Salta al contenuto principale Salta alla navigazione principale Salta al piè di pagina
Ricerca Pubblicazioni-Brevetti:
9 di 14 brevetti
Abstract: Il brevetto descrive un nuovo tipo di apparecchio ARTVA, opportunamente modificato rispetto a quelli ora in uso, che consente di muoversi in direzione di un disperso sotto una valanga seguendo una linea retta, anziché tangenzialmente lungo le linee curve dei campi magnetici, come accade attualmente. La corretta direzione di marcia viene individuata tramite un semplice calcolo, basato sulle proprietà geometriche delle linee del campo magnetico e sull'inclinazione dell'antenna dell'apparecchio del disperso, rispetto ad un comune sistema di riferimento, informazione che viene trasmessa al ricercatore.
Autori: Alberto Alzati, Cristina Turrini, Iuri Frosio
2018
Abstract: The invention relates to a method and system which provides access control and access control enforcement particularly in relation to business process data streams. Embodiments of the invention provide a method and a set of components (referred to as: Policy Administration Point, Policy Enforcement Point, Filter Updater, Log De-Multiplexer) for fast online filtering of process logs based on access rights. In one embodiment the method comprises a series of steps to (i) encode each user's access rights to the process log in a machine readable format (ii) use such encoding together with incoming process events to compute a custom online filter to be applied to the process log as it is being recorded (iii) execute logical log de-multiplexing, enabling each user to query, inspect and monitor a separate event flow. In specific embodiments, the four components are virtual devices, respectively in charge of policy encoding (Policy Administration Point), policy evaluation and enforcement (Policy Enforcement Point), computation of an online filter with enforcement of log integrity constraints (Filter Updater), and generation of virtual event flows and support for policy changes and rights' revocations (Log De-Multiplexer).
Autori: Ernesto Damiani
2015
Abstract: A portable monitoring device (101) performs the monitoring of the short term, mid term and long term risks of Sudden Infant Death Syndrome (SIDS). It is also used to estimate the risk of onset of positional plagiocephaly. The monitoring device (101) is capable to acquire one or more signals associated to the typical breath and positioning patterns of an infant through a tri-axial accelerometer, and to register the data in electronic format. Statistical analysis of the signal and pattern recognition are performed in real time by a processing unit of the monitoring device. The monitoring device (101) can be used for monitoring the breath activity of an infant in various conditions, alerting a caregiver when a potentially dangerous situation is detected, with respect to a SIDS event or to the onset of plagiocephaly.; Thanks to its simplicity of use, small encumbrance and low power consumption, it can be turned on and attached to the clothes of the infant for as long as one day (or more), without the need of further supervision. Registered data can be transferred on a computer through a standard USB port, which can also be used for recharging a battery of the monitoring device (101). Statistical analysis of the registered data can be performed by a computer for quantifying the long term SIDS risk, the risk of plagiocephaly and for optimizing the functional parameters of the monitoring device (101). To get a more accurate estimation of the risk of plagiocephaly, the monitoring device (101) can be attached to the head of an infant.
Autori: Iuri Frosio
2012
Abstract: A portable monitoring device (101) performs the monitoring of the short term, mid term and long term risks of Sudden Infant Death Syndrome (SIDS). It is also used to estimate the risk of onset of positional plagiocephaly. The monitoring device (101) is capable to acquire one or more signals associated to the typical breath and positioning patterns of an infant through a tri-axial accelerometer, and to register the data in electronic format. Statistical analysis of the signal and pattern recognition are performed in real time by a processing unit of the monitoring device. The monitoring device (101) can be used for monitoring the breath activity of an infant in various conditions, alerting a caregiver when a potentially dangerous situation is detected, with respect to a SIDS event or to the onset of plagiocephaly.; Thanks to its simplicity of use, small encumbrance and low power consumption, it can be turned on and attached to the clothes of the infant for as long as one day (or more), without the need of further supervision. Registered data can be transferred on a computer through a standard USB port, which can also be used for recharging a battery of the monitoring device (101). Statistical analysis of the registered data can be performed by a computer for quantifying the long term SIDS risk, the risk of plagiocephaly and for optimizing the functional parameters of the monitoring device (101). To get a more accurate estimation of the risk of plagiocephaly, the monitoring device (101) can be attached to the head of an infant.
Autori: Iuri Frosio
2012
Abstract: La presente invenzione si riferisce ad un metodo per la effettuazione di ispezioni non invasive di oggetti mediante raggi X, comprendente i seguenti passaggi:  fornire almeno una sorgente di raggi X che emetta un fascio policromatico collimato mediante un collimatore primario ed incidente sull’oggetto in esame secondo un angolo predefinito ;  fornire almeno un rivelatore di raggi X, costituito da più elementi spaziali disposti secondo una matrice avente almeno una riga, che intercetti la radiazione modificata dall’oggetto in esame e produca, per ogni elemento, dati di attenuazione associati ad almeno due bande di energia predefinite ;  fornire un elaboratore che elabori i dati acquisiti dall’almeno un rivelatore e ricostruisca immagini radiografiche degli oggetti sotto esame nonché informazioni relative al loro volume e composizione ; La invenzione si riferisce inoltre ad un sistema configurato per realizzare il metodo.
2012
Abstract: La presente invenzione si riferisce ad un metodo per la mobilità delle persone. In particolare si riferisce ad un metodo per la mobilità applicabile ad un contesto urbano ed extra urbano, basato sulla disponibilità di una rete viaria dedicata al movimento automatico di veicoli dotati di una unità di controllo locale che gestisce la navigazione degli stessi veicoli attraverso la rete. Il metodo è inoltre basato sulla disponibilità di una unità di controllo centrale della rete, che effettua il monitoraggio continuamente aggiornato dello stato del traffico sulla rete e comunica in modo bidirezionale con le unità di controllo locale dei veicoli. La invenzione si riferisce inoltre ad un sistema congegnato per realizzare il metodo.
2011
Abstract: A solution is provided for configuring a server farm (for example, to run a SAP application). The SAP application sets corresponding operational constraints for the server farm (defined by a required processing power and a required memory for the application instances and the DBMS instance of the SAP application). A mathematical model of the server farm is defined, so as to allow selecting the optimal configuration thereof that minimizes its total cost. For this purpose, the servers are chosen with a memory proportional to the corresponding power. More complex models are then provided for a high-reliability scenario, a scalability scenario, and a consolidation scenario.
Autori: Marco Trubian
2011
Abstract: A radiographic X-ray apparatus is equipped with multiple devices for the acquisition of anatomical data, in particular cameras. These devices are used to facilitate and automate the imaging process, providing: before exposure the automated identification of the specific anatomical features of the patient and the optimized presetting of the exposure technique factors and projection geometry, tailored on the actual anatomy of the patient; during exposure the optimized X-ray dose modulation, either automatically or selected by the operator, in order to correctly expose the various regions of interest, and accordingly impart reduced dose to other body parts, according to the actual anatomy of the patient and imaging requirements; after exposure the possibility to complement the radiographic image with additional information about the internal and external anatomy, providing valuable tools for the medical analysis and diagnosis.
Autori: Nunzio Alberto Borghese, Iuri Frosio
2009
Abstract: A radiographic X-ray apparatus is equipped with multiple devices for the acquisition of anatomical data, in particular cameras (10). These devices are used to facilitate and automate the imaging process, providing: - before exposure the automated identification of the specific anatomical features of the patient (4) and the optimized presetting of the exposure technique factors and projection geometry, tailored on the actual anatomy of the patient (4); - during exposure the optimized X-ray dose modulation, either automatically or selected by the operator, in order to correctly expose the various regions of interest, and accordingly impart reduced dose to other body parts, according to the actual anatomy of the patient (4) and imaging requirements; - after exposure the possibility to complement the radiographic image with additional information about the internal and external anatomy, providing valuable tools for the medical analysis and diagnosis.
Autori: Nunzio Alberto Borghese, Iuri Frosio
2009