scispace - formally typeset
Search or ask a question

What role do wearable sensors play? thigh muscle? 


Best insight from top research papers

Wearable sensors play a crucial role in monitoring thigh muscle activity during various movements. These sensors, including electromyography (EMG) and pressure sensors, are integrated into wearable devices to track muscle actions. They enable the recognition of lower limb motions by detecting muscle contractions, aiding in applications like medical rehabilitation, prosthetics design, and sports monitoring. Wearable systems can measure thigh movements accurately during walking and running, providing valuable data on muscle activity. Additionally, these sensors can be embedded in clothing to continuously monitor muscle activity during exercises, offering insights into muscle quality, quantity, and endurance. Overall, wearable sensors are instrumental in assessing and analyzing thigh muscle activity in real-time, contributing to various fields such as healthcare, sports, and assistive robotics.

Answers from top 5 papers

More filters
Papers (5)Insight
Book ChapterDOI
01 Jan 2015
13 Citations
Wearable sensors monitor sports performance, focusing on physiological data like heart rate and movement. However, the paper does not specifically address the role of wearable sensors in monitoring thigh muscle.
Wearable sensors in the multisensor system monitor thigh movements, detecting muscle activity during walking and running, aiding in analyzing and potentially preventing future diseases related to incorrect body postures.
Wearable sensors, like the sponge-based pressure sensor array, detect calf muscle actions to recognize lower limb motions, aiding in applications such as medical rehabilitation, prosthetics, and assistive robots.
Wearable sensors, like the flexible sponge-based pressure sensor array, detect thigh muscle actions to recognize lower limb motions, aiding in applications such as assistive robot control and healthcare.
Wearable sensors in thigh garments monitor quadriceps activity using EMG and oximetry during exercises, providing objective assessment and continuous monitoring of muscle activity for strength and endurance training.

Related Questions

What factors should be considered when implementing wearable sensors for athlete monitering?5 answersWhen implementing wearable sensors for athlete monitoring, several factors should be considered. These include the importance of understanding the biomechanical and physiological demands of different sports, the need for personalized supervision during physical training and exercises, the advancements in inertial sensors for onsite measurement of kinematics data in sports, the recommendation for athletes to follow a strict exercise regime for improved fitness, and the development of software algorithms using statistical tools to calculate exercise results accurately. Additionally, the use of wearable fitness devices to monitor various exercises like walking, running, shuttle-run, push-ups, and sit-ups is crucial for enhancing performance and reducing the risk of injuries.
How do IoT sensors contribute to improving sportsequipment performance?5 answersIoT sensors play a crucial role in enhancing sports equipment performance by monitoring athletes' movements, collecting real-time data, and predicting health conditions. These sensors track functional motions, workload, biomechanical data, and vital signs, aiding in injury prevention and performance enhancement. Wearable IoT devices, such as inertial sensing modules, provide real-time monitoring of athletes' activities, enabling data-driven training improvements and performance analysis. Additionally, IoT technology integrated with smartphones allows for the real-time tracking of athletes' heart rhythms, aiding in understanding fitness levels and health improvements. By utilizing deep learning algorithms and classification models, IoT sensors can effectively predict athletic movements and health parameters, contributing significantly to optimizing sports equipment performance and overall athlete well-being.
What components make up a wearable sensor?4 answersWearable sensors consist of various components that enable the collection of physiological information in a non-invasive or minimally invasive manner. These components include substrate materials, sensing mechanisms, power modules, and decision-making units. The substrate materials provide the physical structure for the sensor and can take the form of glasses, jewellery, face masks, wristwatches, fitness bands, tattoo-like devices, bandages, patches, or textiles. The sensing mechanisms are responsible for detecting and measuring physical parameters and biochemical markers in real time and continuously. Power modules are used to provide the necessary energy for the sensor to function. Finally, the decision-making units process the collected data and make decisions based on the information obtained. These components work together to create wearable sensors that can monitor and record an individual's health status with high resolution and time resolution.
How can wearable sensors be used to improve medication adherence?4 answersWearable sensors can be used to improve medication adherence by monitoring medication-taking behaviors in natural settings. These sensors, when combined with survey and ecological momentary assessment data, can capture the context of medication adherence, including personal, behavioral, and environmental factors. For example, wearable electronic devices equipped with chemical marker sensors can detect markers in sweat vapor to determine whether a user has taken a therapeutic agent. Ingestible sensor technology can also be used to provide real-time objective medication-taking adherence information for clinicians. By using these sensors, healthcare providers can gain insights into patients' adherence patterns and make informed decisions about their treatment. Additionally, wearable sensors can enhance patient care by remotely monitoring vital signs, which is especially beneficial for vulnerable populations and those with chronic diseases.
What is wearable sensors?5 answersWearable sensors are pioneering devices that monitor physical and biological parameters for health monitoring systems. These sensors are compact, lightweight, and can be worn on the body. They utilize different sensing principles such as surface-enhanced Raman scattering, colorimetric, fluorescence, plasmonic, photoplethysmography, and interferometric-based sensors. Plastic optical fiber (POF) is a suitable medium for developing wearable sensors due to its immunity to electromagnetic interference. Wearable sensors offer continuous and early disease diagnosis, and they can monitor parameters like body temperature, muscle motion, heart rate, blood pressure, and biomarkers in biofluids. They have applications in personalized point-of-care testing (POCT) devices, soft robotics, human-machine interfaces, electronic skin, body movement tracking, and remote health monitoring. Future challenges include understanding the interaction between target sample concentrations in blood and non-invasive biofluids and incorporating wearable sensors with Internet of Things (IoT) for self-healthcare.
What is flexible and wearable electronics sensors?5 answersFlexible and wearable electronics sensors are devices that can be attached to the human body to continuously collect data for monitoring health status and enabling personalized medicine. These sensors are designed to be flexible, conformable, and skin-friendly, allowing for a natural interaction between electronics and the human body. They are typically composed of a substrate, an active layer, and an interface layer, with the active layer often made of inorganic nanomaterials or liquid metals. Flexible electronics sensors have been used for various applications such as physical sensing, chemical monitoring, and sweat analysis. They have shown promise in monitoring vital health information like pulse, body temperature, and blood glucose. The development of these sensors faces challenges in terms of extensibility, sensitivity, and multi-functionality, which require exploring new sensing mechanisms, functional materials, and integration technologies. Overall, flexible and wearable electronics sensors have the potential to revolutionize personalized healthcare by accurately collecting data and providing insightful health information.

See what other people are reading

How is motivation for learning related in an educational context mediated by technology?
4 answers
Motivation for learning in an educational context is significantly influenced by technology. The integration of digital tools, such as web platforms, mobile apps, and educational robotics, plays a crucial role in enhancing students' motivation by increasing their interest, engagement, and communication opportunities. Studies have shown a positive correlation between academic motivation and the use of educational technology, emphasizing the importance of purposeful attractiveness, effectiveness, and usefulness of digital instruments in boosting learner motivation. Furthermore, the transition to individualized learning through digitalization contributes to the effectiveness of the educational process, highlighting the various types of motivation, including integrative, instrumental, global, situational, and problematic motivation. Overall, technology serves as a powerful mediator in enhancing motivation for learning in educational settings.
What are the most commonly used methods for estimating the dynamic parameters of an elastic joint?
4 answers
The most commonly used methods for estimating the dynamic parameters of an elastic joint include approaches such as integral-based methods, recursive least squares (RLS) method, and nonmodel-based adaptive control. Another prevalent method involves a dynamic parameter identification technique that considers joint elasticity, which includes steps like analyzing unknown parameters, establishing a linear identification model, utilizing a separation identification strategy, and employing an approximate processing method. Additionally, a novel elastic joint configuration estimation process involves offline modeling based on experimental setups with absolute encoders and load cells, followed by an optimization process to estimate the joint's parameters accurately. These methods collectively contribute to enhancing the accuracy and efficiency of dynamic parameter estimation for elastic joints.
How does the implementation of a fleet management system impact the efficiency and profitability of a courier service?
5 answers
The implementation of a fleet management system significantly impacts the efficiency and profitability of a courier service. Fleet management systems help in analyzing service requests, fuel parameters, and operating costs to optimize vehicle selection. Additionally, such systems aid in managing vehicle fleets effectively, ensuring synchronization, route planning, and avoiding collisions. Moreover, the adoption of alternative drive vehicles, facilitated by fleet management systems, can help courier services reduce CO2 emissions and achieve specific environmental targets, enhancing sustainability and meeting global climate goals. Furthermore, intelligent transport systems, including fleet management, aim to increase efficiency, safety, and environmental friendliness in the transport sector, ultimately improving the overall quality of service provided by courier companies.
How does the implementation of a fleet management system affect the efficiency and profitability of a courier service?
5 answers
The implementation of a fleet management system significantly enhances the efficiency and profitability of a courier service. By utilizing open-source ERP systems like Odoo software, SMEs in transportation services can streamline their business processes effectively. Fleet management systems analyze service and fuel parameters to determine operating costs, enabling the selection of the most cost-effective vehicle types for service requests. In the context of reducing CO2 emissions, replacing combustion vehicles with electric ones can be economically and ecologically beneficial for courier services, especially when considering sustainability and global climate goals. Implementing a fleet management system based on a hybrid map design in the ROS environment ensures reliable and synchronized movement of AMR robots, optimizing logistics in production for courier services. Fleet management systems, as part of Intelligent Transport Systems, aim to increase transport efficiency, safety, and environmental sustainability, crucial for enhancing the overall performance of courier services.
What are the implications of Prensky's idea of embodiment for the design of educational technology?
5 answers
Prensky's idea of embodiment, which emphasizes the importance of physical and social interactions in cognition, has significant implications for educational technology design. Incorporating embodiment into educational technology can enhance immersive learning experiences, especially in virtual reality settings. By considering the intertwining of the body and technology, developers can create more effective and engaging learning environments that leverage physical engagement and situated learning. Additionally, understanding embodiment can lead to the creation of more nuanced and thoughtful educational designs that take into account the multisensory and corporeal experiences of learners. Therefore, embracing Prensky's concept of embodiment can guide the development of educational technologies that prioritize holistic learning experiences through physical and social interactions.
What are the most important mental performance qualities for basketball players?
5 answers
The most important mental performance qualities for basketball players include self-control, decision-making, self-confidence, attention, and psychological stability. These qualities have a significant impact on the athletic performance of basketball players, influencing factors such as shooting accuracy, game performance, and overall success on the court. Psychological factors like self-control and overcoming psychological barriers during games are crucial for players to excel in their performance. Additionally, the stability of psychological quality and the ability to maintain a positive mental state are essential for achieving success in basketball games. Developing these mental qualities through systematic training methods and focusing on both physical and psychological training can help players overcome psychological barriers and improve their overall performance on the court.
What are the key features of a successful fleet management system?
5 answers
A successful fleet management system should possess key features such as efficient route planning, vehicle monitoring, fuel optimization, and seamless communication. It should be capable of managing a fleet of vehicles with different fuel types effectively, analyzing operating costs, optimizing vehicle distances to reduce wind resistance, and balancing overall load. Additionally, the system should include automatic vehicle locators, cellular network connectivity, and web-based software for real-time monitoring, detailed reporting, and energy management. By combining elements like hybrid map route planning, vehicle synchronization, and battery activity tracking, a comprehensive fleet management system can enhance operational efficiency, reduce costs, and ensure smooth logistics in various industries.
How does social practice theory relate to sustainability?
4 answers
Social practice theory plays a crucial role in understanding sustainability by examining how practices interconnect to shape sustainable or unsustainable forms of production and consumption. It provides insights into the dynamics of social learning and transformative change for sustainability transitions, particularly in transdisciplinary coproduction processes focused on climate action. Additionally, social practice theory contributes to uncovering unequal dynamics in sustainable transformation efforts, highlighting the perpetuation of unsustainable practices and the suppression of sustainable ones. By utilizing a practice-based approach, social practice theory offers a means to analyze power dynamics within practices, aiding in the comprehension of inequality in transformation endeavors. Overall, social practice theory offers a valuable lens for understanding the complexities of sustainable practices and guiding the design of effective change initiatives for a more sustainable future.
How does social media affect trust in the physician patient relationship?
5 answers
Social media plays a significant role in influencing trust in the physician-patient relationship. Studies have shown that social media can mediate the path from anxiety and fear to physician-patient trust, with a more positive image of physicians being portrayed during challenging times, ultimately enhancing trust. Additionally, social media can impact Doctor-Patient Interaction (DPI) by providing access to information and communication, potentially enhancing DPI efficiency and patient satisfaction. However, challenges arise when healthcare providers share potentially identifiable patient information online, potentially breaching patient privacy and affecting trust levels. It is generally recommended for providers to engage directly with patients or parents/guardians regarding social media content rather than viewing it surreptitiously, emphasizing the importance of open communication in maintaining trust in the physician-patient relationship.
What are the potential applications of automatic rainwater sensing umbrellas beyond personal use?
5 answers
Automatic rainwater sensing umbrellas have applications beyond personal use. They can be utilized in agriculture to protect crops from excessive rainfall or extreme heat by employing an umbrella-like structure equipped with sensors for automated opening and closing. Additionally, these umbrellas can be integrated into IoT systems for real-time weather monitoring and prediction, as demonstrated by a smart umbrella system connected to a Raspberry Pi controller for measuring rainfall and displaying weather details on smartphones. Furthermore, the concept of machine learning and artificial intelligence can be applied to train microcontrollers within these umbrellas to make autonomous decisions based on pre-analyzed data sets, enhancing their functionality and adaptability.
How does the use of television advertisements influence consumer perceptions and purchasing decisions related to Nescafé Sunrise?
4 answers
Television advertisements play a significant role in influencing consumer perceptions and purchasing decisions related to products like Nescafé Sunrise. Studies have shown that advertisements in broadcast media have a substantial impact on consumers' awareness, interest, conviction, and buying behavior. Gender stereotypes portrayed in TV ads can affect consumer attitudes differently based on gender, with women showing higher attitude formation towards gender stereotyping in advertisements compared to men. Additionally, the residential background of consumers, whether rural or urban, can also influence the effectiveness of TV advertisements on buying decisions, with rural residents generally favoring TV ads more than urban residents. These findings collectively highlight the crucial role of television advertisements in shaping consumer perceptions and purchasing decisions, emphasizing the need for strategic and targeted advertising campaigns for products like Nescafé Sunrise.