Liquid-crystal antenna apparatus and method for tracking wireless apparatus using the same

What is claimed is: 1. A liquid-crystal antenna apparatus, comprising: a liquid-crystal antenna unit, configured to receive a wireless signal, wherein the liquid-crystal antenna unit comprises a plurality of microwave elements, and each of the microwave elements comprises a first electrode, a second electrode opposite to the first electrode, and a liquid-crystal cell disposed between the first electrode and the second electrode; and a control unit, electrically connected to the liquid-crystal antenna unit, configured to control the liquid-crystal antenna unit to form a first beam having a first direction, wherein the control unit determines a source orientation of the wireless signal according to the wireless signal received by the liquid-crystal antenna unit, and controls the first direction of the first beam to direct toward the source orientation, wherein the plurality of microwave elements are divided into a first portion and a second portion, and only the plurality of microwave elements in the first portion receive the wireless signal, wherein the plurality of microwave elements in the first portion are divided into at least three regions, and each of the regions has a directivity, wherein only the plurality of microwave elements in the second portion form the first beam, wherein the liquid-crystal antenna unit simultaneously receives the wireless signal and forms the first beam. 2. The liquid-crystal antenna apparatus as claimed in claim 1 , wherein the control unit changes position or arrangement of the first portion of the microwave elements in different time intervals. 3. A liquid-crystal antenna apparatus, comprising: a liquid-crystal antenna unit, configured to receive a wireless signal, wherein the liquid-crystal antenna unit comprises a plurality of microwave elements, and each of the microwave elements comprises a first electrode, a second electrode opposite to the first electrode, and a liquid-crystal cell disposed between the first electrode and the second electrode; and a control unit, electrically connected to the liquid-crystal antenna unit, configured to control the liquid-crystal antenna unit to form a first beam having a first direction, wherein the control unit controls the liquid-crystal antenna unit to alternate the first direction of the first beam in a first time interval, and determines a source orientation of the wireless signal according to the wireless signal received by the liquid-crystal antenna unit, wherein the control unit controls the liquid-crystal antenna unit to direct the first direction of the first beam toward the determined source orientation in a second time interval later than the first time interval, wherein the first direction of the first beam is changed within a second range inside the first range in a third time interval later than the second time interval. 4. The liquid-crystal antenna apparatus as claimed in claim 3 , wherein the first direction of the first beam is changed within a first range that has an angle exterior to a normal of a surface of the liquid-crystal antenna unit. 5. A method for tracking a wireless apparatus using a liquid-crystal antenna apparatus, wherein the liquid-crystal antenna apparatus comprises a liquid-crystal antenna unit having a plurality of microwave elements, the method comprising: receiving a wireless signal via at least a part of the microwave elements; determining a source orientation of the wireless signal according to the wireless signal received by the microwave elements; and controlling a direction of a first beam formed by at least a part of the microwave elements to substantially direct toward the source orientation of the wireless signal, wherein the microwave elements are divided into a first portion and a second portion, and only the microwave elements in the first portion receive the wireless signal, wherein the first portion of the microwave elements is divided into a plurality of regions, and each of the regions has a directivity, wherein only the second portion of the microwave elements forms the first beam, wherein the liquid-crystal antenna unit simultaneously receives the wireless signal and forms the first beam.