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Gaspari
Achille Lucio Gaspari, Roma IT
| Patent application number | Description | Published |
|---|---|---|
| 20110190585 | SURGICAL TOOL, PARTICULARLY FOR USE IN LAPAROSCOPY - A surgical instrument ( | 08-04-2011 |
Marco Gaspari, Cosenza IT
| Patent application number | Description | Published |
|---|---|---|
| 20080277578 | Nanoporous substrates for the analytical methods - Nanoporous materials can be used to enrich samples for subsequent analysis of substances contained in the sample. The method is shown to enrich the yield of species in the low molecular weight proteome, allowing detection of small peptides in the low nanomolar range. | 11-13-2008 |
Roberto Gaspari, Milano IT
| Patent application number | Description | Published |
|---|---|---|
| 20100092182 | METHOD AND SYSTEM FOR FIBER-OPTIC MONITORING OF SPATIALLY DISTRIBUTED COMPONENTS - A system for monitoring ancillary elements of an electric power distribution network, includes an optical fiber path associated with the ancillary elements to be monitored, respective optical branches branching from the optical fiber path, wherein each optical branch includes at least one passive optical attenuator operatively coupled to, and having an attenuation adapted to change in response to a change in operating conditions of the respective ancillary element, and an optical reflector; an optical radiation source adapted to inject optical radiation into the optical fiber path; and an optical receiver adapted to detect back-reflected optical radiation reflected by the optical reflector; the monitoring system being further adapted to recognize a position of at least one of the ancillary elements based on a characteristic of the back-reflected optical radiation. | 04-15-2010 |
| 20100328651 | METHOD AND SYSTEM FOR FIBER-OPTIC MONITORING OF SPATIALLY DISTRIBUTED COMPONENTS - A system for monitoring a plurality of components distributed in different space locations, includes: at least one optical fiber path; an optical radiation source adapted to inject optical radiation into the at least one optical fiber path; at least one first and at least one second optical branches branching from the at least one optical fiber path and adapted to spill respective portions of the optical radiation, the first and second optical branches being adapted to be operatively associated with a respective component to be monitored. The first optical branch includes a first optical reflector and is adapted to reflect the spilled optical radiation portion unless the respective component at least partially breaks; the second optical branch includes at least one passive optical attenuator adapted to be operatively coupled to the respective component to be monitored, and having an attenuation capable of changing in response to a change in operating conditions of the respective monitored component when operatively coupled thereto, and a second optical reflector. An optical receiver is adapted to detect back-reflected optical radiation reflected by the first and second optical branches. The monitoring system is adapted to recognize a position of a component of the plurality of components based on a characteristic of the back-reflected optical radiation. | 12-30-2010 |