Mashinsky
Alexander Mashinsky, New York, NY US
Patent application number | Description | Published |
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20080226054 | Efficient communication through networks - A method and device that interrogates the availability of a called party before placing a communication from the calling party to the called party. A callback may be initiated so that both communications are completed simultaneously. The routing of communication may take place through any one of a number of different networks and at another time of the day, even if the caller does not otherwise have access to those networks. | 09-18-2008 |
20100208634 | System and Method For Managing Multimedia Communications Across Convergent Networks - The present invention provides for bidirectional or duplex transmission of multimedia content such as live video and/or audio between access devices of a calling party and a called party in a convergent network. The quality of transmission is managed through a convergent communications platform, which periodically tests performance characteristics of network routes in operative communication with the platform, categorizes the network routes based on measured performance metrics, and selects network operators whose network characteristics meet the desired quality parameters of a particular multimedia content to be transmitted (e.g., real-time high definition video conference). The management of transmissions is transparent to the end users who will be able to communicate with others regardless of the type of devices or networks the called parties use or subscribe to. | 08-19-2010 |
20120321058 | System and Method for Managing Multimedia Communications Across Convergent Networks - A method and device that interrogates the availability of a called party before placing a communication from the calling party to the called party. A callback may be initiated so that both communications are completed simultaneously. The routing of communication may take place through any one of a number of different networks and at another time of the day, even if the caller does not otherwise have access to those networks. | 12-20-2012 |
Alexander Mashinsky, Memphis, TN US
Patent application number | Description | Published |
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20140286180 | SYSTEM AND METHOD FOR MANAGING MULTIMEDIA COMMUNCIATIONS ACROSS CONVERGENT NETWORKS - The present invention provides for bidirectional or duplex transmission of multimedia content such as live video and/or audio between access devices of a calling party and a called party in a convergent network. The quality of transmission is managed through a convergent communications platform, which periodically tests performance characteristics of network routes in operative communication with the platform, categorizes the network routes based on measured performance metrics, and selects network operators whose network characteristics meet the desired duality parameters of a particular multimedia content to be transmitted (e.g., real time high definition video conference). The management of transmissions is transparent to the end users who will be able to communicate with others regardless of the type of devices or networks the caked parties use or subscribe to. | 09-25-2014 |
David Mashinsky, Memphis, TN US
Patent application number | Description | Published |
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20140197787 | Self-Charging Electric Vehicle And Aircraft And Wireless Energy Distribution System - A system and method to provide fast charge and discharge of electrical power without wires between two elements configured to have resonant tuned coils and circuits. The coils are energized by a power source that includes super capacitors, fast charging batteries and oscillating power management system. | 07-17-2014 |
Rena Mashinsky, Memphis, TN US
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20140197787 | Self-Charging Electric Vehicle And Aircraft And Wireless Energy Distribution System - A system and method to provide fast charge and discharge of electrical power without wires between two elements configured to have resonant tuned coils and circuits. The coils are energized by a power source that includes super capacitors, fast charging batteries and oscillating power management system. | 07-17-2014 |
Valery Mikhailovich Mashinsky, Moscow RU
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20090116809 | Amplifying Optical Fiber Operating At A Wavelength In The Range Of 1000-1700 nm, Methods of Fabricating The Same, And Fiber Laser - The invention relates to lasers and fiber optics. An amplifying optical fiber operating at a wavelength in the range of 1000-1700 nm comprises an oxide glass core to provide amplification and at least one oxide glass cladding. According to the invention the core contains oxides of elements selected from the group consisting of silicon, germanium, phosphorus, bismuth, aluminum, gallium at concentration of bismuth oxide of 10-4-5 mol %, concentration of silicon and germanium oxides, taken together or separately, of 70-99.8999 mol %, concentration of aluminum and gallium oxides, taken together or separately, of 0.1-20 mol % concentration of phosphorus oxide from 0 to 10 mol %, and provides a maximum optical gain at least 10 times greater than the nonresonant loss factor in the optical fiber. An outside oxide glass cladding comprises fused silica. The optical fiber core has an absorption band in the 1000 nm region, pumping to which region provides an increased efficiency of power conversion of pump light into luminescence light in the 1000-1700 nm range as compared to pumping to another absorption bands in which pumping brings about luminescence in the 1000-1700 nm range. The optical fiber emits luminescence in the range of 1000-1700 nm when excited by light with wavelengths in the range of 750-12000 nm and a half-height width of the luminescence band of more than 120 nm, and luminescence band boundaries defined as points in which the luminescence intensity drops twice relative to the intensity in the luminescence band maximum lie within the 1000-1700 nm spectral range. | 05-07-2009 |