Abstract: A system and method for predicting device failures and generating proposed resolutions for such an error when occurs includes receiving device status data from each of a plurality of identified multifunction peripherals into a memory. Service history data for each of the multifunction peripherals is stored, the service history data including data corresponding to a plurality of data patterns associated with prior device failures associatively with resolutions implemented to address such failures. Patterns are detected in received device status data. Device failure is predicted for at least one identified multifunction peripheral in accordance with detected patterns and service history data. The predicted device failure is reported along with at least one proposed resolution to address a device error predicted by the predictive device failure data.

Abstract: A system and method for predicting device failures and generating proposed resolutions for such an error when occurs includes receiving device status data from each of a plurality of identified multifunction peripherals into a memory. Service history data for each of the multifunction peripherals is stored, the service history data including data corresponding to a plurality of data patterns associated with prior device failures associatively with resolutions implemented to address such failures. Patterns are detected in received device status data. Device failure is predicted for at least one identified multifunction peripheral in accordance with detected patterns and service history data. The predicted device failure is reported along with at least one proposed resolution to address a device error predicted by the predictive device failure data.

Abstract: A system and method for predictive inventory management includes a processor and memory. A network interface receives device status data from each of a plurality of multifunction peripherals into the memory. The memory stores service history data and service call history data for the multifunction peripherals, in addition to replacement parts data corresponding to replacement parts used in prior device repairs. The processor detects patterns in the service history data, the service call history data and the replacement parts data and generates predictive replacement part data for future replacement parts that will be needed based on the device status data and the detected patterns. The processor then outputs the predictive replacement part data.

Abstract: A system and method for paper jam prediction includes a processor, memory and a network interface. Ongoing paper jam data is received from an identified, networked multifunction peripheral. Service call data for the multifunction peripheral indicative of prior service calls is stored in the memory. A sampling window of the paper jam data prior to a service call date is defined and a point in the sampling window when no symptoms of a forthcoming paper jam were present is determined so as to define a prediction window. A relationship between paper jam data in the prediction window of the sampling window and paper jam data outside the prediction window in the sampling window is determined and incoming paper jam data is monitored relative to the relationship data. A paper jam warning is generated when monitored incoming paper jam data indicates a forthcoming paper jam on the multifunction peripheral.

Abstract: A system and method for paper jam prediction includes a processor, memory and a network interface. Ongoing paper jam data is received from an identified, networked multifunction peripheral. Service call data for the multifunction peripheral indicative of prior service calls is stored in the memory. A sampling window of the paper jam data prior to a service call date is defined and a point in the sampling window when no symptoms of a forthcoming paper jam were present is determined so as to define a prediction window. A relationship between paper jam data in the prediction window of the sampling window and paper jam data outside the prediction window in the sampling window is determined and incoming paper jam data is monitored relative to the relationship data. A paper jam warning is generated when monitored incoming paper jam data indicates a forthcoming paper jam on the multifunction peripheral.

Abstract: A system and method for multifunction peripheral device failure prediction includes a processor, memory and a network interface. The system receives device status data from each of a plurality of identified multifunction peripherals. Service history data for each of the multifunction peripherals is stored in memory. The processor detects anomalies in received device status data and generates predictive device failure data for at least one identified multifunction peripheral in accordance with detected anomalies and service history data. Predictive device failure data can be used to schedule technician visits or add device maintenance to previously scheduled visits. Such scheduling can include scheduling of service to geographically clustered devices.

Abstract: A system and method for multifunction peripheral device failure prediction includes a processor, memory and a network interface. The system receives device status data from each of a plurality of identified multifunction peripherals. Service history data for each of the multifunction peripherals is stored in memory. The processor detects anomalies in received device status data and generates predictive device failure data for at least one identified multifunction peripheral in accordance with detected anomalies and service history data. Predictive device failure data can be used to schedule technician visits or add device maintenance to previously scheduled visits. Such scheduling can include scheduling of service to geographically clustered devices.

Abstract: A system and method for predicting device failures and generating proposed resolutions for such an error when occurs includes receiving device status data from each of a plurality of identified multifunction peripherals into a memory. Service history data for each of the multifunction peripherals is stored, the service history data including data corresponding to a plurality of data patterns associated with prior device failures associatively with resolutions implemented to address such failures. Patterns are detected in received device status data. Device failure is predicted for at least one identified multifunction peripheral in accordance with detected patterns and service history data. The predicted device failure is reported along with at least one proposed resolution to address a device error predicted by the predictive device failure data.

Abstract: A system and method for optimizing print job scheduling includes a print job scheduler that determines an optimized print job schedule for a document processing device based on the workload of the document processing device and user scheduled print jobs. The print job scheduler selectively prioritizes print jobs in the print queue of e document processing device in accordance with the optimal print job schedule, for example prioritizing shorter print jobs over longer print jobs, or delaying printing of a larger print job during busy time slots. The print job scheduler uses machine learning to determine busy times slots based on historical usage patterns and optimizes the print job schedule based on the workload of the document processing device, identity of the user, and the size of the print job.