Relational structure for wireless nodes and optimizing method for the relational structure

What is claimed is: 1. An optimization method for relational structure, comprising: a) a zone controller receiving relational structure information, wherein the relational structure information comprises a relational structure composed of the zone controller and multiple groups of sub-relational structures; b) retrieving multiple groups of sub-relational structure information from the relational structure information by the zone controller; c) classifying the multiple groups of sub-relational structure information to generate a classified result by the zone controller, wherein the multiple groups of sub-relational structure information separately correspond to types, number and connection relation among multiple equipment controllers and sensors of corresponding sub-relational structure; d) separately executing an optimized searching procedure for each type of the sub-relational structure according to the classified result by the zone controller, and the executed optimized searching procedure comprises following steps: d1) searching multiple equipment controllers of same type located nearby according to the type of the sub-relational structure information by the zone controller; d2) respectively calculating a first relation level to each of the equipment controllers by the zone controller; d3) transmitting the sub-relational structure information to the equipment controllers by the zone controller; d4) respectively searching multiple sensors of the same type located nearby according to the received sub-relational structure information by each of the equipment controllers; d5) respectively calculating a second relation level to each of the sensors by each of the equipment controllers; d6) calculating a statistic value of the first relation level and each of the second relation levels by each of the equipment controllers respectively; d7) keeping a solution of a highest statistic value for matching the content of the sub-relational structure information as an optimized search result, and replying to the zone controller with the optimized search result by each of the equipment controllers respectively; e) separately retrieving the optimized search result for each type of the sub-relational structures by the zone controller; f) respectively establishing the sub-relational structure of each type according to the optimized search result by the zone controller; and g) connecting the sub-relational structures to establish the relational structure by the zone controller. 2. The optimization method of claim 1 , wherein the multiple groups of sub-relational structure information respectively comprise corresponding type and number of the equipment controllers, type and number of the sensors, and connection relation between the equipment controllers and the sensors. 3. The optimization method of claim 2 , wherein the zone controller, the equipment controller and the sensor are located at one same zone. 4. The optimization method of claim 2 , wherein in the step c), the multiple groups of sub-relational structure information are classified according to the type of the equipment controller and the sensor of the multiple groups of sub-relational structure information. 5. The optimization method of claim 4 , wherein the equipment controller is a fan controller, a light controller or a shielding controller, and the sensor is a temperature/humidity sensor, a pyroelectric infrared illumination sensor or an illumination sensor. 6. The optimization method of claim 5 , wherein one or multiple groups of the sub-relational structure information that comprises the fan controller and the temperature/humidity sensor is classified into one same type, one or multiple groups of the sub-relational structure information that comprises the light controller and the pyroelectric infrared sensor is classified into one same type, and one or multiple groups of the sub-relational structure information that comprises the shielding controller and the illumination sensor is classified into one same type. 7. The optimization method of claim 4 , wherein the statistic value is a multiplication value of the first relation level and each of the second relation levels. 8. The optimization method of claim 4 , wherein the statistic value is a summed value of the first relation level and each of the second relation levels. 9. The optimization method of claim 4 , wherein in the step d1), the zone controller searches the multiple equipment controllers of the same type located nearby according to type of the sub-relational structure information for respectively calculating the first relation level to the equipment controllers and keep one or more of the equipment controllers with the first relation level higher than a standard value. 10. The optimization method of claim 9 , wherein in the step d4), the equipment controllers respectively search multiple sensors of the same type located nearby according to the type of the sub-relation structure information for respectively calculating the second relation level to the sensors and keep one or more of the sensors with the second relation level higher than the standard value. 11. The optimization method of claim 10 , wherein the first relation level is calculated according to distance and signal strength between the zone controller and the equipment controllers, and the second relation level is calculated according to distance and signal strength between the equipment controllers and the sensors. 12. The optimization method of claim 11 , wherein the distance and the signal strength between the zone controller and the equipment controllers and the distance and the signal strength between the equipment controller and the sensors are calculated via a positioning technology. 13. The optimization method of claim 4 , wherein in the step of d1), the search result of the zone controller excludes one or more equipment controllers being tagged, and the search results of the equipment controllers exclude one or more sensors being tagged. 14. A relational structure of wireless nodes located in a zone, comprising: a zone controller having a relational structure information, wherein the zone controller retrieves multiple groups of sub-relational structure information from the relational structure information and classifies the multiple groups of sub-relational structure information for generating a classified result; multiple equipment controllers respectively connected to and controlling an electronic device in the zone; and multiple sensors for sensing an environment parameter of the zone; wherein the multiple groups of sub-relational structure information respectively comprise type and number of the equipment controllers, type and number of the sensors and connection relation between the equipment controllers and the sensors for a corresponding sub-relational structure; wherein the zone controller respectively executes an optimized solution search procedure of the sub-relational structure for each type according to the classified result for searching multiple equipment controllers of the same type located nearby according to the type of the sub-relational structure information and respectively calculating a first relation level to each of the equipment controllers, and the zone controller transmits the sub-relational structure information to the equipment controllers of the same type; wherein each of the equipment controllers respectively searches multiple sensors of the same type located nearby according to the received sub-relational structure information and respectively calculate a second relation level to each of the sensors; wherein each of