Meshkat
Farhad Meshkat, San Diego, CA US
Patent application number | Description | Published |
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20150117208 | BACKHAUL MANAGEMENT OF A SMALL CELL USING HEAVY ACTIVE ESTIMATION MECHANISM - The present disclosure presents a method and an apparatus for heavy active estimation mechanism for backhaul management at a small cell base station. For example, the method may include identifying, at the small cell base station, that a throughput of a user equipment (UE) in communication with the small cell base station is potentially limited due to backhaul congestion at the small cell base station, establishing a proxy flow between the small cell base station and a transmission control protocol (TCP) proxy peer in response to the identifying, wherein the proxy flow data packets are transmitted from the small cell base station to the TCP proxy peer or from the TCP proxy peer to the small cell base station, calculating a throughput of the proxy flow for a pre-determined time period, and determining whether the throughput of the UE is limited by backhaul congestion at the small cell base station based on the calculated throughput of the proxy flow. As such, heavy active estimation mechanism for backhaul management at a small cell base station may be achieved. | 04-30-2015 |
Hamid Meshkat, Markham CA
Patent application number | Description | Published |
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20080250480 | METHOD AND SYSTEM FOR AN ELECTRONIC BANK SAFE DEPOSIT BOX - A system and method for providing secure electronic storage in a plurality of electronic safes which each include a plurality of electronic compartments. The owner of each electronic safe can generate new compartments and determine who has access to each of the compartments in their electronic safe. | 10-09-2008 |
Siavash N. Meshkat, San Jose, CA US
Patent application number | Description | Published |
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20090299647 | METHOD, SYSTEM, AND COMPUTER PROGRAM PRODUCT FOR IDENTIFYING BINDING CONFORMATIONS OF CHEMICAL FRAGMENTS AND BIOLOGICAL MOLECULES - A new approach to identifying binding conformations of chemical fragments and biological molecules is presented, in which fragment poses are explored in a systematic fashion. In an embodiment, for each pose, a fast computation is performed of the fragment interaction with the biological molecule using interpolation on a grid. Once the energies of fragment poses are computed, thermodynamical quantities such as binding affinity, binding enthalpy, and binding entropy are computed by direct sum over fragment poses. Using the present invention, it is possible to navigate fragment configuration space to identify separate binding modes. The present invention can be used to scan an entire biological molecule to identify possible binding pockets, or it can be used for localized explorations limited to interesting areas of known binding pockets. | 12-03-2009 |