Abstract: A sport assistance system and a sport assistance method are provided. The sport assistance method includes: obtaining a real-time heart rate; executing a first assistance procedure according to a target heart rate, a maximum heart rate, a resting heart rate, a first media and the real-time heart rate; and executing a second assistance procedure according to the target heart rate and the real-time heart rate. The first assistance procedure includes: playing the first media at a first tempo rate; and adjusting the first tempo rate according to the real-time heart rate until the real-time heart rate is close to the target heart rate and a first scheduled time is met. The first initial value is greater than the resting heart rate. The second assistance procedure includes: playing a second media; and adjusting a second tempo rate according to an adjustment parameter until a second scheduled time is met.

Abstract: A method for assembling the fingerprint identification module is provided. Firstly, a protective cover and a fingerprint sensing element are combined together. Then, the fingerprint sensing element is placed on the circuit board. Then, a triggering element is placed on the circuit board. Then, an adhesive thickness is obtained according to a predetermined thickness and the thicknesses of the protective cover, the fingerprint sensing element, the triggering element and the circuit board. Then, an adhesive film corresponding to the adhesive thickness is placed on the circuit board. Since the appropriate adhesive film is selected according to the demand, the thickness of the fingerprint identification module is substantially identical to the predetermined thickness.

Abstract: A method for assembling a fingerprint identification module is provided. During the process of cutting a sensing strip, the junction parts between adjacent fingerprint sensors are retained. Consequently, the cut sensing strip is still a one-piece structure. Then, a paint-spraying process is performed to spray paint on the one-piece structure of the sensing strip. After the junction parts are removed, plural individual fingerprint sensors are produced. In comparison with the conventional technology of spraying paint on the individual fingerprint sensors, the assembling time of the method of the present invention is largely reduced. Consequently, the production efficiency of the present invention is enhanced.

Abstract: A method for assembling a fingerprint identification module is provided. During the process of cutting the sensing strip, the thin junction slices between the fingerprint sensors are retained. Consequently, the size of the top surface of the fingerprint sensor is close to a predetermined size. After the thin junction slices are cut, the concave structures are formed on the bottom surfaces of the fingerprint sensors. Consequently, the size of the bottom surface of the fingerprint sensor is smaller than the size of the top surface of the fingerprint sensor. Even if the cutting skew is generated during the cutting process, the fingerprint sensor can pass the size test. Consequently, the production efficiency is enhanced.

Abstract: A method for assembling a fingerprint identification module is provided. During the process of cutting a sensing strip, the junction parts between adjacent fingerprint sensors are retained. Consequently, the cut sensing strip is still a one-piece structure. Then, a paint-spraying process is performed to spray paint on the one-piece structure of the sensing strip. After the junction parts are removed, plural individual fingerprint sensors are produced. In comparison with the conventional technology of spraying paint on the individual fingerprint sensors, the assembling time of the method of the present invention is largely reduced. Consequently, the production efficiency of the present invention is enhanced.

Abstract: A method for assembling a fingerprint identification module is provided. During the process of cutting the sensing strip, the thin junction slices between the fingerprint sensors are retained. Consequently, the size of the top surface of the fingerprint sensor is close to a predetermined size. After the thin junction slices are cut, the concave structures are formed on the bottom surfaces of the fingerprint sensors. Consequently, the size of the bottom surface of the fingerprint sensor is smaller than the size of the top surface of the fingerprint sensor. Even if the cutting skew is generated during the cutting process, the fingerprint sensor can pass the size test. Consequently, the production efficiency is enhanced.

Abstract: A method for assembling the fingerprint identification module is provided. Firstly, a protective cover and a fingerprint sensing element are combined together. Then, the fingerprint sensing element is placed on the circuit board. Then, a triggering element is placed on the circuit board. Then, an adhesive thickness is obtained according to a predetermined thickness and the thicknesses of the protective cover, the fingerprint sensing element, the triggering element and the circuit board. Then, an adhesive film corresponding to the adhesive thickness is placed on the circuit board. Since the appropriate adhesive film is selected according to the demand, the thickness of the fingerprint identification module is substantially identical to the predetermined thickness.

Abstract: A processing method for touch signals includes receiving at least one touch signal packet, wherein the at least one touch signal packet is generated in response to operations of at least one object on a touch device, performing a determination process according to at least one of the at least one touch signal packet and an application program being executed in a computer system, and providing at least one first packet to a first driver or providing at least one second packet to a second driver according to a determination result of the determination process, wherein when receiving the at least one first packet, the first driver generates a first command according to the at least one first packet, and when receiving the at least one second packet, the second driver generates a second command according to the at least one second packet.

Abstract: The method for identifying a gesture on a touch panel has steps of receiving position information of at least three touch objects; determining whether the position information of any one of the at least three touch objects has been changed; if the position information of any one of the at least three touch objects has been changed, calculating a first sum of distances between the at least three touch objects before moving, then calculating a second sum of distances between the at least three touch objects after moving, and calculating a variation between the first sum and the second sum; and determining whether the variation exceeds a default value, and if the variation exceeds a default value, a first gesture is identified. The first gesture is identified as a grab gesture or a spread gesture based on whether the variation is positive or negative.

Abstract: A touchpad is defined with two or more detect regions thereon, and each of the defined detect regions has a respective remiss threshold for identifying remiss touch. When any of the defined detect regions is touched, the touchpad compares the touch area of the detected touch with the remiss threshold of the touched detect region to identify whether the detected touch is a remiss touch or not. Preferably, the location, range and threshold setting of the detect region is user defined, so that a user may adjust the remiss setting for optimized prevention against remiss touch.

Abstract: An antenna circuit structure and an antenna structure are provided. The antenna structure includes an antenna circuit structure and a chip antenna. The antenna circuit structure includes a PCB and a feed-in point, an electrical point, a main circuit system and a matching circuit disposed on the PCB. Two electrical pins of the chip antenna are soldered in the feed-in point and the electrical point, respectively. The main circuit system is electrically connected to the feed-in point, and the matching circuit is electrically connected to the electrical point. Thus, the antenna structure can be easily calibrated to get preferable matching performance.

Abstract: The present invention provides an antenna structure. The antenna structure includes a main board, at least having a signal feeding portion; a bearing component, connected to the main board and at least having a protrusive portion; and an antenna, connected to the bearing component and at least having a pin portion, wherein the pin portion is disposed on the protrusive portion, and the signal feeding portion and the pin portion contact with each other.

Abstract: The present invention provides an antenna structure. The antenna structure includes a main board, at least having a signal feeding portion; a bearing component, connected to the main board and at least having a protrusive portion; and an antenna, connected to the bearing component and at least having a pin portion, wherein the pin portion is disposed on the protrusive portion, and the signal feeding portion and the pin portion contact with each other.