Selective data transmission method and system based on central monitoring system

What is claimed is: 1. A selective data transmission method based on a selective data transmission method, comprising a wireless sensor, wherein the wireless sensor executes the following steps of: A: collecting data; selecting, according to an instruction from a central station, and among the central station and a monitor, a receiving end of the collected data; and designating the selected receiving end as a designated receiving end; B: sending the collected data to the designated receiving end; D: establishing a wireless connection with the designated receiving end; and E: returning to execute step A; wherein step A further comprises judging if the instruction from the central station is for selecting a bedside monitoring mode or for selecting a central monitoring mode and, if the instruction is for selecting a bedside monitoring mode, then executing a bedside monitoring mode step; otherwise, executing a central monitoring mode step; the bedside monitoring mode step comprising the following steps of: C1: establishing a wireless connection with the monitor, and designating the monitor as the designated receiving end; and C2: returning to execute step A; the central monitoring mode step comprising the following steps of: CC1) establishing a wireless connection with the central station, and designating the central station as the designated receiving end; and CC2) returning to execute step A; wherein in the step B, if the designated receiving end is the monitor, then after the wireless sensor sends the collected data to the monitor, the monitor further transmits the collected data to the central station. 2. The selective data transmission method according to claim 1 , wherein the bedside monitoring mode step further comprises generating a warning signal to make a wireless sensor alarm. 3. The selective data transmission method according to claim 2 , wherein before the step A, the method further comprises the following two steps of: a wireless sensor configuration step: following configuration information is saved in the wireless sensor: a wireless sensor device number, an Internet Protocol, IP, address and a port number of the central station, as well an IP address and a port number of the monitor, wherein the wireless sensor device number is configured to control data parameters of the wireless sensor to be displayed in a sub-window corresponding to the device number on the central station; the IP address and the port number of the central station are configured to establish a Transmission Control Protocol, TCP, connection between the wireless sensor and the central station; the IP address and the port number of the monitor are configured to establish a TCP connection between the wireless sensor and the monitor; and the configuration information is read after the wireless sensor is electrified and enabled; and a step of establishing a TCP connection between the wireless sensor and the central station: the wireless sensor sends a connection request to the IP address and the port number of the central station, and establishes a TCP connection, wherein the wireless sensor communicates with the central station using a client/server mode, the wireless sensor being a client, and the central station being a server. 4. The selective data transmission method according to claim 3 , wherein the selective data transmission method comprises the central station, wherein the central station comprises all wireless sensor device number and monitor device number, the central station intercepts a TCP port number, receives a connection request from the wireless sensor and the monitor, and establishes a TCP connection; and the central station establishes an independent TCP communication channel for each new connection request, so that the central station is capable of receiving network data of multiple sets of wireless sensors and multiple sets of monitors simultaneously; and the wireless sensor and the monitor communicate with the central station using a client/server mode, the wireless sensor being a client, and the central station being a server. 5. The selective data transmission method according to claim 4 , wherein in the step B, the wireless sensor sends the collected data to the designated receiving end, the collected data being physiological parameters; if the central station does not receive the physiological parameters sent by the wireless sensor within a predetermined time, the central station will alarm for prompting; if the central station receives the physiological parameters sent by the wireless sensor within the predetermined time, the central station compares the received physiological parameters with a preset normal standard; if the physiological parameters exceed the preset normal standard, the central station sends a bedside monitoring instruction; otherwise, the central station sends a central monitoring instruction. 6. The selective data transmission method according to claim 3 , wherein in the step B, the wireless sensor sends the collected data to the designated receiving end, the collected data being physiological parameters; if the central station does not receive the physiological parameters sent by the wireless sensor within a predetermined time, the central station will alarm for prompting; if the central station receives the physiological parameters sent by the wireless sensor within the predetermined time, the central station compares the received physiological parameters with a preset normal standard; if the physiological parameters exceed the preset normal standard, the central station sends a bedside monitoring instruction; otherwise, the central station sends a central monitoring instruction. 7. The selective data transmission method according to claim 2 , wherein in the step B, the wireless sensor sends the collected data to the designated receiving end, the collected data being physiological parameters; if the central station does not receive the physiological parameters sent by the wireless sensor within a predetermined time, the central station will alarm for prompting; if the central station receives the physiological parameters sent by the wireless sensor within the predetermined time, the central station compares the received physiological parameters with a preset normal standard; if the physiological parameters exceed the preset normal standard, the central station sends a bedside monitoring instruction; otherwise, the central station sends a central monitoring instruction. 8. The selective data transmission method according to claim 1 , wherein in the step B, the wireless sensor sends the collected data to the designated receiving end, the collected data being physiological parameters; if the central station does not receive the physiological parameters sent by the wireless sensor within a predetermined time, the central station will alarm for prompting; if the central station receives the physiological parameters sent by the wireless sensor within the predetermined time, the central station compares the received physiological parameters with a preset normal standard; if the physiological parameters exceed the preset normal standard, the central station sends a bedside monitoring instruction; otherwise, the central station sends a central monitoring instruction. 9. A selective data transmission system based on a central monitoring system, comprising a wireless sensor, wherein the wireless sensor is configured to: collect data; select, according to an instruction from a central station, and among the central station and a monitor, a receiving end of the collected data; and designate the selected receiving end as a designated receiving end; send the collected data to the designated receiving end; establish a wireless