TH33876B - Methods and devices for searching for information to be used. - Google Patents

Abstract

DC60 (28/05/40) This invention will bring out the data using the information from the previously obtained data set. To replicate a dataset with an ever-increasing probability of actually re-creating the transmitted dataset with a new acquisition. The accumulated information brings the transmitter closer to the to obtain the actual data set Taking advantage of this information which may not be used It achieves high-efficiency and effective bit aberration correction and is well utilized in noisy communication environments with a transceiver with a processor. Limited data/or memory this invention will bring out the data to use the information from the data set that has been previously received to build a more and more probable dataset To create a duplicate of the actually transmitted data set with a new run. The accumulated tase will bring the transmitter closer to the to obtain the actual data set Utilization of this substance which may not be used It achieves high-efficiency and effective bit aberration correction and is well utilized in noisy communication environments with a transceiver with a processor. Limited data/or memory

Claims (1)

Disclaimer (all) which will not appear on the advertisement page: 1. Method of communicating information. Containing: (a) sending a data message containing a number of data sets; (b) Receiving the information message and examining the first dataset contained in the information message. Accepted to find discrepancies; (c) requesting the retransmission of the dataset If a tolerance is detected Not in one dataset; (d) Accepting the transmitted dataset Is the second data set; (e) Bit comparison of the first and second dataset; (f) Changing one or more bits in the first and second dataset. Any set That are not matched with one or more bits in the first and the second dataset; (g) Examination of changed datasets To find discrepancies; (h) Repeat steps (f) and (g) if unacceptable errors are detected. Until every Possible bit combinations for unmatched bits were either tried out or until the changed set was found to be acceptable; and (i) if the changed dataset. Was found to be unacceptable at step (g), and then the perceived signal is transmitted 2.method as stated in claim 1, where procedure (e) will have an OR function only on First and second receiving dataset 3. Method as stated in Clause 1, where each input contains data bits and bits. Check discrepancies And at the stage of the (b) and (g) checks, the cyclic dandanceable calculations are included on the dataset. 4. Methods as outlined in Clause 1, where constituted This continues: - Comparison of the number of unmatched bits in the procedure (e) with the equivalents; and - Processing (f) when the number of unmatched bits is less than the relative value 5. How to communicate information Containing (a) sending a data message containing a number of data sets; (b) Receiving the information message and examining the first dataset contained in the information message. Accepted to find discrepancies; (c) requesting the retransmission of the dataset If a tolerance is detected Not in one dataset; (d) Accepting the transmitted dataset Is the second data set; (e) Bit comparison of the first and second dataset; (f) Changing one or more bits in the first and second dataset. Any set That are not matched with one or more bits in the first and the second dataset; (g) Examination of changed datasets To find discrepancies; (h) Repeat steps (f) and (g) if unacceptable errors are detected. Until every Possible bit combinations for unmatched bits were either tried out or until the changed set was found to be acceptable; and (i) if the changed dataset. Was found to be unacceptable at step (g), then the perceived signal would be sent; (j) request of the re-transmission of the dataset; (k) Retrieving the transmitted dataset. Is the third set of data; (l) handles the majority of the first, second and third datasets and gives birth to the dataset. Majority; (m) Examine the majority of the dataset. To find discrepancies; and (n) generate perceived signals. If a majority of the dataset is found to be acceptable at step (m) 6. The method described in Clause 5, where the majority management process (1) includes a procedure for Maintain a bit collector for each corresponding bit position in the dataset in such a way that each bit collector joins the bit's value in the corresponding bit location from the dataset. The first, second and third each set 7.Method of communicating information Containing: (a) sending a data message containing a number of data sets; (b) Receiving the information message and examining the first dataset contained in the information message. Accepted to find discrepancies; (c) requesting the retransmission of the dataset If a tolerance is detected Not in one dataset; (d) Accepting the transmitted dataset Is the second data set; (e) Bit comparison of the first and second dataset; (f) Changing one or more bits in the first and second dataset. Any set That are not matched with one or more bits in the first and the second dataset; (g) Examination of changed datasets To find discrepancies; (h) repeating steps (f) and (g) if unacceptable errors are detected; And (i) if the changed dataset Being found unacceptable in the (g) procedure, a perceived signal is transmitted where each dataset contains a data bit and an error detection bit. But not a bit modified Discrepancies 8.Data processing methods Where it consists of the steps of: - Obtaining a sequence of units containing the data unit transmitted to one. And one or more repeating units of information; - Data unit reconstruction using a sequence of units including: for switching data units in the order of majority management. Using information From the pre-received data and the received data to generate the majority, the majority is the duplicate. For switching data units; and For data units in sequence In addition to the switch Will be compared Majority And the received unit to indicate the position of one or more bits with different bit values. And change the value of one or more of those bits, where the data unit with one or more changed bit values is the data unit that generates. For other data units; and - checks that each repeating unit 9. Is the method described in Clause 8 where the alternating data unit is an odd, sequential one and another? The method is described in Clause 8 where the comparison procedure includes manipulation of specific OR functions, comparing the number of different bit values with Comparison And operations in the episode of the replacement When the number of different bit values Less than the calibration value 1. 1. Method as stated in Clause 8 where the majority of the data unit is defined as follows: - Accumulation for each corresponding bit position in the data unit. Which the sum of the values Of bits in the position of the corresponding addresses for each data unit in sequence; - Calibrated configuration Depending on the number of data units in a sequence; - comparison of each accumulated sum with its relative; - if the accumulated sum is less than Or equal to the equivalent value Will determine the value of the bit for The corresponding bit position of the majority is 0; and - if the accumulated sum is greater than the comparison value. Will set the bit value for the bit's location. The matching of the majority of the phoneme is 1 1 2. Methods outlined in Clause 8 whereby the determination process will include the analysis of each unit of information. To find the discrepancy By each data unit There will be bits, error searches and requests. Transmission of data units If it is detected Unacceptable Discrepancies 1 3. Methods as outlined in Clause 10, where the error detection bit is the quick-check bit, the redundant dancer, the code and the individual data units. Will not include modified bits Slope 1 4. In an automatic repetition request (ARQ) information exchange system where The data unit sent has been received. Check for discrepancies and resubmit if discrepancies are detected. To generate a sequence of data units, a method for processing data in which the reconstruction of the first unit of information It proceeds on the data unit alternating sequences and rebuilding the second unit. It proceeds over another set of data in a sequence to be repeated. Acceptable Unit 1 5. Method as described in Clause 14 of Clause 14 where the first and second reconstructions may occur. Any one It includes the determination of the majority of the data units. Based on the retrieved database and pre-accepted databases. 1. 6. Methods outlined in Clause 15, which consists of: (a) Accumulation for location of address bits. Matches one or more positions in the repeating unit. Which the sum of the bit values for the location of the bit addresses Matches from each data unit sequentially; (b) calibration verification It is based on the number of data units respectively; (c) comparing each cumulative sum with its counterpart; (d) if the cumulative total is less than Or equal to the equivalent value Will set the bit for the position Of the corresponding bit of the duplicate unit equal to 0; and (e) if the cumulative total is greater than the comparison value. Will set the bit value for the bit's position The matching of the duplicate data unit is equal to 1 1 7. The methods specified in Clause 16, where the calibration verification procedure will include: - dividing the number of sequential data units by two; and - Minimize the remainder 1 8. Methods outlined in Clause 16 where the procedure (a) - (e) will be performed. For each bit position in the duplicate unit 1 9. Methods outlined in Clause 16, where steps (a) - (e) will be performed. Part of the position of the bit in the duplicate unit 2 0. The method specified in Clause 14 where the majority is defined in the following steps: - The collection for the location of the bit that is Match in data units Which the sum of the values Of bits in the position of the corresponding addresses from each previously received and received data unit respectively; - Calibrated configuration Depending on the number of data units in a sequence; - comparison of each cumulative sum with its relative; - if the cumulative total is less than Or equal to the equivalent value Will set bit values for The corresponding bit position of the majority is 0; and - if the accumulated sum is greater than the comparison value. Will set the bit value for the bit's location. The corresponding number of phonemes are equal to 1 2. 1. Methods outlined in Clause 14 of claim, where the first and second reconstructions are performed. Either of them includes: - A comparison of the inherited unit with the database based on a particular unit. Or rather than previously accepted; - specifying the number of bit positions with different bit values; and - changing one or more different bit values. 2 2. Methods outlined in Clause 21 which consists of: - Verifying that the new data unit is new. Is it acceptable? And if not It will repeat the process of changing the differences in bit values. 2 3. The method stated in Clause 14, where the reconstruction of the first unit of information is manipulated by a majority. On the chronological order and creating a second chord is to compare the receiving unit with the base unit of one unit of information. Or more than that received before it. 2 4. Communication system. Where it contains: - a transmitter to be used to transmit data multiple trips Through a data communication connection point to generate a sequence of data sets; and - a receiver with a data processor. And the transmitter is connected to the communication point To get the order of the data units Where the data processor (1) reproduces the data unit for (a) the alternating sequence of data by means of a majority, using information from the pre-accepted and pre-accepted data units and Is being received to generate the majority of the units of sound. By the majority As a duplicate of data To swap the data units; and (b) for the received data units respectively In addition to switching data units By comparing the majority And the data unit being received To specify the number Bit positions with different bit values And changing the value of those bits One or more values By the data unit with the changed bit value One or more values Will be a duplicate data unit For other data units; and (2) verifying that the generated data Is it acceptable? 2 5. The system as stated in Clause 24, where the receiver is a mobile radio unit. And data communication connection point It is a wireless radio channel 2. 6. A radio communication system that requests automatic repetition (ARQ), where the unit The information sent was received. To check for discrepancies and submit again If a discrepancy is detected In the manner in which the order of the data is created These include: - radio transmitting a sequence of data units over a radio communication channel; and - a receiver radio that includes a data processor. And a transponder for the position of the data unit, where the data processor manages one repetition on the interchangeable datum and a second recursion on the other unit in sequence to recreate the unit. Acceptable 2 7. The system stated in Clause 26, where the reconstruction of the first unit It progresses by means of a majority on the order of the data And recreating the second data is comparison. It compares the received data unit with the database based on one or more previously accepted data units. 2. 8. The system as set out in Clause 26, where the reconstruction of the data unit. one Operated by the majority on the order of the data Where the data processor maintains Bit collector, for the position of or more bits in the repeating unit. To collect the total value Of the value of the bit for the position of the corresponding address from each data unit, respectively 2. 9. The system as specified in Clause 28, where the data processor determines Comparisons are based on the number of data units sequentially and compare each cumulative sum with its relative value. And if the cumulative total is less than Or equal to the equivalent value Will set the bit for the bit's location And if the cumulative total is greater than the collation, then the value of the bit position for the majority of phonemes is equal to 1 3 0. The system is specified in the clause. Holds the right to Article 26, where in the second iteration The processor compares the received data unit with the data base on it. One unit of information Or more than that which was already accepted And specify the number of bit positions With different bit values And change the value of one or more different bits To give birth New data unit 3 1. According to the system identified in Clause 30, where the data processor verifies that Is the new data unit acceptable, and if not, will create another change for the different bit values?