Self-direct M2M (machine-to-machine) communication based user's daily activity logging and analyzing system with wearable and personal mobile devices

The invention claimed is: 1. A health care system comprising proximity-based neighbor device wake-up and automatic user identification function, the health care system comprising: a health or wellness service unit; and a plurality of user terminals; wherein the health or wellness service unit is configured to transmit a wake-up signal to change a state of each of the user terminals from a sleep state to a wake-up state, a low frequency (LF) signal for identifying a direction and a physical distance between the health or wellness service unit and each of the user terminals, and a measured biological signal of a subject, and wherein each of the user terminals is configured to receive, the wake-up signal and the LF signal through bidirectional wireless communication with the health or wellness service unit, and transmits a terminal identification (ID) and a received signal strength indication (RSSI) corresponding to the received LF signal, and wherein the health or wellness service unit is configured to compare RSSI values and received-signal direction values transmitted from the user terminals, analyze the physical distances between each of the user terminals and the health or wellness service unit and the states of the user terminals, select a user terminal from the plurality of user terminals using the transmitted RSSI values and the received-signal direction values of LF signals, and transmit the measured biological data of the subject to the selected user terminal. 2. The health care system of claim 1 , wherein the health or wellness service unit comprises: an input unit through which medical data on the subject is input; a radio frequency (RF) antenna transmitting and receiving a first signal through RF communication with an external communication device; a wireless communication unit processing the first signal; an LF antenna transmitting and receiving a second signal through LF communication with the external communication device; an LF transmission unit transmitting the wake-up signal and the LF signal to the user terminals; and a main control unit controlling the input unit, the RF antenna, the wireless communication unit, the LF antenna and the LF transmission unit. 3. The health care system of claim 1 , wherein each of the user terminals comprises: an RF antenna transmitting and receiving a first signal through RF communication with an external communication device; a wireless communication unit processing the first signal; and an LF receiver antenna transmitting and receiving a second signal through LF communication with the external communication device; an LF reception unit receiving the wake-up signal and the LF signal from the health or wellness service unit; and a main control unit controlling the RF antenna, the wireless communication unit, the LF receiver antenna and the LF reception unit. 4. The health care system of claim 1 , wherein the LF signal is transmitted at a frequency band of 10 kHz to 150 kHz, and the distance between a signal transmitter and a signal receiver is 1 m to 10 m. 5. The health care system of claim 1 , wherein the wireless communication uses an IEEE 802.15.4 MAC, Bluetooth communication or WiFI communication protocol. 6. The health care system of claim 1 , further comprising an operator server that analyzes finally measured data transmitted from the health or wellness service unit to the selected user terminal or the operator server to manage health information of the subject and provides requested health information with a requesting user terminal for a user when there is a request for the health information from the requesting user terminal. 7. The health care system of claim 6 , wherein the finally measured data has a packet structure that comprises information on a user ID, measured data, a measured time, and an ID of a measuring device. 8. A method of automatic logging of user's daily activity history, the method comprising: receiving a wake-up signal to change a state of a user terminal from a sleep state to a wake-up state, and a low frequency (LF) signal for identifying a location of the user terminal, from a health or wellness service unit; sensing the wake-up signal, generating interrupt and changing the user terminal from the sleep state to the wake-up state; transmitting an user terminal ID, a received signal strength indication (RSSI) of the received LF signal and a direction information of the received LF signal, to the health or wellness service unit; comparing RSSI values and received-signal direction values transmitted from user terminals, and analyzing physical distances between each of the user terminals and the health or wellness service unit and the states of the user terminals; selecting a user terminal from the terminals using the transmitted RSSI values and the transmitted received-signal direction values of LF signals; and transmitting measured data on a subject to the selected user terminal. 9. The method of claim 8 , wherein the changing the user terminal from the sleep state to the wake-up state further comprises waking up a wireless communication unit of the user terminal and receiving a service advertising message from the health or wellness service unit. 10. The method of claim 8 , wherein the measured data on the subject is automatically transmitted to the selected user terminal by using proximity-based neighbor device wake-up and automatic user identification function even though a separate operation on the user terminal is not performed by a user. 11. The method of claim 10 , wherein by using the proximity-based neighbor device wake-up and automatic user identification function, the user terminal automatically wakes up in response to a service advertising message transmitted from the health or wellness service unit or a user ID and measured data are mutually exchanged between the health or wellness service unit and the user terminal.