3 research outputs found

    Chromozone: aplikasi pemantau kadar nadi sistem ios semasa senaman menggunakan sistem kod warna universal (Chromozone: iOS-based exercise heart rate application using universal colour-coding system) / Adam Linoby …[et al.]

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    The conventional heart rate monitor is usually developed with a numeric digital display. This numerical view is obviously not practical to be used during exercise. In this study, the iOS-based mobile application, called Chromozone, was developed to monitor heart rate using the universal colorcoding system. The heart rate monitor during the exercise is designed to notify the exercise intensity information to users using the three universal color-coded (i.e. green zone: optimal heart rate; yellow zone: heart rate lower than the optimal zone, and red zone: heart rate higher than the optimal zone). Chromozone is programmed to display uniform colors across the smart phone display, which allows users to easily be informed in regards to the state of exercise intensity. The transfer of heart rate data from the chest transmitter to Chromozone application is designed to use Bluetooth Low Energy (BLE) system technology. The heart rate data is then processed by the application to determine the intensity range of exercise training heart rate based on the user’s personal input (i.e. age, gender, fitness levels and training objective). Preliminary analysis found that Chromozone application is effective in delivering real-time exercise intensity heart rate. Chromozone could potentially help athletes, active individuals and clinical populations to monitor and regulate their workout training regime in a more effective and safer manner

    Jurulatih senaman maya berasaskan teknologi sensor dan aplikasi pintar interaktif (Virtual exercise trainer using sensor-based and interactive smartphone application technology) / Adam Linoby …[et al.]

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    The use of electronic monitoring instruments in conventional exercise training equipments has had a positive influence on user interest level, subsequently increasing the overall exercise experience and performance. Accordingly, the most beneficial results of any exercise are obtained when an individual is given a specific, easily understandable performance target, is informed of the exercise progress, and is given verbal motivation, coaching, encouragement, and instruction. However, conventional electronic monitoring instruments do not serve to directly motivate or coach the individual to complete an exercise program. Moreover, such a device is of limited use in non-cardiovascular, strength training exercise equipment (e.g free weights and isometric exercises). The present invention responds to this problem by providing a smart motion sensor magnetically retrofittable into exercise apparatus such as a dumbbell, or as part of a piece of exercise equipment, such as a metal handle of exercise equipment that undergoes reciprocal movement. This sensor will continuously transmit a signal to an application in user’s smart device, which then correspondingly generated guided instructional, interactive feedback as well as motivational visual and audio output with respect to various physical exercise a user might undertake. The development of such a practical 2 exercise system would certainly help the active individual, clinical population, athletes, aging and sedentary population to implement a more effective, interactive and safer exercise training regime
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