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INFORMATIONAL PUBLICATION or INFORMATIONAL PUBLICATIONS
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Technical Examples
- A system for combined mailing of a plurality of diverse publications to a plurality of recipients at an optimized mail rate. The system includes a bindery for binding a plurality of the signatures where the bindery binding the plurality of signatures creates a plurality of first publications and a plurality of second publications. Each of the plurality of first and second publications are in a unique order, where the unique order identifies each of the plurality of first publications and each of the plurality of second publications with each of the plurality of recipients. A co-mailer is part of the system for combining the plurality of first publications with the plurality of second publications to form a plurality of diverse publications. The co-mailer merges the plurality of first and second publications in the unique order to send the plurality of diverse publications to the plurality of recipients at the optimized mail rate.
- A memory buffer facilitates log catchup for online operations. Certain designated areas of memory are allocated for one or more buffers for use during online operations (e.g., reorganization, create index, etc.). Concurrent update activities to the target object write informational records into the one or more buffers. If the buffers become full, the informational records may be written to logs for persistent storage. After online operations finish building all or a suitable portion of the shadow object, log catchup is performed by first applying activities in the informational records from the buffer and thereafter applying activities from logs, if necessary. The invention helps solve the drawbacks of log catchup since the buffer contains only the information related to the target shadow object. Also it does not involve physical I/Os, as these records are all in memory.
- The present invention provides an informational article on which variable information is inserted. The informational article includes a substrate having a zone for inserting the variable information. A visual security device, such as an optically variable ink, a special film, or combinations thereof is disposed in the zone on the substrate. The visual security device is sized and arranged such that at least a portion of the variable information is adapted to being inserted over the visual security device.
- An apparatus includes a computer system which maintains a list of informational products, and accepts input from a user in a user context familiar to the user. The computer system maintains expert information developed by at least one expert, which provides correlation between the user context and informational products in the list. The computer system selects a subset of the products as a function of the user input and the expert information.
- The method of noise-immune information transmission of the present invention permits to increase the communication channel capacity without reducing the noise immunity of information being transmitted. In this method, informational digital samples are transmitted in the form of analog signal supplemented with a redundant information signal. The technical result is obtained owing to the fact that at the transmitting side: selecting at least one benchmark point between informational samples; in each selected benchmark point, determining an analog signal value to which said informational digital samples are converted using a second sampling function; converting the samples in the benchmark points to the redundant information signal in order to supplement said analog signal; selecting a difference between power levels for transmitting the most significant bits of each informational sample depending on a predetermined signal-to-noise ratio at the input of the receiving side, and selecting the power levels for transmitting the samples of the benchmark points, a difference between which power levels is less than a difference selected for a power levels of the most significant bits; at the receiving side: according to the recovered digital samples, discovering the least significant bits by subtraction of the most significant bits; according to the discovered least significant bits, constructing an envelope using a second sampling function and discovering a value of this envelope in a respective benchmark point; comparing the discovered value of the envelope in the specific benchmark point with the corresponding value recovered from the received signal; in the case of lack of coincidence of compared values, choosing a set of digital samples which set ensures the coincidence, which is the correction.
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