildings outside the gate of Ames Research Center were whittled down to two: a barber shop, and a McDonald's restaurant that had closed weeks before. The barber shop was relatively small, so working there would have required that the tapes be stored at a separate warehouse. On the other hand, the former McDonald's was much larger, had good lighting, adequate power, air conditioning, and parking. The building turned out to need some improvements in the electrical wiring. By July 2008, the team had moved into the former McDonald's (Building 596), now dubbed "McMoon's".

Wingo and Cowing quickly found more expertise in Ken Zin, a U.S. Army veteran who had long experience in working with analog tape machines, including the FR-900 series. By coincidence, Zin's brother worked at NASA Ames Research Center and it is via this coincidence that Wingo and Cowing initially got in touch with Zin. With the assistance of Ken Davidian at NASA Headquarters, funding was found in 2008 for a pilot project to show that the drives could be repaired, and that images could be recovered from the original tapes. The first task was to methodically disassemble and clean the tape drives. Meanwhile, Zin began testing the systems of the tape drives and making lists of devices to replace and refurbish. Parts for the drives were bought on eBay, online electronic parts stores, and other places.

Management and recruiting allies

Wingo and Cowing plunged into the management of the project: ordering parts, managing funds, searching surplus yards for equipment, researching refurbishing companies, and recruiting allies to the project. He began sending out an email newsletter, one that was later converted to a blog, MoonViews.com, and posting photos to the project's Facebook page. Student interns from the nearby San Jose State University were recruited, and the team requested help from retired and current employees of Ampex and from blog writers with audiences that might be able to help. Every day there seemed to be a new visitor to McMoon's, such as Dr. Lisa Gaddis from the USGS project to digitize the Lunar Orbiter films, and Charlie Byrne, who wrote the memo recommending that the Lunar Orbiter data be stored on magnetic tape. The project was reported in the Los Angeles Times, Computerworld, National Geographic, the Associated Press, American Libraries, the local news, and numerous blogs.

Included in every news story was the message that the images are a vital piece of history, but more than this, that they contain scientific data of a time, place, and quality that has not been repeated. These are images that can assist in the current research about the Moon and the climate of the Earth. There may even be other lost data from the same era recorded using the same tape drives that could benefit from the efforts of the LOIRP team.

Media and metadata

Stacks of 2-inch tape reels inside McMoon's

Shortly after moving into McMoon's, a group of students from the NASA Astrobiology Academy was recruited to remove all the tapes from the boxes, and put the tapes in order. Each tape takes about an hour to run on the tape drive, and holds one high-resolution image and one medium-resolution image. When archived in the early 1970s, each reel of tape was labeled, wrapped in a clear plastic bag, and enclosed in a mu-metal tin, and sealed with yellow plastic tape. Additional labels have been placed on the outside of the tape container. Each tape is labeled with a code that usually consists of two letters and two numbers, for example: MT_19, WT_45, and GT_46. One of the Astrobiology Academy students realized that the first letter indicated which ground station recorded the data on the tape in that container: "M" indicates that the tape was recorded in Madrid, Spain; "W" indicates that the tape was recorded in Woomera, Australia; and "G" indicates that the tape was recorded in Goldstone, California. This guess was confirmed when the team listened to the audio track at the beginning of a few of the tapes, wherein the operator of the ground station recites information about the tape and the recording. On tapes marked with an "M", the operator has a distinctly Spanish accent. On tapes marked with a "W", the operator has a distinctly Australian accent. On tapes marked with a "G" the operator speaks with an American accent. Sometimes audio track captures an operator at one tracking station talking to an operator at another tracking station. Each tape's opening audio includes the date that the tape was recorded in both local and Universal Time.

There are many other confusing problems with the tapes. Each tape is supposed to hold a complete pair of images, but some contain just a few minutes of audio signal, and some contain the same tiny portion of an image, over and over. In the early stages of the project, the team wanted to rescue images that have the most value and impact, but they found that it was very time intensive to find images in this disordered array of tapes.

Hardware and funding

One of the FR-900 tape drives

In a completed and working magnetic tape drive system, the tape-drive heads apply a very specific magnetic field to the tape; the tape then induces a change in electric current, which is captured. The data from the Lunar Orbiter tapes is then run through a demodulator, and through an analog-to-digital converter so that it can be fed into a computer for digital processing. Each image is divided up into strips on the tape, so the computer is used to bring the strips together to create a whole image. Before even beginning the project, the team evaluated the risks and determined that there were two: one was that the tapes had deteriorated to the point where they could not be read; the second was that the tape drives would not be able to read the tapes. The milestones of the project were developed to test these risks as soon as possible with the least amount of money spent.

Once the project started in earnest in July 2008, results came quickly. In only a couple of weeks, the first tape drive had been powered up, although it was clear that many parts still needed to be replaced. Another week of cleaning and testing revealed that among the four drives and batches of spare parts there were enough good power supplies to run one of the tape drives, and there was at least one working head for the drive. The head is the mechanism that touches the tape and reads and writes data, so it is absolutely critical; in the case of the Ampex FR-900 tape drives, the heads were not manufactured after 1974, cannot be replaced, and can only be refurbished at great expense by a single small company.

After another month of repairing and replacing parts, testing and tuning mechanisms, the project got the first solid result that the tapes were good. Each tape starts with a short standard-format audio clip of the operator, and the tape drives were able to read the audio signal. (Hear a sample of the audio.) This does not use the video heads that are needed to read the Lunar Orbiter data off the tape, but this demonstrated that the tapes had not deteriorated and that many of the sub-systems of the tape drive were in good working order.

The documentation for the tape drives was substantially incomplete, which kept the team from understanding the right way to repair, maintain, and use the tape drives. The search for documentation has been extensive and usually disappointing, as it often turns out that retired or elderly engineers have just recently cleaned out their garages. Posting to a blog, Dennis Wingo said, "I cannot tell you how many times we have heard similar stories of recently tossed manuals over the last six months". At just the right moment the team heard from a friend of a friend that a mother lode of maintenance documentation stored on aperture cards (microfilm embedded in computer punch cards) had been saved by the retired head of Ampex field engineering. This documentation would make it possible for the team to understand the correct procedures for repairing the tape drives and aligning the mechanics.

At this point in the restoration, the demodulation of the tapes had become the biggest issue. The team was not sure if the demodulation board that came with the system was the correct one, if they needed a different one, or if they needed this one and another one. At the same time, they discovered a tape, which, from the audio clip at the start, sounded as if it contained a demodulated recording of one of the images. This was a lucky break, as it meant that a demodulator would not be needed to generate images from this tape. If the team could rescue this image, the project would prove "that the drive can be refurbished to the point of reliably playing a tape back". Work continued, and the team coined the term "technoarchaeology" to describe the process of researching which tape contained what image.

Direct comparison of the original photo to the restored version

Posts to the blog continued, but with little substance until suddenly NASA announced a press conference. On November 13, 2008 NASA held a press conference and announced that they were releasing the first image that had been restored: a striking image, taken on August 23, 1966, of the Earth as viewed, for the very first time, from the Moon. This was a major milestone that showed that the tapes and the tape drives were both good. Preliminary analysis showed that the image had "four times the dynamic range of the ... [original] film image and up to twice the ultimate resolution". The NASA Exploration Systems Mission Directorate (ESMD) had sponsored the team so far with a small grant of $100,000. With these results, more funds were released—another $150,000 to complete a major restoration of the drives and to create the demodulation hardware needed for the other tapes. Gregory Schmidt, deputy director of the NASA Lunar Science Institute at Ames said, "Now that we've demonstrated the capability to retrieve images, our goal is to complete the tape drives' restoration and move toward retrieving all of the images on the remaining tapes".

Within a month, the next round of funding came through and restoration began in earnest. The heads, capstan and rotor motors were being restored by two different companies. New documentation about the demodulation was discovered, and the team began building a board by hand. Custom belts were being manufactured to replace the old ones. Software was being written to process the digital images. The biggest expense was the heads, which cost around $8,000 each to be refurbished.

On March 21, 2009, the team announced that they had rescued an un-demodulated image from one of the tapes, using the newly perfected demodulation system. The image, of the crater Copernicus, is from the Lunar Orbiter 2 spacecraft taken on November 24, 1966. NASA Scientist Martin Swetnick was quoted in a Time magazine article from 1966, calling this image "one of the great pictures of the century".

By April, the team had digitized 30 images. A couple of months later an article in Computerworld revealed that the project had a new grant of $600,000, and had hopes to completely digitize all the images by February 2010. Most of the new funding came from NASA, but about 10% came from other donors. This new funding allowed the team to restore a second tape drive to full operation by November 2009, which made the process of restoring the images that much faster.

The Ampex FR-900 heads were refurbished by Videomagnetics of Colorado Springs, Colorado, the only company in the world that still refurbished Ampex and RCA Quadruplex video heads.

Future preservation

By April 2017, all images had been delivered to the NASA Planetary Data System (PDS), a digital repository for NASA mission and ground support data. Peer review of the LOIRP PDS submission began in May 2017. The LOIRP Online Data Volumes were published for public access by NASA at the PDS Cartography and Imaging Sciences Node on January 31, 2018.

See also

References

  1. "The Moon View". The New York Times. November 19, 2008. Archived from the original on November 20, 2008. Retrieved November 20, 2008.
  2. ^ Wingo, Dennis (February 20, 2014). "Lunar Orbiter Image Recovery Project (LOIRP) Status 20 February 2014". MoonViews. Archived from the original on December 5, 2018. Retrieved September 23, 2014.
  3. Wingo, Dennis (February 24, 2014). "Lunar Orbiter Image Recovery Project (LOIRP) Status 24 February 2014". MoonViews. Archived from the original on December 5, 2018. Retrieved September 23, 2014.
  4. ^ Cowing, Keith (February 10, 2018). "LOIRP Imagery and Data Available on NASA Planetary Data System". Moon Views. Archived from the original on February 11, 2018. Retrieved February 10, 2018.
  5. ^ Johnson, John Jr. (March 22, 2009). "NASA's early lunar images, in a new light". Los Angeles Times. Archived from the original on February 6, 2010. Retrieved December 29, 2009.
  6. Weiss, Jeremy C. (November 22, 2008). "40 year old space photos?". Weissblog. Archived from the original on December 6, 2008.
  7. Leo, Tom (December 30, 2008). "Saving a Vision of the Moon; CNY Man Helps Launch Effort to Restore First Photos of Earth from Space". The Post-Standard. Archived from the original on November 5, 2012.
  8. Horzempa, Philip (2009). "Lunar Orbiter Image Rescue and the NASA Headquarters History Office" (PDF). News & Notes. 26 (2). NASA History Division: 47–49. Archived (PDF) from the original on December 25, 2017. Retrieved July 12, 2017.
  9. Weller, L.; Becker, T.; Archinal, B.; Bennett, A.; Cook, D.; Gaddis, L.; Galuszka, D.; Kirk, R.; Redding, B.; Soltesz, D. (March 2007). USGS Lunar Orbiter Digitization Project: Updates and Status. 38th Lunar and Planetary Science Conference. March 12–16, 2007. League City, Texas. p. 2092. Bibcode:2007LPI....38.2092W. LPI Contribution No. 1338.
  10. Hautaluoma, Grey; Edwards, Ashley; Neal-Jones, Nancy (June 23, 2009). "NASA Lunar Mission Successfully Enters Moon Orbit". NASA.gov. Archived from the original on November 22, 2013. Retrieved April 25, 2014.
  11. Soderman, T.; Wingo, D. "Lunar Orbiter Image Recovery Project". NASA.gov. Archived from the original on September 23, 2009. Retrieved September 18, 2009.
  12. Cowing, Keith (November 13, 2008). "Image Collection: From a Garage to NASA". MoonViews. Archived from the original on April 1, 2018. Retrieved May 11, 2014.
  13. ^ Wood, Lamont (June 29, 2009). "The lost NASA tapes: Restoring lunar images after 40 years in the vault". Computerworld. Archived from the original on October 7, 2012. Retrieved March 14, 2013.
  14. "Abandoned McDonald's Serves Restored NASA Moon Pictures". National Geographic. Associated Press. May 5, 2009. Archived from the original on February 13, 2010. Retrieved January 28, 2010.
  15. Daley, Haven (April 20, 2009). First Moon Images No Longer Lost in Space. Associated Press. Archived from the original on February 15, 2014. Retrieved May 11, 2014 – via YouTube.
  16. Landgraf, Greg (September 16, 2009). "Archivist Saves, Restores Original NASA Moon Pictures". American Libraries Online. Archived from the original on May 12, 2014. Retrieved May 11, 2014.
  17. ^ "Old NASA Tapes Reveal Stunning New Moon Images; Resolution Unparalleled". KTVU. April 10, 2009. Archived from the original on May 12, 2014.
  18. Leibson, Steve (November 14, 2008). "NASA and LOIRP Return to the Moon, 42 Years Later. Recovering Lunar Orbiter Images". EDN Network. Archived from the original on May 12, 2014. Retrieved May 11, 2014.
  19. "A NASA Archivist, a Junkyard Warrior, and a Technoarchaeologist Save Lunar History". Old Dirt – New Thoughts. April 16, 2009. Archived from the original on November 13, 2012. Retrieved March 14, 2013.
  20. Rusbridge, Chris (April 15, 2009). "Heroic data recovery story: 40-year-old lunar orbital data". Digital Curation Blog. Digital Curation Centre. Archived from the original on December 13, 2009. Retrieved January 28, 2010.
  21. David, Leonard (March 31, 2009). "Old Moon Images Get Modern Makeover". Space.com. Archived from the original on May 12, 2014. Retrieved May 11, 2014.
  22. ^ Bourzac, Katherine (September–October 2009). "Surface Restoration". Technology Review. Photo Essay. 112 (5): 34–41. Archived from the original on March 4, 2016. Retrieved May 11, 2014.
  23. Cowing, Keith (July 16, 2008). "16 July 2008 LOIRP Status". MoonViews. Archived from the original on December 5, 2018. Retrieved May 11, 2014.
  24. Cowing, Keith (July 23, 2008). "23 July 2008 LOIRP Status". MoonViews. Archived from the original on March 26, 2017. Retrieved May 11, 2014.
  25. ^ "Quadruplex Video Head Refurbishment Crowdfunding Project". AVArchivering.nl. Kennisbank Audiovisuele Archivering. Archived from the original on October 4, 2013. Retrieved September 11, 2013.
  26. ^ Cowing, Keith (June 8, 2013). "LOIRP Status Report 8 June 2013". Moon Views. Archived from the original on December 5, 2018. Retrieved September 11, 2013.
  27. ^ Cowing, Keith (September 3, 2008). "3 September 2008 LOIRP Status". MoonViews. Archived from the original on December 5, 2018. Retrieved May 11, 2014.
  28. Cowing, Keith (August 4, 2008). "4 August 2008 LOIRP Status". MoonViews. Archived from the original on December 5, 2018. Retrieved May 11, 2014.
  29. Cowing, Keith (August 19, 2008). "19 August 2008 LOIRP Status". MoonViews. Archived from the original on December 5, 2018. Retrieved May 11, 2014.
  30. Wingo, Dennis R.; Cowing, Keith L. (March 2009). Recovering High Resolution Lunar Orbiter Images from Analog Tape. 40th Lunar and Planetary Science Conference. March 23–27, 2009. The Woodlands, Texas. Bibcode:2009LPI....40.2517W. No. 2517.
  31. Newton, Kimberly; Hautaluoma, Grey (November 13, 2008). "Correction – NASA Restores Historic Lunar Orbiter Image". NASA.gov. Archived from the original on January 14, 2010. Retrieved January 28, 2010.
  32. Cowing, Keith (January 20, 2009). "Lunar Orbiter Image Recovery Project Update (LOIRP) 20 January 2009". MoonViews. Archived from the original on April 2, 2018. Retrieved May 11, 2014.
  33. "Space: A New Look at Copernicus". Time. December 9, 1966. Archived from the original on April 14, 2014. Retrieved May 11, 2014.
  34. Cowing, Keith (November 12, 2009). "LOIRP Works To Bring Second FR-900 Tape Drive Online". MoonViews. Archived from the original on December 5, 2018. Retrieved May 11, 2014.

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