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Social and Behavioral Sciences Commons™
Open Access. Powered by Scholars. Published by Universities.®
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- Body sensor networks (1)
- Cryptographic primitives (1)
- Data privacy (1)
- Electromyography (1)
- Energy capability (1)
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- Energy resources (1)
- Exercise science (1)
- Generation algorithm (1)
- Medical computing (1)
- Muscle (1)
- Muscle activities (1)
- Network security (1)
- Privacy enhancing technologies (1)
- Random number generation (1)
- Resistance training (1)
- Security protocols (1)
- Sensor nodes (1)
- Sketetal muscle (1)
- Surface electromyography signals (1)
- Wearable sensors (1)
- Wireless body sensor networks (1)
Articles 1 - 2 of 2
Full-Text Articles in Social and Behavioral Sciences
Enhanced Skeletal Muscle Ribosome Biogenesis, Yet Attenuated Mtorc1 And Ribosome Biogenesis-Related Signalling, Following Short-Term Concurrent Versus Single-Mode Resistance Training, Jackson J. Fyfe, David J. Bishop, Jonathan D. Bartlett, Erik D. Hanson, Mitchell J. Anderson, Andrew P. Garnham, Nigel K. Stepto
Enhanced Skeletal Muscle Ribosome Biogenesis, Yet Attenuated Mtorc1 And Ribosome Biogenesis-Related Signalling, Following Short-Term Concurrent Versus Single-Mode Resistance Training, Jackson J. Fyfe, David J. Bishop, Jonathan D. Bartlett, Erik D. Hanson, Mitchell J. Anderson, Andrew P. Garnham, Nigel K. Stepto
Research outputs 2014 to 2021
Combining endurance training with resistance training (RT) may attenuate skeletal muscle hypertrophic adaptation versus RT alone; however, the underlying mechanisms are unclear. We investigated changes in markers of ribosome biogenesis, a process linked with skeletal muscle hypertrophy, following concurrent training versus RT alone. Twenty-three males underwent eight weeks of RT, either performed alone (RT group, n = 8), or combined with either high-intensity interval training (HIT+RT group, n = 8), or moderate-intensity continuous training (MICT+RT group, n = 7). Muscle samples (vastus lateralis) were obtained before training, and immediately before, 1 h and 3 h after the final training session. …
Muscle Activity-Driven Green-Oriented Random Number Generation Mechanism To Secure Wbsn Wearable Device Communications, Yuanlong Cao, Guanghe Zhang, Fanghua Liu, Ilsun You, Guanglou Zheng, Oluwarotimi W. Samuel, Shixiong Chen
Muscle Activity-Driven Green-Oriented Random Number Generation Mechanism To Secure Wbsn Wearable Device Communications, Yuanlong Cao, Guanghe Zhang, Fanghua Liu, Ilsun You, Guanglou Zheng, Oluwarotimi W. Samuel, Shixiong Chen
Research outputs 2014 to 2021
Wireless body sensor networks (WBSNs) mostly consist of low-cost sensor nodes and implanted devices which generally have extremely limited capability of computations and energy capabilities. Hence, traditional security protocols and privacy enhancing technologies are not applicable to the WBSNs since their computations and cryptographic primitives are normally exceedingly complicated. Nowadays, mobile wearable and wireless muscle-computer interfaces have been integrated with the WBSN sensors for various applications such as rehabilitation, sports, entertainment, and healthcare. In this paper, we propose MGRNG, a novel muscle activity-driven green-oriented random number generation mechanism which uses the human muscle activity as green energy resource to generate …