Mobile communication repeater integrated monitor device, and method and system for mobile communication relay and information provision

The invention claimed is: 1. An integrated mobile communication repeater monitoring device comprising: a relayer configured to transmit and receive first signals through a communication network, and separate the first signals received through the communication network into second signals of a mobile communication channel and third signals of a data channel; a data displayer configured to display data based on the third signals of the data channel received from the relayer; and a terminal transmission and reception unit including a mobile communication repeater or a mobile communication base station configured to transmit and receive high frequency wireless signals to and from a mobile communication terminal, wherein the terminal transmission and reception unit further comprises: a state monitor which collects state information including an intensity of a wireless high frequency signal transmitted by a mobile communication relayer or the mobile communication base station and a power on/off state of the data displayer, and transmits the collected state information to the relayer. 2. The integrated mobile communication repeater monitoring device of claim 1 , wherein the relayer comprises: a wavelength division multiplexing (WDM) separator configured to receive the first signals of a single channel which is obtained by combining a data channel and a mobile communication channel at different wavelengths from the communication network, and separate the first signals into the third signals of the data channel and the second signals of the mobile communication channel depending on respective wavelengths. 3. The integrated mobile communication repeater monitoring device of claim 1 , wherein the mobile communication repeater of the terminal transmission and reception unit comprises: a remote photoelectric converter which converts the second signals of the mobile communication channel of a forward link transmitted by the relayer into high frequency electrical signals, and converts high frequency electrical signals of a reverse link into fourth signals; and a remote relayer which relays high frequency wireless signals to the mobile communication terminal by using a repeater which controls respective intensities of the high frequency electrical signals of the forward link of a wireless relay. 4. The device of claim 1 , wherein the relayer comprises an optical relayer and the communication network is an optical communication network. 5. The device of claim 1 , wherein the data is displayed within an enclosed space and the mobile communication terminal is located in the enclosed space. 6. An integrated mobile communication repeater monitoring device comprising: a relayer configured to transmit and receive first signals through a communication network, and separate the first signals received through the communication network into second signals of a mobile communication channel and third signals of a data channel; a data displayer configured to display data based on the third signals of the data channel received from the relayer; and a terminal transmission and reception unit including a mobile communication repeater or a mobile communication base station configured to transmit and receive high frequency wireless signals to and from a mobile communication terminal, wherein the terminal transmission and reception unit further comprises: a controller which prevents or allows power to be supplied to the data displayer, and increases or decreases an intensity of the wireless high frequency signal transmitted by the mobile communication repeater or mobile communication base station. 7. An integrated mobile communication repeater monitoring device comprising: a relayer configured to transmit and receive first signals through a communication network, and separate the first signals received through the communication network into second signals of a mobile communication channel and third signals of a data channel; a data displayer configured to display data based on the third signals of the data channel received from the relayer; and a terminal transmission and reception unit including a mobile communication repeater or a mobile communication base station configured to transmit and receive high frequency wireless signals to and from a mobile communication terminal, wherein the mobile communication base station of the terminal transmission and reception unit comprises: a remote optical Ethernet converter which converts the second signals of the mobile communication channel of a forward link transmitted by the relayer into Ethernet signals and converts Ethernet signals of a reverse link into fourth signals that are then transmitted to the relayer; and a femto cell base unit which converts Ethernet signals of the forward link into high frequency wireless signals and transmits the converted high frequency signals to a mobile communication terminal located in an enclosed space, and converts high frequency wireless signals of a reverse link transmitted by the mobile communication terminal into Ethernet signals and transmits the converted Ethernet signals to the remote optical Ethernet converter. 8. A mobile communication relay and information provision method comprising: receiving first signals through a communication network; separating the received first signals into second signals of a mobile communication channel and third signals of a data channel; displaying the third signals of the data channel through an image output device; converting the second signals of the mobile communication channel into high frequency wireless signals by using a mobile communication repeater or a mobile communication base station, and transmitting the high frequency wireless signals to a mobile communication terminal; and collecting state information including an intensity of the transmitted high frequency wireless signals and a power on/off state of the image output device, and transmitting the collected state information to the communication network. 9. The mobile communication relay and information provision method of claim 8 , further comprising: supplying or blocking power to the image output device by analyzing the collected state information, and increasing or decreasing respective intensities of high frequency wireless signals transmitted by the mobile communication repeater or the mobile communication base station. 10. The method of claim 8 , wherein the communication network is an optical communication network. 11. The method of claim 8 , wherein the third channels of the data channel are displayed within the enclosed space and the mobile communication terminal is located in the enclosed space.