Step Into Future Scanning Tchnologies

SCANNING TECHNOLOGIES FOR FITNESS INDUSTRY 

Highlights

• The trending Internet of Things (IoT)-based wearable technologies in Fitnes  Industry that were used in recent years have been discussed.

• An IoT-based wearable devices were indorsed to encourage its forthcoming applications in Fitnes Sectors.

• IoT technologies considered as one of the key pillars of the 4th  industrial revolution.

• Wearable devices, such as 3D Scanning,  smart watches and fitness bands, have become part of the Athletics everyday life.

• The impact of 5G on Internet of Fitness Things (IoFT), IoT and IoT-based wearable devices have been discussed.

3D scanning technologies have revolutionized many industries, including the fitness industry. With the ability to capture intricate details of the human body in three dimensions, these technologies have opened up a world of possibilities for fitness professionals, researchers, and enthusiasts. 

In this blog post, we will explore some examples of 3D scanning technologies in fitness and how they are being used to improve performance, track progress, and customize training programs. 

IOT TECHNOLOGIES FOR FITNES INDUSTRY 

IoT technologies assumed to be one of the key pillars of the fourth industrial revolution in Fitness innovations. Wearable devices, such as smart watches and fitness bands, have become part of the  Athletics everyday life. 

Results  from a Study by  Passos, J. et al. (2021) entitled " Wearables and internet of things (IOT) technologies for fitness assessment: A systematic review" have shown that wearable and IoT technologies have been used in sports not only for fitness assessment but also for monitoring the athlete’s internal and external workloads, employing physiological status monitoring and activity recognition and and tracking techniques.

3D SCANNINNG APPLICATIONS FOR FITNES INDUSTRY

One of the most common uses of 3D scanning technologies in fitness is body composition analysis. Traditionally, body composition measurements were taken using methods like calipers, bioelectrical impedance, and hydrostatic weighing. While these methods can provide valuable information about a person's body fat percentage, muscle mass, and other metrics, they are often limited in their accuracy and precision. 

3D scanning technologies, on the other hand, offer a more comprehensive and detailed view of the body's composition. One example of a 3D scanning technology that is commonly used for body composition analysis is the Structured Light 3D scanner. 

This type of scanner works by projecting a pattern of light onto the body and capturing the distortion of the pattern to create a three-dimensional model. This model can then be used to calculate various body composition metrics, such as body fat percentage, muscle volume, and waist-to-hip ratio. 

By providing a more accurate and detailed view of the body's composition, 3D scanning technologies like Structured Light scanners can help fitness professionals design more effective training programs and monitor progress more closely. Another example of 3D scanning technology in fitness is motion analysis. 

Traditional motion analysis techniques, such as video recording and manual tracking, can be time-consuming, subjective, and limited in their ability to capture complex movements. 3D scanning technologies, on the other hand, offer a more precise and objective way to analyze movement patterns and identify areas for improvement. 

One popular application of 3D scanning for motion analysis in fitness is gait analysis. By using a combination of 3D scanners and force plates, researchers and fitness professionals can capture detailed information about a person's walking or running gait. This information can then be used to identify issues with posture, stride length, foot strike, and other factors that may be affecting performance or causing injury. 

By analyzing these data, fitness professionals can develop customized training programs to correct imbalances, improve efficiency, and reduce the risk of injury. In addition to body composition analysis and motion analysis, 3D scanning technologies are also being used in fitness for customizing equipment and apparel. By creating three-dimensional models of a person's body, designers and manufacturers can tailor products like bikes, shoes, and clothing to fit each individual's unique shape and size. 

This level of customization not only improves comfort and performance but also enhances the overall experience of the user. 

For example, companies like Nike and Adidas have used 3D scanning technologies to create custom-fit shoes for athletes. By scanning the foot and lower leg in detail, these companies can design shoes that provide optimal support, cushioning, and stability for each individual's unique biomechanics. This level of customization can make a significant difference in comfort, performance, and injury prevention for athletes of all levels. 

 

Overall, 3D scanning technologies have the potential to transform the fitness industry by providing more accurate, detailed, and personalized information about the human body. Whether it's for body composition analysis, motion analysis, or product customization, these technologies offer a wealth of possibilities for improving performance, tracking progress, and enhancing the overall fitness experience.

As the technology continues to evolve and become more accessible, we can expect to see even greater advancements in the use of 3D scanning in fitness in the years to come.