How Much Energy Can We Harvest Daily for Wearable Applications?
Emerging flexible and stretchable devices open up novel and attractive applications beyond traditional rigid wearable devices. Since the small and flexible form-factor severely limits the battery capacity, energy harvesting (EH) stands out as a critical enabler of new devices. Despite increasing int...
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| Vydáno v: | 2021 IEEE/ACM International Symposium on Low Power Electronics and Design (ISLPED) s. 1 - 6 |
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IEEE
26.07.2021
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| Abstract | Emerging flexible and stretchable devices open up novel and attractive applications beyond traditional rigid wearable devices. Since the small and flexible form-factor severely limits the battery capacity, energy harvesting (EH) stands out as a critical enabler of new devices. Despite increasing interest in recent years, the capacity of wearable energy harvesting remains unknown. Prior work analyzes the power generated by a single and typically rigid transducer. This choice limits the EH potential and undermines physical flexibility. Moreover, current results do not translate to total harvested energy over a given period, which is crucial from a developer perspective. In contrast, this paper explores the daily energy harvesting potential of combining flexible light and motion energy harvesters. It first presents a multi-modal energy harvesting system design whose inputs are flexible photo-voltaic cells and piezoelectric patches. We measure the generated power under various light intensity and gait speeds. Finally, we construct daily energy harvesting patterns of 9593 users by integrating our measurements with the activity data from the American Time Use Survey. Our results show that the proposed system can harvest on average 0. 6mAh @ 3. 6V per day. |
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| AbstractList | Emerging flexible and stretchable devices open up novel and attractive applications beyond traditional rigid wearable devices. Since the small and flexible form-factor severely limits the battery capacity, energy harvesting (EH) stands out as a critical enabler of new devices. Despite increasing interest in recent years, the capacity of wearable energy harvesting remains unknown. Prior work analyzes the power generated by a single and typically rigid transducer. This choice limits the EH potential and undermines physical flexibility. Moreover, current results do not translate to total harvested energy over a given period, which is crucial from a developer perspective. In contrast, this paper explores the daily energy harvesting potential of combining flexible light and motion energy harvesters. It first presents a multi-modal energy harvesting system design whose inputs are flexible photo-voltaic cells and piezoelectric patches. We measure the generated power under various light intensity and gait speeds. Finally, we construct daily energy harvesting patterns of 9593 users by integrating our measurements with the activity data from the American Time Use Survey. Our results show that the proposed system can harvest on average 0. 6mAh @ 3. 6V per day. |
| Author | Basaklar, Toygun Tuncel, Yigit Ogras, Umit |
| Author_xml | – sequence: 1 givenname: Yigit surname: Tuncel fullname: Tuncel, Yigit email: tuncel@wisc.edu organization: University of Wisconsin-Madison,Department of ECE,Madison,WI – sequence: 2 givenname: Toygun surname: Basaklar fullname: Basaklar, Toygun email: basaklar@wisc.edu organization: University of Wisconsin-Madison,Department of ECE,Madison,WI – sequence: 3 givenname: Umit surname: Ogras fullname: Ogras, Umit email: uogras@wisc.edu organization: University of Wisconsin-Madison,Department of ECE,Madison,WI |
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| Snippet | Emerging flexible and stretchable devices open up novel and attractive applications beyond traditional rigid wearable devices. Since the small and flexible... |
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| SubjectTerms | Batteries Energy harvesting Energy measurement Power measurement Time measurement Transducers Wearable computers |
| Title | How Much Energy Can We Harvest Daily for Wearable Applications? |
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