Sökning: "Wearable Device"

Visar resultat 1 - 5 av 78 uppsatser innehållade orden Wearable Device.

1. 1. Comparative Analysis of In-Body to Out-Body Wireless CommunicationModules: Test Design and PerformanceEvaluation

   Master-uppsats, Högskolan i Halmstad/Akademin för informationsteknologi

   Författare :Remya Sree Rema Bhai; Sisymol Stellus; [2024]
   Nyckelord :In-Body to Off-Body Communication; prototype; test-design; test protocol; medical device; wireless communication.;

   Sammanfattning : Wireless communication for biomedical equipment is rapidly improving with the invention of new technologies. Due to the absence of cables, wireless technology is a growing area of interest for biomedical applications. As technology advances, many gadgets are becoming smaller and more portable. LÄS MER

3. 2. Exploring a Wearable Technology for Enhanced Learning : - a design concept

   Kandidat-uppsats, Linköpings universitet/Institutionen för datavetenskap

   Författare :Linus Thofte; [2024]
   Nyckelord :Exoskeleton; Haptics; Smart Glove; UX; Interaction Design; Embodied Music Cognition; Human-Machine Cooperation; Wearables; Learning System; Technology Matchmaking;

   Sammanfattning : This paper is an explorative interaction design study focusing on the development of a wearable device for enhanced learning of bodily skills. It uses a variation of technology scouting and matchmaking to explore possible technologies related to assistive technology for learning. LÄS MER

4. 3. Design and implementation of an energy harvesting system in a prosthetic limb

   Master-uppsats, KTH/Skolan för elektroteknik och datavetenskap (EECS)

   Författare :Ódinn K. Rúnarsson; [2023]
   Nyckelord :Energy harvesting; Prosthetic limbs; Supercapacitors; Printed circuit boards; 3D printing; Energiinsamling; Lemmproteser; Superkondensatorer; Tryckta kretskort; 3D Utskrivning; Orkuöflun; Gervilimir; Ofurþéttar; Prentaðar rafrásir; Þrívíddarprentun;

   Sammanfattning : Energy Harvesting, also known as power harvesting or ambient power, is the process of obtaining small amounts of power from secondary sources, such as vibrations, light, temperature variations and even radio-frequency emissions. These systems have been uncommon in personal and wearable electronics in the past, however they are slowly gaining traction. LÄS MER

5. 4. Design and development of an interface between the user and the tendo device

   Master-uppsats, Lunds universitet/Innovation

   Författare :Ylva Bengtsson; Naemi Jaworowski; [2023]
   Nyckelord :Soft exoskeleton; Tendo AB; high spinal cord injury; Human Centered Design; holistic design; product development; Double Diamond Design Process; Technology and Engineering;

   Sammanfattning : When a↵ected by a high spinal cord injury the first wish is to regain the ability to walk. However, in a short matter of time, the wish to use the hands increases and is considered the most desired ability to recover. LÄS MER

7. 5. Inkjet printed piezoelectric energy harvesters based on self-assembly of diphenylalanine peptide

   Master-uppsats, KTH/Skolan för elektroteknik och datavetenskap (EECS)

   Författare :Yujie Fu; [2023]
   Nyckelord :Inkjet printing; piezoelectric energy harvester; diphenylalanine peptide; self-assembly; Bläckstråleutskrift; piezoelektrisk energiskördare; difenylalaninpeptid; självmontering;

   Sammanfattning : Diphenylalanine peptide (Phe-Phe or FF) is a very promising bio-material in the future wearable electronics application due to its self-assembly into nanotubes and nanoribbons with high shear piezoelectric coefficient which is comparable to traditional inorganic piezoelectric materials. In order to efficiently harvest piezoelectric response, alignment and unidirectional polarization of FF nanotubes are required. LÄS MER