1. i want you to help
me in making powerpoint presentation for my researach , this is the all details about project , Our
project was based on research on wearable gadgets for elderly people in Canada. We chose FitBit for
this project and did research on it. We have collected this data so far Introduction
Smart devices that can be worn as external accessories, incorporated into clothing and garments,
implanted in the body, or even bonded to or tattooed on the skin are examples of IoT-enabled
wearables. These gadgets can connect to the Internet in order to collect, deliver, and receive data
that can be used to make smart decisions. Wearables are becoming an increasingly essential
component of IoT technology, progressing from simple accessories to more specialized and practical
uses. Smart wearables can interface with a variety of other devices, such as smartphones, enabling
computing and communication.
Due to the movement of both people and animals, smart wearable gadgets are becoming increasingly
significant since they can gather and communicate data while on the move, as well as receive
information from the Internet, which aids in making better judgments. The adoption of smart
wearables can improve application efficiency and optimization, improve quality of life, and increase
productivity or safety.
The benefits that smart wearables can provide have accelerated the development of wearable
technology. During the last few years, we have seen a rapid development of smart wearable goods
suited for numerous uses. Wearables for various applications include smart watches, wrist bands, eye
wear, headsets, earbuds, body straps, foot and hand-worn gadgets, and smart jewelry.
Fitness activity trackers were the market's first significant wave of wearable equipment, followed by
Bluetooth hearing aids, smartwatches, and web-enabled glasses. With virtual reality and augmented
reality headsets, the game industry has incorporated more wearables. However, the most significant
life-changing applications of wearable technology are found in health monitoring and wellness cases.
As the proportion of the world's elderly population continues to increase, wearable devices can
provide ideas for solving a series of problems caused by population aging. Therefore, it is of great
significance for the development of intelligent elderly care and the improvement of the quality of
elderly care services to explore the factors that influence the intention of elderly users to accept
wearable devices.
Wearable IOT classification
To classify the applications of wearable IoT and finish this survey, the most recent research works,
papers, and articles in this field were collected first. This effort is carried out by scanning databases
such as IEEE Xplore and the digital libraries of the Association for Computing Machinery (ACM). The
connected works are then classified into clusters based on their application, and each research paper
is assigned to one of the clusters, as illustrated in Figure 2. It can be seen that some of the clusters
have a greater range of applications, owing to their prominence. Aside from the primary clusters,
other wearable IoT devices are employed in different applications, such as virtual games to improve
the gaming experience, payment applications, and education. Investigating these other possibilities.
Each category is described in the following sections by listing the most notable works released in that
field.
A Health
The IoT health wearable technology is primarily used for remote patient monitoring, treatment, and,
in particular, rehabilitation. The sensors capture health-related data, and the gadget may do just a
little processing before transmitting the user's or patient's health data to the Internet for additional
analysis. The item may also receive data to allow the user to make an additional choice.
B.Activity recognition
This category comprises apps in which wearables are worn during sports activities to record different
elements of the user's or athlete's activity in order to improve his or her performance. This cluster's
applications also address data collection for the recognition of human and animal everyday activities.
Although activity recognition has certain uses in medical diagnostics and out-of-hospital healthcare,
the applications in this cluster involve use cases that do not belong to health.
C. Tracking and localization
This category includes programs in which wearables are worn during sports activities to record
various parameters of the user's or athlete's activity in order to improve his or her performance. This
cluster's applications additionally tackle data collection for the recognition of human and animal
everyday activities. Although activity recognition has certain uses in medical diagnostics and out-of-
hospital health care, the applications in this cluster involve use cases that are not related to health.
2. D. Safety
This category includes wearables that are meant to offer a safe environment for users. A fatigue
monitoring system, for example, can alert drivers who fall asleep behind the wheel and tell their
employers. As another example, wearable devices can collect data on air quality in mines to ensure
worker safety and reduce hazards for miners and expenses for employers.
WEARABLE IOT CHALLENGES AND FUTURE POSSIBILITIES
1) Data resolution of wearable devices: Because it is critical that the wearable device be pleasant to
wear and consume a low amount of energy, they are typically tiny in size and have lower resolution
sensors than nonwearable equipment.
2) Power consumption: To minimize human interaction and for wearable devices to operate for long
hours without replacing or charging the battery, special considerations are to be taken into account
while designing the wearables
3) Wearability: Wearable IoT devices must be comfortable for the user to wear. It is essential that
they are light and built in such a way that they aren't disruptive to the user's typical activities. One of
the biggest issues is balancing the complexity of computations with the weight of the wearable. [109]
introduces the concept of smart clothing, or wearable 2.0, for human-cloud integration, which aims to
tackle the problem of discomfort caused by wearing many sensors in different parts of the body for
health care applications.
4) Safety-wireless technologies are used by all wearable IoT devices to communicate sensed data to
another node, gateway, or base station. Because the transceiver antennas are so close to the user's
body, this wireless communication may expose him or her to harmful radiofrequency radiation.
5) Security-wearable IoT device complexity can frequently be minimized due to lightweight and low-
power consumption designs. As a result, those devices may have fewer robust security features. One
of the issues with wearable IoT devices is implementing security policies while keeping the system's
complexity as low as possible. Wearables, in general, are simple targets for thieves due to weak
encryption and protection.
Conclusion
Wearable IoT can open up a plethora of new possibilities in a variety of real-world applications. This
report provides a survey of the most important research initiatives in the fields of wearables and IoT.
Following the identification of more than one hundred papers as relevant literature in this domain,
the papers were analyzed and classified into four primary clusters depending on their applications.
The methodologies employed for each cluster were also classified.
When an integrated IoT system is available, wearables offer a lot of potential. As a result, the actual
value of merging wearables with IoT has gone unnoticed. Cellular IoT can also revolutionize the
wearable IoT market, which has gotten little attention from the scientific community so far. we also
chose fivequestionns to verify our research that we can answer with the data collection that we did
these are the questions , Research questions:
1. What are the overall satisfaction levels of users with different fitness bands based on their reviews?
2. What specific features do users frequently mention as positive or negative in their reviews of
fitness bands?
3. How do user reviews reflect evolving expectations in the fitness band market?
4. How do users perceive the effectiveness of fitness bands in helping them achieve their health goals?
5. Are there common challenges related to device setup, navigation, or interface?
these are the answers ,
What are the overall satisfaction levels of users with different fitness bands based on their reviews?
Users can track and monitor their physical fitness indicators, such as walking distance, heart rate,
sleep patterns, and number of steps taken, by using wearable activity trackers (WAT), which are
electronic monitoring devices. Despite the widespread usage of these devices in a variety of settings
and the growing interest in research, little is known about the overall state of the field. Fitbit is the
industry leader in fitness trackers, and its foray into the smart watch space has been fruitful, but
Apple makes a lot more money per unit.
4. How do users perceive the effectiveness of fitness bands in helping them achieve their health goals?
Wearable activity trackers offer considerable promise for helping users to adopt healthier lifestyles.
This study aimed to explore users’ experience of activity trackers, including usage patterns, sharing of
3. data to social media, perceived behaviour change (physical activity, diet and sleep), and technical
issues/barriers to use.
Users' opinions on how well fitness bands work to help them reach their health objectives can differ
greatly because expectations and personal experiences all play a big part. Nonetheless, a number of
typical elements influence customers' overall evaluations:
users' perceptions of the effectiveness of fitness bands in helping them achieve their health goals can
vary widely, as individual experiences and expectations play a significant role. However, several
common factors contribute to users' overall assessments:
Heart Rate Monitoring:
Those looking to enhance their cardiovascular health are drawn to fitness bands that have heart rate
monitoring features. Users who want to customize their workouts and understand the intensity of
their exercises can benefit from accurate heart rate data.
It is noteworthy that users' perceptions of the effectiveness of fitness bands can be influenced by
their unique preferences, needs, and priorities. Certain features may be more important to some
users than others, and their impressions of the device will eventually influence their choices.
6.Are there common challenges related to device setup, navigation, or interface?
Across all kinds of fitness devices, there are common issues with interface, navigation, and device
setup. Hardware constraints, user familiarity, and variations in user experience design can all lead to
these difficulties. These are a few typical difficulties.
User interfaces (UI) that are inconsistent:
• Users may become confused by inconsistent user interface design and layout, particularly if they
frequently switch between various platforms or devices.
• There may be a learning curve due to different terminology or icons for comparable functions on
different devices.
Inadequate Navigation Design: –
Users may find it challenging to locate the necessary features or settings if the navigation is
unclear or not intuitive.
Users may become disoriented by the interface if menu structures are overly complicated.
Insufficient accessibility features can pose challenges for individuals with disabilities, including
those who experience visual or motor impairments. Additionally, a dearth of customization options
may impede users from tailoring the interface to suit their specific requirements.
Software Glitches and Bugs:
Technical problems, such as software glitches or bugs, can impair user experience and make it difficult
to operate a device efficiently.
Security and Privacy Issues: • Users may encounter difficulties configuring and maintaining security
and privacy settings.
Cross-Platform Joining:
Users may encounter difficulties when attempting to synchronize or integrate their devices across
various ecosystems or platforms.
Manufacturers and developers frequently concentrate on enhancing user interface design, offering
user-friendly setup procedures, clear documentation, and proactive feedback management through
updates and enhancements in order to address these issues.
What specific features do users frequently mention as positive or negative in their reviews of fitness
bands?
Wearable technology allows us to track our fitness levels, track our whereabouts via GPS, and receive
text messages more rapidly. Best of all, most of the technologies that enable us to do so are hands-
free and portable, removing the need for us to take our devices out of our pockets. The primary
reason smart watch customers acquired was for convenience, and more than a third (35%) purchased
to support their smartphone addiction. In comparison, the capacity to self-monitor, together with
concern for their health, was cited as a major reason by the majority (57%) of fitness band customers.
Smart watches' disadvantages include their reliance on technology and the necessity for frequent
recharge. They also have a shorter lifespan than traditional timepieces and can rapidly become
4. obsolete as technology progresses. Traditional watches feature benefits such as their traditional
appearance and durability. We've had patients complaining of wrist pain which was indeed initially
trigged by the use of smart watches,” says Alex Wood, a physio and pain researcher at Pathways.
“Although it's anecdotal, over 20 cases point to the cause being related to wearing the watch too
tight, or wearing it too high up on the wrist
3.How do user reviews reflect evolving expectations in the fitness band market?
answer -User reviews reflect evolving expectations in the fitness band market in several ways:
Advanced Health Metrics: Users now expect fitness bands to provide advanced health metrics. For
instance, the Fitbit Charge HR is praised for its always-on heart rate monitoring that tracks both
average and resting heart rate1. This shows that users value detailed health data.
Built-in GPS: Built-in GPS has become a sought-after feature in fitness bands. The Fitbit Charge 6, for
instance, is highly rated for its built-in GPS2. This indicates that users appreciate the ability to track
their outdoor workouts without needing to carry a separate device.
Sleep Tracking: Sleep tracking is another feature that users have come to expect. Fitness bands like
the Fitbit Inspire 3 and Fitbit Sense 2 are commended for their sleep monitoring capabilities2. This
suggests that users are interested in understanding their sleep patterns and improving their sleep
health.
Design and Comfort: Users also value the design and comfort of fitness bands. The Fitbit Luxe, for
example, is lauded for its comfort, style, and accuracy3. This shows that users prefer fitness bands
that are not only functional but also aesthetically pleasing and comfortable to wear.
Value for Money: Users expect fitness bands to offer good value for money. The Fitbit Inspire 3 is
considered a great choice for those on a budget, offering a range of features for a reasonable price2.
This indicates that users are looking for affordable options that do not compromise on features.
Battery Life: Long battery life is a crucial factor for users. The Fitbit Inspire 3, for instance, is praised
for its 10-day battery life2. This shows that users prefer devices that require less frequent charging.
These evolving expectations reflect a shift towards comprehensive health tracking, convenience, and
value for money in the fitness band market.
i want you to make a 12-13 pages presentation with pictures and in the starting group members
names with contribution percentage of equal contribution . names of the group members are ,
lovepreet singh , navdeep kaur , gagandeep singh , jemin ghori and mezba robin.