Patent application number | Description | Published |
20120147153 | DISPLAY APPARATUS AND METHOD FOR REAL-TIME RADIATION PATTERN VISUALIZATION - A display apparatus for real-time radiation pattern visualization comprises a positioning module, a radiation pattern measuring module and an image processing module. The positioning module is used to measure a distance of an object from the positioning module and locate the orientation of the object. The radiation pattern measuring module is used to receive radiation of the object. The image processing module is coupled with the positioning module and the radiation pattern measuring module, and processes the radiation to generate a stereoscopic radiation pattern signal. According to the distance and orientation of the object, the stereoscopic radiation pattern signal is displayed in the display interface for engineers in the workplace to estimate the calibration of the real-time radiation pattern. | 06-14-2012 |
20130209978 | REHABILITATION COACHING METHOD AND REHABILITATION COACHING SYSTEM - A rehabilitation coaching method and a rehabilitation coaching system are provided. The method includes setting an exercise rhythm according to personalized exercise rhythm data for the user, and outputting the exercise rhythm to coach the user to do a rehabilitation exercise. The method also includes obtaining a total oxygen consumption rate according to the profile of the user, the time of doing the rehabilitation exercise and the exercise rhythm, and obtaining an exercise intensity according to the resting heart rate of the user and an average heart rate of the user during the rehabilitation exercise. The method further includes obtaining a recommended exercise rhythm according to the exercise intensity and the total oxygen consumption rate, and updating the personalized exercise rhythm data for the user according to the recommended exercise rhythm. | 08-15-2013 |
20140073383 | METHOD AND SYSTEM FOR MOTION COMPARISON - A method and a system for motion comparison, especially for functions of a multimode motion streaming comparison, are provided. The method includes: obtaining a streaming motion and nodes of a user according to images of the user; providing a streaming motion and nodes of a virtual coach; calculating relation values between coordinates of the nodes of the user and those of the virtual coach according to a streaming node comparison algorithm; obtaining weights via a weighting vector according to parts of body, exercise types and time information; generating a comparison result according to a result of the weights respectively multiplying the relation values; mapping the comparison result to a similarity value. Therefore, a continuous motion compliance of individual trained parts of body of the user is improved, and the correctness for the user to fathom postures is improved effectively. | 03-13-2014 |
20150098625 | SYSTEM AND METHOD OF MULTI-USER COACHING INSIDE A TUNABLE MOTION-SENSING RANGE - A system and a method of multi-user coaching are introduced herein. Motion-sensing cameras are applied to capture images, and a depth image stitching module is applied to perform a depth image stitching process on the captured images to expand the motion-sensing range, so as to establish a virtual environment for multi-user coaching. Each user can be coached individually by a one-to-multiple approach to improve his or her motions. By using the system and the method of multi-user coaching, that is, the system can only calculates on motion similarities of the users, and instructions are fed back to each user. Therefore, the system and the method described herein can be extensively applied to various products, such as a virtual gymnasium, a virtual aerobics classroom, a virtual Budokan, and so on. | 04-09-2015 |
20150194074 | CARDIOPULMONARY RESUSCITATION TEACHING SYSTEM AND METHOD - According to an embodiment, a CPR teaching system comprises an input device having an image input unit, a hardware processor having an image processing unit and a guidance unit, and an output device, wherein the image input unit captures images and generates a plurality of state image signals; the image processing unit processes state image signals to obtain posture signals and combines the posture signals to generate a trajectory signal; the guidance unit analyzes the trajectory signal to obtain dynamic posture parameters and compares successive dynamic posture parameters to obtain an effectiveness signal, and based on the effectiveness signal to generate at least one feedback instruction; and the output device outputs the feedback instruction, thereby, guiding the user correctly perform CPR. | 07-09-2015 |
20160073963 | EXERCISE PHYSIOLOGICAL SENSING SYSTEM, MOTION ARTIFACT SUPPRESSION PROCESSING METHOD AND DEVICE - An exercise physiological sensing system, a motion artifact suppression processing method and a motion artifact suppression processing device for obtaining a stable exercise heart rate signal of a user during exercise are provided. The exercise physiological sensing system includes a bone conduction object, a signal-to-noise ratio analysis module, and a computation module. The bone conduction object has a physiological sensor. The physiological sensor detects a physiological signal of otic bones of the user. The signal-to-noise ratio analysis module is coupled to the physiological sensor and detects a stability of the physiological signal of the otic bones. The computation module is coupled to the signal-to-noise ratio analysis module and generates the stable exercise heart rate signal according to the physiological signal of the otic bones. Accordingly, the exercise physiological sensing system can effectively improve the detected stability of an exercise physiological signal. | 03-17-2016 |
20160073966 | EXERCISE PHYSIOLOGICAL SENSING SYSTEM, MOTION ARTIFACT SUPPRESSION PROCESSING METHOD AND DEVICE - An exercise physiological sensing system, a motion artifact suppression processing method and a motion artifact suppression processing device for obtaining a stable exercise heart rate signal of a user during exercise are provided. The exercise physiological sensing system includes a bone conduction body, a signal-to-noise ratio analysis module, and a computation module. The bone conduction body has a physiological sensor. The physiological sensor detects a physiological signal from a detected area of the user. The signal-to-noise ratio analysis module is coupled to the physiological sensor and detects a quality stability of the physiological signal. The computation module is coupled to the signal-to-noise ratio analysis module and generates the stable exercise heart rate signal according to the physiological signal. Accordingly, the exercise physiological sensing system can effectively improve the stability of the detected physiological signal during exercise. | 03-17-2016 |