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151	ELECTRONID TEXTILES BY PROGRAMMABLE OVERCOAT OF FUNCTIONAL MATERIALS Tae Hoo Chang (15307624) 17 April 2023 (has links) <p>Textiles have gained popularity in wearable products due to their potential for wearability, comfort, flexibility, breathability, and seamless fit to the human body. The growing demand for remote telehealth monitoring has led to advancements in the field of e-textiles. Various approaches, such as dip coating, screen printing, inkjet printing, and vapor deposition, are utilized to overcoat fabrics with active nanomaterials. However, practical deployment still faces challenges due to a lack of rapid prototyping for scalable and customizable e-textiles. To meet the requirements of large-scale batch production, high-resolution electrode line width, and long-term durability, new platform technologies have been established to convert existing textiles into multifunctional e-textiles. These studies have also revealed the process-structure-property relationships of various e-textiles.</p> <p>Chapter I overviews the recent results and current limitations of e-textiles in wearable sensing and display. Since people stay and work in various circumstances, continuous monitoring of physical, electrophysiological signals on skin in ambulatory manners is necessary to evaluate hazardous situation or chronicle symptoms. For these reasons, fabrication of smart e-textiles is crucial. In this chapter, various conductive materials, overcoating methods, and sensor structures for physical and electrophysiological sensors are reviewed. In addition, as a useful user communication tool with different sensor system, e-textile formats of displays are developed. The comprehensive e-textile displays from DC-driven to AC-driven are presented.</p> <p>Chapter II introduces a dual-regime spray technique that enables the direct writing of functional nanoparticles onto commercial 4-way stretchable textiles up to a meter scale with high-resolution mask-free patterning. The resulting e-textiles maintain the intrinsic properties of the fabric and can conform to various body shapes, enabling high-fidelity recording of physiological and electrophysiological signals under ambulatory conditions. Field tests have shown the potential of these e-textiles for minimally obtrusive remote telehealth monitoring of large animals.</p> <p>Chapter III presents an in-situ polymerization and patterning technique that utilizes the dual-regime spray method to synthesize conductive polymers directly onto commercial stretch textiles. The resulting e-textiles are utilized for strain sensors that conform closely to the human body, providing exceptional measurement accuracy and fidelity in capturing physical signals and motion detections.</p> <p>Conclusion section summarizes this dissertation with pointing out important results and discussions of each study. As an innovative additive manufacturing technology, dual-regime spray system, was established and developed to open new field in manufacture of e-textile. At last of this section, the potential research opportunities and perspectives are addressed. </p> Biomedical instrumentation Additive manufacturing Flexible manufacturing systems Functional materials Wearable materials electronic textile flexible electronics wearable devices dual regime spray functional materials
152	Produktdesign mot ohållbar fimpning : Hur kan produktdesign bidra till ett mer hållbart samhälle genom en wearable som uppmuntrar till goda fimp-praktiker? / Product Design Against Unsustainable Cigarette Littering : How Product Design Can Contribute to a More Sustainable Society Through a Wearable That Encourages Good Cigarette Butt Management? Hinderot-Flogin, Tindra January 2023 (has links) Projektet har utforskat hur produktdesign i form av en wearable kan bidra till en hållbar utveckling genom att uppmuntra till ordentligt avfallshantering av fimpar så att de inte hamnar löst i naturen. Studien grundar sig i designteorierna hållbar utveckling, design for sustainable behavior och nudging. Med hjälp av kvalitativ kontextutforskning såsom probes och observation har data samlats in och analyserats. Studien presenterar ett eget vald tillvägagångssätt utifrån teorin för att bäst besvara frågeställningen. Till följd har en idégenereringsprocess utformats och metoderna brainstorming, morfologisk matris och moodboard har utförts. Metoderna skiss och prototyp har finaliserat det valda konceptet, projektets slutdesign. Slutdesignen utgör även studiens designbidrag. Genom att göra slutkonceptet till en form av funktionell wearable i slitstarkt och utsmyckat material har produkten enligt användarna setts som en attraktiv sådan. Slutkonceptets attraktion är tänkt att synas, spridas vidare samt skapa en attraktion för korrekt avfallshantering av fimpar. / The project has explored how product design can contribute to sustainable development by providing an alternative to cigarette butt littering and instead encouraging correct waste disposal . The study is based on the design theories sustainable development, design for sustainable behavior and nudging. Using qualitative context exploration methods such as probes and observation, data has been collected and analyzed. The study presents a self-selected approach based on theory to best answer the research question. As a result, an idea generation process has been designed and a brainstorming, morphological chart and modboard was carried out. The methods sketch and prototype have finalized the selected concept, resulting in the project's final design. The final design also constitutes the study's design contribution. By making the final concept into a form of functional wearable in durable and embellished material, the product has been seen as attractive according to the users. The attraction of the final concept is meant to be seen, spread further and in turn act as an attraction for a sustainable behavior regarding cigarettebutts wastemanagement. product design design cigarette butts littering sustainability nudging design for sustainable behavior wearable Produktdesign design fimpar nedskräpning hållbar utveckling nudging wearable Design Design
153	The Effects of Wearable Fitness Devices on Pediatric Obesity: An Integrative Literature Review Sabina, Kevin 01 January 2018 (has links) Childhood obesity is a foremost concern throughout the health care community. Approximately 17.6% of the pediatric population meet the criteria for obesity, which can lead to health disparities later in life, such as hypertension, type 2 diabetes mellitus, and metabolic syndrome. Emerging mobile and wearable lifestyle tracking devices can be a viable solution to the challenging problem of childhood obesity through behavior changes, feasibility, and adherence. The purpose of this literature review was to determine the effect that mobile and wearable activity tracking devices have on the obese pediatric population. A centralized review of the literature was conducted using various data basesand resulted in 19 articles. 5 articles were chosen to review in more detail. 13 other articles were hand searched through credible resource citations, rendering 14 articles that met all criteria. The three general themes found in this literature review suggest that wearable activity tracking devices can be designed and effectively used by the pediatric population. Also, wearable activity tracking devices are accurate in conveying information on physical activity, calories, and heart rate. Lastly, wearable activity tracking devices can initiate behavioral changes in children leading to an increase in physical activity, resulting in the prevention and treatment of pediatric obesity.While in a majority of the studies analyzed trails were short. The research suggests wearable activity tracking devices will produce the desired results of increased activity in pediatric populations when they are worn correctly, are adequately engaging, and when they are designed in a feasible manner that is appealing to children. Childhood Adolescents Pediatric Wearable technology Wearable Trackers Activity Trackers Obesity Over weight Medicine and Health Sciences Nutritional and Metabolic Diseases Public Health Education and Promotion Sports Sciences
154	Flexible and Stretchable Biointerfacing for Healthcare Diagnostics Rajabi, Mina January 2019 (has links) Flexible and stretchable wearable biomedical devices provide a platform for continues long-term monitoring of biological signals during neutral body movements thus enabling early intervention and diagnostics of various diseases. This thesis evaluates novel flexible and stretchable bio interfacing medical devices based on microneedle patches and split ring resonator for healthcare diagnostics. Flexible and stretchable microneedle patches were realized by integrating a soft polymer substrate with sharp stainless steel microneedles. This was realized using a magnetic assembly technique. Investigations have shown that the flexible microneedle patch can provide conformal and reliable contact with wrinkles and deformations of the skin. In addition, transdermal monitoring of potassium ions using the proposed flexible microneedle patch have been demonstrated by coating the microneedles with a potassium sensing membrane. Ex-vivo test on the microneedle potassium sensor performed on chicken and porcine skin was able to detect change in potassium concentration in the skin. Furthermore, a novel flexible bio-interface spilt ring resonator (SRR) for the monitoring of intera cranial pressure (ICP) is demonstrated. The sensor was fabricated by depositing a 500 nm gold film on a thermoset thiolene epoxy polymer substrate. The flexible sensor was able to clearly detect the pressure variation that might be an indication of increased ICP in the skull. The proposed methodology of heterogeneous integration of hard materials on a soft and flexible substrate demonstrates a first proof of concept of flexible wearable bio-interfacing devices with vastly different material properties with the potential for continuous and real-time health monitoring. / <p>QC 20190306</p> Wearable biointerfacing sensor wearable microneedles device health and fitness monitoring minimally invasive ICP monitoring bioelectronics Engineering and Technology Teknik och teknologier
155	Assessing the utility of wearable cameras in the measurement of walking and cycling Kelly, Paul January 2013 (has links) Walking and cycling are considered very important behaviours in public health. This thesis is a study of the measurement of walking, cycling and overall travel behaviour. In the first part I present a systematic review of studies comparing Global Positioning System (GPS) measured travel to self-report. I found 12 results from eight eligible studies. All studies showed self-reported journey times were greater than GPS measured times. The differences ranged from over-reporting of +2.2 to +13.5 minutes per journey. In the second part of this thesis, I describe the development of a feasible, valid and reliable method for measuring travel with automated wearable cameras (SenseCam) through field testing and two pilot studies. I compared my new method to direct observation (considered a criterion measure) and found very good agreement and reliability (inter-rater, intra-rater and inter-measure). I also present an ethical framework for the measurement of health-related behaviours using automated wearable cameras. In the third part of the thesis, I report findings from an experiment designed to assess a well known UK travel diary (The National Travel Survey). Across four locations (Oxford, UK; Romford, UK; San Diego, USA; and Auckland, New Zealand) I collected 3-4 days of SenseCam and travel diary data from n=84 participants (convenience sample). Compliance with the collection protocol was high and inspection of the crude results suggests relative agreement between measures. Analysis of matched pairs of measurements (n=1,127 journeys) suggests a significant positive bias on self-reported durations (2:08 minutes; 95% CI = 1:48 to 2:28; 95% limits-of-agreement = -9:10 to 13:26). These results suggest self-reported journey exposure is valid at a population level, though corrections according to my reported bias could be considered. The large limits of agreement on duration estimates suggest self-report may be unsuitable for assessment of individual travel behaviour. 613.71
156	Italian polka Yeh, Chin-Hua 23 October 2014 (has links) Italian Polka is an experiment that builds a bridge between Music and the field of Costume Design. It explores the new relationship of integration and artistic possibility between Music, Costume Design, Dance, and Digital Art. This is also an attempt to participate in a new form of performing art: a combination of a live concert and a costume show. / text Interactive MIDI Programming music visualization
157	Exploring In-Home Monitoring of Rehabilitation and Creating an Authoring Tool for Physical Therapists Huang, Kevin 01 December 2015 (has links) Physiotherapy is a key part of treatment for neurological and musculoskeletal disorders, which affect millions in the U.S. each year. Physical therapy treatments typically consist of an initial diagnostic session during which patients’ impairments are assessed and exercises are prescribed to improve the impaired functions. As part of the treatment program, exercises are often assigned to be performed at home daily. Patients return to the clinic weekly or biweekly for check-up visits during which the physical therapist reassesses their condition and makes further treatment decisions, including readjusting the exercise prescriptions. Most physical therapists work in clinics or hospitals. When patients perform their exercises at home, physical therapists cannot supervise them and lack quantitative exercise data reflecting the patients’ exercise compliance and performance. Without this information, it is difficult for physical therapists to make informed decisions or treatment adjustments. To make informed decisions, physical therapists need to know how often patients exercise, the duration and/or repetitions of each session, exercise metrics such as the average velocities and ranges of motion for each exercise, patients’ symptom levels (e.g. pain or dizziness) before and after exercise, and what mistakes patients make. In this thesis, I evaluate and work towards a solution to this problem. The growing ubiquity of mobile and wearable technology makes possible the development of “virtual rehabilitation assistants.” Using motion sensors such as accelerometers and gyroscopes that are embedded in a wearable device, the “assistant” can mediate between patients at home and physical therapists in the clinic. Its functions are to:  use motion sensors to record home exercise metrics for compliance and performance and report these metrics to physical therapists in real-time or periodically;  allow physical therapists and patients to quantify and see progress on a fine-grain level;  record symptom levels to further help physical therapists gauge the effectiveness of exercise prescriptions;  offer real-time mistake recognition and feedback to the patients during exercises; One contribution of this thesis is an evaluation of the feasibility of this idea in real home settings. Because there has been little research on wearable virtual assistants in patient homes, there are many unanswered questions regarding their use and usefulness: Q1. What patient in-home data could wearable virtual assistants gather to support physical therapy treatments? Q2. Can patient data gathered by virtual assistants be useful to physical therapists? 3 Q3. How is this wearable in-home technology received by patients? I sought to answer these questions by implementing and deploying a prototype called “SenseCap.” SenseCap is a small mobile device worn on a ball cap that monitors patients’ exercise movements and queries them about their symptoms. A technology probe study showed that the virtual assistant could gather important compliance, performance, and symptom data to assist physical therapists’ decision-making, and that this technology would be feasible and acceptable for in-home use by patients. Another contribution of this thesis is the development of a tool to allow physical therapists to create and customize virtual assistants. With current technology, virtual assistants require engineering and programming efforts to design, implement, configure and deploy them. Because most physical therapists do not have access to an engineering team they and their patients would be unable to benefit from this technology. With the goal of making virtual assistants accessible to any physical therapist, I explored the following research questions: Q4. Would a user-friendly rule-specification interface make it easy for physical therapists to specify correct and incorrect exercise movements directly to a computer? What are the limitations of this method of specifying exercise rules? Q5. Is it possible to create a CAD-type authoring tool, based on a usable interface, that physical therapists could use to create their own customized virtual assistant for monitoring and coaching patients? What are the implementation details of such a system and the resulting virtual assistant? Q6. What preferences do PTs have regarding the delivery of coaching feedback for patients? Q7. What is the recognition accuracy of a virtual rehabilitation assistant created by this tool? This dissertation research aims to improve our understanding of the barriers to rehabilitation that occur because of the invisibility of home exercise behavior, to lower these barriers by making it possible for patients to use a widely-available and easily-used wearable device that coaches and monitors them while they perform their exercises, and improve the ability of physical therapists to create an exercise regime for their patients and to learn what patients have done to perform these exercises. In doing so, treatment should be better suited to each patient and more successful. Motion sensing exercise monitoring IMUs wearable computing physical therapy health technologies
158	The Efficacy of Biofeedback and Its Use Towards ADHD Bieganski, Darius Witold 01 January 2017 (has links) Attention deficit hyperactivity disorder (ADHD) is a psychopathology commonly characterized by general inattentiveness and/or a lack of impulse control resulting in hyperactive tendencies. ADHD is estimated to cost the United States roughly $266 billion every year. ADHD is currently treated via medications, cognitive behavioral therapy, or more recently, neurofeedback. Neurofeedback – and biofeedback in general – is the process of providing a patient with information about autonomic bodily functions so that they may control said autonomic function. In the case of ADHD, neurofeedback focuses on reinforcing the behaviors and sensations associated with attentiveness. Currently however, neurofeedback systems are large and require a patient to travel to a clinic. Furthermore, the current offering of portable neuro/biofeedback devices do not have the technological capabilities to provide effective neurofeedback therapy. Current wearable tech devices – such as the Apple Watch and Samsung Gear – possess the technological capabilities to measure important bodily functions, and provide appropriate biofeedback therapy while remaining discrete and most importantly, portable. Biofeedback ADHD Neurofeedback Wearable Tech Alternative and Complementary Medicine Other Medicine and Health Sciences Social and Behavioral Sciences
159	Development of a compact, low-cost wireless device for biopotential acquisition Kelly, Graham 01 January 2014 (has links) A low-cost circuit board design is presented, which in one embodiment is smaller than a credit card, for biopotential (EMG, ECG, or EEG) data acquisition, with a focus on EEG for brain-computer interface applications. The device combines signal conditioning, low-noise and high-resolution analog-to-digital conversion of biopotentials, user motion detection via accelerometer and gyroscope, user-programmable digital pre-processing, and data transmission via Bluetooth communications. The full development of the device to date is presented, spanning three embodiments. The device is presented both as a functional data acquisition system and as a template for further development based on its publicly-available schematics and computer-aided design (CAD) files. The design will be made available at the GitHub repository https://github.com/kellygs/eeg. EEG wireless device biopotential ECG EKG EOG EMG wearable
160	Factors Influencing the purchase intention of Smart wearable technology Nkonko, Evelyne Kasongo January 2017 (has links) A Research Report Submitted to the Faculty of Commerce, Law and Management, Witwatersrand University School of Economics and Business Sciences, In partial fulfilment of the requirements of a Master Degree in Marketing, May 2017 / The consumer market of Smart wearable technology has shown a massive growth, therefore convincing that Smart wearable technology will be the next great thing, with market analysts forecasting its market to be worth over $30 billion by 2020. However this belief is mainly driven by major new technology manufacturers to produce Smart wearable devices that commoditise cellphones, tablets, and portable computers to influence consumer purchase intention. Consumers purchase intention is crucial for every business survival, therefore cannot be overemphasised. With the increasing number of Smart wearable technology brands on the electronics market, South African consumers have to make a choice on which brands to purchase. This study examines the factors influencing the purchase intention of Smart wearable technology in South Africa, with a special focus on product quality, design, price, and consumer attitude. From the academic side, the study makes a significant contribution by exploring the impact of product price and consumer attitude on consumer purchase intention. As a result, manufacturers in the wearable technology industry may apply this study information to develop proper strategies that will help influence more people to purchase wearable devices and ensure Smart wearable technology market growth. The study data were collected through the aid of a self-administered hardcopy questionnaire, which was circulated by the researcher in the University of the Witwatersrand Johannesburg. The research findings show that both consumer attitude and product price have a significant positive effect on the intention to purchase Smart wearable devices. Nevertheless, to be more precise, the effect of consumer’s attitude on purchase intention goes through the positive effect of a product design on consumer’s attitude. Both product quality and price are found to extend the effect of positivity of consumer’s attitude toward the product or brand, and the price tag of the product. These scenarios are fully supported in hypotheses one, two, and three. Although both quality and design positively influence product price, Product design is found to have an enlarging effect on product price. Generally, it can be stated that the design of a product successfully influence the price set for product. / XL2018 Consumers' preferences--South Africa Marketing--South Africa Wearable technology Smart materials

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