Belikoff, US
Alexander Belikoff, Brooklyn, NY US
Patent application number | Description | Published |
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20100063915 | PRICING MORTGAGE-BACKED SECURITIES - Systems, methods and computer program products stored on a computer readable medium or media are described for providing pricing of mortgage-backed securities and other financial instruments. Multiple cashflow paths resulting from different interest rate development scenarios are consolidated into a single cashflow path. A continuously compounded interest rate spread (“equivalent cc spread”) corresponding to the option adjusted spread prevailing at the market is determined, as is a relationship between the two. Reformulating computations of option adjusted spreads and prices using an equivalent cc spread and factoring out assumption changes approximates individual cashflow path and interest rate path calculations and allows use of consolidated cashflows calculations as a very good approximation. In some embodiments, the consolidated cashflow and the relationship between two spreads is employed to compute the value of the financial instrument, as a very good approximation, at a later time, so that the price reflects changes in the market yield curve and the option adjusted spread. For example, interest rate paths, cashflow paths, consolidated cashflow paths, discount factors and the equivalent cc spread are computed at market close, and only the consolidated cashflow paths, discount factors and the equivalent cc spread (and not the interest rate paths and cashflow paths) are stored for later on-demand use when the discount factors are adjusted to reflect the then current market environment. | 03-11-2010 |
Michael Belikoff, Mendham, NJ US
Patent application number | Description | Published |
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20140261614 | METHOD OF INSTALLING AND OPERATING A SOLAR MODULE ARRAY - A method of installing and managing a solar module array includes determining a desired output capacity of the array, providing a first number of solar modules to generate electrical power at the desired output capacity, installing the first number of solar modules as the array at a plant site, and operating the array to generate electrical power. The array is monitored for an event that triggers providing a second number of the solar modules as recharge modules to compensate for degradation of the desired output capacity based upon at least one of a predetermined percentage of degradation and a predetermined period of operation. The array is monitored for the event over a monitoring period less than the operating life of the array to trigger further provision of the recharge modules as needed. | 09-18-2014 |
Michael A. Belikoff, Mendham, NJ US
Patent application number | Description | Published |
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20100269429 | Rooftop Photovoltaic Module Mounting System - A rooftop photovoltaic module mounting system includes a footer and a photovoltaic module mounting framework. | 10-28-2010 |
20100302731 | Inverter Cooler - A DC to AC inverter used in a solar cell power system can include an improved structure for cooling itself and increasing power output. | 12-02-2010 |
20100307991 | PHOTOVOLTAIC MODULE GROUND MOUNT - A photovoltaic module ground mounting system can include a collapsible photovoltaic module mounting assembly framework. | 12-09-2010 |
20120031862 | FOLDING MOUNT FOR PHOTOVOLTAIC MODULES - This invention relates to photovoltaic modules and arrays, methods of assembling photovoltaic arrays, and methods for shipping components of photovoltaic arrays. | 02-09-2012 |
20120036717 | PHOTOVOLTAIC MODULE GROUND MOUNT - A collapsible photovoltaic module mounting assembly framework for mounting a plurality of photovoltaic modules thereon, comprising a plurality of module support rails each configured to be attached to a portion of a photovoltaic module and a plurality of supporting beams. A first of the supporting beams is positioned under, and pivotally connected to, a first portion of the rails and a second of the supporting beams is positioned under, and pivotally connected to, a second portion of the rails. The supporting beams can be moved to a relative position adjacent to each other by moving the rails from a first orientation substantially perpendicular to the supporting beams to a second orientation substantially oblique to the supporting beams. Further, each supporting beam has a plurality of openings through which a hardware connector can be passed to connect the supporting beam to a support structure. | 02-16-2012 |
20140202524 | PHOTOVOLTAIC MODULE GROUND MOUNT - A photovoltaic module ground mounting system can include a collapsible photovoltaic module mounting assembly framework. | 07-24-2014 |