Lupini
Francesco Lupini, Rome IT
Patent application number | Description | Published |
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20090150881 | Building and Installing Dynamic Installation Packages Using a Declarative Authoring Tool - Building a package for installing a software application on a data processing system with a distributed architecture is provided. The installation package is built using an authoring tool based on a declarative model. A descriptor is used to define a desired configuration of the system The installation package is built declaring a discoverer element, a producer element and a consumer element into the wizard tree. During the installation process, the discoverer element detects a current configuration of the system. The producer creates a working queue dynamically, inserting the installation operations that are needed for reaching the desired configuration from the current configuration of the system. The producer then executes the installation operations defined in the working queue. In this way, the installation operations are determined at runtime. | 06-11-2009 |
20140136659 | Timeout Value Adaptation - A mechanism is provided for updating a timeout value of an application in a computer system. Hardware and software configuration data of the remote computing device is determined. A local computing device in the server system is provided in accordance with the determined hardware and software configuration data. An application on the local computing device is executed for determining the execution time of the application. An echo request packet is sent to the remote computing device. A current network time delay is determined from the elapsed time between sending and receiving a response to the echo request packet from the remote computing device. The timeout value from the current network time delay and the execution time is calculated. The sending, determining, and calculating steps are repeated during execution of the application by the remote computing device for repeatedly updating the timeout value using the calculated timeout value. | 05-15-2014 |
Francesco Lupini, Roma IT
Patent application number | Description | Published |
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20080228902 | Configuring processing entities according to their roles in a data processing system with a distributed architecture - A mechanism is provided for configuring different computers of a network. Each computer plays a specific physic role (defined by an architecture of the network) and/or a specific logic role (defined by the applications running in the network). A reference model and a transition table are associated with each product to be installed in the network; the reference model specifies a target configuration for each role (defined by the components of the product to be installed), while the transition table specifies the actions required to reach each target configuration from each current configuration of the computers. A server identifies the role and the current configuration of each computer; the actions required to enforce the desired target configuration on the computer are then established and executed. | 09-18-2008 |
Lorenzo Lupini, Solna SE
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20150245314 | METHODS AND APPARATUS FOR CONTENT DISTRIBUTION WITHIN A SUB-CELL IN A TELECOMMUNICATIONS SYSTEM - Methods and apparatuses for content distribution in a telecommunication system. Exemplary embodiments disclosed herein relate to a method performed in a device for distributing content to a user equipment and a method performed in the user equipment for receiving the content from the device, a method in a network node for assigning resources and a network node. The device is configured to send sub-cell broadcasts for distributing the content within a sub-cell. The device registers with the network node, informs the network node of sub-cell broadcast capability, requests allocation of resources and distributes content to the user equipment. | 08-27-2015 |
Michael Lupini, Milford, MI US
Patent application number | Description | Published |
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20130087406 | ACOUSTIC BAFFLE DEVICE - An acoustic baffle device for sealing a cavity of a vehicle body at a predetermined cross section of the cavity is provided. The device has a carrier having an opening therein, a heat expandable sealing material affixed to the carrier, and a flap assembly having a flap normally held in place by a spring so as to close off the opening, wherein the flap is capable of being deflected by insertion of a tube through the opening. | 04-11-2013 |
Peter Lupini, Victoria CA
Patent application number | Description | Published |
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20140142927 | SYSTEM TO CONTROL AUDIO EFFECT PARAMETERS OF VOCAL SIGNALS - A vocal effect processing system may include an effect modification module configured to selectively and dynamically apply effects to an input audio signal in accordance with a degree of likelihood that the input audio signal includes a vocal signal and/or based on a proximate location of a source of vocal audio with respect to a vocal microphone. Determination of the degree of likelihood that the input audio signal includes a vocal signal and/or the proximate location may be based on processing of the input audio signal or a plurality of input audio signals. Determination of the proximate location may alternatively, or in addition, be estimated based on a proximity sensor. The effect modification module may dynamically and selectively adjust the effects in response to changes in the degree of likelihood that the vocal signal is included in the input audio signal and/or changes in the estimated proximate location. | 05-22-2014 |
20140142928 | SYSTEM TO SELECTIVELY MODIFY AUDIO EFFECT PARAMETERS OF VOCAL SIGNALS - A vocal effect processing system may include an effect modification module configured to selectively and dynamically apply effects to an input audio signal in accordance with a degree of likelihood that the input audio signal includes a vocal signal and/or based on a proximate location of a source of vocal audio with respect to a vocal microphone. Determination of the degree of likelihood that the input audio signal includes a vocal signal and/or the proximate location may be based on processing of the input audio signal or a plurality of input audio signals. Determination of the proximate location may alternatively, or in addition, be estimated based on a proximity sensor. The effect modification module may dynamically and selectively adjust the effects in response to changes in the degree of likelihood that the vocal signal is included in the input audio signal and/or changes in the estimated proximate location. | 05-22-2014 |
Peter R. Lupini, Victoria CA
Patent application number | Description | Published |
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20100313739 | RHYTHM RECOGNITION FROM AN AUDIO SIGNAL - A guitar delay engine such as a multi-tap delay pedal or other rhythm engine such as a vocal multi-tap delay pedal, a drum machine, or any other device that requires setting a rhythmic pattern (i.e. level and timing information) for operation is provided. In a guitar delay device, the guitarist can hold down a foot pedal, play a rhythmic pattern on their guitar, and then release the foot pedal and have the rhythmic pattern just played emulated in the delay pattern on the device. | 12-16-2010 |
20120180618 | MUSICAL HARMONY GENERATION FROM POLYPHONIC AUDIO SIGNALS - Melody and accompaniment audio signals are received and processed to identify one or more harmony notes and a harmony signal is produced based on the one or more harmony notes. Typically the melody note is identified and a spectrum of the accompaniment audio signal and is obtained, and one or more harmony notes are identified based on the melody note and the accompaniment spectrum. The melody, and accompaniment signals can be processed in real-time for combination with the harmony signal in an audio performance. In some examples, audio signals are processed and harmonies generated for subsequent performance based on, for example, MIDI files generated from the audio signals. | 07-19-2012 |
20130025435 | MUSICAL HARMONY GENERATION FROM POLYPHONIC AUDIO SIGNALS - Melody and accompaniment audio signals are received and processed to identify one or more harmony notes and a harmony signal is produced based on the one or more harmony notes. Typically the melody note is identified and a spectrum of the accompaniment audio signal and is obtained, and one or more harmony notes are identified based on the melody note and the accompaniment spectrum. The melody, and accompaniment signals can be processed in real-time for combination with the harmony signal in an audio performance. In some examples, audio signals are processed and harmonies generated for subsequent performance based on, for example, MIDI files generated from the audio signals. | 01-31-2013 |
20130112065 | MUSICAL HARMONY GENERATION FROM POLYPHONIC AUDIO SIGNALS - Melody and accompaniment audio signals are received and processed to identify one or more harmony notes and a harmony signal is produced based on the one or more harmony notes. Typically the melody note is identified and a spectrum of the accompaniment audio signal and is obtained, and one or more harmony notes are identified based on the melody note and the accompaniment spectrum. The melody, and accompaniment signals can be processed in real-time for combination with the harmony signal in an audio performance. In some examples, audio signals are processed and harmonies generated for subsequent performance based on, for example, MIDI files generated from the audio signals. | 05-09-2013 |
20140180683 | DYNAMICALLY ADAPTED PITCH CORRECTION BASED ON AUDIO INPUT - Systems and methods for adjusting pitch of an audio signal include detecting input notes in the audio signal, mapping the input notes to corresponding output notes, each output note having an associated upper note boundary and lower note boundary, and modifying at least one of the upper note boundary and the lower note boundary of at least one output note in response to previously received input notes. Pitch of the input notes may be shifted to match an associated pitch of corresponding output notes. Delay of the pitch shifting process may be dynamically adjusted based on detected stability of the input notes. | 06-26-2014 |