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An elastically-suspended backpack offers biomechanical benefits by reducing peak interaction force, joint loads and chances of potential injuries as shown in previous studies. But whether it will reduce metabolic cost of the carrier (compared with the stiffly-attached pack) depends on the relation between the natural frequency of the suspension and walking frequency. Yet, no quantitative method can...
A biomechanical energy harvesting backpack that generates electricity during human walking is presented. By recognizing the out-of-phase motion between two limbs, this energy harvesting technology differs from previous designs in a way that it integrates the motion from both of the user's lower limbs into a single mechanical drive train and generator. A prototype was developed and experimental results...
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