Assessment of Power Generation, Dynamic Interaction and Human Comfort of a Suspended Energy Harvesting Backpack

Mi, Jia

11 May 2022

M.S. / Electronics, wearable devices are important in nowadays informationalized lifestyle. One prominent problem with those electronic devices is that almost all of them depend on batteries as power sources, which has become a bottleneck due to the limited life span. Constantly replacing or recharging batteries is inconvenient, burdensome, and sometimes even impossible. This problem is more intractable when the power cannot be accessed conveniently (such as during fieldwork, hiking, and military missions). What’s more, no matter how much energy the battery stores, it will drain eventually. In addition, large battery will add extra weight and occupy space. Substitute power supply that conquer these aforementioned dilemmas are thus highly desirable. Energy harvesting by its nature could be an inexhaustible replacement for batteries. This insight inspires so many energy harvesting researchers tirelessly working and trying to make it happen. Suspended backpack is an effective way to harvest energy from human motions.This study evaluates different energy harvesting backpack configurations and comprehensively assessed the power generation, dynamic interaction and human comfort. Dynamic modelling considering the dynamic interaction between human body and backpack is established to optimize the design. Bench tests and treadmill tests are carried out to evaluate the real performance. Experimental results show that the harvesting energy from human motion via a suspended energy-harvesting backpack could incessantly generate considerable electricity applicable for charging carry-on electronic devices. The potential application scenarios of this technology include solders, field-workers as well as outdoor adventure.

Energy Harvesting

Suspended Backpack

Treadmill Experiment

Dynamic Interaction

Ground Reaction Force

Human Comfort

The Influence of Receiving Real-Time Visual Feedback on Breathing during Treadmill Running to Exhaustion

Passafiume, Joseph Andrew

January 2019

No description available.

Mechanical Engineering

Running

Breathing

Visual Feedback

Breathing pattern

Efficient Breathing

Treadmill Running

Exhaustion

Run to exhaustion

Incorporating Excess Post-exercise Oxygen Consumption into Accelerometer Energy Expenditure Estimation Algorithms

Remillard, Nicholas

28 October 2022

Accelerometers are objective monitors of physical activity (PA) that can be used to estimate energy expenditure (EE). Most accelerometer EE estimation equations are based on steady-state data and do not consider excess post-exercise oxygen consumption (EPOC) after exercise. PURPOSE: To quantify the error in accelerometer EE estimates due to EPOC after varying durations of high-intensity treadmill running. METHODS: Nine young, healthy, recreationally active males participated in three study visits. Visit 1 included a treadmill VO2 peak test to determine the treadmill speed correlating to 80% VO2 peak for visits 2 and 3. Visit 2 included a seated 20-min baseline and three short (30s, 60s, 120s) vigorous treadmill running bouts each followed by 20 minutes of seated rest. Visit 3 included a supine 60-min baseline and a 30-min treadmill running bout followed by 3 hours of supine rest. Twelve EE estimation equations each using either a non-dominant wrist or right hip ActiGraph GT3X+ accelerometer were compared to the true EE measured by the Parvomedics TrueOne 2400 indirect calorimeter. RESULTS: The Freedson 1998 EE estimation equation overestimated EE during the 20min post-exercise period after each exercise bout (mean kCals [95% CIs]; 30s: 19.3 [11.4, 27.2], 60s: 16.6 [8.5, 24.7], 120s: 13.4 [5.74, 21.1], 30min: 15.1 [6.69, 23.5]). The Crouter 2009 branching algorithm underestimated EE during the 20min post-exercise period after each exercise bout (mean kCals [95% CIs]; 30s: -8.59 [-10.6, -6.62], 60s: -11.6 [-13.7, -9.38], 120s: -15.0 [-18.1, -11.8], 30min: -11.0 [-14.3, -7.77]), but was partially corrected by adding in the measured EPOC. CONCLUSION: Estimated EE during lying or seated rest from linear accelerometer equations was heavily dependent on the y-intercept of the equation, which represents the estimated resting EE of the wearer, with the Crouter calibration study being the only one to directly measure resting EE. More sophisticated approaches, like the Crouter 2009 and newer machine learning algorithms, have better potential to more accurately estimate EE across various activity types. New accelerometer EE estimations should include resting in their calibration protocols in order to more accurately estimate EE during rest.

accelerometer

energy expenditure

treadmill

EPOC

metabolic cart

post-exercise

Exercise Science

Validation of VO2max Assessment and Magnetic Resonance Cardiac Function Measurements Utilizing an MRI Compatible Treadmill

LaFountain, Richard A.

14 October 2014

No description available.

Kinesiology

VO2max

Cardiac Magnetic Resonance

CMR

Exercise

Treadmill

Magnetic Resonance Imaging

MRI

Cardiopulmonary Exercise Testing For People With Multiple Sclerosis: A Review, And A Pilot Study Of Healthy Males

Feasel, Corey D.

24 July 2018

No description available.

Biomedical Research

Cardiopulmonary Exercise Testing

Multiple Sclerosis

Exercise

Multiple Sclerosis

CPET

Treadmill Exercise

Locomotor Training: The effects of treadmill speed and body weight support on lower extremity joint kinematics and kinetics

Lathrop, Rebecca Leeann

16 September 2009

No description available.

Mechanical Engineering

gait analysis

treadmill training

body weight support

spinal cord injury

joint kinematics

joint kinetics

The Effect of Bodyweight Support on Stride Frequency Self-Optimization Capacity in Female Novice Runners

Park, Joshua M.

16 September 2022

No description available.

Biomechanics

Physiology

Running

Stride Frequency Optimization

Running Economy

Novice Runners

Lower Body Positive Pressure Treadmill

AN INTERDISCIPLINARY FRAMEWORK TO EXPLAIN ECOLOGICAL CRIME : A CASE STUDY OF THE BP DEEPWATER HORIZON OIL SPILL

Otero, Natasha

January 2022

Our drive to achieve economic development and growth is driving our planet to an unprecedented level of ecological destruction. The structural forces of capitalism together with a culture of consumerism is pushing the environment to its limits causing climate change, pollution and threatening the wellbeing of humanity and the ecosystem. This thesis seeks to reach a better understanding of harms and crimes committed against the eco-system. This will be achieved by applying a theoretical framework that incorporates criminology theories and theories from other disciplines on the famous case of BP Deepwater Horizon Oil Spill in the Gulf of Mexico. The paper shows that it is necessary to explore theories outside of traditional criminology to demonstrate how the root cause of environmental crime is inherently linked to capitalism.

Social Sciences

Samhällsvetenskap

Le tapis roulant à échelle comme nouvel outil d'étude de la locomotion, chez les rats intacts et suite à une lésion corticale.

Perraud, Blanche

01 1900

No description available.

lésion corticale

cortex moteur

locomotion de précision

tapis roulant à échelle

cinématique

tapis roulant

contrôle moteur

patte postérieure

cortical lesion,

motor cortex

ladder treadmill

flat treadmill

kinematics

precision walking

motor control

hindlimb

Assessing locomotion in cats trained on a flat treadmill and on a ladder treadmill before and after spinal cord injury (SCI)

Escalona Castillo, Manuel Jose

09 1900

Les effets des lésions de la moelle épinière sur la locomotion sont souvent évalués sur un tapis roulant avec une surface plane, ce qui demande peu d’implication active des structures supraspinales. L’objectif du présent travail est d’évaluer si un type d’entraînement nécessitant une plus grande part de contrôle volontaire (c.-à-d. supraspinal) pourrait améliorer la récupération de la marche chez le chat après une hémilésion unilatérale spinale au niveau thoracique (T10). Pour ce faire, pendant 6 semaines les chats ont été entrainés sur un tapis roulant conventionnel ou sur un tapis-échelle roulante, tâche requérant un placement des pattes plus précis. Les paramètres de la marche ont été évalués par cinématique et électromyographie (EMG) avant et une fois par semaine pendant 6 semaines après lésion. Nos résultats comparant la marche sur tapis conventionnel à celle sur échelle roulante montrent des différences dans les excursions angulaires et les couplages entre les membres. On observe aussi des différences dans l’amplitude des EMG notamment une augmentation de la deuxième bouffée du muscle Semitendineux (St) sur l’échelle roulante. Après l’hémilésion spinale cette bouffée disparait du côté de la lésion tandis qu’elle est maintenue du côté intact. Après l’entrainement sur échelle roulante, on observe des changements de trajectoire de la patte et une disparition du pied tombant (foot drag) qui suggèrent une amélioration du contrôle de la musculature distale. Nos résultats montrent que le patron locomoteur observé sur tapis conventionnel est influencé par le type d’entraînement procuré. De plus, certains paramètres de la locomotion suggèrent que l’entraînement sur échelle roulante, qui requiert plus de contrôle supraspinal, favorise une meilleure récupération de la marche après lésion spinale. / The effects of spinal cord lesions on locomotion in animals is often assessed on a flat surface which requires minimal supraspinal demands. Here we investigated whether locomotor training requiring more voluntary commands could improve recovery in cats after a unilateral hemisection on the left side (Thoracic 10). Cats were trained for 6 weeks on a conventional flat treadmill (FTM) or on a ‘ladder treadmill’ (LTM) requiring precise foot positioning. Locomotor parameters such as kinematics and electromyographic activity (EMG) were evaluated before and once a week for 6 weeks after spinal hemisection. There were differences in angular excursions and limb couplings when comparing walking on FTM and LTM and important changes occurred in the amplitude of EMGs such as an increased second burst in Semitendinosus (St) during LTM stepping. After the left hemisection, this burst disappeared on the left side while it was maintained on the right (non lesioned) side. With LTM training, we observed changes in limb trajectories and disappearance of foot drag of the left foot during FTM stepping suggesting a better control of distal musculature. Our results show that locomotor patterns observed during FTM stepping are influenced by different training modalities and also that training on the LTM after a spinal hemisection, demanding more supraspinal control, leads to a better stepping pattern.

Locomotor training

Supraspinal inputs

Spinal hemisection

Ladder treadmill

Flat treadmill

Kinematics

Electromyography

Entraînement locomoteur

Inputs supraspinal

Hémilésion spinale

Échelle roulante

Tapis roulant

Cinématique

Électromyographie