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SMART MIRROR#1
A mirror integrated with technology to display information like time and weather, combining aesthetics with functionality.
ARDUINO#2
An open-source electronics platform used for building interactive projects, ideal for programming smart mirrors.
RASPBERRY PI#3
A small, affordable computer used for programming and controlling smart devices, including smart mirrors.
API#4
Application Programming Interface; allows different software applications to communicate, essential for real-time data.
WIRING DIAGRAM#5
A visual representation of electrical connections and components, crucial for assembling electronic projects.
USER INTERFACE (UI)#6
The means by which a user interacts with a device; important for creating intuitive smart mirror controls.
SENSOR#7
A device that detects changes in the environment; useful for enhancing smart mirror functionalities.
MATERIALS LIST#8
A comprehensive list of components and materials needed for the smart mirror project.
DEBUGGING#9
The process of identifying and fixing bugs in code, essential for ensuring smooth operation of the smart mirror.
FUNCTIONALITY#10
The specific features and capabilities of the smart mirror, such as displaying weather and time.
AESTHETICS#11
The visual appeal of the smart mirror; balances technology with home decor.
PROTOTYPE#12
An initial working model of the smart mirror used for testing and refinement.
FEEDBACK LOOP#13
A process where user feedback is incorporated to improve the smart mirror design and functionality.
ELECTRONIC COMPONENTS#14
Various parts like resistors and capacitors used in building the smart mirror's circuitry.
ASSEMBLY#15
The process of putting together the smart mirror's hardware and software components.
FUNCTIONAL TESTING#16
Evaluating the performance of the smart mirror to ensure all features work as intended.
DESIGN PRINCIPLES#17
Guidelines for creating aesthetically pleasing and functional products, crucial for smart mirror design.
MOUNTING#18
The process of securely attaching the display behind the mirror, critical for functionality.
USER-CENTERED DESIGN#19
An approach that prioritizes user needs and experiences during the design process.
FINAL PRESENTATION#20
A showcase of the completed smart mirror project, demonstrating its features and design.
PORTFOLIO DEVELOPMENT#21
Creating a collection of work that showcases skills and projects, including the smart mirror.
TESTING PHASE#22
Stage where the smart mirror is evaluated by users to gather feedback and make improvements.
CROSS-PLATFORM INTEGRATION#23
Combining various technologies and platforms to enhance the smart mirror's capabilities.
CIRCUIT BOARD#24
A board that connects electronic components, essential for the smart mirror's functionality.
HARDWARE#25
The physical components of the smart mirror, including the display and sensors.
SOFTWARE#26
The code and programs that run on the smart mirror, enabling its features and functionalities.