1
James Kraemer Ph.D.
Robert Friedlander, Richard Hennessy, James R Kraemer: System and method for optimizing distributed and hybrid queries in imperfect environments. International Business Machines Corporation, Richard M Goldman, July 24, 2008: US20080177770-A1

Method, system, and program product for configuring and using a federated database and data structure management system with error prone data. The design of the metadata and queries includes the steps of first determining schema and metadata configurations of the data source servers. The next step i ...


2
James Kraemer Ph.D.
Robert R Friedlander, Richard Hennessy, James R Kraemer: System and method for optimizing federated and ETLd databases having multidimensionally constrained data. International Business Machines Corporation, Richard M Goldman, November 29, 2007: US20070276851-A1

Method, system, and program product for configuring and using a federated database management system. The design of the metadata and queries includes the steps of first determining schema and metadata configurations of the data source servers. The next step is enumerating available resources, and en ...


3
James Kraemer Ph.D.
Robert R Friedlander, Anwer Mujahid Khan, James R Kraemer: System, method, and program product for optimizing a research and grant portfolio. International Business Machines Corporation, Richard M Goldman, March 29, 2007: US20070073754-A1

Method, system, and program product for managing research grants. This is done by capturing at least one grant description into a database. Next one or more of researcher capability, researcher availabilities, and research subject availabilities are entered into the database. The grant description i ...


4
Peter S Lim, Robert Broderson: Method of maintaining a network of partially replicated database system. Siebel Systems, Craig P Opperman, Richard M Goldman, Cooley Godward, February 16, 1999: US05873096 (1104 worldwide citation)

A partially replicated database is maintained so that updates made to a central database, or to another partially replicated database, are selectively propagated to the partially replicated database. Updates are propagated to a partially replicated database if the owner of the partially replicated d ...


5
Roger W Pryor, Napoleon P Formigoni, Stanford R Ovshinsky: Thin film electrical devices with amorphous carbon electrodes and method of making same. Energy Conversion Devices, Richard M Goldman, Marvin S Siskind, Kenneth M Massaroni, July 4, 1989: US04845533 (291 worldwide citation)

Thin film electrical structures, such as threshold switching devices and phase change memory cells, preferably utilizing electrically stable, relatively inert, conductive electrodes including a non-single-crystal deposited film of carbon material, are disclosed. The film of carbon material, which pr ...


6
Stephen J Hudgens, Annette G Johncock, Stanford R Ovshinsky, Prem Nath: Plasma deposited coatings, and low temperature plasma method of making same. Energy Conversion Devices, Richard M Goldman, Marvin S Siskind, April 12, 1988: US04737379 (259 worldwide citation)

A method of depositing a substantially hydrogen free or controlled hydrogen content multi-element alloy film on a substrate. The method utilizes a microwave excited plasma of a hydrogen free precursor gas to deposit a hard, adherent coating. The method comprises providing a substrate to be coated in ...


7
Rosa Young, Napoleon Formigoni: Grooved optical data storage device including a chalcogenide memory layer. Energy Conversion Devices, Richard M Goldman, Marvin S Siskind, Judith M Riley, January 12, 1988: US04719594 (256 worldwide citation)

Disclosed is an optical data storage device having incorporated therein an optical data storage medium. The optical data storage device is switchable between at least two detectable states by the application of projected beam and energy thereto. The optical data storage device has a first substantia ...


8
Subhendu Guha, Stanford R Ovshinsky: P and n-type microcrystalline semiconductor alloy material including band gap widening elements, devices utilizing same. Energy Conversion Devices, Marvin S Siskind, Richard M Goldman, October 4, 1988: US04775425 (252 worldwide citation)

An n-type microcrystalline semiconductor alloy material including a band gap widening element; a method of fabricating p-type microcrystalline semiconductor alloy material including a band gap widening element; and electronic and photovoltaic devices incorporating said n-type and p-type materials.


9
Roger W Pryor, Napoleon P Formigoni, Stanford R Ovshinsky: Thin film overvoltage protection devices. Energy Conversion Devices, Marvin S Siskind, Richard M Goldman, February 28, 1989: US04809044 (236 worldwide citation)

Solid-state overvoltage protection devices, preferably formed of deposited thin film, chalcogenide, threshold switching materials, typically include at least one elongated current conduction path through an elongated cross-sectional area of the threshold switching material. The cross-sectional area ...


10
Subhendu Guha, Stanford R Ovshinsky: Method of fabricating n-type and p-type microcrystalline semiconductor alloy material including band gap widening elements. Energy Conversion Devices, Marvin S Siskind, Richard M Goldman, Kenneth M Massaroni, January 2, 1990: US04891330 (224 worldwide citation)

A method of fabricating doped microcrystalline semiconductor alloy material which includes a band gap widening element through a glow discharge deposition process by subjecting a precursor mixture which includes a diluent gas to an a.c. glow discharge in the absence of a magnetic field of sufficient ...