Wearable sports monitoring equipment and method for characterizing sports performances or sportspersons

The invention claimed is: 1. A wearable electronic equipment for monitoring a sports performance and determining the fitness level of a person, comprising: a heartbeat sensor configured to measure a heartbeat signal in response to heartbeat of the person; a motion sensor configured to measure a motion signal in response to movement of the person; and at least one processor within the wearable electronic equipment functionally connected to the heartbeat sensor and the motion sensor, said processor configured to: determine the fitness level of the person by detecting periodic features in the measured heartbeat signal and in the measured motion signal, determining a temporal correlation between said periodic features, and calculating, based at least partly on said temporal correlation, at least one performance parameter depicting said fitness level of the person, wherein said at least one performance parameter comprises: an anaerobic heart rate threshold level of the person determined by detecting or estimating a frequency of the measured heartbeat signal at which said periodic features of the measured heartbeat signal and said periodic features of the measured motion signal are equal, or a derivative from said anaerobic heart rate threshold level of the person determined by detecting or estimating a frequency of the measured heartbeat signal at which said periodic features of the measured heartbeat signal and said periodic features of the measured motion signal are equal, or a deviation from said anaerobic heart rate threshold level of the person determined by detecting or estimating a frequency of the measured heartbeat signal at which said periodic features of the measured heartbeat signal and said periodic features of the measured motion signal are equal, said deviation determined from a difference between a current heart rate level and said determined anaerobic heart rate threshold level, or a derivative of said deviation from said anaerobic heart rate threshold level of the person determined by detecting or estimating a frequency of the measured heartbeat signal at which said periodic features of the measured heartbeat signal and said periodic features of the measured motion signal are equal, said deviation determined from a difference between a current heart rate level and said determined anaerobic heart rate threshold level, or any combination thereof, wherein the wearable electronic equipment comprises at least one displayless electric heart rate module integral with or functionally connectable with a heart rate belt or a smart garment having integral heart rate measurement electrodes so as to form said heartbeat sensor, and the module comprising said motion sensor and at least part of said processor, and at least one wristop computer or mobile handheld device configured to establish wireless communication with the electric heart rate module and being provided with a display configured to visualize said performance parameter. 2. The wearable electronic equipment according to claim 1 , wherein the processor is further configured to: calculate at least one correlation factor, said correlation factor being dependent on the temporal characteristics of periodic features of the measured heartbeat signal compared with the temporal characteristics of periodic features in the measured motion signal, and using said correlation factor, calculate said at least one performance parameter. 3. The wearable electronic equipment according to claim 1 , wherein the processor is further configured to calculate at least a parameter depicting intensity of the performance, strain of the performance, fatigue of the person, said fitness level of the person or a combination thereof as said at least one performance parameter. 4. The wearable electronic equipment according to claim 1 , wherein the at least one performance parameter comprises at least one of an index, a fitness index, a fatigue index, an energy consumption, or a combination of at least one of: said index, said fitness index, said fatigue index, or said energy consumption. 5. The wearable electronic equipment according to claim 1 , wherein the processor is further configured to calculate at least a maximum speed and/or step length of the person in an aerobic range as said at least one performance parameter. 6. The wearable electronic equipment according to claim 1 , wherein the processor is further configured to calculate the performance parameter based on a difference between the measured heartbeat signal and a frequency of said periodic features of the measured motion signal. 7. The wearable electronic equipment according to claim 1 , wherein the processor is further configured to: associate first time stamps with individual heartbeats detected from said measured heartbeat signal, associate second time stamps with periodic features detected from said measured motion signal, based on said first and second time stamps, detect and/or estimate a heartbeat frequency at which a temporal difference in the periodicities of the measured heartbeat signal and periodicities of said measured motion signal remain constant over a plurality of periods of the signals, and calculate a performance parameter based on said detected and/or estimated heartbeat frequency. 8. The wearable electronic equipment according to claim 1 , wherein the processor is further configured to calculate a Fourier transformation of the measured heartbeat and motion signals, and to compare characteristics of the measured signals in a frequency domain in order to calculate said performance parameter. 9. The wearable electronic equipment according to claim 1 , wherein said at least one performance parameter further comprises an index number proportional to a ratio of a cadence of the movement of the person based on said measured motion signal and the heart rate of the person, based on said measured heartbeat signal. 10. The wearable electronic equipment according to claim 1 , further comprising a position sensor configured to obtain speed data of the person, and wherein said processor is further configured to utilize said speed data in order to calculate said performance parameter. 11. The wearable electronic equipment according to claim 1 , wherein the processor is further configured to determine an average step length of the person and wherein said processor is further configured to utilize said average step length when calculating the performance parameter. 12. The wearable electronic equipment according to claim 11 , wherein the processor is further configured to at least: read a step length as a user-input parameter from a memory unit of the equipment, determine a step length based on the motion signal, or determine the average step length based on the combination of the periodic features of the measured motion signal and the speed data obtained using a position sensor. 13. The wearable electronic equipment according to claim 1 , further comprising an electric heart rate module integral with or functionally connectable with a heart rate belt or a smart garment having integral heart rate measurement electrodes so as to form said heartbeat sensor, said electronic heart rate module including said motion sensor. 14. The wearable electronic equipment according to claim 13 , wherein the electric heart rate module further comprises the processor. 15. The wearable electronic equipment according to claim 1 , wherein said heartbeat sensor comprises an electrical ECG sensor, an optical sensor, a pressure sensor or an acceleration sensor. 16. The wearable electronic equipment accordi