Patent Abstract:
A security monitor method and monitor apparatus utilizing a RFID tag. A wearer wears a RFID tag having an acceleration sensor and a magnetic field sensor. The status of the wearer is determined by an acceleration variation and an angle variation of an included angle with the terrestrial magnetism on X axis, Y axis and Z axis detected and calculated by the acceleration sensor and the magnetic field sensor. If the status determined is abnormal, the monitor apparatus transmits wireless warning signals to monitor ends such as a hospital or a home for the aged.

Full Description:
BACKGROUND OF THE INVENTION 
       [0001]    1. Field of the Invention 
         [0002]    The invention generally relates to an RFID tag, in particular, to a security monitor method and monitor apparatus utilizing a RFID tag. 
         [0003]    2. Description of Prior Art 
         [0004]    Emergency buttons are widely applied seen in everyday life. There are emergency buttons installed in vehicles and buildings as means for instant alarm and establishing real time communication on site with the competent authorities should emergent incidents occur. 
         [0005]    Emergency buttons in a hospital or a home for the aged are installed on the wall or bedside in a ward, a room, or a toilet, such that a patient, a carer, or an old person can press on the emergency buttons in case emergent incident occurs to the patient or the old person to seek for immediate medical assistance from a medical station or a service station. Further, there are additional designs such as an extended cable from an emergency button installed with an extended emergency button on one end so that a patient or an old person can easily reach the extended button when emergent incidents occur. Such designs are especially convenient to a disabled pressing the extended buttons electrically connected to the extended cable to call for help from working or medical staff in a medical station or a service station as emergency incidents occurs. 
         [0006]    Though, the above mentioned designs of emergency buttons are provided to offer convenience for patients, carers or old persons to inform medical or service staff, the emergency buttons are located a certain distance away from the floor. In scenarios when patients or old persons fall and unable to stand up, the patients or old persons can not reach the emergency buttons and seek assistance from the medical or service staff. 
       SUMMARY OF THE INVENTION 
       [0007]    The objective of the prevent invention is to provide a security monitor method and monitor apparatus utilizing a RFID tag. A monitored person wears the monitor apparatus. The sensor or sense device of the monitor apparatus senses the action of the wearer and transmits warning signals with wearer&#39;s identification and location information to a monitor end should abnormal actions detected. 
         [0008]    In order to realize the above purpose, a RFID tag is used as a monitor apparatus. An acceleration sensor and a magnetic field sensor of the monitor apparatus are used for respectively sensing and calculating and an angle variation of an included angle with the terrestrial magnetism on X axis, Y axis and Z axis as the basis to determine if the wearer is on an abnormal status such as falling. If the wearer is under abnormal status, the monitor apparatus transmits wireless signals to a monitor end such as a hospital or a home for the aged. 
         [0009]    The advantage provided by the present invention is the monitor apparatus automatically sensing current status of the wearer in a routine and constantly providing feedbacks to a monitor end. Under the circumstance the wearer is under abnormal status such as falling, the monitor apparatus does not only automatically report to a monitor end by warning signals, also the warning signals further include wearer&#39;s identification and wireless positioning location ID to assure the monitor end receive the wearer&#39;s identification and location and is allowed to offer immediate assistance to arrive on the location where the wearer is 
     
    
     
       BRIEF DESCRIPTION OF DRAWING 
         [0010]    The features of the invention believed to be novel are set forth with particularity in the appended claims. The invention itself, however, may be best understood by reference to the following detailed description of the invention, which describes an exemplary embodiment of the invention, taken in conjunction with the accompanying drawings, in which: 
           [0011]      FIG. 1  illustrates a schematic diagram of a monitor apparatus according to the present invention; 
           [0012]      FIG. 2  illustrates block diagrams of a preferred embodiment according to the present invention; and 
           [0013]      FIG. 3  illustrates a monitor flow chart of a embodiment according to the present invention 
       
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
       [0014]    In cooperation with attached drawings, the technical contents and detailed description of the present invention are described thereinafter according to preferable embodiments. 
         [0015]      FIG. 1  illustrates a schematic diagram of a monitor apparatus according to the present invention. As shown in the diagram, a monitor apparatus  1  is implemented by a radio frequency identification (RFID) tag  10 . The RFID tag  10  is installed in a casing  11 . The monitor apparatus  1  comprises the casing  11  and a carrying belt  12  connected to the casing  11  such that a wearer can wear the monitor apparatus  1 . With the belt design, a wearer may wear the monitor apparatus  1  on wrist, waist, or neck as the wearer needs. The monitor apparatus  1  may be implemented in forms of a watch, waist belt, and a necklace. It should be noted that the monitor apparatus  1  is used for monitor action status of a patient or an old person. The monitor apparatus  1  uses the carrying belt  12  made mainly by flexible plastic or rubbers but the scope of the invention is not restricted to the listed materials above. 
         [0016]    The monitor apparatus  1  senses signal variation on three axes (X axis, Y axis and Z axis) of the wearer caused by wearer&#39;s movement via internal sensors installed in the RFID tag  10  (an acceleration sensor  102  and a magnetic field sensor  104  as shown in  FIG. 2 ). Accordingly, when the wearer&#39;s status is abnormal (for example the wearer falls and the instant variation of sense signals exceed threshold values), the monitor apparatus transmits a warning signal to a monitor end  2  along with identification ID of the wearer and a wireless positioning location ID of the monitor apparatus  1 . Thus, the monitor end  2  is provided with sufficient information to send support persons to the wearer&#39;s end immediately to proceed to following confirmation and provide first aid for the emergent incident. 
         [0017]      FIG. 2  illustrates block diagrams of a preferred embodiment according to the present invention. As shown in the diagram, the preferred embodiment is implemented by a monitor apparatus  1  having a RFID tag  10  installed inside. 
         [0018]    The RFID tag  10 , the main component of the monitor apparatus  1  comprises an acceleration sensor  102 , a magnetic field sensor  104 , a micro controller  106 , a memory  108  and a radio frequency module  110 . The micro controller  106  is electrically connected to the above components. The radio frequency module  110  is further electrically connected to a radio frequency antenna  120 . The RFID tag  10  transmits generated signals via the radio frequency antenna  120  to the monitor end  2 . The monitor end  2  receives the signals. In addition to the above components, the RFID tag  10  further comprises a battery  112  as internal power provided to components installed in the RFID tag  10  when the RFID  10  does not transmit and receive signals with the monitor end  2  and thus do not receive external power. 
         [0019]    The acceleration sensor  102  of the RFID tag  10  is used for sensing and outputting acceleration signals on X axis, Y axis and Z axis of the wearer. The magnetic field sensor  104  is used for sensing and outputting terrestrial magnetism intensity on X axis, Y axis and Z axis of the wearer to obtain angle signals of an included angle with the terrestrial magnetism. When the wearer wears the monitor apparatus  1 , if any of X axis, Y axis and Z axis of the wearer parallel to the spine of the wearer, the angle signals sensed by the magnetic field sensor  104  indicate the spine angle of the wearer. The magnetic field sensor  104  is mainly implemented by a Hall sensor but the invention is not limited to the implementation. 
         [0020]    The above mentioned sensors  102  and  104  constantly sense signals (acceleration signals and angle signals) and output sense signals to the micro controller  106 . The micro controller  106  calculates on the sense signal to generate an acceleration variation on three axes of the wearer, and included angle variation between three axes of the wearer and terrestrial magnetism. The micro controller  106  retrieves threshold values saved in advance from the memory  108  and compare the variations with the threshold values. If there&#39;s instant dramatic variation sensed on the wearer, the variations exceed the threshold values, the micro controller  106  determines that the wearer is under abnormal status for example the wearer falls. 
         [0021]    In addition to the threshold values of the variation, there are wearer identification ID and wireless positioning location ID saved in the memory  108 . When emergent incident occurs to the wearer, the identification and location ID signals are transmitted from the micro controller  106  to the radio frequency module  110 , encoded by the radio frequency module  110  then transmitted to the monitor end  2  via the radio frequency antenna  120 . As such the monitor end  2  for example an hospital, a sanatorium, a residence of the wearer, and a service station or a medical station in the neighboring area of wear&#39;s residence is informed of the identification and the incident location of the wearer. 
         [0022]      FIG. 3  illustrates a monitor flow chart of an embodiment according to the present invention. Firstly, the monitor apparatus  1  senses acceleration signals on X axis, Y axis, and Z axis via the acceleration sensor  102 , and senses terrestrial magnetism intensity signals on X axis, Y axis, and Z axis via the magnetic field sensor  104  for generating an included angle between the X axis, Y axis, and Z axis of the wearer and terrestrial magnetism (step S 300 ). Following that, the acceleration signals and the angle signals are transmitted to the micro controller  106 . The micro controller  106  calculates to generate acceleration variation and included angle variation (step S 302 ). The instantaneous applied force is generated by calculating acceleration variation. The spine angle variation of the wearer is generated by calculating included angle variation. 
         [0023]    Next, the micro controller  106  compares the variation results with the threshold value saved in the memory  108  (step S 304 ), and determines if the variation results exceed the threshold values (step S 306 ). If the variation results exceed the threshold values, the micro controller  106  determines that the wearer is under abnormal status (step S 308 ), for example the wearer falls and concurrently transmits a warning signal along with signals containing the identification ID, and wireless positioning location ID of the monitor apparatus  1  to the monitor end  2  (step S 310 ). However, if the micro controller  106  determines that the variation results do not exceed the threshold values, the wearer status is determined normal in step S 306  (step S 312 ), for example the wearer acts normal or is in sleep. Accordingly, a normal signal is transmitted to the monitor end  2  (step S 314 ). In addition, the above steps are scheduled and operated on a repetitive routine to assure the monitor end  2  receives the wearer status signals continuously. Further, the monitor end  2  is allowed to be informed immediately if emergent incident occurs and sends staff to arrive on the incident location instantly. 
         [0024]    As the skilled person will appreciate, various changes and modifications can be made to the described embodiments. It is intended to include all such variations, modifications and equivalents which fall within the scope of the invention, as defined in the accompanying claims.

Technology Classification (CPC): 0