Normal view
MARC view
Entry Personal Name
001 - CONTROL NUMBER
- control field: 3558
003 - CONTROL NUMBER IDENTIFIER
- control field: DLC
005 - DATE AND TIME OF LATEST TRANSACTION
- control field: 20221016130442.0
008 - FIXED-LENGTH DATA ELEMENTS
- fixed length control field: 850328n| azannaabn |a aaa
010 ## - LIBRARY OF CONGRESS CONTROL NUMBER
- LC control number: n 85100217
035 ## - SYSTEM CONTROL NUMBER
- System control number: (CaEvSKY)skya2456809
035 ## - SYSTEM CONTROL NUMBER
- System control number: (OCoLC)oca01331480
040 ## - CATALOGING SOURCE
- Original cataloging agency: DLC
- Language of cataloging: eng
- Description conventions: rda
- Transcribing agency: DLC
- Modifying agency: DLC
- Modifying agency: OCoLC
- Modifying agency: MX-MoT
- Modifying agency: HU
100 1# - HEADING--PERSONAL NAME
- Personal name: Emami-Naeini, Abbas
372 ## - FIELD OF ACTIVITY
- Field of activity: Robust control
- Source of term: lcsh
373 ## - ASSOCIATED GROUP
- Associated group: Systems Control Technology, Inc.
- Associated group: Georgia Institute of Technology
- Associated group: Stanford University
- Source of term: naf
373 ## - ASSOCIATED GROUP
- Associated group: SC Solutions
375 ## - GENDER
- Gender: Males
- Source of term: lcdgt
377 ## - ASSOCIATED LANGUAGE
- Language code: eng
400 1# - SEE FROM TRACING--PERSONAL NAME
- Personal name: Naeini, Abbas Emami-
670 ## - SOURCE DATA FOUND
- Source citation: Franklin, G.F. A first course in feedback control, 1986:
- Information found: CIP t.p. (Abbas Emami-Naeini, Systems Control Technology)
670 ## - SOURCE DATA FOUND
- Source citation: SC Solution website, viewed Octuber 10, 2019
- Information found: (Abbas Emami-Naeini, Ph.D. Vice-President, Systems & Control ; Dr. Emami-Naeini joined SC Solutions in 1996 and is a co-founder of the Systems & Control Division. Dr. Emami-Naeini received his B.S.E.E. from Georgia Institute of Technology, and his M.S.E.E. and Ph. D. in Electrical Engineering from Stanford University. Dr. Emami's research has encompassed computer-aided control system design, multivariable robust servomechanism theory, and robust fault detection methods. He is currently interested in robust control theory with applications to semiconductor manufacturing systems)