Wearable devices can capture vital statistics of the field workforce and monitor health conditions, and transmit these to command centers in real-time.
As a result, wearable technology can decrease risk to miners significantly and increase productivity through various methods.
Bright clothing to gain popularity: 92.1% of corporate leaders believe that 10% of people will wear internet-connected garments by 2025. The market for intelligent clothing is in the initial experimental stages with few products, including Nadi X yoga leggings, Sensoria socks, Ambiotex brilliant shirts, and Supa Bras, available commercially. These products’ slow yet growing popularity reflects a developing demand for fitness-focused, sensor-embedded, and internet-connected clothing from the mass market.
Smartwatch is power: Smartwatches are considered for approximately 60% of the overall wearables business. The growing preference of consumers to obtain smartphone-like characteristics from a watch remains the principal growth driver. Supplementing the factor as mentioned above, technological improvements such as seamless body integration, health and fitness information accessibility, and modular aesthetics are fundamental growth stimulants for smartwatches’ adoption.
Fitness trackers are dropping out to smartwatches: The shrinking prevalence of fitness trackers in mature markets can be connected to the rapid replication of their selling propositions (USPs) in smartwatches. Overshadowing fitness trackers’ USPs, like step counts, sleeping patterns, calorie burns, distance walked/run, etc., smartwatches now offer improved stats—for instance, fall detection ECG and non-invasive glucose monitoring —and social connectivity.
Smart glasses are walking up commercially: Eyewear is becoming more innovative acknowledgments to augmented reality (AR) and virtual reality (VR). Continuous investment from tech titans to develop an appropriate AR and VR beyond the identified regions of application, linked with surging demand from businesses, is launching the adulthood of smart glasses. In computing, AR is driving the perception of smart glasses into complicated regions of the internet-connected society, from first-person imaging to heightened turn-wise directions, facial recognition, and health-sensing.
Custom silicon drives smartwatches: While it is apprehended that the smartphone component ecosystem successfully got the original wearables to market, purpose-built silicon’s subsequent wave of innovation is being encouraged. For example, Apple is building unique processors and sensors into the Apple Watch, but it is also using its chips to implement Bluetooth in AirPod wireless headphones. As a result, vendors that cannot compete with Apple directly for smartwatch processors are turning to Qualcomm.
Hearables are getting more active: Ear-worn devices are the first wearable technologies evolved to improve hearing. The exciting swell in interest for coupling hearing aids with entertainment attributes emerged in intelligent ear-wear, “wearables,” over the preceding three to four years. While the market continues in the early adoption phase, wearables extend endless circumstances in healthcare and fitness.
Skin patches: As digital capabilities have developed, skin patches have evolved to promote more complex functions while being thin and flexible from being constructed using flexible electronic technologies, nanomaterials, and sensors. Consequently, the definition of “adhesive skin patches” is broadening to include intelligent technologies allowing connectivity with IoT devices. In addition, miniaturization and lower values of development will constitute a flood for wearable sensors in healthcare.
Disease-orientated designs: Medical devices are the fastest-growing sector within life sciences. The industry is being encouraged to guarantee the more noticeable inclusion of patients and customers during the design and construction methods. Without the developer’s recognition of real-world needs, clients are unlikely to accept the end product. Consequently, medical device businesses turn their interest from device/consumable providers to disease/care management organizations.
Cloud solutions and wearables: The relationship between cloud solutions and wearables is inspired by an aggregate of the surging numbers of wearables data, limited processing abilities, limited onboard storage, and security interests. Meanwhile, the progression of wearables from consumer-focused tools into enterprise demands is being propelled by the need for real-time data passage and computation. Thus, in the long run, wearable-cloud setups will achieve more influence while it only serves consumers and healthcare companies in the short span.
ML and AI in Wearables: AI is becoming a conventional feature over connected devices. Healthcare empowers doctors to perform robotic surgery with precision, reduces the risk of post-surgery complications, and enables surgeons to use AR and VR during surgical procedures and training exercises. Start-ups drive in the space, equipping their wearables with AI-powered customized intelligent assistants that are frequently task-specific.
Sensors hold paramount importance: Wearable devices being dispatched today consolidate an average of 4.1 sensor elements associated to just 1.4 in 2013. Established sensors like global positioning systems (GPS), hearing aids, and thermometers are emerging, while more modern wearables made with microelectronic mechanical sensors (MEMS) facilitate more advanced functionalities. As sensors develop, their resiliency, long-term durability, and biocompatibility will enhance their size, functionality, and portability.
Innovative implants to Enhance in Predominance: Smart implants are transforming science fiction into reality by promising a vast expanse of benefits in remote monitoring while remaining low maintenance and seamless. Innovative implants are being utilized in various body parts, with embedded chips measuring hormones and pH levels, electrical activities, temperature, blood glucose concentration, bacterial activities, and postoperative complications and rehabilitation while gaining real-time biofeedback.
5G – a key influence on wearables: 5G is at the development and adoption stages as a potential game-changer. The low latency and ultra-high authenticity of 5G technologies are established to aid wearable designers in minimizing the center on storage capacity and processing capability. Furthermore, by leveraging its high bandwidth characteristic at the adoption level, enhanced mobility, 5G encourages flexibility and agility to consumers with self-contained wearables.
Wearables and Bluetooth low-energy Controllers: Wearables are fundamentally communication devices, and their requirement for an upgraded power supply is pre-eminent. Due to the insufficient hardware space, wearable, original equipment manufacturers (OEMs) are continually looking for miniaturized and robust communication protocols that can influence ultra-low power. The development of Systemon-Chip (SoC)-based Bluetooth Low-Energy (BLE) controllers enables OEMs to enhance power support to the devices and depreciate device sizes and system value.Moore’s law concerns Wearables: As computing power and connectivity optimization and the prices decline, designers can set processors, sensors, and displays in a more productive and relevant manner. The caveat is that this venerable cheap computing still requires electrical power, and battery technology is not advancing at the same pace. In addition, due to variables regarding fashion and exhaustion, wearables are even more limited by power consumption than devices that live in pockets or bags, which can be somewhat larger to accommodate bigger batteries.