Gerlovin
Emmanuel Gerlovin, Wayland, MA US
Patent application number | Description | Published |
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20110130855 | TEMPLATE FRAMEWORK FOR AUTOMATED PROCESS ROUTING - In accordance with an embodiment of the invention, there is provided a method for determining an optimum manufacturing process routing. The method comprises electronically constructing a plurality of manufacturing process routings for a component to be manufactured. The electronically constructing for each manufacturing process routing of the plurality of manufacturing process routings comprises defining a recursive process routing tree for each manufacturing process routing, the recursive process routing tree comprising a plurality of nodes, each node of the plurality of nodes corresponding to a manufacturing process and comprising a branch node when the manufacturing process for a given node may be decomposed into a plurality of sub-processes for the given node. The method further comprises electronically determining an optimum process routing of the plurality of manufacturing process routings by evaluating each recursive process routing tree for the plurality of manufacturing process routings with reference to an electronic process routing variable to be optimized and determining the optimum process routing that minimizes the electronic process routing variable to be optimized. The electronic process routing variable to be optimized may be a cost for manufacturing the component, a production time for manufacturing the component, or a capacity used for manufacturing the component. | 06-02-2011 |
Mark Gerlovin, Lexington, MA US
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20130017421 | Battery Pack Safety Techniques - A battery system monitors the status of a battery and ensures safe conditions under a range of events adversely affecting the safety of the battery cells, the battery pack or enclosure, or a vehicle housing the battery. In response to the safety event, the battery system provides one or more responses to secure the battery, disconnect the battery, extinguish a fire, or maintain a safe temperature. Upon detecting the safety event, the a controller activates the safety device accordingly to ensure safe conditions. | 01-17-2013 |
20130057198 | METHOD FOR BALANCING CELLS IN BATTERIES - Adjacent battery cells connected in devices are balanced by closing a first circuit to charge an energy storage device from a first battery cell and thereafter simultaneously opening the first isolated switch and closing a second isolated switch to cause the energy storage device to charge a second battery cell. A circuit includes an isolated switch that operates simultaneously to balance battery cells connected in series, and a battery system balances battery modules connected in series, the battery module including battery cells connected in series. The battery cells and modules can be balanced by hierarchical balancing of modules of the battery pack and component cells of the modules. | 03-07-2013 |
20130278218 | METHOD AND SYSTEM FOR BALANCING CELLS WITH VARIABLE BYPASS CURRENT - A circuit for balancing battery cells includes a plurality of resistors configured in parallel with the battery cells, and a plurality of switches configured in series with the resistors. A control circuit causes the switches to balance the battery cells based on detected voltage of the battery cells and based on past operation of the cells. | 10-24-2013 |
Yakov Gerlovin, Tel Aviv IL
Patent application number | Description | Published |
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20140347331 | CONTROLLING REAL-TIME COMPRESSION DETECTION - A detection learning module is used for enabling and/or disabling real-time compression detection by maintaining a history of real-time compression detection success for sampled data. The enabling or disabling of the real-time compression detection is based on a detection benefit function derived from a set of calculated heuristics indicating the real-time compression detection success on input streams. | 11-27-2014 |