Schimmelpfennig
Jens Schimmelpfennig, Gudingen DE
Patent application number | Description | Published |
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20140172500 | COMPUTER-IMPLEMENTED METHOD AND PROCESS MANAGEMENT SYSTEM FOR DYNAMICALLY ADAPTING PROCESSES - Certain example embodiments relate to a computer-implemented method for adapting at least one process defined as a base model in a process management system. In the process management system, at least one adaptation layer is defined separate, from the base model. The adaptation layer includes at least one definition of an adaptation of the base model. The at least one adaptation layer is applied on the base model in accordance with at least one aggregation rule to generate an adapted model of the at least one process. | 06-19-2014 |
Michael Schimmelpfennig, St. Louis, MO US
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20130233675 | AERIAL CONVEYOR SYSTEM - An aerial conveyor system for transporting bulk materials is provided. The aerial conveyor system includes, among other things, a first anchor tower disposed proximate to a loading end, a second anchor tower disposed proximate to a discharge end, at least one support cable extending between the first anchor tower and the second anchor tower, a belt conveyor system extending between the loading end and the discharge end and at least one pivot tower disposed between the first anchor tower and the second anchor tower. The at least one pivot tower includes a support structure connected to the at least one support cable, a base and a pivot structure configured to allow the support structure to pivot relative to the base to substantially equalize dynamic tensions of the at least one support cable between the first anchor tower and the pivot tower and the second anchor tower and the pivot tower. | 09-12-2013 |
Peter Schimmelpfennig, Erlangen DE
Patent application number | Description | Published |
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20110100094 | Diagnostic Method for an Internal Combustion Engine Exhaust Gas System that includes a Particle Filter - In a method for the diagnostics of an internal combustion engine exhaust gas system that includes a particle filter, first and second sets of value vectors are determined, each including associated values for absolute pressure upstream and downstream of the particle filter, a differential pressure determined from the values of the absolute pressure, an exhaust gas volume flow through the particle filter, and a temperature of the exhaust gas volume flow. After a temperature-standardization of the pressure values, characteristics for dependence of the pressure values are generated from temperature-standardized values of the first set of value vectors and possibly stored as reference characteristics. By comparing temperature-standardized values for the absolute pressure on the inlet and outlet sides of the particle filter and the differential pressure of the second set of value vectors with reference characteristics, flow anomalies can be determined in the exhaust gas system. | 05-05-2011 |