Wearable electronic apparatus, data analyzer, and travel record control method

What is claimed is: 1. A wearable electronic apparatus comprising: a memory; a location measurement module for receiving one or more signals from a location measurement system; and a processor coupled to the memory and the location measurement module, wherein the processor is adapted to: measure a location with a predetermined period based on the one or more received signals; compute an accumulated travel distance based on the measured location; determine whether the measured location is accurate or not; determine whether the measured location is necessary or not with reference to a previous measured location, when the measured location is accurate and necessary, determine that the measured location is to be saved in the memory; when the measured location is not accurate or not necessary, determine the measured location is not to be saved in the memory; determine whether the measured location corresponds to a section measurement point or not, control the memory to store the measured location when the measured location is determined to be saved; control the memory to store a dummy data instead of the measured location when the measured location corresponds to the section measurement point and determined not to be saved, and control the memory to output data stored in the memory corresponding to the measured location to an external device. 2. The apparatus according to claim 1 , wherein the processor is further adapted to determine that the measured location is to be saved when a direction change condition showing that a movement direction has changed based on the measured location is satisfied. 3. The apparatus according to claim 2 , wherein the processor is further adapted to measure the location based on satellite signals and to measure at least the movement direction based on Doppler of the satellite signals, and to determine whether or not the direction change condition is satisfied based on the movement direction. 4. The apparatus according to claim 3 , wherein the processor is further adapted to determine that the measured location is not to be saved when the movement direction and a travel direction based on the measured location and the previous measured location do not satisfy a predetermined approximate condition. 5. The apparatus according to claim 1 , wherein the processor is further adapted to control the memory to store the accumulated travel distance after a longer time interval than the predetermined period in a temporal sequence, and control the memory to output data of one or more accumulated travel distances stored in the memory to the external device. 6. The apparatus according to claim 1 , wherein the processor is further adapted to, when the measured location corresponds to the section measurement point, control the memory to store a lapse time from a start of computation of the accumulated travel distance, or a time taken for traveling from a previous section measurement point to the section measurement point, in correspondence with the measured location or the dummy data; and control the memory to output data of the lapse time or the time taken for traveling stored in the memory to the external device. 7. The apparatus according to claim 1 , wherein the section measurement point comprises a lap point. 8. A travel record control method executed by an electronic apparatus worn on a body, comprising: receiving one or more signals from a location measurement system; measuring a location with a predetermined period based on the one or more received signals; computing an accumulated travel distance based on the measured location; determining whether the measured location is accurate or not; determining whether the measured location is necessary or not with reference to a previous measured location; when the measured location is accurate and necessary, determine Caving the measured location is to be saved in a memory; when the measured location is not accurate or not necessary, determining the measured location is not to be saved in the memory; determining whether the measured location corresponds to a section measurement point or not; controlling the memory to store the measured location when the measured location is determined to be saved in the memory; control the memory unit to store a dummy data instead of the measured location data when the measured location corresponds to the section measurement point and determined not to be saved; and controlling the memory to output data corresponding to the measured location to an external device.