초록 ▼

The system and method for augmenting searching for data with public search engines, by submitting searches to special purpose search resources, such as search capabilities provided by private companies, universities, government web pages, and the like is described. Toward this end, a general purpose

The system and method for augmenting searching for data with public search engines, by submitting searches to special purpose search resources, such as search capabilities provided by private companies, universities, government web pages, and the like is described. Toward this end, a general purpose search engine is identified, and a special purpose search resource identified. A search query is submitted to the public search engine, and a first result is received in response thereto. The search query is also submitted to the special purpose search resource, and a second response is received thereto. These first and said second results are merged into a combined search result. Techniques for identifying, determining and recording use, and verify continued availability of special purpose search resources are also disclosed.

대표청구항 ▼

The system and method for augmenting searching for data with public search engines, by submitting searches to special purpose search resources, such as search capabilities provided by private companies, universities, government web pages, and the like is described. Toward this end, a general purpose

The system and method for augmenting searching for data with public search engines, by submitting searches to special purpose search resources, such as search capabilities provided by private companies, universities, government web pages, and the like is described. Toward this end, a general purpose search engine is identified, and a special purpose search resource identified. A search query is submitted to the public search engine, and a first result is received in response thereto. The search query is also submitted to the special purpose search resource, and a second response is received thereto. These first and said second results are merged into a combined search result. Techniques for identifying, determining and recording use, and verify continued availability of special purpose search resources are also disclosed. ng data, comprising: a microprocessor adapted for: training to replicate predetermined groups of data thereby: creating within the computer system a plurality of basis vector sets in one to one correspondence with predetermined data sets as a part of said training; receiving inputted unknown data; replicating the unknown data using one of the basis vector sets; comparing the unknown data with the replicated data to determine the accuracy of the replication process; and in response to confirmation of accurate duplication, classifying the unknown data in one of the predetermined sets of data. 10. A computer system for replicating and classifying data as set forth in claim 9, wherein said microprocessor is further adapted for: generating an error based upon said comparing of the unknown data and the replica of that data; and using the generated error to confirm the accuracy of the duplication. 11. A computer system for replicating and classifying data as set forth in claim 10, wherein said microprocessor is further adapted for determining if said error needs revision and determining whether further basis vector sets are required for classifying data. 12. A computer system for replicating and classifying data as set forth in claim 9, wherein said microprocessor comprises a plurality of microprocessors linked to one another. 13. A computer system for replicating and classifying data as set forth in claim 12, wherein said microprocessors are linked to one another via a negotiator. 14. A computer system for replicating and classifying data as set forth in claim 12, wherein said microprocessors are linked to one another for symmetric multiprocessing. 15. A computer system for replicating and classifying data as set forth in claim 12, wherein said microprocessors are linked to one another for asymmetric multiprocessing. 16. A computer system for replicating and classifying data as set forth in claim 12, wherein said microprocessors are linked to one another at chip level. 17. A computer system for replicating and classifying data as set forth in claim 12, wherein said microprocessors are linked to one another in a network. 18. A computer system for replicating and classifying data as set forth in claim 12, wherein said microprocessors are linked to one another in clusters. 19. A computer system for replicating and classifying data as set forth in claim 12, wherein said computer system is configured for genotyping. 20. A method for classifying data, comprising the steps of: a) training a computer to replicate data sets, said training step including defining a plurality of replicators, each of said replicators being trained to replicate one data set of said data sets; b) inputting new data into said computer; c) replicating said new data with each of said replicators; d) comparing replicated data from a first of said replicators with said new data to determine accuracy of said replicated data replicated by said first of said replicators within a predetermined error threshold; e) repeating step d) for each of said replicators; f) determining if one of the comparisons in steps d) and e) yielded confirmation of accurate replication for one of said replicators; and g) classifying the new data in response to determination of accurate replication by one of said replicators in step f). 21. The method for classifying data as set forth in claim 20, further comprising the step of determining the need for one or more new replicators in response to a predetermined threshold amount of data classification by any one of said replicators. 22. The method for classifying data as set forth in claim 20, wherein said training step comprises the steps of: inputting several previously identified data sets into a computer; creating within the computer a plurality of basis vector sets, one basis vector set for each of said replicators, each of said basis vector sets comprising a plurality of basis vectors, each of said basis v ector sets being determined in order to enable the corresponding replicator to replicate within the predetermined threshold of error for the corresponding identified data set from said identified data sets; wherein creating a basis vector set for each of said replicators comprises: creating a comparison data set using the corresponding basis vector set; comparing the previously identified data set with the comparison data set; computing an error from said comparison; determining acceptability of the error; and repeating said creating of the basis vector set in response to the error being unacceptable. 23. The method as set forth in claim 22 wherein in said creating step, the basis vector sets are generated from any combination of the following: chirplets, wavelets, Fourier based functions, Fractal basis functions, radial basis functions, basis functions generated using multi-layer perceptrons, and other computer generated basis functions. 24. A method for identifying data sets, comprising the steps of: a) inputting previously identified data sets into a computer; b) creating within the computer a plurality of basis vector sets in one to one correspondence with said previously identified data sets, each basis vector set defining a replicator; c) inputting a new data set into said computer; d) for each replicator, generating a replica of said new data set using the basis vector sets; e) comparing the replica generated by the first replicator of the plurality of replicators with said new data set; f) determining acceptable replication of said new data set generated by the first replicator using a predetermined error threshold; g) repeating steps e) and f) for each of the replicators and the replica generated by the corresponding replicator; h) determining if more than one replicator acceptably replicated said new data set in repeated steps f); i) tagging said new data set for human analysis in response to a determination in step h) that more than one replicator acceptably replicated said new data set; j) classifying the new data in response to determination in step h) that only one replicator acceptably replicated said new data set. 25. The method for classifying data as set forth in claim 24, further comprising the step of determining the need for new replicators in response to a predetermined threshold amount of data classification. 26. The method for classifying data as set forth in claim 24, further comprising the step of tagging the new data for human analysis in response to a determination in step h) that no replicator acceptably replicated the new data. 27. The method for classifying data as set forth in claim 24, further comprising the step of determining the need to automatically create a new replicator in response to a failure of all the replicators to create a replica of the data below a set threshold error. 28. A computer system for replicating and classifying data, comprising: a microprocessor adapted for: training to replicate predetermined sets of data thereby creating a plurality of replicators, each replicator trained to replicate one set of data of the predetermined sets of data, receiving unknown data, having each of the replicators attempt to replicate the unknown data, for each replicator comparing the unknown data with the replicated data; determining whether each replicator acceptably reproduced the unknown data within a predetermined threshold of error; and in response to determination of acceptable replication by only one replicator, classifying the unknown data in one of the predetermined sets of data. 29. The computer system for replicating and classifying data as set forth in claim 28, wherein said microprocessor is further adapted for determining if the threshold error for any one replicator needs revision in response to significant amounts of data classification by that one replicator. 30. The computer system for replicating and classifying data as set forth in cl aim 29, wherein said microprocessor is further adapted for determining whether new replicators and corresponding basis vector sets are required for classifying data. 31. The computer system for replicating and classifying data as set forth in claim 28, wherein said microprocessor comprises a plurality of microprocessors linked to one another. 32. The computer system for replicating and classifying data as set forth in claim 31, wherein said microprocessors are linked to one another via a negotiator. 33. The computer system for replicating and classifying data as set forth in claim 31, wherein said microprocessors are linked to one another for symmetric multiprocessing. 34. The computer system for replicating and classifying data as set forth in claim 31, wherein said microprocessors are linked to one another for asymmetric multiprocessing. 35. The computer system for replicating and classifying data as set forth in claim 31, wherein said microprocessors are linked to one another at chip level. 36. The computer system for replicating and classifying data as set forth in claim 31, wherein said microprocessors are linked to one another in a network. 37. The computer system for replicating and classifying data as set forth in claim 31, wherein said microprocessors are linked to one another in clusters. 38. The computer system for replicating and classifying data as set forth in claim 31, wherein said computer system is configured for genotyping.