Patent application number | Description | Published |
20080222405 | COMPUTER INITIALIZATION SYSTEM - An initialization data generator includes a task database in which task descriptions for initializing a computer are specified related with task IDs and an initialization database in which initialization data descriptions for initializing a computer are stored related with initialization data IDs. The initialization data generator takes input of the computer ID of a computer to be initialized and task data, reads task descriptions and initialization data descriptions according to task ordering related with the task data from the task database and the initialization database, based on the task IDs, task ordering, and the initialization data IDs for software modules which are loaded into the computer to be initialized by the tasks corresponding to the task IDs, specified in the task data, and generates and transfers initialization data to the computer to be initialized, thereby initializing the computer to be initialized. | 09-11-2008 |
20090089753 | SOFTWARE PRODUCT LINE ANALYZER - A software-product line analyzer including change history data, a change-history processing unit, a factor analysis unit, a variability analysis unit, and configuration information data, i.e., output data, wherein the change-history processing unit converts the change history data into numerical values, the factor analysis unit performing a factor analysis using inter-products change information as observation data, and, based on each factor and each factor score determined, the variability analysis unit determining variabilities in the software-product line and software components corresponding thereto, and outputting the configuration information data. | 04-02-2009 |
20110010059 | ABNORMAL OPERATION DETECTION DEVICE - The invention provides an abnormal operation detection device estimating an overload operation of a hydraulic shovel on the basis of an amount of hydraulic operation. An accumulated amount of an operation amount is calculated by an accumulated amount calculating means on the basis of an operation amount of each of operation mechanisms obtained by an operation pressure detecting means, an operation fluctuation amount is calculated by a fluctuation amount calculating means, a joint angle of each of the operation mechanisms is estimated on the basis of the accumulated amount, and an overload operation is determined by using an abnormal operation determining means on the basis of the estimated joint angle and the operation fluctuation amount. | 01-13-2011 |
20110159806 | WIRELESS DATA TRANSPORT APPARATUS AND WIRELESS DATA TRANSPORT SYSTEM - A wireless communication system includes a wireless communication apparatus (fixed terminal) resided in a fixed station side providing a wireless antenna, a wireless communication unit, a server processing unit, a task list, a data communication unit, a buffer management unit and a buffer, and a wireless data transport apparatus (mobile terminal) resided in a mobile station side providing the wireless antenna, the wireless communication unit, a server determination unit, a task list I/O unit, the task list, a client processing unit and the buffer, thereby, the mobile terminal receives the task list from the fixed terminal to communicate data with another fixed terminal and transports not only the data but also a data acknowledgement, and the fixed terminal creates the acknowledgement to use the acknowledgement to thereby control a creation and deletion of bulk data appropriately. | 06-30-2011 |
20120030444 | STORAGE CONTROL DEVICE AND DATA PROCESSING SYSTEM - A storage medium management part includes a stored data amount adjustment part that: stores a maximum data amount which the storage medium can store at the time of startup of a storage control device, and a stored data amount which is an initial stored amount, in a data amount storage part; upon receiving a write amount of a data in response to a write request, writes a new stored data amount calculated by adding the write amount to the already stored data amount, over the already stored data amount; calculates a free space by subtracting the stored data amount from the maximum data amount; determines a deletion amount of the data if the free space does not takes a value not less than a prescribed value; and writes a newly-calculated stored data amount calculated by subtracting the deletion amount from the stored data amount, over the stored data amount. | 02-02-2012 |
20120035802 | LEARNING DIAGNOSTIC SYSTEM, STATE DIAGNOSTIC DEVICE, AND STATE LEARNING DEVICE FOR WORKING MACHINE - A learning diagnostic system for a working machine is capable of making a fault diagnosis of the working machine universally relative to various types of sensor information, and preventing a failure in the working machine by enabling a fault diagnosis even in a transient operating state that represents a transitional state between operating states.
| 02-09-2012 |
20120041663 | ABNORMALITY DETECTING DEVICE FOR CONSTRUCTION MACHINE - Provided is an abnormality detecting device for a construction machine that can estimate an abnormality occurring to a component (engine, pump, etc.) of the construction machine based on the relationship among a plurality of pieces of sensor information and thereby prevent machine failure. A correlation coefficient calculation unit | 02-16-2012 |
20120209570 | DIAGNOSIS SYSTEM AND DIAGNOSIS METHOD FOR CONSTRUCTION MACHINE - Provided is a construction machine diagnosing system and method in which even a user who has little knowledge of any procedures and techniques for diagnosing construction machines can speedily diagnose a desired machine in a manner appropriate for particular data characteristics of the machine. | 08-16-2012 |
20120290178 | LOADING GUIDE SYSTEM - Provided is a system by which a loading machine ( | 11-15-2012 |
20120310597 | FAILURE CAUSE DIAGNOSIS SYSTEM AND METHOD - Conditional base maintenance has been gaining widespread acceptance, with numerous sensors attached to equipment for constant monitoring of its operational state, the resulting sensor data being compared with those about the equipment in the normal state for a diagnosis to determine whether the equipment is currently operating normally, the result of the diagnosis being used to conduct maintenance. Conditional base maintenance can rapidly detect aging deterioration of the equipment, so that abnormal sates that were not detected before in time base maintenance can now be detected. However, although conventional diagnosis technology can distinguish between the normal state and anomaly, it has been difficult with such technology to identify causes including abnormal phenomena and parts. If it is determined that the target equipment to be diagnosed deviates from the normal state, the degree of deviation of each parameter from the normal state as the reference is calculated as an abnormal contribution ratio. A failure cause is estimated from a similarity ratio between the calculated abnormal contribution ratio and the abnormal contribution ratio of each of the failure causes collected in the past and including failure phenomena and failure parts. | 12-06-2012 |
20120317444 | MONITORING AND DIAGNOSING DEVICE FOR WORKING MACHINE - Monitoring and diagnosing device including: a classification information storage section; frequency information storage section; a first data classifier section reading out reference classification information from the classification information storage section, comparing operational data, detected by a plurality of sensors and inputted in time sequence, with the reference classification information to classify the operational data, and then generating operational data classification information; a frequency comparator section compiling the operational data classification information, generating operational data frequency information by adding, to the operational data classification information, appearance frequency information for each classification of operational data, reading out reference frequency information from the frequency information storage section, and then generating operational data frequency comparison information by comparing operational data frequency information with the reference frequency information; and an abnormality diagnosing section performing an abnormality diagnosis upon the working machine by use of the operational data classification information and operational data frequency comparison information. | 12-13-2012 |
20130097128 | TIME-SERIES DATA DIAGNOSING/COMPRESSING METHOD - An allowable error used for compressing time-series data can be set without knowledge of equipment. It is possible to prevent the data from being lost not only in the event of an abnormality, but also during a period in which an evidence of a predicted abnormality is detected. In addition, it is also possible to verify the properness of a set allowable error. Thus, the amount of data gathered and stored in a memory can be reduced without losing information required for detection of an evidence of a predicted abnormality occurring in the equipment of interest. As a result, it is possible to provide a time-series data diagnosing/compressing method capable of gathering time-series data with a high degree of efficiency and a data gathering/storing apparatus adopting the method. That is to say, in accordance with the present invention, there is provided a predicted-failure-evidence diagnosing section not depending on the equipment and not requiring knowledge of the equipment and, on the basis of a result of a predicted-abnormality-evidence diagnosis carried out by this section on time-series data gathered from the equipment, an allowable error used for compressing the gathered data can be set and managed in order to compress the data if the result of the diagnosis is normal or restrict the compression of the data during a period in which an evidence of a predicted abnormality is detected. Thus, the amount of data stored in a memory can be reduced. | 04-18-2013 |
20130218522 | ABNORMALITY DIAGNOSTIC SYSTEM AND INDUSTRIAL MACHINERY - An object of the present invention is to provide an abnormality diagnostic system that can enhance diagnostic precision even if a computer arranged on the machine side does not have sufficient throughput in diagnosing a condition of a machine or equipment based upon time series data generated by a sensor and can reduce communication capacity because communication data volume decreases and industrial machinery provided with the abnormality diagnostic system. A diagnostic device on the machine side | 08-22-2013 |