Advancement of technology had a significant impact on various industries, with innovative solutions like cloud computing, IoT, augmented reality (AR), and virtual reality (VR) changing the game in many ways. Here is a system known as “virtual try-ons” that leverages IoT devices like mobile cameras, cloud storage for data, and an intelligent interface for user interaction. Many people are opting for online shopping, and various challenges arise with this transition, one of which is the issue of “try-on.” VR solves this challenge by introducing “virtual try-on,” which replaces traditional try-on methods. It enables an individual to preview and virtually try on their desired products like clothes, watches, shoes, etc. from the comfort of their own homes, making the shopping experience easier and smoother. It also adds an element of fun and excitement to the shopping experience, increasing the hedonic value for consumers and allowing consumers to experiment and play with different products, styles, and colors in a way that is not possible with traditional shopping methods.
TopLiterature Survey
Antim et al. (2017) has defined Cloud Computing as providing on demand resources such as network, storage, server through internet. The paper provides an overview of Cloud Computing besides focusing on key computing issues like patch management, data location, data segregation, access to servers & applications, virtual machine security, data security, data privacy, data Integrity, data availability, security policy and compliance and network security. The author identified SLA’s, data encryption, interoperability, energy management, migration of virtual machines, access controls, cloud data management & security, platform management as key research challenges in clod computing.
Abdel (2019) discussed the influence of the IoT in various industries and how it operates. According to the author, IoT is a network of physical objects with varying levels of computational power, sensing capabilities, and the ability to actuate, all of which can communicate with each other through the internet. These interconnected devices are useful in creating smart cities, improving healthcare, optimizing agriculture and water management, revolutionizing retail and logistics, enhancing daily life, and promoting a smart environment. Despite its benefits, there are still research limitations regarding privacy and security, data processing and managing, monitoring and sensing, machine-to-machine communication, and interoperability.
Dov et al. (2018) highlighted the significance of intelligent interfaces for Augmented Reality (AR) applications. They explained the origin of the term “Augmented Reality.” The authors also discussed a framework known as Pose-Interfaced Presentation (PIP), which is an interface that uses intelligence to integrate virtual objects in a real-world context. PIP denotes the user's orientation and location in space (Pose), the program's response to the user's actions and intentions in an intelligent manner (Interfaced), and the digital objects being layered onto the user's perceptual field (Presentation). The authors noted that AR is useful for activities such as learning, worker training, and language learning.