Method of compression data from in-vivo measurements of an analyte concentration in a human

What is claimed is: 1. A method of compressing data from in-vivo measurement of an analyte concentration in a human, comprising: providing a sensor configured for in-vivo measurement of the analyte concentration; providing a base station having a processor configured to execute instructions for processing signals of the measurement sensor and a memory operably coupled to the processor; forming, by the processor, pairs of measurement signals from raw data values of in-vivo measurements of the analyte concentration generated for a first time interval; determining, by the processor, a slope of a line connecting each pair of measurement signals; calculating, by the processor, a median value of each slope of the line connecting each pair of measurement signals; calculating, by the processor, a compressed data value for the first time interval from the median value of each slope of the line connecting each pair of measurement signals and a compressed data value of a preceding time interval; providing, by the processor, a plurality of raw data values for a later time interval; forming, by the processor, pairs of measurement signals from the raw data values for the later time interval; and calculating, by the processor, a compressed data value for the later time interval from the compressed data value of the first time interval and a slope value of a line connecting each pair of measurement signals determined for the later time interval. 2. The method as in claim 1 , further comprising, disregarding, by the processor, raw data that are a substantial deviation from other raw data values. 3. The method as in claim 1 , further comprising, determining, by the processor, raw data values consecutively over constant time intervals using time marks including a date and a time. 4. The method as in claim 1 , wherein, calculating a median value includes disregarding, by the processor, raw data values that deviate by more than a threshold value from a mean value of other raw data values. 5. The method as in claim 1 , further comprising, sending, by a transmitter of the base unit, the calculated compressed data value from a base station to a display device. 6. A method of compressing data from in-vivo measurement of an analyte concentration in a human, comprising: providing a sensor configured for in-vivo measurement of the analyte concentration; providing a base station having a processor configured to execute instructions for processing signals of the measurement sensor and a memory operably coupled to the processor; providing, by the processor, a plurality of consecutive raw data values of in-vivo measurements of the analyte concentration for a first time interval; calculating, by the processor, a compressed data value for the first time interval by calculating a median value of a slope of a line connecting the consecutive raw data values for the first time interval and a compressed data value of a preceding time interval; providing, by the processor, a plurality of raw data values for a later time interval; and calculating, by the processor, a compressed data value for the later time interval from the compressed data value of the first time interval and a slope value of a line connecting the raw data values determined for the later time interval. 7. The method as in claim 6 , wherein the later time interval overlaps the first time interval. 8. The method as in claim 6 , wherein, calculating, by the processor, a median value of the raw data values includes disregarding raw data values that deviate by more than a threshold value from a mean value of other raw data values. 9. The method as in claim 6 , further comprising, sending, by a transmitter of the base unit, the calculated compressed data value for the later time interval from a base station to a display device. 10. A method of compressing data from in-vivo measurement of an analyte concentration in a human, comprising: providing a sensor configured for in-vivo measurement of the analyte concentration; providing a base station having a processor configured to execute instructions for processing signals of the measurement sensor and a memory operably coupled to the processor; forming, by the processor, pairs of raw data values of in-vivo measurements of an analyte concentration, which were generated for a first time interval; determining, by the processor, for each pair of raw data values, a slope value of a line connecting the pair of raw data values; calculating, by the processor, a median value of the slope values of lines connecting the pairs of raw data values; calculating, by the processor, a compressed data value for the first time interval from the median slope value and a compressed data value of a first preceding time interval; forming, by the processor, pairs of compressed data values generated for a second time interval containing a plurality of first time intervals, the second time interval being at least ten times longer than the first time intervals; determining, by the processor, for each pair of compressed data values, a slope value of a line connecting the pair of compressed data values; calculating, by the processor, a median value of the slope values of lines connecting pairs of compressed data values; and calculating, by the processor, a condensed data value for the second time interval from the median value of the slope values of the lines connecting pairs of compressed data values and a condensed data value of a second preceding time interval. 11. The method of claim 10 , wherein the second time interval overlaps the second preceding time interval. 12. The method as in claim 10 , wherein, calculating a median value of the slope values of lines connecting the pairs of raw data values includes disregarding, by the processor, raw data values that deviate by more than a threshold value from a mean value of other raw data values. 13. The method as in claim 10 , further comprising, sending, by a transmitter of the base unit, the condensed data value for the second time interval from a base station to a display device. 14. The method as in claim 1 , wherein the later time interval is at least ten times longer than the first time interval. 15. The method as in claim 6 , wherein the later time interval is at least ten times longer than the first time interval.