Abstract: The invention provides control systems and methodologies for controlling a process having computer-controlled equipment, which provide for optimized process performance according to one or more performance criteria, such as efficiency, component life expectancy, safety, emissions, noise, vibration, operational cost, or the like. More particularly, the subject invention provides for employing machine diagnostic and/or prognostic information in connection with optimizing an overall business operation over a time horizon.

Abstract: The invention provides control systems and methodologies for controlling a process having computer-controlled equipment, which provide for optimized process performance according to one or more performance criteria, such as efficiency, component life expectancy, safety, emissions, noise, vibration, operational cost, or the like. More particularly, the subject invention provides for employing machine diagnostic and/or prognostic information in connection with optimizing an overall business operation over a time horizon.

Abstract: The invention provides control systems and methodologies for controlling a process having computer-controlled equipment, which provide for optimized process performance according to one or more performance criteria, such as efficiency, component life expectancy, safety, emissions, noise, vibration, operational cost, or the like. More particularly, the subject invention provides for employing machine diagnostic and/or prognostic information in connection with optimizing an overall business operation over a time horizon.

Abstract: Aspects describe capturing various bacteria levels within a process affected by microbial agents. A model of the process and a model of expected bacteria growth are analyzed and, based on the analysis, at least one process parameter is automatically modified to improve or optimize the product or process or other business or operational objectives. Also provided are at least two autonomous agents within the process. The at least two autonomous agents communicate and autonomously implement an action in an upstream stage and/or downstream stage within the process, wherein the at least two autonomous agents access the representation of the process and the biological representation and/or bio-chemical representation to implement the action.

Abstract: The invention provides control systems and methodologies for controlling a process having computer-controlled equipment, which provide for optimized process performance according to one or more performance criteria, such as efficiency, component life expectancy, safety, emissions, noise, vibration, operational cost, or the like. More particularly, the subject invention provides for employing machine diagnostic and/or prognostic information in connection with optimizing an overall business operation over a time horizon.

Abstract: The invention provides control systems and methodologies for controlling a process having computer-controlled equipment, which provide for optimized process performance according to one or more performance criteria, such as efficiency, component life expectancy, safety, emissions, noise, vibration, operational cost, or the like. More particularly, the subject invention provides for employing machine diagnostic and/or prognostic information in connection with optimizing an overall business operation over a time horizon.

Abstract: The invention provides control systems and methodologies for controlling a process having computer-controlled equipment, which provide for optimized process performance according to one or more performance criteria, such as efficiency, component life expectancy, safety, emissions, noise, vibration, operational cost, or the like. More particularly, the subject invention provides for employing machine diagnostic and/or prognostic information in connection with optimizing an overall business operation over a time horizon.

Abstract: Aspects describe capturing various bacteria levels within a process affected by microbial agents. A model of the process and a model of expected bacteria growth are analyzed and, based on the analysis, at least one process parameter is automatically modified to improve or optimize the product or process or other business or operational objectives. Also provided are at least two autonomous agents within the process. The at least two autonomous agents communicate and autonomously implement an action in an upstream stage and/or downstream stage within the process, wherein the at least two autonomous agents access the representation of the process and the biological representation and/or bio-chemical representation to implement the action.

Abstract: Aspects describe capturing various bacteria levels within a process affected by microbial agents. A model of the process and a model of expected bacteria growth are analyzed and, based on the analysis, at least one process parameter is automatically modified to improve or optimize the product or process or other business or operational objectives. Also provided are at least two autonomous agents within the process. The at least two autonomous agents communicate and autonomously implement an action in an upstream stage and/or downstream stage within the process, wherein the at least two autonomous agents access the representation of the process and the biological representation and/or bio-chemical representation to implement the action.

Abstract: The claimed subject matter provides a system and/or method that facilitates providing real-time in situ measurements in an environment. A sensor module can employ real-time in situ measurements associated with a parameter within the environment. A sensor operation module communicatively coupled to the sensor module via an interface can analyze the real-time in situ measurements, wherein at least one of the sensor module and the sensor operation module allows expansion for at least one module.

Abstract: Systems and methodologies are provided for controlling a process having computer-controlled equipment, which provide for optimized process performance according to one or more performance criteria, such as efficiency, component life expectancy, safety, emissions, noise, vibration, operational cost, or the like. The systems and methods provide for employing machine diagnostic and/or prognostic information in connection with optimizing an overall business operation over a time horizon.

Abstract: Aspects describe capturing various bacteria levels within a process affected by microbial agents. A model of the process and a model of expected bacteria growth are analyzed and, based on the analysis, at least one process parameter is automatically modified to improve or optimize the product or process or other business or operational objectives. Also provided are at least two autonomous agents within the process. The at least two autonomous agents communicate and autonomously implement an action in an upstream stage and/or downstream stage within the process, wherein the at least two autonomous agents access the representation of the process and the biological representation and/or bio-chemical representation to implement the action.

Abstract: Electrochemical devices, methods, and systems for detecting and quantifying analytes are disclosed. A chemical detection reagent is locally generated in a test solution by electrochemical reaction of a precursor compound caused to migrate into the test solution from a precursor solution separated from the test solution by a cell separator. This approach provides precise metering of the reagent, via the charge passed, and avoids the need to store a reagent solution that may be chemically unstable. In one embodiment, the starch concentration in a colloidal solution can be measured via spectroscopic detection of a blue complex formed by the interaction of starch with iodine produced, on demand, by electrochemical oxidation of iodide ion. The approach may also be used to characterize certain types of analytes. The invention is amenable to automation and is particularly useful for on-line monitoring of production processes, including the inclusion of feed back loop mechanisms for process control.

Abstract: The invention provides control systems and methodologies for controlling a process having one or more motorized pumps and associated motor drives, which provide for optimized process performance according to one or more performance criteria, such as efficiency, component life expectancy, safety, emissions, noise, vibration, operational cost, or the like. More particularly, the subject invention provides for employing machine diagnostic and/or prognostic information in connection with optimizing an overall business operation over a time horizon.

Abstract: Adaptable self-powered sensor node and methods of operation providing real-time monitoring and management of node operation. The adaptable self-powered sensor node incorporates an adaptable generator and a radio transmitter to operate remotely without the need for power or communication wiring. Data analysis capabilities provide for maximizing information extracted from sensors and analysis and providing control or reporting information utilizing a strategy to minimize energy usage while reducing information entropy.

Abstract: The invention provides control systems and methodologies for controlling a process having one or more motorized pumps and associated motor drives, which provide for optimized process performance according to one or more performance criteria, such as efficiency, component life expectancy, safety, emissions, noise, vibration, operational cost, or the like. More particularly, the subject invention provides for employing machine diagnostic and/or prognostic information in connection with optimizing an overall business operation over a time horizon.

Abstract: The invention provides control systems and methodologies for controlling a process having one or more motorized pumps and associated motor drives, which provide for optimized process performance according to one or more performance criteria, such as efficiency, component life expectancy, safety, emissions, noise, vibration, operational cost, or the like. More particularly, the subject invention provides for employing machine diagnostic and/or prognostic information in connection with optimizing an overall business operation over a time horizon.

Abstract: A system and methodology is provided for dynamically adjusting fluids that operate as a lubricant in a machine. The system includes a control module having a processor and one or more sensors providing data to the processor in situ with the machine, wherein the processor employs the data to monitor the fluid. One or more inputs are provided to receive a plurality of additives that are associated with the fluid, wherein actuators are employed by the processor to dispense the additives to the fluid. The processor dispenses the fluid based upon one or more parameters of the fluid.

Abstract: Adaptable self-powered sensor node and methods of operation providing real-time monitoring and management of node operation. The adaptable self-powered sensor node incorporates an adaptable generator and a radio transmitter to operate remotely without the need for power or communication wiring. Data analysis capabilities provide for maximizing information extracted from sensors and analysis and providing control or reporting information utilizing a strategy to minimize energy usage while reducing information entropy.

Abstract: Crane control and anti-sway are facilitated utilizing a diagnostic component that includes a model component and a control component. The diagnostic component interfaces with an extrinsic data analysis component and a controller component. The diagnostic component receives operating condition information from the extrinsic data analysis component and performs predictive modeling, based on a current status and stored information. Further, the diagnostic component predicts the affect of the operating conditions on a crane and implements and/or recommends actions to mitigate the affect of the existing and/or predicted operating conditions. The diagnostic component further mitigates crane sway and/or induces crane sway to reduce container transit time. Intelligent agents are employed to provide trajectory planning and execution and/or to detect potential component failure.