Academic literature on the topic 'Smart mirror'

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Journal articles on the topic "Smart mirror"

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Athawale, Deepa. "IoT Based Digital Smart Mirror." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 08, no. 04 (2024): 1–5. http://dx.doi.org/10.55041/ijsrem31513.

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Everyone knows what a mirror is. It is an object found in most people’s homes. In mirrors we see our reflections. But what happens when you combine the idea of a mirror with technology. Here smart mirror comes in picture. This project has been developed with the idea of making home smart to save time and make your mirror more productive. The device that has been researched and designed is called Smart Mirror. It is a wall mounted mirror which displays relevant items to the user such as weather, time, date, temperature, humidity and news and other fields of interest. Smart Mirror emerged the idea of remotely monitoring objects through the Internet. This mirror is intended to collect this information during the preparation of a morning routine in order to do so more efficiently and easily. As technology advances, smart mirrors will eventually replace traditional mirrors, providing users with both mirror and computer-assisted information services.
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Dandhare, Harshak. "SMART MIRROR USING RASPBERRY." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 08, no. 04 (2024): 1–5. http://dx.doi.org/10.55041/ijsrem30334.

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The project shows the design of a smart device-Smart Mirror. The smart mirror here is mainly for home environment. These smart mirrors are not widely used due to cost or high requirements of hardware. The proposed smart mirror will be operated by Raspberry Pi and will be connected by real world through internet. The smart mirror will consist Raspberry-Pi, LED monitor, speakers, microphone with two-way mirror and acrylic glass. With the help of voice recognition API the mirror will communicate with the user through voice commands and responds them accordingly. The mirror will highlight some basic amenities like time, local news, weather, etc. The mirror will also perform some advance function such as Home Automation using Smart Mirror. This mirror with artificial intelligence will provide an extraordinary experience to the user.
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Rishi, Bhate, Gondhali Jyoti, M.B Gulame, Nangude Ankita, and Ladage Shrinik. "Innovative Smart Mirror." Journal of Signal Processing 6, no. 1 (2020): 23–26. https://doi.org/10.5281/zenodo.3690830.

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A Smart Mirror is the most Advance Technology in the market. In view of the client studies and model performance, we present the development of an enhancing machine that fuses intelligent directions of data, offered through a UI on the surface of a mirror. It is a custombuilt mirror activity that is both a mirror and a display. It takes data from the web including time, climate, stock reports, quotes and more to stay up with the latest. The sharp mirrors, which continue to work today and will take place in upcoming technology, provide users with both mirror and computer-assisted information services to the person. These systems can be connected to the Web, and the data in certain locations on the mirror may transmit data. The smart mirror is built by using the controller named as Raspberry pi 3B controller. This device takes the Weather condition, time, day and date information from the Web services using putty software. The smart mirror is also able to display the Youtube videos and we can also give the access of our mobile phone. This all activity is done by using the USB microphone in which we can give the verbal command to our mirror.   
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Jayasree, M. Anjana B. Anjali Ann Thomas &. Asst Aseena A. "IoT BASED SMART MIRROR." INTERNATIONAL JOURNAL OF ENGINEERING SCIENCES & RESEARCH TECHNOLOGY NACETEC' 19 (April 6, 2019): 102–6. https://doi.org/10.5281/zenodo.2631597.

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The paper describes the design, construction and working of the smart mirror. Smart Mirror is one of the applications of Raspberry Pi. A computer screen embedded in mirror looks very futuristic. The Raspberry Pi stays at back scenes and controls the data displayed on mirror. While looking at mirror you can look at various notifications from social sites as well news, weather forecast and more things. Such mirrors can be programmed to work as AI and control home appliances by voice input or touch screen. The Raspberry Pi is connected to monitor via HDMI as well as it also has inbuilt Wi-Fi and Bluetooth interfaces so we can just swipe music and videos to mirror. It is also used for theft detection and for security surveillance in home environment it provides assistance for home automation using IoT
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Saxena, Mr Tilak, Sushant r. Gangwa, Richa Singh, Bhumi Singh Sengar, and Aman Singh Chauhan. "Smart Mirror using Raspberry Pi." International Journal for Research in Applied Science and Engineering Technology 11, no. 3 (2023): 2109–12. http://dx.doi.org/10.22214/ijraset.2023.49906.

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Abstract: This project has been developed within the context of a time where every day we see more and more connected devices. The Internet transformed our lives by connecting us more easily to information and other people in the virtual world. Mobile phones then became smartphones and since then this concept has erupted and morphed into the Internet of Things, things that connect us to everyday objects. There is no end to objects that could be made “smarter”, some being more suited to this than others. Mirrors, for example, provide a large surface ideal for displaying information and interacting with it. Most people have mirrors at home so the concept of a smart mirror that you can interact with is attractive and has been fantasized about in many futuristic movies. Smart mirrors, such as Magic Mirror and Home Mirror, have been only developed by people in the Maker community, with varying degrees of interactivity. However, so far, the features of these mirrors have been limited. This final year project describes how a smart mirror was built from scratch using a Raspberry Pi for the hardware and custom software built on top of Raspbian, a Linux distribution. The goal of the project was to create a Smart Mirror device that people could interact with but also to further develop the technology so that it would let you install and develop your own applications for it. Overall, results were good because a higher level of interactivity has been achieved by being able to use voice commands, gestures, and smartphones. A few problems arose in the construction and software side of the project, such as the glass not being reflective enough and the gesture recognition being unreliable, but these drawbacks can be addressed by doing more tests and trials to further develop the Smart Mirror
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Ab Latif, Muhammad Syazwan, Ammar Asyraf Ismail, and Asnazulfadhli Zariman. "Smart Mirror for Home Automation." International Journal of Recent Technology and Applied Science 1, no. 1 (2020): 1–11. http://dx.doi.org/10.36079/lamintang.ijortas-0101.55.

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Smart Mirror for Home Automation
 This research describes the design, construction and working of the smart mirror. Every morning our day begins by watching ourselves at least once in mirror before leaving our homes. We interact with it psychologically to find out how we look and how our attire is. Smart Mirror or Magic Mirror is one of the applications of Raspberry Pi. A computer screen embedded in mirror looks very futuristic. The Raspberry Pi stays at back scenes and controls the data displayed on mirror. While looking at mirror, the user can look at various notifications from social sites as well news, weather forecast and more things. Such mirrors can be programmed to work as control home appliances by voice input. The Raspberry Pi is connected to monitor via HDMI as well as it also has built-in Wi-Fi and Bluetooth interfaces so we can just swipe music and videos to mirror.
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Gayatri, Mohanta. "Development of an Intellectual Cheval Glass." Recent Trends in Analog Design and Digital Devices 6, no. 1 (2023): 1–5. https://doi.org/10.5281/zenodo.7714757.

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<em>In this era of globalization, one of the innovations for a futuristic physical entity that is connected to many applications is the smart mirror. The interactive user interface on the mirror surface is provided by Raspberry Pi 3, which makes the smart mirror an innovative piece of home electronics that combines contextual information with the use of Raspberry Pi 3. In order to create this smart mirror, it is necessary to take care of the process that involves researching smart mirrors, designing both hardware and software, developing a prototype, putting the plan into action, and finally evaluating the results.</em>
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Bhake, Sarthak, Sahil Parekh, Sakshi Kulkarni, Sejal Sayam, Shajjad Shaikh, and Prof Ashwini Barbadekar. "Smart Mirror using IoT and Raspberry Pi." International Journal for Research in Applied Science and Engineering Technology 10, no. 12 (2022): 382–85. http://dx.doi.org/10.22214/ijraset.2022.47880.

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Abstract: Smart mirrors as a concept are growing rapidly. These mirrors directly affect the day to day lives of the people as it provides customization and a luxurious lifestyle. With the help of devices like smart mirrors people are getting exposed to technology and are in turn contributing to a tech supported lifestyle. The smart mirror is one such device where a normal mirror acts as a smart device which consists of a user interface with which the user can interact. This paper proposes a model which is robust and can be utilized by individuals in their day to day lives. The proposed model in this paper is in the form of a mirror developed with a combination of hardware and software. The mirror incorporates Oracle VM Virtual Box which supports the Raspbian OS. The model uses the Magic Mirror Module on the software part to implement different features like Calendar, Music App, Weather Forecast, News etc. These features are implemented using their respective API’s. The proposed model can be scaled to add more and more features thus making it more robust, also the model is very cost effective. With the help of this people would be able to ease their lifestyle a bit and automate things as much as possible.
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Mallick, Suman, Tejpal Singh, and Soumik Podder. "IoT based Smart Mirror Using Raspberry PI." International Journal for Research in Applied Science and Engineering Technology 11, no. 1 (2023): 460–67. http://dx.doi.org/10.22214/ijraset.2023.48583.

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Abstract: This paper describes the design, construction and working of an IoT based smart mirror. Every morning our day begins by watching ourselves at least once in mirror before leaving our homes. We interact with it psychologically to find out how we look and how our attire is. Smart Mirror or Magic Mirror is one of the applications of Raspberry Pie. A computer screen embedded in mirror looks very futuristic. The Raspberry Pie stays at back scenes and controls the data displayed on mirror. While looking at mirror you can look at various notifications from social sites as well news, weather forecast and more things. Such mirrors can be programmed to work as AI and control home appliances by voice input or touch screen. The Raspberry Pie is connected to monitor via HDMI as well as it also has inbuilt Wi-Fi and Bluetooth interfaces so we can just swipe music and videos to mirror.
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B, Prashanth. "Smart Mirror." International Journal for Research in Applied Science and Engineering Technology 10, no. 7 (2022): 4168–72. http://dx.doi.org/10.22214/ijraset.2022.45838.

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Abstract: Smart mirror, which continues to grow vastly, plays an important role in the future technology, providing both the functionalities of a mirror and the smart mirror and the smart feature that’s come with the users. The impact of such emerging technology would completely change the lives of the people on day-to-day basis. In recent years everything is turning smart, such as smart home and smart cities. The smart mirror is one such device where a normal mirror acts as a smart device.
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Dissertations / Theses on the topic "Smart mirror"

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Correia, Valter Gil Gonçalves. "Modular prototype of a smart mirror with voice interaction." Master's thesis, Universidade de Aveiro, 2017. http://hdl.handle.net/10773/23485.

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Mestrado em Engenharia de Computadores e Telemática<br>O mundo está em constante evolução e nos últimos anos tem sido possivel ver um grande aumento de dispositivos electrónicos, presentes no nosso quotidiano, com ligação à internet, a chamada revolução da internet das coisas. Um dispositivo que se enquadra neste grupo e que está a ganhar bastante atenção por parte da comunidade em geral é o espelho inteligente. Os espelhos inteligentes são espelhos que permitem a uma pessoa ver, para além da sua reflexão, informação relevante com base nos seus interesses. O objectivo desta dissertação é a criação de um sistema que possibilite a visualização desta informação, a interação do utilizador com o sistema e possibilidade da sua customização de acordo com as preferências do utilizador. O sistema proposto dá vida ao espelho através de módulos que as pessoas podem instalar e configurar de acordo com as suas necessidades. Os vários módulos interagem com o sistema principal, através de filas de mensagens, que são usadas para fornecer informação pronta a ser visualizada e obter do sistema dados providenciados pelo utilizador e pelos sensores existentes. Para proporcionar interacção com o espelho, foi implementado reconhecimento de comandos usando voz. Foi também criada uma página de configuração onde é possível arrastar e largar módulos para modificação da sua posição assim como alterar parâmetros dos módulos existentes. Desta dissertação resultou um protótipo de um espelho inteligente modular com interacção por comandos de voz. A sua modularidade permite a criação de novos módulos num grande número de linguagens de programação, podendo o programador escolher a que mais se adequa à funcionalidade implementada pelo módulo. Foram realizados testes de usabilidade tendo sido obtidos resultados de satisfação que comprovam a qualidade do protótipo desenvolvido<br>The world is in constant evolution and in recent years it is possible to see a great increase in the number of electronic devices, present in our everyday life, connected to the internet, the so called internet of things revolution. A device that fits in this group and that is gathering great acceptance from people in general is the smart mirror. Smart mirrors are mirrors that allows a person, besides seeing his reflection, to obtain relevant information to his interests. The objective for this thesis is the development of a system that permits the visualization of this information, the interaction of the user with the system and that makes itself capable of being modified and configured based on the users’ preferences. The proposed system brings life to a simple mirror through modules that are available for installation and configuration based on the users’ needs. These modules interact with the main system through message queues, that are used both to supply ready-to-be seen information and to obtain data from the user as well as from the existing sensors. The recognition of voice commands was also developed to allow user interaction with the mirror. Additionally, a configuration page was developed as well, which can be used to modify the position and parameters of the existing modules using a drag and drop approach. From this thesis resulted a modular smart mirror prototype that can be interacted with using voice commands. The modularity of this system allows the development and integration of new addons in a vast number of programming languages, giving the developer the option and power to choose the language that best suits the module functionality. Usability tests were conducted and satisfaction results were obtained that confirms the quality of the developed prototype.
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Garcia, Ivette Cristina Araujo, Eduardo Rodrigo Linares Salmon, Rosario Villalta Riega, and Alfredo Barrientos Padilla. "Implementation and customization of a smart mirror through a facial recognition authentication and a personalized news recommendation algorithm." Institute of Electrical and Electronics Engineers Inc, 2018. http://hdl.handle.net/10757/624657.

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El texto completo de este trabajo no está disponible en el Repositorio Académico UPC por restricciones de la casa editorial donde ha sido publicado.<br>In recent years the advancement of technologies of information and communication (technology ICTs) have helped to improve the quality of people's lives. The paradigm of internet of things (IoT, Internet of things) presents innovative solutions that are changing the style of life of the people. Because of this proposes the implementation of a smart mirror as part of a system of home automation, with which we intend to optimize the time of people as they prepare to start their day. This device is constructed from a reflective glass, LCD monitor, a Raspberry Pi 3, a camera and a platform IoT oriented cloud computing, where the information is obtained to show in the mirror, through the consumption of web services. The information is customizable thanks to a mobile application, which in turn allows the user photos to access the mirror, using authentication with facial recognition and user information to predict the news to show according to your profile. In addition, as part of the idea of providing the user a personalized experience, the Smart Mirror incorporates a news recommendation algorithm, implemented using a predictive model, which uses the algorithm, naive bayes.<br>Revisión por pares
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Vizcarra, Casas Christopher Alonso, and Quevedo Gabriel Alejandro Medina. "Implementación de un asistente virtual de modas con el uso de una cámara Kinect v2 y procesamiento de imágenes." Bachelor's thesis, Universidad Peruana de Ciencias Aplicadas (UPC), 2020. http://hdl.handle.net/10757/653659.

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Este artículo trata sobre la problemática y el desarrollo de un asistente virtual de moda propuesto mediante el uso de una cámara Kinect v2 y procesamiento de imágenes, para tiendas minoristas de moda. Surge principalmente como una respuesta a la incapacidad de proporcionar experiencias únicas durante el proceso de compra mediante el uso de diversos dispositivos. Debido a esto, se analizaron soluciones de asistente virtual similares orientadas a proporcionar recomendaciones de vestimenta para poder proporcionar un software que podría dar una sugerencia más personalizada para los usuarios basándose en sus características físicas. La validación del modelo se realizará a través de la experiencia de un grupo de usuarios en el momento del uso del asistente virtual y expertos en el área de evaluación de moda.<br>This article is about the problematic and development of a fashion virtual assistant proposed by using a Kinect v2 camera and image processing, for fashion retail stores. It comes up mainly as a response to the inability of providing unique experiences during the shopping process through the use of diverse devices. Because of this, similar virtual assistant solutions oriented to provide clothing recommendations were analysed to be able to provide a software that could give a more personalized suggestion for the users basing in their physical characteristics. The model validation will be done through the experience of a group of users at the moment of use of the virtual assistant and experts in the fashion assessment area.<br>Trabajo de investigación
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Kallab, Karel. "Návrh mobilní aplikace Yourcut a její nasazení." Master's thesis, Vysoké učení technické v Brně. Fakulta podnikatelská, 2021. http://www.nusl.cz/ntk/nusl-444617.

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The master's thesis focuses on the creation of the Yourcut application for streamlining the services of barbering. The main goal of this work is to create an application and deploy it in a smart mirror, built directly to the needs of the application. The whole work can be divided into three parts. In the first part, the reader gets acquainted with all the technological prerequisites that need to be known in order to understand the whole work. The second part describes and analyzes. It summarizes the problems associated with creating an application and all the technical and technological prerequisites for the application to be created correctly. In the last part there is a description of the application creating, along with the construction of a smart mirror and their deployment.
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Ruggiero, Eric John. "Modeling and Control of SPIDER Satellite Components." Diss., Virginia Tech, 2005. http://hdl.handle.net/10919/28489.

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Space satellite technology is heading in the direction of ultra-large, lightweight structures deployable on orbit. Minimal structural mass translates into minimal launch costs, while increased satellite bus size translates into significant bandwidth improvement for both radar and optical applications. However, from a structural standpoint, these two goals are in direct conflict with one another, as large, flexible structures possess terrible dynamic properties and minimal effective bandwidth. Since the next level of research will require active dynamic analysis, vibration control, and shape morphing control of these satellites, a better-suited name for this technology is Super Precise Intelligent Deployables for Engineered Reconnaissance, or SPIDER. Unlike wisps of cobweb caught in the wind, SPIDER technology will dictate the functionality and versatility of the satellite much like an arachnid weaving its own web. In the present work, a rigorous mathematical framework based on distributed parameter system theory is presented in describing the dynamics of augmented membranous structures. In particular, Euler-Bernoulli beam theory and thin plate theory are used to describe the integration of piezoelectric material with membranes. In both the one and two dimensional problems, experimental validation is provided to support the developed models. Next, the linear quadratic regulator (LQR) control problem is defined from a distributed parameter systems approach, and from this formulation, the functional gains of the respective system are gleaned. The functional gains provide an intelligent mapping when designing an observer-based control system as they pinpoint important sensory information (both type and spatial location) within the structure. Further, an experimental investigation into the dynamics of membranes stretched over shallow, air-filled cavities is presented. The presence of the air-filled cavity in close proximity to the membrane creates a distributed spring and damping effect, thus creating desirable system dynamics from an optical or radar application perspective. Finally, in conjunction with the use of a pressurized cavity with a membrane optic, a novel basis is presented for describing incoming wavefront aberrations. The new basis, coined the clamped Zernike polynomials, provides a mapping for distributed spatial actuation of a membrane mirror that is amiable to the clamped boundary conditions of the mechanical lens. Consequently, based on the work presented here and being carried out in cooperation with the Air Force Research Laboratory Directed Energy Directorate (AFRL / DE), it is envisioned that a 1 m adaptive membrane optic is on the verge of becoming a reality.<br>Ph. D.
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Grandinetti, Francesco Salvatore. "Studio dell'applicazione dei digital twin in ambito ospedaliero." Bachelor's thesis, Alma Mater Studiorum - Università di Bologna, 2018. http://amslaurea.unibo.it/16787/.

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All'interno del mondo dell'industria 4.0, negli ultimi anni è stato introdotto un elemento molto importante che serve alle imprese per ridurre ulteriormente i costi interni e per massimizzare il profitto, il Digital Twin. Il digital twin permette di poter creare un'astrazione dell'oggetto reale all'interno del mondo digitale e con questa astrazione è possibile fare previsioni su comportamenti futuri o su possibili problematiche che potrebbero affliggere l'elemento in questione. Lo scopo principale di questo documento è studiare se i digital twin, elementi importantissimi nel campo industriale, possano essere importati negli altri ambiti della società moderna, portando effettivamente ad un potenziamento di ciò che la società attualmente offre, affrontando nello specifico l'ambito ospedaliero e proponendo un modello tramite il quale è possibile includere il digital twin all'interno di questo contesto.
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Vizcarra, Christopher, Gabriel Medina, and Alfredo Barrientos. "Implementation of a Fashion Virtual Assistant with the Use of a Kinect v2 Camera and Image Processing." Universidad Peruana de Ciencias Aplicadas (UPC), 2021. http://hdl.handle.net/10757/653792.

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El texto completo de este trabajo no está disponible en el Repositorio Académico UPC por restricciones de la casa editorial donde ha sido publicado.<br>This article is about the problem and development of a fashion virtual assistant proposed by using a Kinect v2 camera and image processing, for fashion retail stores. It comes up mainly as a response to the inability of providing unique experiences during the shopping process through the use of diverse devices. Because of this, similar virtual assistant solutions, oriented to provide clothing recommendations, were analyzed to be able to provide software that could give a more personalized suggestion for the users based on their physical characteristics.<br>Revisión por pares
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Uzuegbunam, Nkiruka M. A. "SELF-IMAGE MULTIMEDIA TECHNOLOGIES FOR FEEDFORWARD OBSERVATIONAL LEARNING." UKnowledge, 2018. https://uknowledge.uky.edu/ece_etds/124.

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This dissertation investigates the development and use of self-images in augmented reality systems for learning and learning-based activities. This work focuses on self- modeling, a particular form of learning, actively employed in various settings for therapy or teaching. In particular, this work aims to develop novel multimedia systems to support the display and rendering of augmented self-images. It aims to use interactivity (via games) as a means of obtaining imagery for use in creating augmented self-images. Two multimedia systems are developed, discussed and analyzed. The proposed systems are validated in terms of their technical innovation and their clinical efficacy in delivering behavioral interventions for young children on the autism spectrum.
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Schacht, Mirko [Verfasser]. "System Performance Gains from Smart Antenna Concepts in CDMA / Mirko Schacht." Aachen : Shaker, 2005. http://d-nb.info/1181620074/34.

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Andersson, Ida, and Anna Strömbäck. "Anpassning av digital teknik för äldre människor : En kvalitativ studie med smartspeglar som inriktning." Thesis, Linnéuniversitetet, Institutionen för informatik (IK), 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:lnu:diva-104902.

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Många människor som tillhör äldre generationer har svårt att hänga med i dagens digitaliserade samhälle. Detta kan bero på rädsla, ångest, lågt självförtroende, brist på motivation och intresse. Det kan också bero på att äldre människor inte ser någon nytta med att implementera tekniken i sitt liv. Detta påvisar en negativ inställning mot att använda tekniken. Dålig användbarhet och användarvänlighet är de två faktorer som främst påverkar detta. Upplevelsen av sådant kan i sin tur avgöra deras acceptans mot att använda tekniken. Uppdragsgivaren för denna studie vill underlätta vardagen för äldre människor och arbetar på att ta fram ett hjälpmedel i form av en smartspegel. Definitionen av smartspegel är svår. De gemensamma nämnarna för smartspeglar är framför allt att de består av en digital skärm med en spegel framför, kan visa olika former av information och digitalt material och dessa kan skräddarsys efter användaren(Smart Mirror Guide, 2021). Det finns fler begrepp för denna produkt, t.ex. “magic mirror”.Denna studie bidrar med är att kartlägga vilka önskemål på funktioner och behov målgruppen har gällande gränssnittet i smartspegeln för denna uppdragsgivare. Detta gjordes genom att genomföra en litteraturstudie i form av att ta reda på tidigare forskning inom närliggande områden, ett teoretiskt ramverk som består av användbarhet, användarvänlighet och TAM 2, intervjuer med människor som tillhör målgruppen och skapandet av en prototyp baserad på data från intervjuerna. På prototypen genomfördes sedan användartest och följdfrågor ställdes. Kvalitativ data har samlats in i denna studie, som ledde till en slutsats och en besvarad forskningsfråga. Resultat och slutsats grundas på tidigare forskning, det teoretiska ramverket, intervjuer och användartest. Slutsatsen är att digital teknik kan vara svårt att hantera för den äldre målgruppen och för att förhindra detta består en del av slutsatsen av förslag på lösningar, framför allt för gränssnittet i smartspegeln i denna studie. En syntes togs fram för att uppnå en användbar design för denna målgrupp. Ytterligare förslag är att ge en pedagogisk introduktion till produkten så att användaren förstår nyttan och hur den ska användas. En genomgående enkel utformning av gränssnitt är viktigt för denna målgrupp. Designers bör i så stor mån som möjligt försöka förstå användarnas tidigare erfarenheter och förutfattade meningar. De bör även undvika att få användarna att känna att eventuella fel som uppstår är på grund av dem, låta användarna själva bestämma vilka funktioner som ska vara synliga för att minska risken för förvirring. Studien visar också på att deras upplevelse av användbarhet och användarvänlighet är två stora faktorer som kan öka chansen för acceptans av teknik för denna målgrupp.<br>Many people who belong to older generations find it difficult to keep up with today's digitalized society. This can be due to fear, anxiety, low self-esteem, lack of motivation and interest. It may also be because older people do not see any benefit in implementing the technology in their lives. This shows a negative attitude towards using the technology. Poor usability and user-friendliness are the two factors that mainly affect this. The experience of such can in turn determine their acceptance of using the technology. The client for this study wants to make everyday life easier for older people and is working on developing an aid in the form of a smart mirror.The definition of a smart mirror is difficult. The common denominators for smart mirrors are above all that they consist of a digital screen with a mirror in front, can display various previous information and digital material and these can be tailored to the user (Smart Mirror Guide, 2021). There are more terms for this product, e.g. "magic mirror".This study helps to identify the wishes and functions of the target group regarding the interface in the smart mirror. This was done by conducting a literature study in the form of finding out previous research in related areas, a theoretical framework consisting of usability, user-friendliness and TAM 2, interviews with people belonging to the target group and the creation of a prototype based on the data from the interviews. User testing was performed on the prototype with follow-up questions. Qualitative data has been collected in this project and it led to a conclusion and two answered research questions. Results and conclusions are based on previous research, the theoretical framework, interviews and user tests. The conclusion is that digital technology can be difficult to handle for the older target group and to prevent this, part of the conclusion consists of suggestions for solutions, especially for the interface in the smart mirror that this study focuses on. A synthesis was developed to achieve a useful design for this target group. Further suggestions are to provide an educational introduction to the product so that the user understands the benefits and how this should be used. A consistently simple design of interfaces is important for this target group. Designers should, as far as possible, try to understand users' past experiences and preconceived notions. They should also avoid making users feel that any errors that occur are due to them, let users decide for themselves which features should be visible to reduce the risk of confusion. The study also shows that their experience of usability and user-friendliness are two major factors that can increase the chance of technology acceptance for this target group.
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Books on the topic "Smart mirror"

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A, Ealey Mark, and Society of Photo-optical Instrumentation Engineers., eds. Smart structures and materials, 1993. SPIE, 1993.

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O, Claus Richard, Spillman William B, Society of Photo-optical Instrumentation Engineers., et al., eds. Smart structures and materials 2000.: 6-8 March 2000, Newport Beach, USA. SPIE, 2000.

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C, Lagoudas Dimitris, Society of Photo-optical Instrumentation Engineers., American Society of Mechanical Engineers., and United States. Air Force. Office of Scientific Research., eds. Smart structures and materials 2003.: 3-6 March, 2003, San Diego, California, USA. SPIE, 2003.

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How to Make a Smart Mirror. Blurb, 2019.

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Gold, Mira. Sylvox: 24-Inch Full-HD Magic Mirror Smart TV Waterproof Bathroom TV, Built-in Wi-Fi Commercial Display, Tuner ATSC, in-Wall Embedded Mounting. Independently Published, 2021.

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HOUSE, Alfred PUBLISHING. BOOK REVIEW JOURNAL, Books Are Just Mirror for Smart People: Books Wash Away from the Soul the Dust of Everyday Life, a Notebook Journal for Review Any Book. Independently Published, 2020.

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Smart structures and materials 1999.: 1-2 March 1999, Newport Beach, California. SPIE, 1999.

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Stevenson, Jane. Chinese Wallpaper. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198808770.003.0009.

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In England modern taste was more often expressed by decorators than by architects. Thus interior decoration is the context in which new trends in art are absorbed and understood. A difficult concept which is visually expressed (this includes cubism, abstraction, and surrealism) can be and, if it is genuinely expressive of the moment, will be, reinterpreted as fashion and decor. The interface between interior decoration and fine art is further complicated between the wars by the number of artists who worked as designers. Women who needed to earn money tended to practise the applied and decorative arts, out of genuine affinity, or realism, or a combination of both. Undiluted modernism was very rare in England. Smart style was eclectic: baroque elements (e.g. Venetian mirrors, blackamoor torchères) were put together with eighteenth-century furniture and modern pictures.
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Book chapters on the topic "Smart mirror"

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Kulovic, Sadeta, and Belma Ramic-Brkic. "DIY Smart Mirror." In Lecture Notes in Networks and Systems. Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-71321-2_31.

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Von Hollen, Sven, and Benjamin Reeh. "Smart Mirror Devices." In Innovations for Community Services. Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-93408-2_14.

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Hameedhul Arshadh, A., I. Dinesh, S. Ganesan, and J. Friska. "Design of Smart Mirror." In Innovations in Cyber Physical Systems. Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-4149-7_11.

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Kabi, Kunal, Jyoti Prakash Panigrahi, Bhabani Shankar Prasad Mishra, Manas Kumar Rath, and Satya Ranjan Dash. "Second-Generation Rearview Mirror." In Smart Intelligent Computing and Applications. Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-9282-5_57.

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Sahana, D. S., and C. Gopala Krishnan. "Raspbian Magic Mirror: A Smart Mirror System to Assist on IoT Platform." In IoT Based Smart Applications. Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-031-04524-0_15.

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Subramanya Chari, K., Mandapati Raja, and Somala Rama Kishore. "Raspberry Pi-Based Smart Mirror." In Advances in Cognitive Science and Communications. Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-19-8086-2_21.

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Pallavi, K. N., Jagadevi N. Kalshetty, Maithri Suresh, Megha B. Kunder, and Kavya Shetty. "An IoT-Based Smart Mirror." In Intelligent Sustainable Systems. Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-2894-9_10.

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Iwabuchi, Eriko, Maki Nakagawa, and Itiro Siio. "Smart Makeup Mirror: Computer-Augmented Mirror to Aid Makeup Application." In Human-Computer Interaction. Interacting in Various Application Domains. Springer Berlin Heidelberg, 2009. http://dx.doi.org/10.1007/978-3-642-02583-9_54.

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Ranjith, Rohan V., Punya Gulati, and Jeane Marina Dsouza. "Smart Interacting Mirror on the Wall." In Lecture Notes in Electrical Engineering. Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-4676-1_24.

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Sharma, Deepak, Abhishek Khanna, Devesh Chaudhary, et al. "SMOR-Smart Mirror for College Department." In International Conference on Innovative Computing and Communications. Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-3679-1_61.

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Conference papers on the topic "Smart mirror"

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Liu, Zhengyi, Guanghui Zhang, and Rui Zhang. "RGB-D Mirror Segmentation via Semi-supervised Learning." In 2024 IEEE Smart World Congress (SWC). IEEE, 2024. https://doi.org/10.1109/swc62898.2024.00140.

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Sherrit, Stewart, Diego W. Camacho, Carlos M. Gross Jones, et al. "Characterization and control of surface parallel mirror actuators." In Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems 2025, edited by Maria Pina Limongelli, Ching Tai Ng, and Didem Ozevin. SPIE, 2025. https://doi.org/10.1117/12.3051077.

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Chaudhary, Jyoti, Upma Jain, Sudarshan N, Vasudeva Pai, Kamal Sutaria, and Natrayan L. "AI-Driven Digital Mirror Technology for Securing IoT-Enabled Smart Infrastructures." In 2024 International Conference on Integrated Intelligence and Communication Systems (ICIICS). IEEE, 2024. https://doi.org/10.1109/iciics63763.2024.10859436.

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Nguyen, Tam V., and Luoqi Liu. "Smart Mirror." In MM '17: ACM Multimedia Conference. ACM, 2017. http://dx.doi.org/10.1145/3123266.3127926.

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Yusri, Muhammad Mu'izzudeen, Shahreen Kasim, Rohayanti Hassan, et al. "Smart mirror for smart life." In 2017 6th ICT International Student Project Conference (ICT-ISPC). IEEE, 2017. http://dx.doi.org/10.1109/ict-ispc.2017.8075339.

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D'souza, Arushi Anne, Priya Kaul, Eric Paul, and Manali Dhuri. "Ambient Intelligence Using Smart Mirror-Personalized Smart Mirror for Home Use." In 2019 IEEE Bombay Section Signature Conference (IBSSC). IEEE, 2019. http://dx.doi.org/10.1109/ibssc47189.2019.8972978.

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Singh, Varsha, and Devi Singh. "Smart Interactive Mirror Display." In 2019 International Conference on Machine Learning, Big Data, Cloud and Parallel Computing (COMITCon). IEEE, 2019. http://dx.doi.org/10.1109/comitcon.2019.8862180.

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Williams, Mark R., Marti Pi i Puig, Juan P. P. Gonzalez, B. Mack, Carlos Martin-Diaz, and Luis F. Rodriguez-Ramos. "Mirror support smart actuator." In SPIE's 1995 Symposium on OE/Aerospace Sensing and Dual Use Photonics, edited by Patrick T. Wallace. SPIE, 1995. http://dx.doi.org/10.1117/12.211461.

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ALI, AQIB, Aliya Batool, Baqir Hashmi, SAMREEN NAEEM, and SANIA ANAM. "IoT based smart mirror." In MOL2NET'22, Conference on Molecular, Biomedical & Computational Sciences and Engineering, 8th ed. - MOL2NET: FROM MOLECULES TO NETWORKS. MDPI, 2022. http://dx.doi.org/10.3390/mol2net-08-13909.

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Abeydeera, Sachitha Samya, Malinda Bandaranayake, Himashi U. Karunarathna, et al. "Smart Mirror with Virtual Twin." In 2019 International Conference on Advancements in Computing (ICAC). IEEE, 2019. http://dx.doi.org/10.1109/icac49085.2019.9103335.

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Reports on the topic "Smart mirror"

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Maji, Arup K. Micromechanics of Smart Materials for Large Deployable Mirrors. Defense Technical Information Center, 2004. http://dx.doi.org/10.21236/ada430843.

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