J. A. Hoffer scite author profile

We have developed a biomechanical energy harvester that generates electricity during human walking with little extra effort. Unlike conventional human-powered generators that use positive muscle work, our technology assists muscles in performing negative work, analogous to regenerative braking in hybrid cars, where energy normally dissipated during braking drives a generator instead. The energy harvester mounts at the knee and selectively engages power generation at the end of the swing phase, thus assisting deceleration of the joint. Test subjects walking with one device on each leg produced an average of 5 watts of electricity, which is about 10 times that of shoe-mounted devices. The cost of harvesting-the additional metabolic power required to produce 1 watt of electricity-is less than one-eighth of that for conventional human power generation. Producing substantial electricity with little extra effort makes this method well-suited for charging powered prosthetic limbs and other portable medical devices.

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Regulation of soleus muscle stiffness in premammillary cats: intrinsic and reflex components.

Hoffer¹,

Andreassen²

1981

Journal of Neurophysiology

526

127

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Chapter 7 Roles of muscle activity and load on the relationship between muscle spindle length and whole muscle length in the freely walking cat

et al. 1989

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J. A. Hoffer

Biomechanical Energy Harvesting: Generating Electricity During Walking with Minimal User Effort

Regulation of soleus muscle stiffness in premammillary cats: intrinsic and reflex components.

Chapter 7 Roles of muscle activity and load on the relationship between muscle spindle length and whole muscle length in the freely walking cat

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