James Russell (inventor)
James T. Russell | |
---|---|
Born | 1931 (age 92–93) Bremerton, Washington, U.S. |
Education | Bachelor of Arts in Physics, Reed College |
Occupation | Inventor |
Employer | Pacific Northwest National Laboratory |
Known for | Inventing video recording on an optical medium |
James T. Russell (born 1931) is an American inventor. He earned a BA in physics from Reed College in Portland in 1953. He joined General Electric's nearby labs in Richland, Washington, where he initiated many types of experimental instrumentation. He designed and built the first electron beam welder.[1]
In 1965, Russell joined the Pacific Northwest National Laboratory of Battelle Memorial Institute in Richland. There, in 1965, Russell invented the overall concept of optical digital recording and playback.[1] He built prototypes, and the first was operating in 1973. In 1973, 1974, 1975 his invention was viewed by about 100 companies, including Philips and Sony, and more than 1500 descriptive brochures were distributed.[citation needed] The concept was picked up by many technical and media magazines beginning in 1972.[citation needed].
In 2000, Russell received The Vollum Award from Reed College.[2]
As of 2004, Russell was consulting from an in-home lab, in Bellevue, Washington.[3]
Patents
[edit]The earliest patents by Russell, US 3,501,586, and 3,795,902 were filed in 1966, and 1969. respectively.[4][5] Major features of the early Russell patents:
- The preferred embodiment of the scanning mechanism is awkward since the disc is not rotating but fixed. A scanning mirror with which the light is deflected is attached to a rotating shaft.
- The entire disc or oblong sheet to be read is illuminated by a large playback light source at the back of the transparent plate instead by focused laser light in reflective mode. There is no objective lens for reading the data.
- Dynamic track or focus servos are absent.
- The patent specification mentions the use of a protective layer(s) or coating to prevent scratching during handling, but the layer does not offer significant benefits, as its task is merely to protect. Fingerprints and scratches will obscure the data read. In a CD, on the other hand, where a focused laser beam is used in conjunction with a protective layer at the reading side of the disc, scratches and fingerprints are out of focus, and thus not detected by the reading spot. As a result, the CD/DVD method offers a great resilience against disc anomalies, offering great playability.
- Low information density. According to the patent specifications the spot diameter is around 10 micrometres. Thus, the areal information density is, according to the patent specifications, around a factor hundred less than that of a regular CD. This amounts to a capacity of 5 Mbytes for a disc of 12 cm diameter. The inevitable downside to this is that Russell's disc offers playing time less than one minute of digital CD sound. In case we have digital video at 30 Mbit/s, as claimed above, Russell's disc would be read in less than two seconds. How such extremely fast scanning could be implemented was not disclosed.
- Photographically copying of data.
- The patents do not address any details of the digital coding techniques used and/or details of methods how to solve the problems associated with extremely high bit rates of digital video signals. Due to limitations of electronics circuitry, there was no (MPEG) source coding at the time to lower the overall bit rates. The uncompressed bit rate of a color video signal is around 200 Mbit/s, and it is far from clear how the mechanical (scanning speed) and electronic challenges imposed by these enormous bit rates were solved. The patents do not mention error correction or other digital coding technology.
Controversy
[edit]Whether Russell's concepts, patents, prototypes and literature[citation needed] instigated and in some measure guided the optical digital revolution is controversial.[6] Early optical recording technology, which formed the physical basis of videodisc, CD and DVD technology, was first published/filed by Dr. David Paul Gregg in 1958 and Philips researchers Kramer and Compaan.[citation needed] in 1969. Russell's optical digital inventions were available publicly from 1970.
See also
[edit]References
[edit]- ^ a b "Inventor of the Week - James T. Russell - The Compact Disc". MIT. December 1999. Archived from the original on April 17, 2003.
- ^ "INVENTOR AND PHYSICIST JAMES RUSSELL '53 WILL RECEIVE VOLLUM AWARD AT REED'S CONVOCATION" (Press release). Reed College public affairs office. 2000. Archived from the original on 2013-10-09. Retrieved 2014-07-24.
- ^ Brier Dudley (2004-11-29). "Scientist's invention was let go for a song". The Seattle Times. Retrieved 2014-07-24.
- ^ U.S. patent 3,501,586 Analog to digital to optical photographic recording and playback system, March 1970.
- ^ U.S. patent 3,795,902 Method and apparatus for synchronizing photographic records of digital information, March 1974.
- ^ Dave Franzwa (2005-01-12). "The Invention of Optical Digital Recording with James T. Russel". Audio Engineering Society Pacific Northwest Section. Archived from the original on 2012-02-22. Retrieved 2008-06-19.
External links
[edit]- James T. Russell, The Digital Compact Disc at the Wayback Machine (archived April 2, 2013)
- Adam Holdorf (November 2000). "Bet you didn't know Jim Russell '53 pioneered compact disc technology". Reed Magazine.
- Sara Forrest (2013-03-15). "Famous Dyslexics: James Russell".
- "Compact Disk of James Russell". History of Computers and Computing.