Wenzinger
Jeffrey T. Wenzinger, Brooklyn, NY US
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20120232701 | SYSTEMS AND METHODS FOR OPTIMIZING ENERGY AND RESOURCE MANAGEMENT FOR BUILDING SYSTEMS - The present invention provides a method and system for optimizing building energy usage. The method comprising receiving a plurality of input values associated with a building or plurality of buildings. The method then constructs a thermal and an electrical load model based on the inputs and constructs an overall energy model, the overall energy model being based on the thermal and electrical load models. The method next generates a plurality of demand models and optimizes the demand models using complex multivariate optimization techniques, wherein optimizing is based on usage data and energy rules. Finally, the method displays recommendations based on the optimized model or generating real-time, complementary control instructions based on the optimized model, the determination based on client preferences. | 09-13-2012 |
Michael Wenzinger, Savage, MN US
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20090013409 | Malware automated removal system and method - The present invention automates the operation of multiple malware removal software products using a computerized system that systematically operates the multiple selected software products. These products are operated them in a customized “Safe Mode” using a shell that is different than the computer's other shell environments. Unlike the ordinary Safe Modes shells, the Custom Safe Mode prevents malware from functioning that ties itself to the normal shell, such as the Windows Explorer shell. In addition, the Custom Safe Mode allows the automation of tasks beyond that which is available under the standard command line shell. | 01-08-2009 |
20090217258 | Malware automated removal system and method using a diagnostic operating system - The present invention automates the operation of multiple malware removal software products using a computerized system that systematically operates the multiple selected software products. These products are executed within a customized Diagnostic Operating System, which is different from the Normal Operating System in which the computer normally operates. Thus, any malware that may be attached to any of the programs, shells, drivers, services, or data files associated with the Normal Operating System cannot corrupt the malware removal process performed under the Diagnostic Operating System. Preferably, the Diagnostic Operating System is accessed from a read-only device prepared on a secure computer separate from the computer that is the target of the malware removal process, and the Diagnostic Operating System executes in a read-only environment. Because many malware removal products rely upon the environment provided by the Normal Operating System, the Diagnostic Operating System must provide redirection to ensure such products perform as expected. Event-triggered redirection of environment variables may be done by either injection of values, or by interception of name/key invocations. | 08-27-2009 |
20120331552 | MALWARE AUTOMATED REMOVAL SYSTEM AND METHOD - The present invention automates the operation of multiple malware removal software products using a computerized system that systematically operates the multiple selected software products. These products are operated them in a customized “Safe Mode” using a shell that is different than the computer's other shell environments. Unlike the ordinary Safe Modes shells, the Custom Safe Mode prevents malware from functioning that ties itself to the normal shell, such as the Windows Explorer shell. In addition, the Custom Safe Mode allows the automation of tasks beyond that which is available under the standard command line shell. | 12-27-2012 |
Susan F. Wenzinger, Cary, NC US
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20100011343 | REMOTE PRODUCT INVOCATION FRAMEWORK - A method for remote product invocation includes configuring an invocation framework that includes an integration module and an endpoint/handler module. Once configured, the integration module is configured to: receive a source object; format data from said source object for a desired operation; and utilize said endpoint/handler module to make a connection to an external service that executes said desired operation using said data from said source object. A system for remote invocation of external services includes a calling entity which generates a source object containing data for execution of a remote operation; and an integration module configured to receive the source object, interpret the source object, and pass the data to an endpoint/handler which opens a connection with an external service and executes the remote operation. | 01-14-2010 |
Yves Wenzinger US
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20120024131 | Systems and methods for portable audio synthesis - A method of performing audio synthesis is disclosed. An audio event is input to an audio algorithm along with associated parameters including source sample data. An interpolation function is provided and the source sample data are interpolated to generate one or more interpolated samples based on the source sample data. A filter function is provided and at least one of the interpolated samples is filtered to generate a filtered sample. A gain function is provided and the filtered sample is processed to generate a gained sample. At least one of the interpolation, filter, and gain functions include outputting an earlier-calculated value along with an estimated difference value in lieu of calculating a new value. | 02-02-2012 |
Yves Wenzinger, Vallauris FR
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20150016647 | SIGNAL PROCESSOR FOR A HEARING DEVICE AND METHOD FOR OPERATING A HEARING DEVICE - A signal processor for a hearing device with an implantable stimulator having two or more electrodes for emitting electric charge pulses to neural-fibres of an individual. The processor has a signal path comprising an input circuit adapted to receive an acoustic-signal from the surroundings and provide at least one corresponding input audio-signal; a filter bank adapted to provide at least one band-limited audio-signal in dependence on the at least one input audio-signal; and a noise filter adapted to attenuate undesired signal components in the at least one band-limited audio-signal and to provide at least one corresponding noise-filtered signal. The processor is characterised in that the portion of the signal path preceding the noise filter neither causes an effective level compression nor an effective level expansion of the at least one noise-filtered signal when the at least one noise-filtered signal is derived from an acoustic signal having a level within the comfortable acoustic range. | 01-15-2015 |
Yves Wenzinger, Le Rouret FR
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20150148927 | Systems and methods for portable audio synthesis - A method of performing audio synthesis has a first audio event input to an audio algorithm along with associated parameters. A synthesis algorithm accesses a soundbank to generate audio output. The soundbank has two or more levels for a first desired sound. A first level is associated with a first sample of a relatively chaotic waveform, and a second level is associated with a second sample of a relatively stable waveform. Parameter data is associated with one or more of the levels. The first sample and the second sample begin to sound at the same point in time in response to the first audio event. The audio output is based in part on the parameter data, and the second sample is continuously looped until a second audio event is detected. | 05-28-2015 |